ClM CE-4

TABLE OF CONTENTS

Page
SECTION 1 GENERAL
Introduction 1-1
Description 1-1
Accessories 1-2

SECTION 2 INSTALLATION
Environmental Requirements 2-1
Power Requirements 2-1
Warmup Requirements 2-1
Service or Repair 2-1
Preparation for Shipment 2-1

SECTION 3 OPERATION
General 3-1
Front Panel Controls 3-1
Turn on and Warm up 3-1
Frequency Deviation Measurement 3-1
AM Measurement 3-3
Signal Generator Operation 3-3
FM Output 3-4
Al\lOutput 3-4
Variable Frequency Tone Generator 3-4
Description 3-4
Controls 3-5
Operation 3-5
Operation Note 3-5

SECTION 4 THEORY OF OP ERATION

Introduction 4-1
Circuit Reference Series 4-1
Functional Description 4-1
Frequency Synthesizer 4-2
Circuit Description 4-3
Reference Divider, 2700 4-3
Frequency Multiplier, 2200 4-3
100 Hz Loop 4-3
100 Hz Divide-by-N, 2600 4-3
100 Hz VCO and Phase Detector, 2800 4-4
17. 9-19 MHz Mixer, 2400 4-4
RF Mixers, 2100 4-5
100 kHz Loop 4-5
100 kHz Divide-by-N, 2300 4-5
100 kHz VCO and Phase Detector, 2500 4-5
1190-1300 MHz Phase Lock, 3750 4-6
1190-1300 MHz Oscillator, 3700 4-6
Voltage Controlled Attenuator, 3600 4-6
1300-2200 MHz Phase Lock, 3900 4-7
1300-2200 MHz Oscillator, 3800 4-7
1000 MHz Low Pass Filter, 3450 4-8
RF Switch, 3200 4-8
Audio Amplifier and Varactor Control, 4800 4-8
Attenuator Control, 3100 4-8
10 MHz Modulator, 4400 4-9
Second IF/Discriminator, 4600 4-9
Power Supply Regulator, 5100 4-10
Tone Generator, M10 Option 4-10
Functional Description 4-11
Circuit Description 4-11
Frequency Synthesizer, 4900 4-11
Time Base 4-11
Digital Rate Multiplier 4-11
Up/Down Counter 4-11

5601"0065 iii
 CIM CE-4

Page
D/ A Converter 4-11
Sine Converter 4-11
Output Gate 4-12
Output Amplifier 4-12
Burst Time Generator 4-12
High Level Amplifier, M 11 Option 4-12
Functional Description 4-12
Circuit Description 4-12
RF Switch 4-12
High Level Amplifier 4-12
Wide Band Amplifier Fuse Assembly 4-12
SECTION 5 MAINT ENANC E
General Information 5-1
Access and Parts Location 5-1
Adjustments 5-1
Equipment Required 5-1
Power Supply Voltages 5-2
1300-2200 MHz Phase Lock Loop 5-2
1190-1300 MHz Phase Lock Loop 5-2
Step Attenuator 5-2
Output Power Calibration 5-3
Time Base Calibration 5-3
Frequency Meter Calibration 5-3
Troubleshooting 5-4

SECTION 6 SCHEMATIC DIAGRAMS

PCB and Circuit Reference Numbers 6-1
Diagrams 6-3
SECTION 7 PARTS LISTS
General Information 7-1
Ordering Parts 7-1
Parts Lists 7-2
Front Panel Assembly, 1000 7-2
Main Wiring Assembly, 2000/4000 7-3
R. F. Mixers, 2100 7-4
Frequency Multiplier, 2200 7-6
100 kHz Divide-by·-N, 2300 7-10
17.9-19 MHz Mixer, 2400 7-11
100 kHz VCO and Phase Detector, 2500 7-14
100 Hz Divide-by-N, 2600 7-16
Reference Divider, 2700 7-18
100 Hz VCO and Phase Detector, 2800 7-20
Microwave Casting Assembly, 3000 7-23
Attenuator Control, 3100 7-24
RF Switch, 3200 7-26
1000 MHz Low Pass Filter, 3450 7-27
Microwave Mixer, 3500 7-28
Voltage Controlled Attenuator, 3600 7-29
1190-1300 MHz Oscillator, 3700 7-31
1190-1300 MHz Phase Lock, 3750 7-32
1300-2200 MHz Oscillator, 3800 7-35
1300-2200 MHz Phase Lock, 3900 7-38
10 MHz Modulator/Switching Logic, 4400 7-42
Second IF/Discriminator, 4600 7-45
Audio Amplifier and Varactor Control, 4800 7-48
Rear Panel Interconnection Diagram, 5000 7-51
Power Supply/Regulator, 5100 7-52
40 dB Attenuator 7-54 4
1
Audio Amplifier and Varactor Control, 4800-M10 7-55
Frequency Synthesizer, 4900-MI0 7-58
Wide Band Amplifier Fuse Assembly, 3050-M11 7-61
RF Switch, 3200-Mll 7-62
High Level Amplifier, 3300-Mll 7-63

5601··0065··1 iv
 ClM CE-4

TABLES

Table No.

1-1 Model C £-4 Specifications 1-3

1-2 Brief Plug-in Specifications 1-5
3-1 Model C E-4 Controls, Indicators and Connectors 3-2
5-1 Troubleshooting Chart 5-4
6-1 Printed Circuit Board and Circuit Reference Numbers Cross Reference 6-1

ILL USTRATIONS

Figure No.

1-1 C E-4 Communications Monitor vi

4-1 Frequency Meter Bridge Circuit 4-10
4-2 CE-4 Overall Block Diagram, Main Frame 4-13
4-3 CE-4 Block Diagrams, Microwave Casting 4-14
5-1 Circuit Board Location 5-1
6-1 Front Panel Interconnection Diagram, 1000 6-3/6-4
6-2 Main Chassis Interconnection Diagram, 2000/4000 6-5
6-3 RF Mixers, 2100 6-7
6-4 Frequency Multiplier, 2200 6-9
6-5 100 kHz Divide-by-N, 2300 6-11
6-6 17.9-19 MHz Mixer, 2400 6-13
6-7 100 kHz VCO and Phase Detector, 2500 6-15
6-8 100 Hz Divide-by-N, 2600 6-17
6-9 Reference Divider, 2700 6-19
6-10 100 Hz VCO and Phase Detector, 2800 6-21/6-22
6-11 Microwave Casting Interconnection Diagram, 3000 6-23
6-12 Attenuator Control, 3100 6-25
6-13 RF Switch, 3200 6-26
6-14 1000 MHz Low Pass Filter, 3450 6-27
6-15 Microwave Mixer, 3500 6-29
6-16 Voltage Controlled Attenuator, 3600 6-31/6-32
6-17 1190-1300 l\Ulz Oscillator, 3700 6-33
6-18 1190-1300 MHz Phase Lock, 3750 6-35
6-19 1300-2200 MHz Oscillator, 3800 6-37
6-20 1300-2200 MHz Phase Lock, 3900 6-39
6-21 10 MHz Modulator/Switching Logic, 4400 6-41
6-22 Second IF/Discriminator, 4600 6-43
6-23 Audio Amplifier and Varactor Control, 4800 6-45/6-46
6-24 Rear Panel Interconnection Diagram, 5000 6-47
6-25 Power Supply/Regulator, 5100 6-49
6-26 AC Filter, 5200 6-50
6-27 40 dB Attenuator 6-51/6-52
6-28 Switch Mounting, MI0 6-53
6-29 Audio Amplifier and Varactor Control, 4800-MI0 6-55
6-30 Frequency Synthesizer, 4900-MI0 6-57/6-58
6-31 Tone Generator Interconnection Diagram, C E-4 MI0 6-59
6-32 Wide Band Amplifier Fuse Assembly, 3050-M11 6-60
6-3:3 RF Switch, 3200-M11 6-61
G-34 High Level Amplifier, 3300-M11 6-63/6-64

v
 ClM CE-4

Figure 1-1. CE-4B Communications Monitor

5601 · ·0065··1
vi
CUSHMAN INSTRUCTION MANUAL ClM CE-4

GENERAL
SECTION 1

INTRODUCTION units to provide maximum versatility. This makes

it possible to tailor the instrument to fit a large
1.01 The Cushman CE-4 Communications Mon- number of applications with maximum efficiency.
itor meaSures the carrier frequency and A plug-in unit must be in each of the two compart-
the modulation characteristics of radio frequency ments when the instrument is to be operated.
signals received from radio transmitters. It also
generates accurate RF signals for testing sensitivity, 1. 08 Plug-ins for the purpose of measuring the
alignment and performance of radio receivers. It frequency deviation of FM signals are used
will also generate a 1 kHz tone for use in modulation in the left hand compartment. An oscilloscope plug-
tests. in provides a visual display on a calibrated screen
so that modulation characteristics may be seen in
1.02 In addition, a variable audio frequency tone addition to the measurement of deviation. An FM
synthesizer (M10) and a +10 dBm output Deviation Meter plug-in provides slightly higher
level (M11) are available as separate options. When accuracy deviation readings than the oscilloscope
both options are installed the CE-4 becomes a and in addition has an adjustable peak level indicator.
CE-4B to which this manual also applies.
1. 09 The RF plug-ins fit into the right hand com-
1. 03 The si.gnal generating system is a modern partment. Here either the Broadband
frequency synthesizer which provides high Mixers, the Preselectors, the AM Monitor or High
accuracy and stability and permits rapid digital Sensitivity FM/AM/SSB Monitor or the Wattmeter/
frequency selection. The frequency range is from Duplexer Tester may be used to receive the RF
10 kHz to 999.9999 MHz. The RF output may be signal. The Broadband Mixers, the AM Monitor,
either CW, FM or AM. Frequency deviation or and the Wattmeter/Duplexer Tester cover the full
percentage of modulation may be monitored with bandwidth of 20 MHz-1000 MHz. The High Sensitivity
appropriate plug-in units. Mixer and High Sensitivity FM/ AM/SSE Monitor
provide additional sensitivity over the full bandwidth.
1.04 In the Signal Generator mode the calibrated
output level range is from -127 dBm to 1. 10 The Preselectors also provide additional
-67 dBm (.1-100j.iV) at the output of a 40 dB isolating sensitivity, but their frequency range is
pad. Approximately 100 times this level, uncali- limited to the land mobile radio communication
brated, is available if the isolating pad is not used. bands. The Preselectors are also equipped with
wideband mixers so that they may be used over the
1.05 The frequency range covered and the RF full 20-1000 MHz bandwidth, but at reduced sensiti-
input signal strength required for monitor vity. Both the AM Monitor and the Wattmeter/Du-
operation depends on the RF plug-in used. Wide- plexer Tester are equipped with a wideband mixer
band mixer plug-ins require approximately 10 so that they may also be used for FM measurements.
millivolte, or less and operate over the frequency Brief specifications for the plug-in units will be
range of 20 MHz to 99~J. 9999 MHz. A High Sensi- found in Table 1-2.
tivity Mixer operates over this range, but with a
sensitivity down to 1j.iV. The Preselector plug-ins 1. 11 The incoming signal in the RF plug-in is
operate with approximately 20 microvolts or less mixed with a Local Oscillator (LO) from
and the frequency range is determined by the plug-in the CE-4. The LO is generated by a frequency syn-
used. All the Preselectors, the AM Monitor and thesizer which is referenced to a crystal oscillator
the Wattmeter/Duplexer Tester also have a wideband in a temperature controlled oven. The synthesized
mixer. The High Sensitivity FM/AM/SSB Monitor LO, based on the highly accurate crystal frequency,
has a high sensitivity mixer. is the standard to which the incoming RF signal is
compared. The LO is always 10 MHz above the
1.06 The frequency of either the received or incoming Signal, therefore a 10 MHz Intermediate
generated signal is dialed in with seven Frequency (IF) is produced by the plug-in. The IF,
Frequency Selector switches. The difference be- which contains all the frequency error, deviation
tween the dialed in frequency and the received carrier and modulation of the original RF signal, goes to the
frequency or the generated FM center frequency is second IF and discriminator circuits in the CE-4
read on the FREQUENCY meter. The generated where the information is removed and applied to the
frequency may be modulated, either FM or AM, by metering circuits. The FM signals are demodulated
an internally generated 1 kHz tone, or by an exter- and reproduced in a speaker mounted in the CE-4.
nally generated tone from an audio oscillator or by This FM demodulated signal is also available at the
a combination of both. DEMOD OUTPUT connector on the front panel.

DESCHIPTION 1.12 The metering circuits of the CE-4 are

disabled until the received signal is strong
1. 07 The CE-4, with various plug-ins, forms a enough for reliable measurements. A squelch
superheterodyne receiver. It uses plug-in voltage from the RF plug-in enables these circuits

5601"0065··1 1-1
CIM CE-4

and turns on the SIGNAL LEVEL light on the CE-4 attenuator and at the output of the Wide Band
front panel to indicate that the metering circuits amplifier to protect the instrument circuits. The
are operating. specifications for the CE-4 are listed in Table 1-1.

1. 13 Signal generation is accomplished by ACCESSORIES

automatically removing the 10 MHz dif-
ference between the dialed in frequency and the
local oscillator frequency and then using the resulting 1. 16 Two types of accessories are available
LO as the output signal. This signal now corresponds for use with the CE-4: units that plug into
exactly to the frequency that is dialed in. The the Monitor and obtain operating power from it,
output may be CW, FM or AM according to the which must be purchased separately, and items
setting of the FUNCTION switch. furnished with the Monitor but are not integral
parts of it.
1.14 Frequency Modulation is accomplished
with a voltage controlled oscillator and 1. 17 The plug-in units are the FM Deviation
is introd uced in one of the early mixing stages. Meter and Oscilloscope, the RF plug-ins
The signal is Amplitude Modulated with a PIN with their various measurement capabilities, as
diode modulator in the voltage controlled atten- listed in Table 1-2, and the audio frequency syn-
uator circuit. thesizer, which can be installed in the Signal Gen-
erator Modulation section of the front panel and
1. 15 The output level of the generated signal provides thumb wheel switch selected audio fre-
is adjusted in a voltage controlled atten- quencies in addition to the standard 1 kHz frequency.
uator which is made up of a network of PIN diode (Para. 3.14-18).
attenuators. Levels are calibrated from -127 dBm
to -67 dBm (.1-100J.tV) at the output of the 40 dB 1. 18 The items furnished with the Monitor but
pad (furnished with the instrument). If modification not part of it are a telescoping antenna
CE-4, Mll is installed, the output signal is also which may be attached to the RF plug-ins, and a
amplified through a Wide Band Amplifier to give 40 dB pad and cable which is connected to the out-
a -30 to + 10 dBm output signal at the High Level put when the Monitor is being used as a signal
output connector. A fuse is mounted in the 40 dB generator.

Items furnished with the CE-4

Description CE Stock No. Quantity

Fuse, 1/10 A 1955-0032 2

Three prong/two prong AC plug adapter 2535-0001 1
Extractor, P. C. Board* 3875-0036 1
Extender Board* 7001-0140 1
40 dB Fixed Attenuator/Adapter cable Assy 7040-0048 1
RF Cable Assembly 7037-0102 1
Antenna Assembly 2346-0007 1
Manual, CE-4 5601-0065 1
Frequency Card 5500-0004 1
Front Cover 7005-0034 1
* In circuit board compartment in bottom
of instrument

1-2 5601"0065"1
 CIM CE-4

Table 1-1. Model CE-4 Specifications

ITEM CHARACTERISTIC

RF SIGNAL GENERATION

Frequency
Range .01 MHz to 999.9999 MHz
Resolution, Digital 100 IIz
Accuracy
AM and C W Modes ± .00001% I, Time Base
FM Mode (Freq. meter
1. 5 kHz scale) J, 50 Hz additional
Level (after 40 dB attenuator) into 50rl
Range -127 dBm to -G7 dBm
(0. II_LV to 100f-LV HMS)
Accuracy (b'tep attenuator +40 dB)
Dial attenuator -107 dB)
.01 MHz to 512 MHz ± 2 dB
512 MHz to 999.9999 MHz ± .5 dB additional
Dial Attenuator (Relative to ± 1. 0 dB at dial setting of -117 and -127 (± 1 dB
-107 dB) typical at other settings)
Step Attenuator (Relative to
+40 dB) ± 2 dB
Output Impedance 50rl nominal

MODULATION

FM
Internal
Fixed Frequency 1000 Hz ± Time Base
Variable Frequency optional(MlO) 10 Hz to 5000 Hz (usable to 9999 Hz) ±. 005%
Resolution
10.00 Hz to 99.99 Hz 0.01 Hz
100.0 Hz to 999.9 Hz 0.1 Hz
1000 Hz to 9999 Hz 1 Hz
Aging 20 PPM/year
External
Frequency Range: Standard, Sine 20 Hz to 5 kHz
Optional: Sine 5 Hz to 5 kHz
Square 5 Hz to 1 kHz
Pulse 5 Hz (5% to 95% duty cycle)
Deviation Range
Sine 0-25 kHz minimum
Square 0-2 kHz minimum
Deviation Sensitivity (Mod. Adj. 1 kHz/GmV RMS typical
full CW)
(for optimum performance, the
sum of the modulating frequency
and deviation should be S 45 kHz)
Input Impedance 1 KrI nominal
Distortion, S 15 kHz S5%
Modes
Standard Internal; External or Internal plus External
Optional Internal 1 kHz at 3.3 kHz ± 5% deviation plus
Internal Variable at 0-25 kHz deviation plus
External
AM
Internal
Fixed Frequency 1000 Hz ± Time Base
Variable Frequency (optional) 10.00 Hz to 9999 Hz ± .005%

5601-'0065"2 1-::1

r
ClM CE-4

Table 1-1. Model CE-4 Specifications (cont)

ITEM CHARACT ERISTIC

Resolution
10.00 Hz to 99.99 Hz 0.01 Hz
100.0 Hz to 999.9 Hz 0.1 Hz
1000 Hz to 9999 Hz 1 Hz
Aging 20 PPM/year
External
Frequency Range 60 Hz to 3 kHz (usable to 20 kHz)
Sensitivity 150 m V RMS for 80% Mod.
Input Impedance 1 KQ nominal
Range o to 80%
Distortion
30% Mod. ~5%
80% Mod. ~10%
Modes
Standard Internal; External; Internal plus External
Optional Internal 1 kHz plus Internal Variable plus External

SPURIOUS OUTPUTS (after 40 dB Attenuator)

Harmonics (Carrier Frequency 1 MHz) -40 dB typical
Non-Harmonic Products -35 dB maximum, -40 dB typical (~60
Hz from
Carrier)
-100 dBm maximum (-130 dBm typical) at integer
multiples of 100 MHz and at integer multiples of
5 MHz for output frequencies ~30 MHz

MONITOR
Frequency
Range 0.05 MHz to 999.999 MHz (range determined by
plug-ins)
Resolution
Digital (dialed frequency) 100 Hz
Frequency Meter 50 Hz
Accuracy (Freq. meter on 1. 5 kHz scale) ± 50 Hz ± (.00001% ± Time Base)
Sensitivity See Plug-in specifications
Demod Output
Level ~3V RMS into 1 KQ, for 25 kHz FM Deviation
Distortion ~5%
Frequency Response ± 3 dB, 5 Hz to 5 kHz

MOD OUTPUT
Level o to >3V RMS into 1 KQ
Distortion ~5% at 1. 5V RMS

TIME BASE
Aging <3 x 10- 9 /Day avg. over 7 day period
<5 x 10- 8/Mo. avg. over 6 month period
<2 x 10- 7 /Yr. (during first year calibrate at
6 month intervals and thereafter at
12 month intervals)
Stability <5 x 10- 8 O°C to 55°C
Warmup Time 10 min. from 20°C to 1 x 10- 6 (typical)
<25 min. from 25°C to 1 x 10- 7
<45 min. from O°C to 1 x 10- 7
POWER REQUIREMENTS 115 or 230V AC, ± 10%, 50-400 Hz, 150W max.

DIMENSIONS
Height 12 1/4" (31.1 cm)
Width 13" (33 cm)
Depth 18" (45.7 cm)
WEIGHT 40 lbs (18.1 kg) approx. w/o plug-ins
ENVIRONMENTAL
Temperature, Operating O°C to +55°C
Temperature, Storage -40°C to +75°C

1-4 5601"0065"2
 ClM CE-4

Table 1-2. Brief Plug-In Specifications

ITEM CHARACTERISTIC

Model 30lA Oscilloscope Plug-in

Deviation Measurement Accuracy ± 5% full scale in three ranges: ± 1. 5 kHz,
5.0 kHz, 15.0 kHz
External Inputs Vertical and Horizontal
External Vertical Sensitivity 5mV, 20mV, 100mV per division ± 5%
External Frequency Response (3 dB) 100 kHz

Model 302 Deviation Meter Plug-in

Accuracy of Measurements ± 4% full scale in 3 ranges: 0-2.5, 0-6, 0-25 kHz

Model 303 Broadband Mixer Plug-in

Frequency Coverage 20-1000 MHz
Nominal Input Impedance 50 ohms
Bandwidth (3 dB)
Broad 75 kHz
Narrow 13.5 kHz
Sensitivity: Less than 10 mV

RF Preselector Plug-ins Model 30m Model 316

Frequency Coverage 25-50 MHz 140-175 MHz

Nominal Input Impedance 50 ohms 50 ohms
Bandwidth (3 dB)
Broad 65 kHz 65 kHz
Narrow 20 kHz 20 kHz
Sensitivity: Less than 20 microvolts 20 microvolts

Mode1306E Model 314 High

Sensitivity Mixer

Frequency Coverage 450-520 MHz 20-1000 MHz

Nominal Input Impedance 50 ohms 50 ohms
Bandwidth (3 dB)
Broad 65 kHz 75 kHz
Narrow 20 kHz 22 kHz
Sensitivity: Less than 20 microvolts 1 microvolt

!; Model 317 High Sensitivity FM/AM/SSB Monitor

I Frequency Coverage 50 kHz to 1000 MHz

! Nominal Input Impedance 50 ohms
Bandwidth (3 dB)
150 kHz typical
~:~~~w 22 kHz typical
! Sensiti vity

I
I
"
<1 MV 2 MHz - 520 MHz
<.1 MV 50 kHz - 2 MHz, 520 MHz - 1 GHz
2fJ.V typical
10fJ.V typical
~ ;::lMV 1 mV to 500 mV typical

I MOO::::t::C:::::n::g~:cumcy ± 5% full scale in three ranges: ± 1. 5 kHz,

:I: 5. 0 kHz, :l: 15 kHz
I External Inputs Vertical and Horizontal
External Vertical Sensitivity 5mV, 20 mY, 100mV/Div. ± 5%
External Horizontal Sensitivity 5 Om V/Di v nonimal
External Frequency Response Vertical 5 Hz to 100 kHz min.
External Frequency Response Horizontal 20 Hz to 100 kHz min.

,601""0065 1-5
CIM CE-4

Table 1-2. Brief Plug-In Specifications (cont.)

ITEM CHARACT ERISTIC

Model 313 AM Monitor

Frequency Coverage 20-1000 MHz
AM Modulation (Meter) Range 0-100%
Nominal Input Impedance 50 ohms
Bandwidth (3 dB)
Broad 100 kHz
Narrow 22 kHz
Sensitivity
50-950 MHz 10mV
950-1000 MHz 20mV
20-50 MHz with CE-5, CE-6 10mV
20-50 MHz with CE-3, CE-7 50mV

Model 330 Wattmeter/Duplexer Tester

Frequency Coverage 20-1000 MHz

Power Range 1-25 watts
Accuracy ± 4% reading plus 1% full scale
Broadband Section
Frequency Coverage 20-1000 MHz
Nominal Input Impedance 50 ohms
Bandwidth
Broad 100 kHz
Narrow 22 kHz
Sensitivity: Less than 10mV

1-6 5601··0065
 SECTION 2
I NST ALLA TlO N

ENVIRONMENTAL REQUIREMENTS control switch. It is recommended that the instru-

ment be installed so that it may be kept connected
Temperature to the power source. If this is done, the CE-4 will
be ready to make precise measurements within
2.01 The CE-4 is designed to operate between seconds after it is turned on.
O°C and +55°C (ambient). In the field
these temperatures can easily be exceeded if
SERVICE OR REPAIR
proper precautions are not taken. For instance,
the internal temperature of a closed automobile
trunk may exceed 65°C during summer daylight 2.05 In the event that factory service or repair
hours. Also, care should be taken not to block seems to be required, contact the Cushman
the cabinet's ventilating ports. Exceeding the Electronics Customer Service Department for
upper or lower temperature limits for extended further service iniormation or to make arrange-
periods may not result in noticeable damage to ments for return of the equipment to the factory or
the instrument, but may cause poor performance for shipment to one of the regional Service Centers.
or actual malfunctioning. The factory address is:

RF Fields
Cushman Electronics, Inc.
2.02 vvbere extremely high RF radiation fields Customer Service Department
exist (such as when the CE-4 is used near 2450 North First Street,
a transmitter) the telescoping antenna should be San Jose, California 95131
pushed together to reduce pickup. Where many Telephone: (408) 263-8100
high-power transmitters are in use adjacent-channel
interference may be experienced if the transmit-
ters are operating within 90 kHz of each other. 2.06 Cushman Electronics authorizes warranty
In such cases the SELECTIVITY switch on the and other service may be performed by
Broadband mixers should be placed in the SHARP the regional Service Centers. It is to your advantage
to use the Service Center nearest you in order to
position. If satisfactory measurements still cannot
speed the return of your equipment and to lessen
be made, direct connection between the transmitter your shipping costs, when applicable.
to be monitored and the C E-4, through a suitable
RF attenuator, may be required. Contact Cushman 2.07 You must contact either the factory or
Electronics Customer Service Department for
the regional Service Center nearest you
further information.
before shipping any equipment for repair. Service
of your equipment will be scheduled at that time
NOTE
and you will be advised of the best method of ship-
ment and other information.
In the SHARP position the bandwidth
is narrowed so that Deviation readings
may be degraded unless the sum of the 2.08 For the address and telephone number of
modulation frequency plus the frequency the regional Service Center nearest you,
deviation is less than 11 kHz. contact the Cushman Electronics factory Customer
Service Department listed above.
POWER REQUIREMENTS
PREPARATION FOR SHIPMENT
2.03 The CE-4 may be operated from a 115V AC
± 10% or a 230V AC ± 10%, 50 to 400 Hz
AC source. Power consumption is 150 watts. 2.09 The following is a general guide for re-
packaging the instrument for shipment.
WARMUP REQUIREMENTS

2.04 The accuracy of the CE-4 measurements NOTE

depend on maintaining the master oscil-
lator crystal at a constant temperature. This is If the instrument is to be shipped, attach
donc in the C E-4 by a thermostatically controlled a tag to the instrument identifying the
oven which requires a warm-up period prior to owner and indicate the service or repair
use. See warm-up time under TIME BASE in to be accomplished. Include the model
the Specifications, Table 1-1. If the instrument number and full serial number of the
has bcen stored at a temperature below O°C (32°F), instrument. In any correspondence, al-
additional warm-up time may be required. Oven ways identify the instrument by model
operation is independent of the ON-OFF power number and serial number.

5601"0065"2 2-1
CIM CE-4

2.10 If the original container is to be used, a. Wrap the instrument in plastic or

proceed as follows: heavy paper before placing in an
a. Place the instrument in the original inner container.
container. (If the original container b. Place packing material around all
is not available, one can be purchased sides of the instrument.
from Cushman Electronics.)
c. Place the instrument and inner con-
b. Make sure that the container is well tainer in a heavy carton or wooden
sealed with strong tape. box and seal with strong tape or metal
bands.

If the original container is not used, d. Mark the shipping container: "DELI-
2.11
proceed as follows: CATE ELECTRONIC INSTRUMENT",
"FRAGILE".

2-2
5601"0065
 CIM CE-4

SECTION 3
OPERATION

GENERAL TURN ON AND WARM UP

3.01 Before the C E-4 is operated a suitable 3.05 Plug the power cord into a 115V (230V)
plug-in unit should be installed in each of ± 10% 50-400 Hz Source receptacle and
the compartments (they maybe omitted for CW/AM turn on the power to the instrument with the switch
SIG GEN use only). Sec Table 1-2 for a list of on the VOLUME control.
plug-in units that may be used in the C E-4, with
some of their more important characteristics. An 3.06 Allow the instrument to warm up for ap-
FM Deviation Meter or an Oscilloscope is used in proximately 25 minutes. This is to allow
the left hand compartment. In the right hand com- the crystal oven to come up to temperature. If the
partment one of the Pl'eselectors, Wideband Mixers instrument has been stored at temperatures below
or Monitors may be used. 32°F (O°C) additional warmup time will be required.
The crystal oven is on whenever the power cord
is connected to an AC source. If the instrument
is left plugged in with the power switch OFF, the
oven will be maintained at operating temperature,
and the instrument will be ready for use a few
Turn power off before removing or re- seconds after the power switch is turned on.
placing plug-ins. Wait 30 seconds before
removing oscilloscope. FREQUENCY DEVIATION MEASUREMENT

3,02 In the Monitor function the input signal is 3.07 In the following procedure it is assumed
connected to the ANT connector on the that the RF plug-in is either a Model 303
plug-in and the carrier frequency of the signal is Broadband Mixer or one of the Preselectors or
dialed up on the CE-4 Frequency Selector switches. Monitors operating in the broadband mode. In the
The carrier frequency error will then be displayed Preselector mode the procedure is the same except
on the FREQUENCY meter and the frequency de- that the Preselector dial must be set to the frequency
viation will be displayed on the FM Deviation Meter dialed in by the Frequency Selector switches on
or on the oscilloscope. For AM the percentage the Monitor. The Model 302 Deviation Meter must
modulation will be displayed on the oscilloscope, be plugged into the left hand compartment of the
or on the AM Monitor meter. Both FM and AM are Monitor.
demodulated and reproduced by a speaker, either
in the plug-in or in the CE-4. 3.08 Make the following connections and control
settings:
3.0:3 In the SIG GEN function the dialed in fre-
quency il:l available at the 0-1000 MHz
a. Turn instrument on and allow time
for warmup, paragraphs 3.05 and
output connector. The type of output, FM, AM, CW
3.06.
is determined by the setting of the FUNCTION
switch. Modulation may be either internal 1 kHz b. Connect an external antenna, or the
(10-9999 Hz with Variable Frequency option) or telescoping antenna supplied with the
external, within the frequency range of 20 Hz - instrument, to the ANT connector on the
20 kHz, or both internal and external simultane- RF plug-in unit. If the telescoping antelma
ously. RF output is calibrated from -127 dBm to is used, extend it to its full length for HF
-67 dBm (0.1 to 100j.lV RMS) at the output of the measurements, to apprOximately 18 inches
40 dB pad when connected to the 0-1000 MHz output. for VHF, and minimum 16ngth for UHF
Approximately one hundred times the calibrated measurements.
output is available at the 0-1000 MHz connector
c. Turn the FUNCTION switch to CAL
when the 40 dB pad is not used, but attenuator
and adjust the inner knob (on FUNC-
calibration will not apply. The -dB settings are
TION switch) for zero (mid-scale) reading
relative to full scale of the Variable Attenuator on the FREQUENCY meter.
for any setting of the step attenuator.
d. If a Model 301A Oscilloscope is being
FRONT PANEL CONTROLS used, set Vertical and Horizontal
s\\1tches to the INT position and adjust
3.04 The front panel controls, indicators and VERT POS control so that the trace is on
connectors seen in Figure 1-1 are listed the zerO reference line while the Deviation
in Table 3-1. The seven knobs just below the MHz range switch is in the ± 1.5 kHz position.
dil:lplay windows are used to dial in a frequency. Adjust the INT ENSITY and FOC US control
They are referred to in the text as Frequency Sel- for a sharp clear trace on the screen.
ectors. Operating controls for the plug-ins are
det;cribud in the instruction manuals for those units. e. Change the FUNCTION switch to the

5601"0065"] 3-1
CIM CE-4

Table 3-1. Model CE-4 Controls, Indicators and Connectors

Control, Indicator or Connector Function

FREQUENCY Meter Indicates received or generated signal error

above or below the dialed in frequency.

kHz 1.5, 5, 15 Range switch for FREQUENCY meter. Indicates

full scale ranges in MONITOR and in SIG GEN FM
modes. In CAL the range is ± 1.5 kHz only.

SIGNAL LEVEL Indicator Light Lights when a received signal is strong enough
for reliable measurements in MONITOR function
only. Meter circuits disabled when not lighted.
It is lighted but has no signal level significance
in other FUNCTION switch positions.

FUNCTION CAL The FREQUENCY meter is zeroed with the inner

knob of the FUNCTION switch. FREQUENCY
meter range is automatically set at ± 1. 5 kHz.

MONITOR Receive-Monitor operation. Both carrier fre-

quencyand FM deviation of the received signal
may be measured. With the Model 313 and 317
plug-ins the AM percentage of modulation may
be measured.

SIG GEN FM AM CW Signal Generator operation. The output frequency

is the same as the dialed in frequency. Type of
signal generated depends on setting of FUNCTION
switch. Modulation or deviation measured by
plug-ins.

OVEN ON Indicator Light On after oven warms up, when connected to

AC power.

UNLOCKED Indicator Light When lit, indicates an unlocked condition in the

Frequency Synthesizer.

MHz Frequency Selector Switches Each frequency selector knob is associated with
a number indicating the dialed in frequency in
MHz with reference to the fixed decimal point.

MONITOR
DEMOD OUT Connector Demodulated output of FM signals.

VOLUME/PWR OFF Counterclockwise turns off AC power, except to

oven. Clockwise turns on AC power and controls
audio level to internal speaker.

SIGNAL GENERATOR MODULATION

1 kHz ON OFF (Standard) Turns on or off internal modulation.
MOD ADJ Control Adjusts AM percentage of modulation or FM
frequency deviation according to setting of FUNC-
TION switch.

FM CAL Control Adjusts center frequency of generated signal when

in the FM mode according to reading on FREQUENCY
meter. Center frequency may be offset up to
± 15 kHz if desired.

MOD INPUT Connector Input for external tone modulation. Signal mod-
ulated whenever tone applied to this input. Both
internal and external modulation may be used at
the same time if desired.

3-2 5601··0065
 CIM CE-4

Table 3-1. Model CE-4 Controls, Indicators and Connectors (cont'd)

Control, Indicator or Connector Function

MOD OUTPUT Connector Buffered output of modulation used, internal or

external.

SIGNAL GENERATOR LEVEL Step attenuator. Selects dB level to be added to

o dB (xl), +20 dB (x10), +40 dB (x100) the outer scale on variable attenuator.

-127 to -107 dB (. 1-1f.!V) Variable attenuator. Selects dB level to be added

to setting of step attenuator.

OFF Switch on variable attenuator. Reduces output to

negligible level. when step attenuator is on 0 dB
position. Remainder of instrument circuits remain
on.

0-1000 MHz w/40 dB Pad Signal Generator output. 40 dB pad must be con-
nected for attenuator calibration to apply. Cali-
brated for dB setting of step and variable attenuator.

MONITOR position and dial in the assigned AM MEASUREMENT

frequency of the transmitter with the seven
Frequency Selector dials. 3.09 Plug the Model 313 AM Monitor into the
right hand compartment and follow the
f. Key the transmitter. The SIGNAL
procedure of paragraph 3. 08 a-c and e-g. AM
LEVEL light should come on. If it
modulate the transmitter and read the percentage
does not, move the Monitor closer to the
of modulation on the Model 313 meter. The de-
transmitter, or vice versa, until the
modulated audio output may be monitored with the
received signal is strong enough to tUrn
speaker in the M313 plug-in (adjust SPEAKER
on the light. Measurements can usually
volume control) or at the DEMOD OUTPUT con-
be made when the Monitor is between 25
nector on the front panel of the CE-4.
and 50 feet from the radiating antenna.
When a Preselector or High Sensitivity
3.10 To measure AM with a 317 plug-in, use
wideband plug-in is used, measurements
a 30lA or 311 Oscilloscope in the left hand
can be made many miles from the trans-
compartment. Connect the 317 AM/SSB AUDIO
mitter provided an adequate antenna is
OUTPUT to the input of the 301A or 311 using a
used.
BNC connector coaxial cable. Set the oscilloscope
g. The FREQUENCY meter reading is input sensitivity to 100mV/DIV. The percentage
the difference between the assigned of modulation is 10mV p-p/% AM and will indicate
frequency (dialed in) and the actual trans- 100% AM full scale. SSB measurements are made
mitter radiated frequency. Select the the same as AM, except percentage of modulatim
lowest meter range that will give an on- may not be determined, only the wave shape ob-
scale reading. served on the oscilloscope; also the CLARIFICA-
TION control must be adjusted to maximum intel-
h. Modulate the transmitter and read
ligibility when monitoring the Audio output.
the FM deviation on the FM Deviation
Meter or on the Oscilloscope. Select the
SIGNAL GENERATOR OPERATION
appropriate Meter or Oscilloscope range.
On the oscilloscope screen peaks appear
CW Output
above and below the horizontal center line
of the display. The Deviation Meter in- 3.11 Make the following connections and control
dicates either positive or negative peaks
settings:
depending on the setting of the FM DE-
VIATION PEAKS switch. If the DEVIA-
a. TUrn on the CE-4, refer to para-
TION PEAKS indicator level on the De-
graphs 3.05 and 3.06.
viation Meter plug-in has been set, all
modulation peaks that exceed this level
b. Set the FUNCTION switch to SIG
will cause the indicator to light. Refer
GEN CW and set the seven Frequency
to paragraph 2.02 for use of the SHARP-
Selector dials to the desired output fre-
WID E switch on the RF plug-in unit in
quency.
the presence of strong RF fields.
i. Adjust the VOLUME control for the c. Turn the Internal Frequency
desired level output of the demod- Generator switch to OFF.
ulated FM through the speaker. The de- Make certain that no external sig-
modulated output is also available at the nal is COnhected to the MOD INPUT
DEMOD OUTPUT connector. connector.

5601"0065"1 3-3

r
CIM CE-4

d. Set the SIGNAL GENERATOR step modulation Signal applied to the modulator
attenuator switch and variable at- may be monitored at the MOD OUTPUT
tenuator control for the desired output connector.
level. Connect the 40 dB pad to the 0-1000
f. Set the SIGNAL GENERATOR step
MHz connector and connect the other end
and variable attenuator controls
of the pad cable to the instrument to be
for the desired output level and connect the
tested. (The output level calibration does
instrument to be tested to the output of the
not apply unless the 40 dB pad is used).
40 dB attenuator. Observe CAUTION note
of paragraph 3. 11 d.

AM Output
Whenever a direct connection is made
3.13 Make the following connections and control
between the CE-4 and a transceiver,
settings:
keying the transceiver will damage the
40 dB fixed attenuator and possibly the a. lnstall a Model 313 AM Monitor in
C E-4. A fuse is mounted in the 40 dB the right hand compartment of the
attenuator as a protective measure. DC CE-4.
connected to the Monitor output without
the 40 dB pad may damage the RF switch
b. Turn on the CE-4, refer to para-
graphs 3.05 and 3.06.
board and with the 40 dB pad may blow
the fuse in the pad. c. Set the FUNCTION switch to SIG
GEN AM and set the seven Fre-
FM Output quency Selector dials to the desired fre-
quency.
3.12 Make the following connections and con-
d. Set the 1 kHz internal modulation
trol settings:
switch to ON, or set to OFF if ex-
a. Turn on the CE-4, refer to para- ternal modulation is to be used. For ex-
graphs 3.05 and 3.06. ternal modulation connect the external
source (20 Hz to 20 kHz) to the MOD INPUT
b. Set the FUNCTION switch to SIG
connector. The external source may be a
GEN FM and set the seven Frequency
single tone or several tones summed to-
Selector dials to the desired frequency.
gether. Both internal and external modu-
(When the FUNCTION switch is set to
lation may be used simultaneously if de-
SIG GEN FM the FREQUENCY meter will
sired.
peg. Allow 10-15 seconds to permit the
meter to come on scale before making e. Adjust the SIGNAL GENERATOR
the adjustment in paragraph c. If the MOD ADJ control for the percentage
meter remains pegged the FM CAL con- of modulation. Read percentage on Model
trol should be readjusted to bring it back 313 meter. The modulation signal applied
on scale). to the modulator may be monitored at the
MOD OUTPUT connector.
c. Adjust the SIGNAL GENERA TOR
MODULA TION FM CAL control for f. Set the SIGNAL GENERATOR LEVEL
a zero reading on the FREQUENCY meter. attenuator controls for the desired
This adjustment sets the FM center fre- output level and connect the instrument to
quency to the same frequency that is be tested to the output of the 40 dB atten-
dialed in on the Frequency Selector switches. uator. Observe CAUTION note of para-
Set Meter switch to 1. 5 kHz for maximum graph 3. 11 d.
resolution. The center frequency may be
offset ± 15 kHz for test purposes if re- VARIABLE FREQUENCY TONE GENERATOR
quired.
d. Set the 1 kHz internal modulation
Description
switch to ON or OFF as desired.
For external modulation connect the
3.14 The Variable Tone Generator is a frequency
external source (20 Hz to 20 kHz) to the
synthesizer, digital switch-controlled unit
MOD INPUT connector. The external
for the purpose of testing the audio signalling por-
source may be a single tone or several
tions of radio receivers and for all audio frequency
tones summed together. Both internal
applications within the range of the instrument.
and external modulation may be used si-
The Tone Generator covers a range of 10.00 Hz
multaneously if desired.
to 9999 Hz in three ranges selected by a front
e. Use the SIGNAL GENERATOR MOD panel range switch and four thumb wheel switches.
ADJ control to set the frequency Tone accuracy is ::I:: 0.005%, the waveshape is
deviation. Deviation may be read on sinusoidal and distortion is less than 1%. True
the Model 30lA oscilloscope or the Model output is either continuous or a tone burst which
302 Frequency Deviation plug-in. The may be set for a duration of from. 03 to 1 second.

560)"0065
3-4
 CIM CE-4

Controls the frequency of the Tone Generator is desired

for modulation. Set the Function switch to GEN
3.15 The following controls are used to operate + 1 kHz if the Tone Generator frequency and the
the instrument: 1 kHz internal frequency having a fixed 3.3 kHz
fixed deviation are desired simultaneously for
FREQUENCY (Hz) A four digit thumb-
modulation. If no modulation is desired set the
wheel switch that sets the basic frequency.
Function switch to OFF.
Xl. 0, XO.l, X.Ol A three-position
lever switch that selects the multiplier of the 3. 18 If tone bursts are desired set up as above
basic frequency to set the frequency range. but set BURST (SEC) control for the length
of tone burst as indicated on the BURST dial.
GEN, OFF, GEN + 1 kHz A three-
Maximum burst length is 1 second. Other settings
position Function switch that selects Tone Gen-
indicate fractions of a second. Press the ENABLE
erator output only, Tone Generator Off, or Tone
push button switch. A tone burst of the length to
Generator plus a fixed 1 kHz signal having a fixed
which the BURST control is set will be delivered
3.3 kHz deviation.
every time the ENABLE push button is depressed.
BURST (SEC) A variable control that
sets tone burst time in seconds. In the CONT OPERATION NOTE
(detent) position the tone is continuous.
3.19 An 800 MHz antenna which will plug into
ENABLE A push button that triggers
the ANT connector of the plug-in may be
one tone burst.
made from a banana jack (GC Electronics #
33-002) and a 3 inch length of #12 tinned wire.
Operation
Assemble according to the following illustration:
3.16 Set the FREQUENCY (Hz) thumb wheel
switch to four figures representing the
desired audio frequency. Set the multiplier
switch (Xl. 0, XO.l, X. 01) to place the decimal
point in the four-figure setting. For example:
set thumb wheel switches to 4567. Set multiplier
switch to X. 01. The modulating frequency will
be 45.67 Hz.
==='!g,
2_.)5"
3.17 Set BURST C W into the detent position. _,I_ _ _

, . L "I
Set the Function switch to GEN, if only

5601""0065 3-5/3-6
 THIS PAGE
INTENTIONALLY
LEFT
BLANK
 CIM CE-4

SECTION 4
THEORY OF OPERATION

INTRODUCTION board under consideration only. If reference is

made to a component outside that board or when
4.01 The Theory of Operation section is divided more than one circuit is being described the full
into three sub-sections. The first is a reference deSignation will be used.
description of the Circuit Reference Series which
is used for circuit and component identification. 4.06 In order to identify each board a cross
The second describes the overall functioning of the reference table is given at the beginning
instrument from a block diagram viewpoint. The of Section 6 listing the basic board numbers in
third is a description of the operation of the circuits sequence. These numbers are etched on each
as mounted on the circuit boards. board. AlsD listed are the board title, assembly
number, circuit reference number and the figure
CIRCmT REFERENCE SERIES and page number of the schematic diagram. The
basic board number is the 17S0-xxxx: series. In
4.02 The Circuit Reference Series is a series cases where the board is too small for the complete
of numbers assigned to the circuits of number only the last four digits are used. The
the instrument to make it possible to relate the basic number, along with the assembly number and
actual circuit board or assembly to the schematic the circuit reference number, also appears in the
diagrams, the parts lists and the text of the manual parts list for each board.
with a minimum of effort.
FUNCTIONAL DESCRIPTION
4.03 The series of numbers assigned to the
CE-4 are as follows: 4.07 The CE-4 Communications Monitor func-
1000 - Front Panel tions on the principle of a superheterodyne
receiver. The RF front end consists of various
2000 - Main Chassis, Left Side plug-in units. A frequency synthesizer generates
a Local Oscillator (LO) signal that is both stable
3000 - Microwave Casting
and accurate. The Intermediate Frequency (IF)
4000 - Main Chassis, Right Side generated in the RF plug-in is 10 MHz and mixing
always takes place on the high side (the LO is
5000 - Rear Panel
1011Hz higher in frequency than the received sig-
Right and left sides refer to the instrument viewed nal).
from the front in an upright position. Board cir-
cuits of the 2000 and 4000 series are mounted in 4. OS In the Signal Generating mode the Frequency
the main chassis. The 3000 series are mounted Synthesizer-generated signal that was
in the microwave casting, with the exception of used as the LO is shifted down by 10 MHz and used
board circuit 3100, which is mounted in the main as the signal output. This automatically takes
chassis. The microwave casting covers are place whenever the FUNCTION switch is placed
labeled with the circuit board locations. The main in any of the SIG GEN positions.
chassis circuit board locations are marked on the
bottom cover. 4.09 All the fixed frequencies, including the
internal modulation frequency, are derived
4.04 Under each main grouping the circuits from a very stable Ovenized Crystal Oscillator
are further divided into 100-number Time Base. The fixed frequencies are phase
groups, and in two cases into 50-number groups locked to a frequency derived from this oscillator
(3450, 3750). These groups represent circuit so that high accuracy and stability are maintained
boards, most of them plug-in boards. On each in the generated LO and in the output frequency.
circuit board the components are individually Refer to overall block diagram Figure 4-2, 4-3,
numbered in a series starting with 1, each type
of component having a separate series as deSig- 4.10 The received signal is brought into the
nated by a letter or letters. The complete ref- Monitor through an RF plug-in. This
erence to any component includes the circuit ref- may be a Broadband Mixer or an RF tuned Pre-
erence number, the individual component number selector. In either case the input frequency is
and the letter type indicator. For example, the mixed with the LO to generate a 10 MHz IF as the
first resistor, Rl, in the 2100 circuit will be output of the plug-in. In the Monitor the 10 MHz
R2101, the second transistor, Q2, will be Q2102, IF is mixed with a 9.9 MHz fixed LO to generate
etc. a 100 kHz second IF. Since both LO signals are
standards generated by the synthesizer, the fre-
4.05 When the individual circuits are described quencyerror, if any, will appear on the second
in the Circuit Description the component IF signal. Frequency error detector circuits
references will be abbreviated for convenience. display this error on the FREQUENCY meter
Thus, RI will refer to the first resistor on the which is calibrated directly in kHz.

5601"0065 4-1
CIM CE-4

4. 11 The modulation (FM) is recovered and the 4. 18 The 14-23.9 MHz frequency generator is
deviation measured either with the Oscil- made up of two circuits: 100 kHz VCO and
loscope or Deviation Meter plug-in. The audio Phase Detector, 2500, and 100 kHz+N, 2300. This
modulation is displayed on the Oscilloscope and phase locked loop which is controlled by the 10
reproduced in the speaker. MHz and 1 MHz digit switches and is referenced
to the 100 kHz output of the Reference Divider,
4. 12 In the Signal Generator mode the output 2700, generates a frequency variable in 100 kHz
may be modulated (FM or AM) by an in- and 1 MHz steps. Because of the later X10 mul-
ternally generated 1 kHz modulation frequency or tiplication these steps become 1 MHz and 10 MHz
by an external signal (60 Hz to 20 kHz) or both in the monitor output.
internal and external modulation may be used si-
multaneously. 4.19 The output of the 119-130 MHz mixer goes
to the 1190-1300 Phase Lock Loop, 3750,
Frequency Synthesizer and Oscillator, 3700, in the Microwave Casting
where it serves as the Reference frequency. The
4. 13 The circuits of the Frequency Synthesizer Microwave Oscillator is locked to the 10th har-
make up the major portion of the instru- monic of this Reference frequency.
ment. Frequency generation starts with the Time
Base which provides two 5 MHz outputs. One is 4.20 The output of the Microwave Oscillator is
a logic level Signal to the Reference Divider, connected to the voltage controlled atten-
2700, and the other is a sine wave which goes to uator (VCA), 3600, which is made up of a series
the Frequency Multiplier, 2200. Refer to Main- of PIN diodes. These diodes are used to amplitude
frame Block Diagram, Figure 4-2. modulate the oscillator output when in the SIG GEN
mode. The also serve to attenuate the output sig-
4.14 The four least significant digits, 100 kHz, nal and are controlled by the variable and step at-
10 kHz, 1 kHz, 100 Hz of the frequency tenuator switches on the front panel. Output from
selector switches control a 20-21 MHz Voltage the VCA goes to the Microwave mixer, 3500,
Controlled Oscillator (VCO) in a phase locked loop where the final mixing takes place.
which varies the frequency in 100 Hz steps from
20 MHz to 20.9999 MHz. This is accomplished by 4.21 The other frequency required for the
the circuits 100 Hz+N, 2600, and the VCO and final mixing is generated by the 1300-
Phase Detector, 2800. Since a X10 multiplication 2200 MHz oscillator, 3800, and phase lock, 3900.
of the signal takes place later on, this oscillator The reference is the 100 MHz output of the Fre-
output is divided by 10 to make the circuit output quency Multiplier, 2200, and the oscillator is
2-2.09999 MHz. See Overall Block Diagram, controlled in 100 MHz steps by the most significant
Figure 4-2. digit, 100 MHz, switch of the Frequency Selector
dials. Individual oscillators are phase-locked to
4.15 The 2-2.09999 MHz frequency is mixed the 13th through the 22nd harmonic of 100 MHz.
with either 20 MHz or 21 MHz in the
17.9-19 MHz mixer, 2400, to produce 17.90001-18 4.22 The final microwave mixer output will be
MHz or 18.90001-19 MHz. 21 MHz is used in the 10 kHz to 999.9999 MHz in the Signal
Signal Generator mode and 20 MHz in the Receive Generator mode and 10-1009.9999 MHz in the
Monitor mode. This 1 MHz difference is changed Receive Monitor mode. This latter signal serves
to 10 MHz in the X10 multiplier later on to provide as the LO frequency for the RF plug-in.
the 10 MHz difference required between the Signal
Generator output and the Receive Monitor LO. 4.23 The internal modulation frequency in SIG
GEN is selected by the front panel SIG
4.16 The 20 MHz for mixing is obtained from GEN MODULATION 1 kHz switch. For AM the
the Frequency Multiplier circuit, 2200. modulating signal is routed through the Attenuator
To obtain the 21 MHz, a 10 MHz output from the Control circuit, 3100, to the VCA circuit, 3600,
Reference Divider, 2700, through the 10 MHz where it controls a PIN diode modulator. For FM
modulator, 4400, is brought to the 17.9-19 MHz the modulating signal is applied to a VCO in the
mixer, 2400, divided by 10 and mixed with the 10 MHz modulator circuit, 4400. The FM CAL
20 MHz signal to produce the required 21 MHz. control also is connected to the VCO so that the
center frequency may be set exactly on by using
4.17 Output from the 17.9-19 MHz mixer is the Monitor FREQUENCY meter. A feedback loop
connected to the RF mixer, 2100, where from the Modulator output is connected to the dis-
it is mixed with a fixed frequency of 125 MHz ob- criminator in the second IF Discriminator, 4700,
tained from the Frequency Multiplier, 2200. to provide an AFC voltage which is also connected
Output from this mixer is 143.9-144 MHz (Sig Gen) to the VCO in the modulator. An RF plug-in must
or 142.9-143 MHz (Rec Mon). This output is con- be in the right hand compartment to complete the
nected to the 119-130 MHz mixer where it is mixed loop. The FM modulated 10 MHz output of the
with 14-23.9 MHz from the VCO phase lock loop modulator goes to the 17.9-19 MHz mixer circuit
controlled by the 10 MHz and 1 MHz digits of the where it is divided by 10 and mixed with the 20
Frequency Selector switch. Output from this MHz input to provide the 21 MHz mixing frequency
mixer is either 120-130 MHz (Sig Gen) or 119-129 required by this mixer for Signal Generation. In
(Rec 1\10n). this way the output frequency is modulated.

4-2 5601 00
0065
 CI1\/[ CE-4

External modulation is accomplished in the same Frequency Multiplier. 2200

way with an external modulating signal.
4.30 This circuit, Figure 6-4, furnishes the
4.24 In the 1190-1300 MHz oscillator, 3700, other three fixed frequencies required
3750, to make sure that phase lock takes for frequency synthesis, 20 MHz to tht: 17.9-19
place at the proper frequency, a steering voltage MHz mixer, 125 MHz to the 142. U-l44 MHz mixer
is required to bring the frequency within locking and 100 MHz as a reference for the 1300-2200
range. Tllis is supplied by the Reference Voltage, MHz phase lock.
to the 1190-1300 MHz circuit from the Varactor
Control on the 4S00 board, which is controlled by 4.31 Input to the circuit is 5 MHz from the
the 10 MHz switch of the Frequency Selector dial. Time Base. This sine wave input is
amplified and shaped in Q1, Q2, IC1 to produce
CmCUI'f DESCH.IPTION a 5 MHz pulse. This pulse is applied to the inputs
of the X4 and X5 harmonic amplifiers. Q3, Q6,
Reference Divider. 2700 QS is a tuned amplifier that selects and amplifies
the fourth harmonic to produce a 20 MHz output
4.2G In tllis circuit, Figure 6-9, the 5 MHz at board pin B. In the same manner the tuned
output from the Time Base is processed amplifier, Q4, Q5, Q7, Q9, selects and amplifies
to provide most of the fixed frequencies required the fifth harmonic to produce a 25 MHz output
for frequency synthesis. Outputs from this board which is connected to the input of another set of
are: 9.9 MHz for the second IF circuit, 1 kHz X4 and X5 harmonic amplifiers. Q10, Q12, Q14,
Reference 20% duty cycl.e to the 100 Hz Phase Q16 amplify the fourth harmonic to produce 100
Detector, 100 kHz Reference 20% duty cycle to MHz output at board pin N. QU, Q13, Q15, Q17
the 100 kHz Phase Detector, 10 MHz to the 10 amplify the fifth hannonic to produce 125 MHz
MHz Modulator, and 1 kHz Logic Signal to the output at board pin Y.
Audio Filter/Amplifier as the 1 kHz internal mod-
ulation frequency. 100 Hz Loop

4.26 5 MHz Time Base output is divided by 5 4.32 The 100 Hz loop is made up of two cir-
in IC1 and by 10 in IC2 to obtain 100 kHz. cuits, 100 Hz Divide-by-N, 2600, and
Outputs IC2-S and IC2-12 are buffered and com- 100 Hz VCO and Phase Detector, 2S00, Figures
bined in an AND gate in IC3 to produce a 20% duty 6-8, 6-10. See also these circuits on overall
cycle 100 kHz output to board pin S. The other block diagram, Figure 4-2.
gates of IC3 are connected as buffers.
4.33 The 2. 00000-2.99999 MHz required by
4.27 The 100 kHz output of IC2 is divided by the 17.9-19 MHz mixer, 2400, is gen-
10 in IC4. The 10 kHz output of IC4 is erated by this loop circuit according to the setting
divided by 10 in le5. Outputs IC5-S and IC5-12 of the Front Panel Frequency Selector switches.
are combined in a NAND gate in IC6 to produce a This is accomplished by dividing down the 20.0000-
20% duty cycle 1 kHz output through board pin 2. 20.9999 MHz output of the VCO in a divider con-
IC5-12 is connected to pin 2 of NAND gate IC6-1, trolled by the Frequency Selector switches to
2, 3, which is controlled by the SIG GEN MOD- produce a 100 Hz output when the VCO frequency
ULATOR 1 kHz switch on the front panel through is correct. The 100 Hz output of the Divide-by-N
board pin 7 to turn the modulation on and off. circuit is compared with a 100 Hz reference fre-
quency derived from the Time Base in a Phase
4.28 100 kHz from IC2 is also connected Detector. Any deviation of the Divide-by-N out-
through a buffer IC3-4, 5, 6 to the input put frequency from 100 Hz generates an error
of the 3.3 MHz tuned amplifier, Q1-Q4, where voltage in the Phase Detector. This error voltage
the thirty-third harmonic is selected and amplified. is amplified and applied to the Varicaps in the
Tuned amplifier, Q5, selects and amplifies the VCO with a polarity such that the VCO output
third hannonic of 3.3 MHz to produce a 9.9 MHz frequency is corrected to the proper value. In
output at board pin 21. this manner any frequency dialed up on the Fre-
quency Selector switches is referenced to the
4.29 An output from the 5 MHz Time Base is Time Base.
also connected to one side of a NAND
gate in IC7. The ather side of the NAND gate is 100 Hz Divide-by-N. 2600
connected to the Function switch S1007 through
U4402-1, 2, 3. In the AM, CW, and CAL modes 4.34 Since the input to the Di vide-by- N circuit
the gate is opened and closed in the FM and MON is the VCO output of 20. 0000-20. 9~)9U
mode. The 5 MHz thus controlled is connected MHz the divider circuit U2-U7 must be able to
through the buffer amplifier of IC7 to the frequency divide this input by 200.000-209.999 in order to
douLler circuit, T1, Q6, Q7. The doubler output always have a 100 Hz output. This is accom-
is jJ3ssed through a 10 MHz filter to provide the plished by setting the presettable dividers, U2-
10 ;\IlIz output at board pin 16. U5, to the nines complement of the front panel

5601"00&', 4-3
CIM CE-4

Frequency Selectors. The front panel switches 13 are both high (2.4V) when both 100 Hz Divide-
are wired to read out the nines complement of the by-N and the 100 Hz references are in phase. If
number to which they are set. With the additional the 100 Hz Divide-by-N input lags in phase U2-13
dividers, U6 divide by 10, and U2 divide by 2, it goes low and if it leads U2-2 goes low. These
is possible to divide by up to 200,000. The cir- transitions are used to control the Unlock Detector
cuits of U8, Ul-4, 5, 6. 8, 9, 10, and U7-5, 7, circuit and to generate the VCO control voltage.
9 inhibit u-t, 2, 3 from allowing the first 10,000
count to go through from U5 to U6. This makes 4.39 The Unlock Detector circuit is U3-1,
possible a division of up to 209,999. See Figure 2, 3, 11, 12, 13 and U5 contains a one-
6-S. shot, U5-1, 2, 3, 4, 5, 6, that triggers for every
transition, but the output gate, U5-Il, 12, 13
4.35 Input from the VCO, 2800, comes in does not allow the one-shot output to pass through
through board pin 2 to the input amplifier/ unless a transition is of more than 100J.!s duration.
clock driver, Q1-Q4 and inverter, U1-Il, 12, 13. This is controlled by the 100J.!s delay of the circuit
This circuit not only providcs the proper logic R4, C9.
level, but also squares up the pulses so that there
will be no ambiguity in clocking. 4.40 The narrow pulses from U2 either add
to or subtract from the 1. 5 volt bias on
4.36 After the reset pulse, which presets the C7, depending on whether the fN output leads or
counters U2-U5 and resets to zero U7-12, lags the reference. Q1 is an inverter and Q2 is
U7-9 and U1-S, the counters U2-U5 count up to an emitter follower. CR1-CR4 with R3 and R12
9999 starting at the preset number. The count form a soft limiter at 2.4V. Q2, Q3 arc used as
cannot go through Ul-2, 3 because Ul-1 is low. low leakage diodes.
However US detects the 9999 count and sets U1-S
and therefore U7-7 high and at the same time 4.41 The Loop Amplifier U4 provides high
clocks U7-5, but since both pulses arrive at ap- DC gain to minimize the phase error
proximately the same time U7-9 remains low. between the f N input and the 100 Hz reference.
The divider U2- U5 starts over at zero and again C16-C1S, R1S-R20 is a notch filter to remove
counts up to 9999 and US again detects this con- 100 Hz ripple. Q5-Q10 form active low pass fil-
dition. U1-S is not changed, but U7-5 again re- ters for 50 Hz and 70 Hz to remove other residual
ceives a clock and U7-9 goes high so that the signals. The DC control voltage is applied to the
20,000 count from U5 goes through to U6. At VCO, Q12, L2, CR5. Q13 is an output buffer for
the count of 100,000 U7-12 goes high, enabling the 20-21 MHz output. Qll is a power supply
Ull-3, and the count continues. When U6 reaches filter for the VCO.
9 on the last count through, Ull-4 is enabled. At
the continued count of 9993, in U2-U5, total count 4.42 To produce the required 2. 0-2. 1 MHz
of 209,993, U9 detects this condition and Ull-5 output an output from the VCO is buffered
is enabled. With all the inputs of Ull enabled the into the decade divider, U6. Output is filtered
next clock pulse, 9994 causes Ull-S to set high with the low pass filter L3, L4, C3S-C40 and
and the load/reset pulse for the counters is gen- passes to the 17.9-19 MHz mixer, 2400.
erated at Ull-6. This reset pulse enables U12-1
allowing it to respond to the clock. Prior to the 17.9-19 MHz Mixer. 2400
reset pulse, U12 is preset to the number 4 and U12
takes up the count at 209,994, with the clock input 4.43 In this circuit, Figure 6-6, the 2.0-2. 1
at U12-S. At the count of 999S U12-12 enables the MHz output of the 100 Hz VCO, 2S00, is
K input of Ull so that at count 9999, total 209,999, mixed with 20 MHz to produce the 17. 9-1S MHz
Ull resets and the counters start over again from required for the Receive-Monitor function, or 1
the preset number. This 5-clock delay is nec- MHz is mixed with the 20 MHz to produce 21 MHz,
essary to give time for loading and reset of U2-U5. which is then mixed with 2.0-2. 1 MHz to produce
When Ull-S sets high at a total count of 209,994 the lS.9-19 MHz required for the Signal Generator
this pulse also triggers the one-shot, U13, to function. The selection of either condition is con-
generate the output pulse. When the frequency is trolled by diode switches CR9-CR12.
correct according to the Frequency Selector set-
ting this output will be 100 Hz. 4.44 \V'hen the Function switch is in the MON-
ITOR position the voltagc at board pin 9
100 Hz veo and Phase Detector. 2S00 is +20V and at pin 7 it is -12V. This tUTIlS diodes
CR10, CRll on and diodes CR9, CR12 off. 20
4.37 Input from the 100 Hz Divide-by-N circuit MHz from the Frequency Multiplier, 2200, through
comes in through board pin 19 through an pin S passes through CR10, CRIl to T2 of the
inverter to the Phase Detector U2-3, see Figure double balanced mixer T1, T2, CR1-CR4, R7, R9,
(i-10. A reference frequency of 1 kHz from the RIO, C13, C14. Here it is mixed with 2.0-2.1
Reference Divider, 2700, enters through board MHz to produce 17. 9-1S MHz. Output from T1 goes
pin IS and is divided by 10 in U1 and the 100 Hz through a 19 MHz low pass filter and the level
output inverted and applied to the Phase Detector, adjust control, R12 to output amplifier Q5 and the
U2-1. 17.9-19 MHz bandpass filter to board pin 21.

The outputs of the Phase Detector, U2-2, 4.45 In the 51G GEN or CAL position of the

4-4 5601··0065
 CIM CE-4

FUNCTION s\\itch input to pin 7 is +20V and to 4.49 The dividers are preset by the 10 MHz
pin 9 it is -12V turning CR9, CR12 on and CR10, and 1 MHz Frequency Selector switches
CRll off. 20 MHz is now connected to T4 of the to the nines complement of the division ratio re-
mixer made up of T:3, T·1, CR5-CRS. The other quired. Thus if the division ratio is 140 (corres-
input comes from the 10 MHz modulator through ponds to a dial setting of 00) the dividers are pre-
pin 4 to the 10 MHz amplifier, Q2, Q3, and decade set to 999-140=859. For a division ratio of 239
divider, IC1, the 1 MHz output of which is con- (corresponds to dial setting of 99) the dividers are
nected to T3. Output from T3 is connected to the preset to 999-239=760. Since the most significant
input of tuned amplifier Ql. It then passes through digit of the division ratio is only either 1 or 2,
the 21 MHz bandpass filter to the tuned amplifier, U1 is connected to be set only to the nines com-
Q4, through CR12 to the input of T2 in the double plement of 7 or S. The dividers start counting
balanced mixer. This mixer output is now the from the preset number and count up to 993. At
18.9-19 J\IHz required for the Signal Generator the count of 994 the dividers are reset to the pre-
mode. set number.

RI<' ;\1ixers. 2100 4.50 When U1, U2 each reach a count of 9

pins, 5 and 12 are high which causes a
4.4G Inputs to this circuit, Figure 6-3, are 125 high on U7-5. The other two inputs, U7--4, 3
MHz from the Frequency Multiplier, remain low until U3 has continued to the count of
2200, and 17.9-18 or Vl.9-19 MHz from the 17.9- 3, at which time both pin 5 and 9 go high, which
19 MHz mixer, 2400. These are connected to the now makes U7-3, 4, 5 high so that at the trailing
balanced mix2r T6, 1'7, CR5-CRS through Balun edge of count 994, U7 changes state. U7-6 goes
transformers T5, T8. The Balun transformers low which resets the dividers VI, U2, U3 and also
are used to obtain a more accurate balance in the disables U6-12. At the same time U7-8 goes high
mLxer. Mixer output is 142.9-143 MHz o.r 143.9- enabling U6-S so that the next cOlmt goes to U4-S
H4 MHz. It passes through a bandpass filter to which has a permanently preset number equal to 5.
the tuned anlplifiers Q3, Q4 to the 119-130 MHz Counts 995-998 bring IC4 up to a count of 9 which
mixer. This circuit is very similar to the 142.9- makes pin 5 and 12 high, making U7-10, 11 high
144 Mixer. Inputs from the 142.9-144 MHz mixer so that the count of 999 causes U7 to change state.
and 14-23.9 MHz from the 100 kHz loop are com- This disables U6-S and enables U6-12 so that the
bined in the balanced mixer 1'2, 1'3, CRI-CR4 next count starts a new sequence in U1-U3. At
through the Balun Tl, T'l. 119-130 MHz output the same time U4 is reset to its preset number by
passes through a bandpass filter to the output am- the low to pin 1. The sequence then repeats.
plifiers Ql, Q2 and to board pin Y. When the input frequency is correct the output from
U7-8 to board pin 19 \\ill be 100 kHz.
100 kHz Loop
100 kHz veo and Phase Detector. 2500
4.47 This loop is made up of two circuits, 100
I,Hz Divide-by-N, 2300, and 100 kHz VCO 4.51 The VCO Oscillator, Q1, L4, CR2,
and Phase Detector, 2500. The VCO output is eli;:!, covers the range of 14-24 MHz.
variable from 14-23.9 MHz. One output goes to See Figure 6-7. The varicaps CR2, CR3 are
the RF mixers, 2100, see block diagram, Figure tuned by the voltage out of the phase detector UI,
4-2. The other output goes to the Divide-by-N which compares the phase of the 100 kHz ref-
circuit, 2300, where control by the Frequency erence signal from the Reference Divider, 2700,
Selector 10 MHz and 1 MHz digits is introduced. \\ith the 100 kHz output of the Divide-by-N
Control is in increments of 100 kHz per step, but circuit, 2300.
thit' is lllcrcased to 1 l'vIHz per step in the X10
multiplication which takes place later on. Output 4.52 The error voltage out of the Phase
of the Divide-by-N circuit is 100 kHz when the VCO Detector, U1, is filtered, R1, R3, C7,
frequency is correct. This output is compared amplified in U4, and the control line connected to
with the 100 kHz reference frequency in a phase the varicaps through the low pass filter L1-L3,
detector circuit, the output of which is amplified C12-C15. CR1 prevents the control line from
to use as a control voltage for the yeo. going negative,

100 kHz Divide-by·-N. 2300 4.53 The Unlock Detector and Indicator Driver
is made up of U2-B, 9. 10, 11, 12, 13
4.48 The purpose of this circuit, see Figure and U3. U3GS, 9, 10, 11, 12, 13 is a one-shot
6-5, is to divide the output of the 100 kHz which turns on switch Q4 with a series of pulses
veo by a factor that \\ill result in a 100 kHz output in the unlocked condition to turn on the front panel
when the frequency is correct. Since the VCO out- indicator light. When the Phase Lock Loops are
put range must be 14-23.9 MHz the division range locked the input to U3-12 is low and the one-shot
mllst bl' 140-239. The 14-23.9 MHz input goes is not triggered. Whenever one of the loops goes
through a buffer amplifier. Q1, to three gates U6, out of lock the frequency drifts through the ref-
one of which, UG-6 is always enabled. For the be- erence frequency at U2-9, 10 or U2-12, 13 causing
ginmng portion of the count U6-12 is enabled and a series of pulses to OCCllr at U3-12 which trigger
U6-8 is low. The input through U6-12 goes to U3-B, the one-shot and cause the front panel indicator
the input of the three decade dividers U1, U2, U3. to show an unlocked condition.

~ 6 '1 1·' C C 5 '. 4-5

ClM CE-4

1190-1300 MHz Phase Lock. 3750 and Q3, Q4 return to the amplifying function. R8
is an adjustment to set the input to Q3 at zero volts
4.54 Output from the RF Mixer (2100) is cOllllec- when there is no output from the sampling gate.
ted to the input amplifiers through Jl. Re-
fer to Figure 6-18. Q1, Q5 amplify the signal suf- 4.59 When the circuit is out of lock, search
ficiently to properly operate the step recovery diode, oscillator output from Q6 is cOllllected
CR2. R38 adjusts the bias on this diode. The step through CR11 to QI0 turning it off. The oscillator
recovery diode acts as a capacitor that, on every pulses are stored as a DC level by C12, R27 to
cycle, returns the stored charge to the circuit hold QI0 off. This low output from QI0 is fed
very rapidly. The result is a very sharp pulse of through summing amplifiers Q3910, Q3911, Q3912
approximately 500 psec duration. This pulse is to the unlock detector circuit IC2503, IC2505 to
applied to both T1 and CR4. The rectified output turn on the UNLOCKED light.
of CR4 is connected to the Automatic Level Control
Amplifier IC2-2, the filtered DC output of which 4.60 An offset voltage from the Audio Amplifier
is cOllllected to PIN diode CRl. The PIN diode and Varactor Control Circuit, 4800, is
functions as a resistance which may be varied ac- applied to the input of Q9 to set the varicap voltage
cording to the applied bias. Thus CR1 functions according to the 1 MHz and 10 MHz Frequency
as an attenuator controlled by the output of IC2 to Selector dial settings to bring the VCO into locking
produce automatic level control. The reference range for the frequency selected.
voltage connected to IC2-3 is determined by the
divider R43, R44, with CR3 providing temperature 1190-1300 MHz Oscillator. 3700
compensation.
4.61 Oscillator Q1 is connected in the common
4.55 The narrow output pulse from CR2 appears collector configuration and output is taken
at the output of the secondary of Tl as a from the base. See Figure 6-17. The output tuned
positive and a negative pulse (because the secondary circuit is formed by the inductance in the board
center tap is connected to ground). These pulses trace and the inductance and capacitance in the
are applied to the anode and cathode sides of the varicap, CRI. Frequency is controlled by the
diode sampling bridge, ZI, to turn it on for a very output of the phase lock circuit and the offset
short time. Since there is a fixed back bias on the voltage from the varacitor control, 4800, which in
bridge determined by CR9 and CRI0 only the very turn is controlled by the 1 MHz and 10 MHz Fre-
narrow upper portion of the pulses turn on the quency Selector switches. C2 is the coarse fre-
bridge, giving a sampling width of approximately quency adjustment. R4 adjusts the base voltage
100 psec. on Q3 which adjusts the bias on Q1, and thus ad-
justs the output amplitude. The traces from the
4.56 The waveform that is sampled is the input emitter, base and varicap to the bypass capacitors
from the 1190-1300 MHz VCO, 3700, which are apprOximately one quarter wavelength and
is brought in through J2 and connected across the appear as RF chokes to the oscillator circuit.
sampling bridge. When the frequency of the VCO Output is coupled to the buffer amplifier, Q2, through
is correct every tenth cycle is sampled at exactly C8. It then passes through a low pass filter,
the same point on the waveform so the output of the etched on the board, to the Voltage Controlled At-
sampling bridge to IC3 is constant. This output tenuator. A directional coupler takes a sample
is filtered and stored by C35, C45, R55. If the of the oscillator output for the Phase Lock circuit
VCO frequency tries to drift, sampling takes place and is connected through Jl.
at different places on the waveform and the output
of the sampling bridge will go up or down depending Voltage Controlled Attenuator. 3600
on the direction of frequency drift.
4.62 Two functions are performed by the
4.57 DC output from IC3 is amplified by the Voltage Controlled Attenuator (VCA) cir-
differential amplifier, ICl, Q2 and the cuit, amplitude modulation of the Signal Generator
output is applied to the input of amplifier Q3, Q4. output when required and level control of the 8ignal
When the phase loop is locked, Q3, Q4 function as Generator output. Both functirn s are accomplished
a differential amplifier, with Q6 not functioning in by means of PIN diodes. Refer to Figure 6-16. In
this mode. Q4 output is anlplified by Q7, Q8 to addition an automatic level control circuit maintains
become the varicap control voltage for the 1190- the input to the variable attenuator at a constant
1300 MHz VCO, through board pin 5. level, using the same attenuator as is used for mod-
ulation. In order to have matched input and output
4.58 When the frequency is shifted out of lock- impedance through the attenuator the PIN diodes
ing range the output of the sampling gate, are connected as variable pi attenuator networks.
Z1, will be zero and the input to Q3 will be zero In the modulator this is modified to satisfy the
volts. When this occurs, Q3, Q4, Q6 function as loading requirements of the oscillator.
a low frequency Wien bridge oscillator causing
the vco to swing through its frequency range. As 4.63 In the attenuators the shunt diodes are all
soon as tllis frequency comes within the locking initially set for a fixed bias. When the
range there will be an output from the sampling series diodes are biased from the control circuits
gate and the loop will be closed. The high loop to be fully conducting, the fixed bias on the shunt
gain overrides the oscillator gain of Q3, Q4, Q6 diodes is set so that they just begi.n to come on

5601"Q065
 CIM CE-4

(they aTe at their high resistance value). As the board pin 12 to the 1300-2200 VCO.
bias on the series diodes is decreasccl by the atten-
uator control (to increase the series resistance) 1300-2200 l\UIz Oscillator. 3800
the voltage at the junction of the two sets of diodes
changes to cause the shunt diode resistance to 4.69 The purpose of this oscillator is to fur-
decrease. Thus each pi network becomes a very nish frequencies at 100 MHz intervals to
effective attenuator of the RF output. In the mod- the Microwave Mixer. This is accomplished by
ulator attenuator the zero modulation level is set using ten fixed frequency oscillators which are
by the modulator DC output so that no clipping will switched on one at a time according to the setting
occur on the positive modulation peaks. Atten- of the 100 MHz dial of the Frequency Selector
uation range for the variable attenuator CR5-CR9 switches. See Figure 6-19. The circuits of the
is 0-20 dB, and for the step attenuator CR10-CR13 ten oscillators are the same except for the values
the steps are 0-20-·±o dB. The variable and step of the elements forming the tuned circuits. For
attenuato!'s are both set with the front panel SIG- the three highest frequencies the transistors used
NAL GENEllATOH LEVEL controls. have a higher frequency specification than the
others.
4.64 Bia s for the modulation attenuator, CRl,
CR2, is controlled by H5. The variable 4.70 The transistors Q1-Q10 are soldered
attenuator bias is controlled by lUI through emit- directly into the transmission lines etched
ter fol1owl'r amplifiers Q1, Q2 which provide cur- on the circuit board. Parts of the line are ex-
rent gain. The step attenuator bias is controlled panded to form reactive elements. Oscillator
by R19. number 1, 2.2 GHz is typical of the ten and will
be used for the description. (Figure 6-19). The
4.65 To provide Automatic Level Control 100 MHz Frequency Selector switch connects -12V
(ALC) of the input to the variable atten- to the emitter of Q1 through bias adjusting resistors
uator a sample of the signal is taken with a di- R1, R11, R21. The varicap control voltage from
rectional coupler and rectified by CR4. To pro- the 1300-2200 MHz Phase Lock circuit is brought
vide temperature stability another diode, CR3, is in through terminal 2 and through R31, C31, RFC
placed close to CR4 in the same temperature en- L1 to the proper point on the transmission line.
vironment and the same DC bias is applied to both
of them. CH3 is connected to the non-inverting 4.71 C21 is connected to the transmission line
input to the operational amplifier IC3451, the one quarter wavelength from the emitter
modulator detector amplifier mounted on the 1000 of Q1. This transforms the capacitive reactance
MHz Low Pass Filter board, 3450, and CR4 to the to an inductive reactance at the emitter so that
inverting input. In this way DC variations due to the quarter waveline appears as an HFC. The in-
temperature changes are cancelled out. ternal input capacitance of the transistor is part
of the feedback network. Feedback necessary for
4.51) The detected RF output from IC3451 is oscillation takes place through the internal collector
c,)nnectcd to the inverting input of opera- to emitter capacitance. The etched area of the
tional amplifier IC3102 mounted on the Attenuator transmission line connected to the collector of Q1
Control Board. Output from this amplifier, is enlarged in area and forms the inductive part
through buffer amplifier Q3103 is connected back of the tuned circuit. The circuit is tuned by the
to the veA board as the control voltage for CRI output capacitance of the transistor. The output
to accomplish the ALC function. The other input capacitance varies with the width of thc depletion
to 1('3102 is from the modulating source. This region at the collector to base junction. Since the
causes the output of IC31{)2 to vary at the mod- depletion region wieIth, and therefore the output
ulation frequency. Since this output controls the capacitance, varies with applied collector voltage
modulation attenuator CR1, CR2, the RF signal this is used to fine tune the oscillator. The control
is amplitude modulated. Thus both ALC and voltage is connected to the collector through L1
Modulation are accomplished with the modulation and thus provides fine tuning control. Between
attenuator. Output from the attenuator passes the point at which L1 is cOlllected and C 11 i;:; a
throu?,h J1 to the Microwave Mixer, 3500. quarter wavelength. Thus the capacitance of C41
is transformed into an inductance at the point at
1300-2200 MHz Phade Lock. 3900 which it is connected to the collector tuned circuit
and in thiii way forms a coarse tuning adju;:;tment
4.67 The 1300-2200 MHz Phase Lock circuit, for the oscillator.
Figure 6-20, is the same as the 1190-
1:300 :\JHz Phase Lock. See paragraphs 1.54- 4.72 Each oscillator is capacitively coupled to
4. GO lor deSCription. The differences are that no the 50 ohm output transmission line by an
()ffSl~t cOEtrol is required. Included on this board etched-in capacitance. A directional coupler is
are the summing amplifiers, Q10, Qll, Q12 for also etched on the board to sample the signal on
the Ul1locked indication. the output line for the phase lock circuit.

~. no Input rderence to Q1 is 100 MHz from 4.73 Output from the 100 MHz-per-step LO is
the Frequency Multiplier, 2200. The connected to the primary of the l11.ixer T1,
veo output ;:;ample to the sampling gate is 1300- CR1, CR2, Figure 6-15. HF from the Voltage
2200 :\UIz. Control outpd from Q9 passes through Controlled Attenuator is fed to the junction of the

4-7
CIM CE-{

mixer diodes CRl, CR2 through the 50 ohm atten- to the junction of R22 and the calibrating resistors
uator CR3, CR4, CR5. 0-1000 MHz or 10-1010 R1-RZO. Ul is binary to decimal decoder and the
MHz is taken out through J2. input to it is the output of the 10 MHz Frequency
Selector switch. When a number is selected on the
4. H The calibration attenuator is a pi config- 10 MHz Frequency Selector dial, the binary output
uration of PIN diodes. Fixed bias is ap- of the selector switch is decoded by U1 and the
plied to CR3, CR5 so that they have a low resis- selected output is brought low. This changes the
tance when CR4 is biased for high resistance. As current flowing to the operational amplifier, U2,
current through CR4 is increased the voltage at and thus changes the output voltage.
the junction of CR4, CR5 increases so that CR3,
CR5 are biased toward a higher resistance as CR4 4.80 In a similar way the 1 MHz switch digits
is biased for lower resistance. In this ",ay the at- 0-2 supply +20V through board pin U and
tenuator is maintained at a 50 ohm impedance over R25 to the input of U2, digits 3-5 supply +20V
its full attenuation range. Calibration Level con- through board pin Wand R24, R26 and digits 6-9
trol R3120 sets the attenuator to the calibrated supply zero volts through these inputs to provide
level. When the FUNCTION switch is in the MON- the required offset for this switch. In the MONITOR
ITOR position the VCA and the mixer attenuator setting of the FUNCTION switch -12V is applied
are biased for miuimum attenuation. through board pin V, CR1, R27 to U2-2 to offset
the frequency by the required 10 MHz.
1000 I\IHz Low Pass Filter. 3450
4.81 Modulating signals are connected to the
4.75 This board, Figure 6-14, includes the modulation pre-amp, U3A-6 either through
modulator detector amplifier, ICl, which board pin J for the external MOD INPUT connector
was described in paragraph 4.65, 4.66. This cir- or from the 1 kHz output of the Reference Divider,
cuit board also has a 1000 MHz low pass filter 2700, through the 1 kHz Shaper, Q1, Q2. Output
etched on the board through which the output from from U3A is amplified by U3B and U4 and the out-
the microwave mixer passes. The filter removes put connected directly through board pin N to the
the high order frequencies generated in the mixing 10 MHz VCO for FM modulation. Output is also
process. taken through U6B to the MOD OUT front panel con-
nector. In addition U6A is the AM Driver for the
RF Switch. 3200 modulator in the Voltage Controlled Attenuator,
3600. The AM Driver, U6A, is inhibited in all
4.76 The RF Switch, Figure 6-13, routes the positions of the FUNCTION switch except AM by
Frequency Synthesizer output to the out- the control line through board pin P. CR3, CR6,
put connector or to the RF plug-in uuit. The R35 form a clamp circuit to prevent overloading
switches are PIN diodes and only one switch is the Voltage Controlled Attenuator when AM is not
on at a time. +20V applied to the junction of one used.
of the diode pairs, CRl, CR3 or CR2, CR5 turns
on the switch while -12V turns it off. CR4, CR6 4.82 Demodulated FM from the Second IF/Dis-
are turned on by the -12V to provide a low impe- criminator, 4600, comes in through board
dance path to ground so that there will be no signal pin E to the Audio Pre-amp, U5A. One output
feed through when the switch is off. from U5A goes to the front panel DEMOD OUT con-
nector. The output also goes to the front panel
4.77 With the FUNCTION switch in the SIG GEN VOLUME control through board pin F and back
position, switch CR1, CR3 is closed. from the control through board pin C to the Audio
This connects the signal to the 0-1000 MHz output Power Amplifier, U5B, Q3, Q4, and then to the
connector. With the FUNCTION switch in the internally mounted speaker.
MONITOR position switch CR2, CR5 is closed
and the signal goes to the plug-in as the LO signal. Attenuator Control. 3100

Audio Amplifier and Varactor Control. 4800 4.83 The attenuator control, Figure 6-12, fur-
uishes the required voltages for the proper
4.78 The Varactor Control section of this cir- functiouing of the PIN diode attenuators in the
cuit, Figure 6-23, supplies the offset Voltage Controlled Attenuator, 3600 (see paragraphs
voltage required to set the 1190 MHz-1300 MHz 4.62-4.66) for the operation of the Calibration At-
Voltage Controlled Oscillator within the proper tenuator in the Microwave Mixer, 3500 (paragraph
locking range whenever the 10 MHz or the 1 MHz 4.73), and to furuish a modulated output to the AM
Frequency Selector dials are changed as noted in mouitor plug-in through boarn connections P3101-2.
paragraph 4.60. When switching between SIG GEN
and MONITOR an additional offset is required from 4.84 Output from the Modulation Detector Amp-
this circuit because of the 10 MHz shift in output lifier on board 3450, is connected to the
frequency. The output offset voltage is supplied inverting input of IC2 and through buffer amplifier,
by operational amplifier U2. Q3, and goes to the PIN diode modulator in the
Voltage Controlled Attenuator (VCA), 3600, to pro-
4.79 The inverting input, U2-2, is connected vide automatic leveling of the signal. The mod-
to a current summing junction of all the ulating signal enters through P3101-3, passes
control currents. Current is supplied through R21 through buffer amplifier, Q2, to the non-inverting

4-8 5GOloo0065
 CIM CE-4

input of IC~ and thus modulates the attenuation of through CR3 and Rl forces the Discriminator
the PIN diode attenuataI'. R16 is the calibration (4600 board) to unsquelch. The varicap, CR4, which
adjustment for modulation level and R7 sets the determines the VCO frequency, is controlled from
attenuation to 8 dB with no modulation. three sources. The modulating signal, either in-
ternal or external, is applied through board pin F
4.85 The front panel variable attenuator con- to FM the VCO, Q3, L2, CR4. The AFC voltage
trol, R1004, is a variable voltage divider from the 2nd IF and Discriminator circuit through
with a range of zero to 2V, the maximum voltage board pin H also controls the frequency to complete
being set by R14. This voltage level is brought the AFC loop. The FM CAL control from the front
in through P3101-7 to the non-inverting input of panel comes in through board pin E to adjust the
rC3. The output goes to the PIN diode attenuator center frequency. Output is through buffer amplifier
in the VCA. Connected to the inverting input of Q4 and Q5 and board pin B to the 17. 9 -19 MHz
IC:'; is the shaping network necessary to convert Mixer, 2400.
the linear rotation of the variable attenuator con-
trol to the log characteristic of the PIN diode at- 4.90 The FREQUENCY meter calibration circuit
tenuator. R27/28 fixes the break point, R44 sets is also on this board. The meter is effec-
slope 1 and R50 sets slope 2, R39 sets the max- tively connected between the discriminator output
imum attenuation. Q7, Q8 are current sources, at board pin H and pin J. CR1, CR2 are the shunt
while R46 provides temperature compensation. overload diodes. R13 is the shunt calibrating re-
sistor. R3-R5 are the variable and R9-R11 are
4.86 Control for the PIN diode Step Attenuator the fixed series calibrating resistors. Board pin L
enters from the front panel function and goes to the 15 kHz range switch position, pin M to
level switches at P310l-4 and goes to the PIN the 5 kHz and pin S to the 1. 5 kHz pOSition.
diode attenuator through P3l02-A. When the SIG-
NAL GENERATOR LEVEL switch is in the +40 dB 4.91 Board pins Rand l' go to ground closure
position, +20V is connected directly through to contacts on the FUNCTION switch, S1007,
the attenuator and level output is set by calibration at FM and MON positions. The level is inverted in
level control R26. In the +20 dB position the input U2 ~ovide FM and MON levels and used directly
to P3101-4 is open (zero volts) and the level set- for MON. FM controls the 10 MHz VCO switch
ting of the PIN diode attenuator is determined by and MON and MON control the SIG GEN Select Driver,
adjustment of R40 which is adjusted to set the Q11, Q13, Q15, Q17, Q18 and the Monitor Select
level 20 dB lower than in the +40 dB position. Driver Q12, Q14, Q16, Q19. Output from each
In the 0 dB position -12V is connected to P3l01-4. driver is either +20V or -12V DC. SIG GEN Select
Diode CR2 isolates this voltage from the rest of Driver output through board pin W goes to the RF
the circuit but R5, R6 are turned on to form a switch, 3200, to 1190-1300 MHz oscillator, 3700,
voltage divider between +20V and -12V, the level and also to the 17.9-19 MHz Mixer, 2400.
of which is set by R37. This adjustment brings Monitor Select Driver output through board pin Y
the output 40 dB below the +40 dB position. The goes to the RF switch, 3200, and to the 17.9-19 MHz
Signal Generator output is calibrated by adjusting Mixer, 2400. FM and MON switch levels also op-
R26 as noted above. erate the 10 MHz Ref. enable switch U2-1, 2, 3,
which controls the 10 MHz Ref output from tho Ref-
4.87 In the MON pOSition of the Function switch erence Divider, 2700.
all the PIN diode attenuators in the VCA
and the microwave mixer are turned on (minimum 4.92 Board pins U and V are connected to the Step
RF attenuation). +20V applied to P310l-D turns Attenuator switch, S1010, and receive a
on Q1 which sets the modulation attenuator to 0 dB; ground closure to either one, or to neither, to con-
the calibration attenuator is set to 0 dB through trol the Step Attenuator pin diode in the Voltage Con-
CR3 and the variable attenuator is set to 0 dB trolled Attenuator, 3600. Each input goes through
through CR1. +20V to P3101-4 turns on the step NAND gates Ul-4, 5, 6 and Ul-11, 12, 13 which
attenuator through CR2, and through P310l-D are controlled by the MON level from the FUNCTION
turns off the modulator buffer amplifier Q2 so that switch. This sets the attenuator to minimum inser-
modulation may not be applied. tion loss in the Monitor mode to supply the LO Sig-
nal to the plug-in unit. The step Attenuator Drivers
10 MHz Modulator. 4400 Q6-Q10 supply either +20V, -·12V or zero volts
through board pin X to the Attenuator Control, 3100,
4.88 This circuit, Figure 6-21, furnishes the for control of the Step AttenuataI'.
required 10 MHz for the SIG GEN mode
of operation (paragraph 4.45). In CWOI' AM the Second IF/Discriminator. 4600
10 MHz comes from the Reference Divider, 2700,
through board pin C and then either directly out 4.93 The Second IF mixer takes the 10 lVIHz from
to the plug-in through board pin D, or through the plug-in and the 9.9 MHz from the Ref-
buffer amplifier Q5, and out through board pin B erence Divider and mixes them to produce a 100 kHz
to the 17.9-19 MHz mixer. output. See Figure 6-22. Since the plug-in output
will be 10 MHz ± the frequency error, the mixer
4.89 In the FM mode a high FM (switching) output will be 100 kHz ± the frequency error. The
level to Ql turns on Q1 so that +20V is 9.9 MHz output is amplified by tuned amplifier Q7
applied to the VCO, turning it on. This +20V and the 10 MHz by tuned amplifier IC L The outputs

5601"0065 4-9
CIM CB-4

go to lC2 which is connected as a mixer. Output and intervals are equal (50% duty cycle) there is
passes through a bandpass filter to Q8. no voltage difference between the two capacitors
and the meter rests on zero. An FM signal averages
4.94 The 100 kHz signal from IC2 is ampli- out across the meter and does not affect the reading.
fied by Q8 and applied to squaring cir-
cuit Q9. The output of Q9 is differentiated, R42, 4.97 R53 is the calibration adjustment for the
C33, and the positive pulses are passed by CR3 to meter. R1003 is the front panel CAL
trigger a one-shot multivibrator, Q10, QU. The control to set the meter to zero when the internal
one-shot can operate only when the received signal calibration 10 MHz signal is applied to the second
is strong enough to turn on Q3 which then connects IF mixer. The calibration adjustments for the dif-
the emitters of Q10, QU to ground. ferent meter ranges are R4403, R4404, R4405 lo-
cated on the 10 MHz modulator board.
4.95 The one-shot output has a pulse width
of 5 microseconds (one-half the period 4.98 The Signal Level Detector is operated by
of 100 kHz) at the collector of QU. This pulse a voltage output from the plug-in to board
width remains the same throughout a frequency er- pin 15 that is proportional to signal level. When
ror range of from 75 to 125 kHz. The wid~h between this voltage reaches a level of 1 volt the Schmitt
pulses, however, depends on the interval between Trigger Q1, Q2 changes state and turns on switch
input pulses (pulse frequency) and therefore will be Q3. This enables the meter one-shot Q10, Q11 by
longer for a lower frequency and shorter for a providing a connection to ground for the emitters,
higher frequency. The duty cycle will therefore and also connects one side of the SIGNAL LEVEL
vary with frequency and will be 50% only when the light to ground, turning it on.
frequency is 100 kHz. Output at Q10 collector will
be the opposite of that at Q 11. The outputs from 4.99 The FM, still present on the signal at
QI0, QU collectors are connected to a meter bridge the collector of QU, is fed through the
circuit. See Figure 4-1. isolation diode CR11 to the base of emitter follower,
Q4. The output of Q4 goes through a low pass filter
to remove the carrier frequency. The audio output
is connected to the oscilloscope plug-in through pin
2. It is also connected to the base of emitter fol-
lower, Q5, the output of which goes to the power
amplifier on the Audio Amplifier board, 4800, and
then to the speaker.

Power Supply Regulator. 5100

4.100 The Power Supply/Regulator board,

Figure 6-25, is mounted on the rear
panel. The rectifier blocks, Zl-Z3 are bolted to
the board but are in contact with the rear panel to
provide them with a heat sink. The series regulator
tr.ansistors, Q5001, Q5002, Q5003, are mounted
on the rear panel, under the cord bracket, to pro-
vide them with a heat sink. Each regulator is fused,
the fuses being mounted on the 5100 board.
LLLLL
UUUULf 4. 101 The regulators are conventional. CR4,
IlJlIlJlI1
CR5, eR6 are the reference diodes, er-
ror amplifiers are Q7, IC 1, IC2 and regulator
driver amplifiers for the series regulators are Ql,
Q2, Q3. Resistors RIO, RU, R12 are current
_ _ _ _ _ _ _._ _ _ _ _ _--.J
sampling resistors for overload current control
transistors Q4, Q5, Q6. Output voltage adjustment
is provided for each supply by the controls R17,
R21, R24. The +20V and +5V supplies are tied
Figure 4-1. Frequency Meter Bridge Circuit together in that the +5V reference is taken from the
+20Voutput. Zener diodes CR7, CR8, CR9 prevent
excessive power supply output on turn-on, or in
4.96 The outputs of Q10, QU are averaged case of a circuit malfunction.
in the circuits LU, C36 and L12, C37.
Refer to Figure 4-1. When the intervals between
TONE GENERATOR, MI0 OPTION
pulses are longer than the pulses the voltage at the
top of C36 rises and that at C37 goes lower and the
meter deflects to indicate below center frequency. 4. lO2 The Tone Generator is available as op-
\\lhen the intervals are shorter than the pulse the tional equipment when the need exists
voltage levels are the opposite and the meter de- for audio modulating frequencies other than the 1
flects to the high frequency side. When the pulses kHz tone available in the CE-4.

4-10 5601""0065
 CIM CE-4

4.103 The only change in the CE-4 is an addi- pin 11, the multipliers are decaded, that is, there
tional connection on the 4800 circuit, is one Enable output pulse for every 10 input clock
Audio Amplifier and Varactor Control, where a pulses. When the Enable Out is connected to the
connection from pin K through R70 is connected to following Enable In of the four multipliers, it gives
U3A-6. See Figure 6-29. the same effect as though the clock rate of U4 were
divided by 10, to U5, divided by 100, and to U6
Functional Description divided by 1000.

4.104 Tone generation begins with a crystal 4. 110 The outputs of U3 and U4 are ORed to-
oscillator. The oscillator output fre- gether, using the Internal OR gate in U4,
quency passes through a rate multiplier where it by connecting the Z output, pin 5 of U3 to the CASC
is multiplied by some fraction of one, according to input pin 12, on U4. U5 and U6 are connected in
the front panel FREQUENCY switch settings. It the same manner. The ORed outputs appear at the
may then be divided by ten or one hundred or passed Y outputs, pin 6, of U4 and U6. These outputs are
through directly according to the front panel range ORed together in the external OR gate made up of
switch setting. part of U1 and U2. In this way the total output of
q the four rate multipliers appears as a single fre-
4.105 The signal then goes to an up/down quency to be applied to the up/down counter. This
counter and a digital to analog (D/A) output may be applied directly to the up/down count-
converter where a triangular wave is produed con- er when the range switch is set to Xl. 0, or divided
sisting of a large number of steps (510 steps per by ten, range switch set to XO. 1, through the decade
cycle), each step produced by one cycle of the out- divider U7, or divided by 100, range switch set to
put frequency of the rate multiplier/range divider. X.01, through both decade dividers U7, U8.
The triangular wave then passes through a sine
converter where it is converted into a sine wave Up/Down Counter
havi!lg less than one percent distortion.
4.111 The Up/Down Counter is made up of two
4. 106 The sine wave output passes through synchronous, reversible up/down count-
an output gate, a FET switch, which is ers, U9 and U10, each having four binary outputs.
turned on and off by the burst time generator, or The ripple clock output, pin 13, of U9 is connected
biased on for continuous tone output, according to to the clock input, pin 14, of U10 making them ef-
the setting of the BURST control. An output amp- fectively one up/down counter having eight binary
lifier provides the required output signal. The amp- outputs. The up/down count is controlled by J-K
litude of the output is adjusted by the front panel flip-flop, U11, which is triggered to change state
LEVEL control. on the coincidence of max. or min. outputs from
the two counters. The eight binary outputs provide
Circuit Description a total count of 255 in each direction, or a total of
510 for each cycle of up/down operation. These
Frequency Synthesizer. 4900 outputs are connected to the D/A converter, U12.

Time Base D/A Converter

4. 107 The Time Base is a crystal controlled 4. 112 The D/A Converter changes the linearly
oscillator, Q1, Y1. Fine adjustment progressing binary input count to a lin-
of the output frequency is provided by adjustable early increasing or decreasing, depending on the
capacitor C2. The oscillator output is buffered by direction of the count, output current. The current
part of U1 to provide a logic signal output, which increases or decreases in small steps, one step
is the clock input to the Digital Rate Multiplier. for each count. This produces a triangular cur-
See Figure 6-30. rent waveform having a total range of zero to 2 mA
from minimum to maximum. One cyclo of this
Digital Rate Multiplier waveform is produced by 510 input counts to the
D/A Converter.
4.108 Four integrated circuits U3, U4, U5,
U6 make up the Digital Rate Multiplier. 4. 113 The D/A output is connected to opera-
The output rate of each rate multiplier unit at the tional amplifier U13, which is given a
Z or Y output is determined by the setting of the DC offset, +5V applied through R22, so that the
front panel FREQUENCY switch connected to that output triangular waveform of the amplifier is
unit. The switches are wired for BCD (0-9). See centered between ± 1 rnA.
Figure 6-31 and 6-28. When a switch is set to a
decimal number, for every 10 clock input pulses Sine Converter
there will be the number of output pulses to which
the switch is set, that is, if the switch is set to 7, 4.114 The &lne Converter, which is an active
there will be 7 output pulses for every 10 clock fHter, takes the triangular wave output
pulse;;. of U13 and converts it into a sine wave. The filter
makes use of the fact that in a field effect transistor
4.109 When the Enable output, pin 7, is con- (FET), for a fixed gate voltage, the drain current
nectoo to the following Enable input, as a function of drain voltage between zero and

5601··0065 4-11
CIM CE-4

pinch-off resembles a quartcr sine wave. Since Functional Description

drain and source are symmetrical they may be
switched back and forth to provide a complete sine 4.120 The Frequency Synthesizer output is
wave. The FET transistor is Q2 and CR1, CR2 routed by the RF Switch to either the
are the switching diodes. Adjustment for minimum Front Panel 0-1000 MHz connector, the High Level
distortion is made by adjusting the input level with Amplifier, or the RF plug-in unit as the L. O. signal.
R23 in the feedback loop of U13, and the source
resistance, R28. Output level to the following buf- 4.121 In the High Level Amplifier the signal is
fer amplifier, U1S, is adjusted by R29. amplified to produce an output level at
the Front Panel High Level connector (when selected)
Output Gate of up to +10 dBm.

4.115 The Output Gate is an FET switch, Q5, 4.122 The High Level Amplifier is protected
that is turned on or off by the output of against the application of excessive voltage
the Level Translator, Q3, Q4, which is controlled levels at the High Level output connector by the
by S1103 through NAND gate U2-1, 2, 3, 8, 9, 10. Wide Band Amplifier Fuse Assembly.
When switch S1003 is not in the OFF position S1013
selects either continuous tone or tone bursts when Circuit Description
S1014 i8 depres8ed. The output of Q4 back biases
4.123 RF S\VlTCH. 3200, M11
CR3 to turn on QS. The signal then passes to the
front panel LEVEL control, R1002. 4. 124 The RF Switch, Figure 6-33, routes the
Frequency Synthesizer output to either of
Output Amplifier the two output connectors or to the RF plug-in unit.
The switches are PIN diodes and only one switch
4.116 From the LEVEL control the signal is on at a time. +20V applied to the junction of one
passes to the Output Amplifier, U16, of the diode pairs, CR1, CR4 or CR2, CR6 or CR3,
which provides the required output voltage. U16 CR7 turns on the switch while -12V turns it off.
is an operational amplifier capable of providing CR5, CR8 are turned on by the -12V to provide a
3.0 volts output across 600rl. R30 is a thermistor low impedance path to ground so that there will be
which provides temperature compensation. no signal feed through when the switch is off.

Burst Time Generator 4.125 With the FUNCTION switch in the SIG GEN
position, and the High Level switch not
4.117 In the BURST mode the burst time is selected, switch CR1, CR4 is closed. This connects
controlled by the timing unit U14. The the signal to the 0-1000 MHz output connector. If
time that U14 delivers a positive output to Q3 to the High Level switch is selected, switch CR2, CR6
turn on the output gate is determined by the timing is closed and the signal is routed to the High Level
resi8tor8 R35, R1005 and capacitors C15, C16. Amplifier. With the FUNCTION switch in the MON-
(The time is t = 1. 1 RC, where R = R35 + R1001 ITOR position switch CR3, CR7 is closed and the
and C = C15 + C16). R1005 is the front panel, signal goes to the plug-in as the L. O. signal.
Figure 1-1, BURST (SEC) control. Thus when
R1005 is minimum the burst time is .03 seconds, 4.126 HIGH LEVEL AMPLIFIER. 3300, MIl
and at maximum it is 1 second. The BURST is
keyed on by the front panel ENABLE control. 4.127 IC1, Q5, Q6 are wide band amplifiers
R31, C14 differentiates the start pulse to a short capable of producing +10 dBm into 50 ohms
spike to properly trigger the timing unit, U14. over a frequency range of 20 MHz to 1000 MHz. See
One burst will be delivered each time the ENABLE Figure 6-34. Q1-Q4 are wide band amplifiers that
control is depressed. work over the range of 10 kHz to 20 MHz, capable of
producing an output of +10 dBm over this range. The
HIGH LEVEL AMPLIFIER, M11 OPTION two sets of amplifiers work in parallel to cover the
full 10 kHz to 1000 MHz High Level range of the in-
L 118 An available High Level Amplifier, MIl strument. The amplifier is switched on by applying
Option, has a typical uncalibrated signal +20V to pin 1 when the FUNCTION switch is in the
output level of -30 dBm to +10 dBm (7mV to 700mV) SIG GEN position and the HIGH LEVEL switch has
from .01 MHz to 512 MHz, with a maximum output been selected.
at 999.9999 MHz of >-7 dBm (100m V RMS). 4.128 WIDEBAND AMPLIFIER FUSE ASSEMBLY
3050, M11
4.11\J Change8 necessary are to add one switch
to the Front Panel, add High Level Amp- 4.129 Overload protection for the wideband amp-
lificr and Wide Band Amplifier Fuse Assemblies, lifier is provided on this circuit board,
uxchange HF Switch assemblies, and make changes Figure 6-32. Fuse, F1, and diodes CR1-CR4 protect
in cable cOlmections as shown in the Microwave the amplifier from excessive voltages which might
C ul:'ting Iuturconnuction Diagram, 3000, Figure 6-11. be applied to the output connector.

4-12 560 )"0065.°3

 CIM CE-4

1 KHz
1't-23.'I ~l ( 100 KHz. PLL OUTPUT)
50% T2 l
('taDO) ... 0 mV RMS

(2800)

TIME BASE 100 KHz 20% REF

.., ----,
I!!:~'!!:~'I f ~1;~~3~ Jlliz
TO MICROWAVE CASTING

120.00001-130 Jlliz (SIG GEN)

llQ.OOOOl-12Q ..... z CMOtHTOR)
5 .... 100 KHz';-N
SINE WAVE REFERENCE 2300
(22DO) DMDER 100 KHz
..00 mV RMS veo aDd PHASE DE T R.F. MIXER
2700 2500 2100
lOR:" •
'''DD) I It."
TO 211) I.F.
Jilliz
AN) DISCRIMINATOR

•
'tOO~y RMS
180 lilY RMS 125 Jll-!z:
+3dBm

1 KHz 20" REF T2 l

, _____________________ ~t+3dBm

100 t4iz
TO MICROWAVE CASTING

2' ~.DDD0-20. q""" fII4 z

100 mY RMS

;~tE~~~ __r....J.--'-, ~z 20
'''DD) I+---....----!:.f--~;..;:::::_-------+:.....~
~~i~-ir---L--r-J +3d8rn
( ....00) L--_e_-..l FREQUENCY MULTIPLIER
2200
UlLoa<
12
sr.
(2500) 5 ,",Z
SINE WAVE
FROM TIfIE MSE.
17.9-19 MHz MIXER
100 Hz
veo and PHASE DET 2400
2800 1--==:::...---4LK

100 Hz -:- N
C!!.ODO00-2.0qqqq JIb UOD Hz PLl OUTPUT) 100 mY RMS

11

2nd I.F.
DISCRIMINATOR ~-------"i--. STEP SELECT
(3100)
4600

>-----------t-- ~l~
M MOD SIG
('+aOO)
~---I+""" (::1100)
80%/500 mY

ATTEN
SIGNALS

r~~~~-------L.
SHN'ING
~~
VARIABLE MImOVAVE
TO
~TI~

A~.--~----~---~----_--------'
DISABLE
j:'ROM FUNCTION SWITCH Filii AlA)IO
:;> _j'f"ITCR) CALIS ("bOO) REF:20ImV RMS FM:lbOmV RMS

J.f~"DnN-U
2S KHZ/SDOmV
ATTENUATOR CONTPOL
3100

lEGEtIl:
R.F. SIGNAL PATH
_____ = CAL OR AM CR CW
I
--_.-._=
._.NIHIIU '" FM
MONITOR L.O. SIGNAL
FROM MICROWA.VE CASTING
TIP -20dam

Figure 4-2. C'E-4 Overall Block Diagram, Main Frame

4-13
5601··0065
CIM CE-4

FAECM.ENCY SELECTOR SVITQ£S

1D LINES

100~Z ____ ~ ______ ~

IF svnat
'-IIAI_ 3200

1-__+-(~.;;.;..TOR_)_""SYSlBl L.O. 10-.10"' ....." .-a

TO AF PLUG-IN
MIOOIA'JE MIXER

l.3IOO-
2200 JliZ L.O.
3500
o KHl-'I....... ~Z 10-1000
..H..... • JACt(
_I
~~s~= ::n~CT=OR:-t-------------------II---< (51G GEM X MIQWWLTS)
1300-2200.etZ PHASELOQIi

._.._......,._--_._......
3900

llqo...l3DO III1Z PHASELOO<.

3750 FROM ATTEI«»!.TOR CONTROL

Ucm-l300 flttZ OSCILLATOR

3700

VOLTAGE CONTROlLED ATTENlJATCR

3600
. . .~I---I--.. I
_ _ It

I
r -, ;'';';;';::1
::..::E=--_______+_....___l-__I-':.-.... •
L______--=R.::F;.• ..:S::...... """'LER I
i I
I I
L _ ;• ____ .JI

I
VARACTOR STEERING VOLTAGE - - - - -......
FROM JMINFRNIIE

..
DEY
REF

DETECTOR MR.IFIER

TO ATTENUATOR CONTROL4----4--<
Rf SIGNAL PATH ".- - - - -
3450
(PART aF LOW PASS FILlet fIOIIAD)

Figure 4-3. CE-4 Block Diagram, Microwave Casting

5601"0065"1
4-14
 CIM CE-4

SECTION 5
MAINTENANCE

GENERAL INFORMATION The same drawing is screened on the inside of the

bottom panel. The component identification drawings
5.01 This section of the manual is divided into on the inner leaf of the circuit board schematics
two parts: "Adjustment" and "Trouble- show the location of the adjustable components.
shooting". It is recommended that for adjustments
other than those described, the faulty sub-assembly 5.06 The fuses for the three regulated power
or the entire instrument be returned to Cushman supplies are on the rectifier board which
Electronics, Customer Service Department, for is mounted on the inside of the rear panel near the
calibration and alignment. Refer to paragraph upper left hand corner. The board is marked with
2.05, 2.06. the voltage to identify each fuse. The fuse for the
oscilloscope plug-in is mounted above the jack of
5.02 In the following discussions it is assumed the left hand plug-in jack panel. The main fuse is
that the technician is familiar with the mounted on the rear panel near the power cord and
operating procedures described in Section 3. is accessible from the outside of the instrument.

5.03 The instrument should be warmed up for 5.07 A board extractor and an extender board
30 minutes before any adjustment is at- are furnished. They are inserted in a
tempted. compartment in the bottom of the instrument. Be-
fore removing or inserting a circuit board, be sure
Access and Parts Location to turn off the power to the instrument.

5.04 Components in the top part of the instru- 5. OS All available adjustments in the center
ment can be reached by removing the side casting are accessible through the casting
covers. Each cover is held in place by six screws. covers and are appropriately marked.
The speaker leads must be disconnected before
the right hand cover can be removed completely. ADJUSTMENTS
Speaker leads should be secured so that they will
not short to the chassis. Stand the instrument on Equipment Required
its back to remove the bottom cover. This will
5.09 The following instrmnents or their equi-
expose all the circuit boards that plug into the
valent may be used.
chassis.
Oscilloscope HP IS0A
5.05 Figure 5-1 shows the location of the cir- Digital Multimeter HP 10004B
cuit boards in the bottom of the instrument. 20 dB Fixed Attenuator Weinschel 50-20

~,-----------------------------------~

I I I
J4008 4700 J4007

I
4800
I
4600
iii]
J4006
Eiii _iii]
4500 I
!~
I

I I p- ??l
,
4400 J4004 4300 J4003 I I
I I
I
E _i±J
0000* )4002 4100* J4001 TURN POWER OFF

FRONT OF
II BEFORE INSERTING
OR REMOVING
INSTRUMENT ~ PRINTED CIRCUIT
3100
I
2800
=-;J
J2008
I
2700
J
nOO7
III BOARDS

I
2600
I
J2006
!
2500
I
J2005
III
C====:3nOO4 I
II
i::~~
2400 2300

f I E 3
2200 J2002 2100

BOTTOM VIEW

Figure 5-1. Circuit Board Location

* With MIO Option installed, 0000 becomes 4900; 4100 becomes 0000.

5601"0065"1 5-1
CIM CE-4

40 dB Fixed Attenuator Weinschel move out of the way to reach rear ad-
Model 50-40 justments).
VHF /UHF Receiver CE-5 or CE-6A d. Recheck voltages after making ad-
with a 304 (B) or justments. Voltage may be between
305 (B) plug-in -0.3 and -0.5V, preferably close to
HP 8640 -0. 4V. Remove probe.
Signal Generator
Power Meter General Micro- 1190-1300 MHz Phase Lock Loop
wave 460B and
Power Head 5.12 Insert the XI0 probe through the lower
N422C hole in the center casting left rear cover
EIP 350C plate, marked 3750, and connect to the U-shaped
Electronic Counter
wire directly under the hole. Remove plug-in unit
Wide Band Amplifier HP 8447D to gain access to the hole.

Power Supply Voltages a. Set oscilloscope (or DMM) to IV DC

range and connect XI0 probe to os-
5.10 Remove the side covers of the instrument cilloscope input.
and measure voltages at the marked ter-
b. Set the 1 MHz frequency selector
minals on the left side of board 5100, which is
dial (third most Significant digit,
mounted on the rear panel. Adjustment controls
third from left) to zero for this adjust-
are adjacent to the terminals.
ment.
NOTE c. Switch the 10 MHz frequency sel-
ector dial (second most significant
The regulated power supplies are set to digit, second from left) through positions
within 20mV of the rated output at the 0-9 and observe voltage at each step.
factory. They should not be adjusted un-
d. Adjust the appropriate resistor on
less a voltmeter with greater accuracy
board 4800. See Figure 5-1. (Re-
is available.
move bottom cover and stand CE-4 on
its back). The adjustable resistors are
a. Measure the +20V with the DMM at
in order from back to front. Dial 0 is
terminal 15 (red wire). Adjust
adjusted by resistor toward rear and
R21 for +20V ± O. 02V.
dial 9 is adjusted by resistor toward
b. Measure the +5V at terminal 13 front.
(green wire). Adjust R17 for +5V
e. Adjust each dial position for a
± O. 02V.
reading of -0.4V on the DMM.
c. Measure the -12V at terminal 14 Voltage may be between -0.2 and -0.6V
(orange wire). Adjust R24 for but should be set to -0.4V as closely as
-12V ± O. 02V. possible. Disconnect probe.

1300-2200 MHz Phase Lock Loop step Attenuator

5.11 Remove plug button. Insert the XI0 5.13 Set monitor frequency to 150 MHz,
probe through the hole in the center FUNCTION to SIG GEN CW, Step Atten-
casting right rear cover plate, marked 3900, uator to +40 dB and Variable Attenuator full clock-
and connect to the U-shaped wire directly under wise.
the hole.
a. Connect a DC Voltmeter to the AGC
a. Set oscilloscope (or DMM) to IV output of a VHF/UHF receiver.
DC and connect XI0 probe to os-
cilloscope input.
b. step the 100 MHz frequency sel-
ector dial (most Significant digit
on left) through 0-9. Observe voltage
at each step.
c. Adjust the appropriate capacitor A poor VSRW in the receiver can cause
on the 3800 board for DMM reading large errors.
of -0. 4V DC. Holes on the cover plate
b. Connect the 20 dB fixed attenuator
over the 3800 board are marked 1. 3
to 2.2. The proper capacitor is 0.1 the between the receiver and the 0-1000
MHz output connector of the CE-4. Tune
dial setting plus 1. 3. Dial 0 Is 1. 3, dial
receiver to signal.
1 is 1.4, etc. (Remove four flat head
screws from bottom of plug-in tray and c. Note the signal level as indicated

5-2 5601"0065
 CIM CE-4

by the reading on the DC voltmeter con- to SIG GEN. Set CAL control to 12 0' clock position.
nected to the receiver. Make certain Set meter range switch to 1. 5 kHz.
that the receiver is not saturated. (20-
50J.tV input to receiver). a. Turn off the CE-4 and mechanically
adjust the FREQUENCY error
d. Switch the CE-4 step Attenuator to
meter to center zero. Place the 4600
+20 dB. Remove the 20 dB flxed
board on extender.
attenuator and connect the receiver to
CE-4 output. Adjust R40 (marked 20S) b. Turn on the CE-4 and adjust R53
on the 3100 board for the same level on the 4600 board (see component
reading as noted in step c. identification drawing on Figure 6-22)
for a zero reading on the FRE.'QUENCY
e. Reset CE-4 step attenuator to
error meter. Turn off CE-4 and replace
+40 dB, insert the 40 dB fixed at-
4600 board.
tenuator between the CE-4 output and
the receiver. Note the signal level as c. Turn on CE-4. Set FUNCTION
indicated by the reading on the voltmeter switch to SIG GEN FM. Set FM
connected to the receiver. CAL control to 2 0' clock position. Ad-
just L2 on 4400 board (see component
f. Set the C E-4 step attenuator to
identification drawing on Figure 6-21)
o dB. Remove the 40 dB fixed for a zero reading on the FREQUENCY
attenuator and connect receiver to CE-4
error meter.
output. Adjust R37 (marked 40S) on the
3100 board for the same level reading d. Set the CE-4 frequency to 50.0550
as noted in step e. MHz, set FUNCTION sV\>itch to
MONITOR, set FREQUENCY meter
Output Power Calibration range switch to 1. 5 kHz.
e. Set the signal generator (HP 8640B)
5.14 Set the C E-4 Monitor Frequency to 150
to 50.055 MHz and lock at this
MHz, FUNCTION switch to SIG GEN CW,
frequency. Connect signal generator to
Step Attenuator to +40 dB, Variable Attenuator to
the input of the RF plug-in in the Wide
-107 dBm. Band mode. Set plug-in SENSITIVITY
to WIDE. Adjust signal generator out-
a. Set the Signal Generator (HP 8640)
put until the CE-4 SIGNAL LEVEL light
for 150 MHz and -27 dBm output.
comes on.
Connect it to the Power Meter and note
the meter reading. f. Set FREQUENCY meter on the
CE-4 to zero with the CAL control.
b. Connect the Power Meter to the
0-1000 MHz output connector on g. Set the CE-4 frequency dials to the
the CE-4, using 40 dB fixed attenuator. following frequencies and the
Adjust R26 (marked CAl on the 3100 FREQUENCY meter range switch to the
board for the same meter reading as following settings: Adjust the indicated
noted in step a. control on board 4400 for a full scale
reading, either plus or minus, for each
Time Base Calibration range. (The signal generator must be
left at the locked frequency, 50.055 MHz).
5.15 Set the CE-4 Monitor Frequency to The first setting gives the minus full
900.0000 MHz, FUNCTION switch to scale reading and the second the plus
SIG GEN, Step Attenuator to +40 dB, Variable full scale reading.
Attenuator to -107 dBm.
CE-4 Meter Range Adjustment
a. Connect wideband amplifier (900 Frequency SV\>itch Control
MHz, 26 dB) to CE-4 0-1000 MHz
output. Connect counter to amplifier 50.0565 1. 5 kHz R4405, marked 1.5
output. kHz, adjust for (-)
full scale
b. Set counter for 900 MHz input and
observe frequency counted. 50.0535 1. 5 kHz Check for (+) full
scale ± O. 5 div.
c. Using a non-metallic adjusting
tool, adjust the trimmer in the 50.0600 5.0 kHz R4404, marked 5
crystal oscillator enclosure mounted on kHz, adjust for (-)
chassis just behind left plug-in tray un- full scale
til the counter display reads 900,000,000 Check for (+) full
50.0500 5.0 kHz
± 20 Hz. Remove counter and amplifier.
scale ± 0.5 divo
Frequency Meter Calibration 50.0700 15 kHz R4403, marked 15
kHz adjust for (-)
5.16 Set the C E-4 Monitor FUNCTION switch full scale

560 I" 0 0 6 5 5-3

 CE-4 Meter Range Adjustment 4-3 to trace signals through the instrument.
Frequency Switch Control
5.19 To further narrow down the area of
50.0400 15K Check for (+) full trouble, a high frequency oscilloscope
scale ± 0.5 div. such as the HP 180 series or equivalent, or a
frequency counter such as the EIP 350C or equi-
TROUBLESHOOTING valent may be used for signal tracing. The fre-
quencies and voltages into and out of the circuit
5.17 Before making extensive checks of boards are given in many cases on the block dia-
other circuits the power supply reg- grams.
ulated outputs should be checked according to
paragraph 5.10. 5.20 In the troubleshooting Table 5-1 some
front panel indications of possible troubles
5.18 Check the instrument in both Monitor are listed with the possible cause and the circuits
and Signal Generator modes to determine or boards that should be checked.
whether the trouble i.s confined to either mode.
Also check to see whether it is localized in either 5.21 If trouble is traced to the Microwave
CW, AM or FM. If another CE-4 is available, Casting it is suggested that the instrument
suspected boards may be substituted. In shooting be returned to Cushman Electronics, Customer
trouble, use the block diagrams, Figures 4-2, Service for repair. See paragraph 2.05, 2.06.

Table 5-1. Troubleshooting Chart

TROUBLE POSSIBLE CAUSE CHECK

1. CE-4 inoperative Main fuse Check and replace if necessary.

2. CE-4 inoperative Fuse on power supply Check and replace if necessary.
except oven light regulator board
3. Frequency Meter No -12V DC Check -12V fuse on rectifier board.
pinned, Signal Level
light on
4. No RF signal reception, RF plug-in Check for signal through plug-in, check
Signal Generation OK for proper squelch output
5. No Signal Generation, 40 dB attenuator fuse Check 40 dB attenuator
reception OK, CAL OK
6. No Signal Generator 10 MHz modulator Check 10 MHz outputs from 10 MHz board,
FM or CW, no CAL, 4400
reception OK
7. No CW Signal Gener- No 10 MHz output from Check for 10 MHz output from Reference
ation, FM Sig Gen OK Reference Divider Divider board, 2700
8. No FM Sig Gen, CW VCO on 10 Hz Modulator Check VCO output at board pin J4004-U
Sig Gen OK board
9. No CAL, no SIG GEN, Reference Divider board Check board 2700 for proper outputs and
no reception, unlocked or Time Base input.
light on
10. Frequency meter Second IF and discriminator Check 9.9 MHz to board 4600, check di::<-
pinned in CAL or Sig criminator input and output.
Gen. SIGNAL LEVEL
light on
11. SIGNAL LEVEL light RF plug-in Squelch misadju ::;tor!.
on. No RF in. Fre-
quency meter pinned
in MONITOR
12. Unlocked light on, Unlocked light logic Check unlocked light circuits on 2500 board.
but C E-4 appears or pulse stretcher
to work OK

5-4 5601"0055
 CIM CE-4

SECTION 6
SCHEMATIC DIAGRAMS

Schematic Diagrams sembly Number. The PC Board number is etched

on the board. See Cross Reference Table 6-1
6.01 The following schematic diagrams have below.
been arranged in order according to the
Circuit Reference Series numbers. Refer to para- 6.02 Component identification drawings show-
graphs 4.02 - 4.06. Each schematic diagram is ing the location of the individual components
identified with this number. The circuit boards in on the circuit board are placed on the facing sheet
the instrument are marked with an identifying As- of the schematic diagram to which they apply.

Table 6-1. Printed Circuit Board and Circuit Reference Numbers Cross Reference

Ckt. Bd. Ckt. Assembly Fig. Page

No. Circuit Title Ref. No. No. No. No.

1780-0264 17. 9-19 lVIHz Mixer 2400 7001-0165 6-6 6-13

1780-0271 1190-1300 MHz Phase Lock 3750 7001-0158 6-18 6-35
1780-0274 1300-2200 MHz Phase Lock 3900 7001-0160 6-20 6-39
1780-0275 Voltage Controlled Attenuator 3600 7001-0156 6-16 6-31/6-32
1780-0278 1300-2200 MHz Oscillator 3800 7001-0159 6-19 6-37
1780-0281 RF Switch 3200 7001-0401 6-13 6-26
1780-0283 Microwave Mixer 3500 7001-0155 6-15 6-29
1780-0288 Power Supply and Regulator 5100 7001-0168 6-25 6-49
1780-0297 Frequency Multiplier 2200 7001-0147 6-4 6-9
1780-0299 100 kHz Divide-by-N 2300 7001-0144 6-5 6-11
1780-0737 40 dB Attenuator ---- 7001-0430 6-27 6-51/6-52
1780-0312 1000 MHz Low Pass Filter 3450 7001-0154 6-14 6-27
1780-0314 1190-1300 MHz Oscillator 3700 7001-0157 6-17 6-33
1780-0517 Attenuator Control 3100 7001-0402 6-12 6-25
1780-0523 AC Filter 5200 7001-0415 6-26 6-50
1780-0525 Second IF/Discriminator 4600 7001-0400 6-22 6-43
1780-0528 Reference Divider 2700 7001-0399 6-9 6-19
1780-0707 100 Hz VCO and Phase Detector 2800 7001-0375 6-10 6-21/6-22
1780-0708 100 Hz Divide-by-N 2600 7001-0376 6-8 6-17
1780-0709 RF Mixer 2100 7001-0377 6-3 6-7
1780-0710 10 MHz Modulator and Switch Logic 4400 7001-0442 6-21 6-41
1780-0711 Audio Amplifier and Variable Control 4800 7001-0379 6-23 6-45/6-46
1780-0712 100 kHz VCO and Phase Detector 2500 7001-0380 6-7 6-15
Front Panel Interconnection Diagram 1000 6-1 6-3/6-4
Microwave Casting Interconnection Diagram 3000 6-11 6-23
Main Chassis Interconnection Diagram 2000/4000 6-2 6··5
Rear Panel Interconnection Diagram 5000 6-24 6-47
1780-0711 Audio Amplifier and Varactor Control M10 4800-M10 7001-0416 6-29 6-55
1780-0713 Switch Mounting M10 1100 -M10 7001-0382 6-28 6-53
1780-0714 Frequency Synthesizer M10 4900-M10 7001-0383 6-30 6-57/6-58
Tone Generator Interconnection Diagram M10 6-31 6-59
1780-0263 Wideband Amplifler Fuse Assy Mll 3050-Mll 7001-0455 6-32 6-60
1780-0281 RF Switch Mll 3200-Mll 7001-0152 6-33 6-61
1780-0516 High Level Amplifier Mll 3300-Mll 7001-0263 6-34 6-62/6-6:~

5601··0065 6-1/6-2
 THIS PAGE
INTENTIONALLY
LEFT
BLANK
 CIM CE-4

........... --d--Ql_J

~-~g~,

"~- "
• ''IOOO-L
lILoacED
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I - ..ooo-s
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NOlIS:
1. ALL SVITOES lIE. SHDWN IN QI POSITION Ale) AM: V1lVED FAIIl THE REM.
'\l
.--1 SIGtW. GBEMTOR LEVEL

z. THE~ A SHIELDED CADLE. ALL WIRES WITH .,.. SAllE JUeER IN THE
-. _ 1IIE SAllE HELD. I v~~O:-:ZMa
....
.. fz=
~
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57-6'1

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~
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512
....,
$?-Ill
la2DDl

JJ1Dl-7
1...-_ _ _ _ JllO.....
TTP POT AND SVITCH TEllUNM. LOCATION

Figure 6-1. Front Panel Interconnection Diagram, 1000

6-3/6-4
5601"0065"1
 THIS PAGE
INTENTIONALLY
LEFT
BLANK
 ClM CE-4

~
WT511r,
GND

wr L/ 7810
JZ-J /0
C/ 2'127
1000"_

J7 C2.
::r:
1000",_
22.
2/1-~~- J400(,-21
r8/
+20 V 20
~--+l- 5100/-134. 1'1
L4-
4-
-/.2vr83 , , Sloa/.CIO 18
2.'/2 T
+20VTBI ~ ':5100./.2. 17
1"- 1r.+--f'-l-v400-f.-C
15 )(1J5Ioo4--2 W 15 J40o-f.-P ~/012:-2n"
+20V SW 7.8'1
-12 V
14- 14 J5-S 5 Z ..)4008-7
13 13 WTI4 4- 0 LS
121-----+'- 5/003-
810
It. 12. 783 €iNlJ 470
X1)51001-11
10VIN ON
XDSI 01-13
I 1/ M " t-----H-
I"
, 5/003-
FlO
1/ II -12V
J12
5 ';400~-/5
SQi/E£C,<f.
10 L 10 II 10 /0 TO CAsrING-,eEAIf:
I' SI()()5-
'11------;-11- q 9 J14
9 K A5
8 J 8t-----H- I, 51005-
8 8 i..0. ro p. '" P('i/~-IN
.sit
J3002.~
7 H 51005- 7 7
D~ J'1-8
~
F HR-----, 5/065- (# ~
c~
10:>
S€ 5 JiZ-5 III '0 5
5/003- ~i-
4 V+----t--' "15
4- 4 ,)4008-'-
3
:51003-
82-
5/003- 3 I 3
%>4> 2- 2
Sloo3-cil
TJEVIATl6N PLUG-IN I TBIOOI-I ~tJIOI2.-1
J4-00B-21
..14004-15
2500 2700 T810-:3 2 T.810-1 J12-3
')400(,-/7. T88 ..13101-1< T810-4-
T8(, XDSIOO":,-/ T8'Z. J3101-J
+SV
12. _ _ _ W________ _ - - -V - - - - - - - - - - - - ,
WTI003 +20V T84-
-12.

J6 J8
r- ~4006 J4008 I
I 4000
ZZ 22
21 I J7-21 21
rB7
+5V
20
Iq Wl----+-.
20 20 I 20 J3-2
1'1
18 V
1'1
18
/'1
18
I 18 V 51010-3 18+--------'
J13-7 ..13-3
-';13
JlYPll 17 U 17 17
I 17 u s/Q/O-S T88 +ZoV 17 -k';,~

8= I TB'1
II, T If, I~ -12V If> T f-----Fi- SI007-AIO IIJ~----++- 1</002-/
..J4004-W t---r-:-L-=_ ..I 3101- 3
15 5 15
14
/5 15 I +20Y
TSB
15 51----;'-+-' 51170"-5
14 R ,: JI003
2. J4004-Y 14 R 14- SI007-AB R
15 13 13 I P J7-I 5 1 h /3 P f-----.;,:.-- S/007-A7
.3
12 /2. I 13
IZ N ,! W 12 N J4004-..... t
70 CASTING-FRONT
1/ I /I M tt MI------..J.:!.....
10 10
T84-I2.V
I 10 L
q K 1-----'--+'-
I I L - J7-4
J-f.004-Y 9 9 I
rSIP <fSY
8 8 8 J \_,I
7 J4008-V 7 7 I 7 H~ ________ ~

& ~ ~ 782. I (. F" J4008-N

5 5 5 +20V I 5 E 210038-2.

4- 4-
R4.~~~EJI3-1
J4004-8 4
3 3
2-
3
2
III 3 C
2
J7-/~
13 J4-4.
JIO-II
p~C~~~~~d.-0
2 13 .. 51

-----4-4~0!L-------~80~J ~ ~
I I
2800 L____ 4:0;
TIS I ..12-11 J3101-10/L Vi
J8-.s·--""'~ ""' 13
<18-8
NOTES: 1. THE\7DENOTES A. SHIELDED CA8lE. ALL VIRES TBa
WITH THE SAME Nl.JeER IN THE '\l ARE UNDER -+ 20 Y
TIE $ME SHIELD.

Figure 6-2. Main Chassis Interconnection Diagram, 2000/4000

5601""0065 6-5
 elM CE-4

. . FBRRlTE 8EAD ON COLLECTOil OF Q3

. ,

Figure 6-3. R. F. Mixer Assembly. 2100

6-6
 CIM CE-4

PI
r--------------------------------------------------------------------1I
lJ 2001
LI /..8
~G ~G I
7S2001 C/9 PI/J2001
-f20V c4- ell .ooa
:t .ooa . .002. J. 121
2.7K ± czo
55-18p!!
,...--------MIX€Ii:----------, t+-+---;~ J 3005
11'1-130 Mllz.
:fr
R9 ......_--....,~ WT2001
51 GiND

T!
CIS
.002.

71
7ifzT
L.I_ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ 119-/30 M/oI;a FIL TER/ A M P L / F / E R - - - - - - - -.....
T4-
7'1zT

J 2005-7---1'-+.-1 P I--_~
14'23.'1MHZ Cf C5
:J;IOOpf J. IOOpfl

~-i -
TS 2001 K
+zoV t..~ C31
C3 ~FCG C24- RIO
I.BK Ii? 15 J. .002.
.ooz. J J..OO2. /.8K

C32.
WTZ002 A CZ5 .1,~"2.
J.,OO2.
':" Rlf
CZv 4.7K
CSl.tf.
3.'3p{l 2N4121

ClZ C'Z7
I opop
IOp{J

I2IZ
1<17
1.5K i...1!f 1.2K
Ll7h
125 Mllz-b:+-I B ,S ICFc8 RFCt:,J
7'12 T T8Z003

J20D4·tl---l'-+~ t=
Z

1----------------------'
C?4
,oo.a 1 1.. C37
002
-12Y

17.9-18 104Hz
111.9-/9 MHz
H I
L..------MIXE'IZ.-------------I ' - - - - - - - - - - - - - - - - / 4 2 , 9-/4 4 MH~ FIt. TEZ/ A M P t . I , c / F R - - - - - - - - - - -_ _~
I
1 . . I
L _____________________________________________________ ----~

NOTE:
1.RESISTORS - lI'W. 5lI. VALUES IN OHMS UNLESS OTHERWISE NOTED.
2.CAPACITORS - VALUES IN ~F UNLESS OTHERWiSE NOTED.
3.INDUCTORS - VALUES IN ~H UNLESS OTHERWISE NOTED.
•• 'FACTORY SELECT. TYPICAL VALUE SHOWN.
5. ALL VOLTAGES ARE DC UNLESS OTHERWISE NOTED.
[ ; ] RFC IS FERROXCIIIE II\<ZOO-i!II'tI Z lIZ T OR EQUIV_

G FERRITE BEAD

Figure 6-3. R. F. Mixers, 2100

5601"0065"2 6-7
CIM CE-4

Figure 6-4. Frequency Multiplier Assembly. 2200

6-8
 CIM CE-4

1-' - ---------------L------------- i
I 11'".-----5MH& Pt.lL'3£ AMPLiFIER - - - - - -..... *1.0---------- 2.0 MHz. AI1PLIFIEIi' .1. IOOI1Hz AMPLlFIEIi' ·1 I
PI/J2002
~ I
C3!fJ R~I I
loOZ 'I.7K
I
R'f9 I
,.0
L3 RJI
10K
220
• aDZ.
I
TS200Z
+20Y
Rf Ifl'f CJ.O Rlf R23
LI
180
10K 10K I..OI IK 220
.1300(0
IOOMHz.
C7B

TOI
cz R2
2.2/( .f .01

J C'f
30,r
RIb
10K
R2.0
'f.7K 1..2'1
0.5&
J2004
~-~----_4~~----------------------------------------------~~~~_;B 20MIIL
R;!'I 032
5'-1) T·r;)!
WTzoo4
GND
R3<f
RIO 1f/2 'f.7K
10K 10K

JfoOI'"B
IZ5I111H~

D~--------------_4~~~~--------~------------------~----------~----------~
CII R"f7
X·OI II< II(
1.7K
I
T8Z004
w ~--------------------------------------------------------------------------------------------------~Yn~r_~----------+-----------~----------~~----~~R~'1S~r-~ 1
-It V ..... C39 5"" • C ,"5
J.002 I·ooz 1

I
1

I
,,1.>----------- 2$ I-fH,.. AI'1PI.IFIER _ _ _ _ _ _ _ _ _ _ _ _ _ _--0.+1........- - - - - - - - - - - - - 125 MHz. AMPL.IFIER ------------~--~·I I
.'
NOTE:
1.
2..
1.
RESISTORS .. lIWo S'I. VALUES IN OHMS UNLESS OTHERWISE NOTED.
CAPACITORS .. VALUES IN I'F UNLESS OTHERWISE NOTED.
INDUCTORS .. VALUES IN ",H ~LESS OTHERWISE NOTED.
* r~O 7'~A.1i I;,. Stt;lfe- /?Olf· ,()e·7,,~e /&/W#t:
(SB- ~3) W f.~::P i
COIVlVtftl i ;J.Stt";/{f; &.a..
-----~

"TVA-IT I'J-etl/- f$1( - 9/3 - q,f" - 91'1 q a. '10 7b

It. -FACTORY SELECT. TYPICAL VALUE SHOWN ..
5. ALL VOLTAGES Nt£. DC ~LESS OTHERWISE NOTED".
•• PINS l·TIfIIj ... ME .......... :"SlGIW.ON LOrE" P'NS ONLY.
&, IIDJC1'CIR5-o'FC FEIIlGXClIIE ~/'Ie 2-112 1\.RM5 IN..ESS N0.1 5N74t>C
TVPG~
().)f?d .d/~;.. 7 6~t77()JV/()(I?V/.LJ;VON(J4~
OTHEINISE NOTED. Ie
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5601"0065"3 6-15
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5601"0065"2 6-21/22
 THIS PAGE
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Figure 6-12. Attenuator Control, 3100

5601--0065-·3 6-25
 elM CE-4

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Figure 6-13. R. F. Switch Assembly. 3200

5601"0065 6-26
 CIM CE-4

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Figure 6-14. 1000 MHz Low Pass Filter. 3450.

5601'·0065 6-27
ClM CE-4

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Figure 6-15. Microwave Mixer. 3500

6-28
 ClM CE-4

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Figure 6-15. Microwave Mixer. 3500

5601··0065 6-29
elM CE-4

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6-30
 CIM CE-4

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Figure 6-16. Voltage Controlled Attenuator. 3600

5601 00 0065 •• 1 6-31/6-32

 THIS PAGE
INTENTIONALLY
LEFT
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 CIM CE -4

Jl
6 -3700
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TOP SIDE

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Figure 6-17. 1190 MHz - 1300 MHz Oscillator. 3700

6-33
ClM CE-4

WHITE DOT

Figure 6-18. 1190 MHz - 1300 MHz Phase Lock Assembly. 3750.

6-34
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5601"0065"2
6-35
CIM CE-4

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6-36
 CIM
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5601··0065 6-37
T/~----·--~_a.----------r---------

ClM CE-4

tIlTE: [!] FACTaRY SELECT '1ALlF REMOVED AFTER TESTlNL

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6-38
 CIM CE-4

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It. .FACTOAT S(UCT. TYPl~ 'oI...... UE SHOWM. 3, S.'- N555/3V
s. "-LL .... OL TAGES ARE DC UNLESS OTHERWISE NOTED.
4- 74.1

Figure 6-29. Audio Amplifier and Varactor Control, 4800-M10

5601"0065"2 6-55
CIM CE-4

Figure 6-30. Frequency Synthesizer Assembly. 4900 - M10

6-56
 CIM CE-4
r-----------------I
I I M.S.?).
I +5Y L.S.D.
L_ -PI/ J400Z. - - - - - - - - - - - F - E - J - H - - - - - - M - - L - P - N - - - - - - s - - f < - r - U - - - - 5 - - - - - - - ' - 7 - - - - - - - 1 - 8..... - .
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.' 1.. RESISTORS - 1"'11, S1. VALUES IN 0tIItS lIIlESS OlHERWISE ~TJ,:o...
2. CAPACITORS - VAlUES IN "F UNlESS OTHERWISE NOTED.
3. INDUCTORS - VALUES IN IolH I.I4.ESS OTHERWISE NOTED. I A
'too ·FACTMY SELECT.. TYPICAL VAt.UE SHOWN. 7 N DN 7lf
5. ALL VOlTAGES ARE DC UNLESS OTHERWISE NOTED. 1 7 I. I IN ,"/, I oS
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1
IZ
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II BOTTOM VIEW OF G/2
13,15"
T4 NT 145.5 . 8 I

Figure 6-30. Frequency Synthesizer. 4900-M10

5601'.0065 6-57/58
 THIS PAGE
INTENTIONALLY
LEFT
BLANK
 eLM CE-4

r-...
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(GND)

r- 22 2120 11 15 1. 17 1 13 14 10 9 11 12 6 1 I 7 647131 2 1-~ 1 2 3 4 1-1

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,
I
lerrl
MtJDLlJ.,E ASSY-
CW TONE GEN6A.Aro~

Figure 6-31. Tone Generator

Interconnection Diagram. CE-4 MIO

5601 0065'.2
6-59
00
 CLM CE-4

D( +8ffil r:l
CRl

cdJ
Jl
I Fl ,ltJlh
~ J2

(BOeR.. )ltJ

,-----
I
I
J 3 00/ /P300/ ~--r-~~~---4-----<1 p-____. -______~--~~~~--__~-~P/005/J/OO
0-2ooMH
I
CR4- I
I P/)700
I
I
--~
NOTE:
1. RESISTORS - 1/~W, ~ VALUES IN OHMS UNLESS OTHERWISE NOTED
2. CAPACITORS - VALUES IN ~F UNLESS OTHERWISE NOTED.
3. INDUCTORS - VALUES IN ~H UNLESS OTHERWISE NOTED.
~. -FACTORY SELECT. TYPICAL VALUE SHOWN.
s. ALL VOLTAGES ARE DC UNLESS OTHERWISE NOTED.

Figure 6-32. Wide Band

Amplifier Fuse Assembly. 3050-Mll

5601"0065
6-60
 ClM CE-4

(
o Ll

~ __I®
( L3 J@~-~

c 3005 3 t-----------'
LI
RFC C3
-, I
I
C6 II
I 220 P F .

C 300.3 I
I r---4I. . .- -......-

2.
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. . .- ......- - - .

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~/w NA i.
Go ENE£ A Tali!
OUTPUT ,OW LEVEL
\/3003

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c 3004-

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I.
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--.----i....---1~-.... c_"
'----fl. . . 'J. 5 YS TEM L .0. ov;puT
6-8 v3002.

--::--+-~
NOTF.,c
1. RESISTORS - 1/4W, 5% VALUES IN OHMS UNLESS OTHERWISE NOTED.
2. CAPACITORS - VALUES IN ",F UNLESS OTHERWISE NOTED.
3. INDUCTORS - VALUES ",H UNLESS OTHERWISE NOTED.
4. *FACTORY SELECT. TYPICAL VALUE SHOWN.
5. ALL VOLTAGES ARE DC UNLESS OTHERWISE NOTED.
It. ALL DIODES II'fBItOl

C8 tIOTUSED

Figure 6-33. RF Switch.

3200-Mll

5601··OO~5··1 6-61
ClM CE-4

NOTE: rJ:I
L.:.:J FACTORY SELECT.

Figure 6-34. High L evel Amplif'ler Assembly. 3300 - MIl

6-62
 CIM CE-4

1------------------------------,-------,
I I
I I
I L2' I
I 2'/2T ~~ I
'law
C3~OI
+20VSW C2. C4-
I 1'0/ CB
IOOOPP
J;.o/
I
I
I C(., ,.....,.""',......4II--I\N\I......- - - . . . - - - - - H - - - - , . . - - - - K '21~f-.-4- 1.1300/
I ,0/ I ~3 K4- ezo 0- IOOON/HZ
330 150 NIGH ~EV£"L.
IOO~
I OUTPUT
C7
Ili/ ,01
J320/~~--~+-...._-------+------------~
0-/0"0 MHz CI'f
INPUT 115
I 15() .01
I 'lew
I
I CIS
I .0/
I RIO
IK
I 1/8111
Cl5
I 10
('
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I 0.15

I
I
I
I
I
IL ___________________' _________________ _

C~ N~i USED

Figure 6-34. High Level Amplifier. 3300-Mll

5601"0065"1 6-63/6-64
 THIS PAGE
INTENTIONALLY
LEFT
BLANK
 CIM CE-4

SECTION 7
PARTS LISTS

GENERAL ORDE RING PARTS

7.01 The Parts Lists in this section are given 7.03 To order a replacement part from the
in reference designator order beginning Parts List, contact the Cushman Elec-
with the lowest numbered Assembly, continuing tronics Customer Service Department or the
through the highest numbered Assembly, and nearest regional Service Center. Always indi-
ending with the Assemblies used in the various cate the Cushman stock number, a description
modifications. Individual components on the of the part and the quantity required.
Assemblies are listed by reference designator in
alpha-numeric order. 7.04 To order a part or item of hardware
not shown in the Parts List, give the
7.02 Each Parts Lists consists of the circuit Instrument model and serial number, a descrip-
reference designator number, a descript- tion of the part and its function and the quantity
ion of the assembly or component, the Cushman required to the Cushman Electonics Customer
Electronics stock number, the manufacturer's Service Department or the nearest regional
name, and the manufacturer's part number. Service Center.

5601"0065'°2 7-1
 CIM CE-4

Front Panel, 1000

CKT. REF. DESC RIPTION CE STOCK NO. MFR. MFR. NO.

1000 Panel Assy, Front 7003-0112 Cushman

DIODES

CR1 Diode, red, light emitting 1281-0113 Dlaloo 559-0101-001

CR2 Diode, red, light emittlng 1281-0113 Dlaleo 559-0101-001
CR3 Diode, red. light emitting 1281-0113 Dlaleo 559-0101-001
,
PANEL LIGHT

OSl Lamp, Oven On 2900-0007 Dialeo 507-4537-1437-640

CONNECTORS

J1 Conn, BNC Jack Rect. Panel Mt. 2536-0010 Kings KC79-35

J2 Conn, BNC Jack Rect. Panel Mt. 2536-0010 Kings KC79-35
J3 Conn, BNC Jack Rect. Panel Mt. 2536-0010 Kings KC79-35

METER

M1 Meter, Frequency w/Bezel 1402-0018 Cushman

RESISTORS

RI/S2 Pot, 10K, 20%, Aud Tpr Cmrsn Dpst 1203-0084 CTS Brnev LM2903A FR-027-45-8D
R2 p/O S7
R3 Pot, lK, 500K, Linear Dual 1204-0003 Allen-B r8LUey JJC91400C
R4/s12 Pot, 2.5K, 20%, 1/2W w/Spst 1203-0053 CTS Brnsv GC321 X4P1385
R5 Res, 150 Ohm, 5%, 1/4W Comp 1066-1515 Allen-Bradley CB1515

SWITCHES

Sl Switch, Rotary 2 Pole 10 Position 1851-0074 Cushman

S2 p/o R1
S3 Switch, Rotary 5 Pole 10 Position 1851-0101 Cushman
S4 Switch, Toggle Spdt 1850-0008 C&K 7101
S5 Switch, Rotary 5 Pole 10 Position 1851-0075 Cushman

S6 Switch, Lever 1851-0063 Cushman

s7/R2 Switch, Rotary Cnctrc 4 PI 5 Pos Pot 1851-0104 Cushman
S8 Switch, Rotary 4 Pole 10 Position 1851-0105 Cushman
S9 Switch, Rotary 4 Pole 10 Position 1851-0105 Cushman
S10 Switch, Lever 1851-0063 Cushman

Sl1 Switch, Rotary 4 Pole 10 Position 1851-0105 Cushman

812 p/o R4
S13 Switch, Rotary 4 Pole 10 Position 1851-0105 Cushman

-.
5601··0065·'2
7-2
 CIM CE-4

Main Chassis, 2000/4000

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2000/4000 Assy, Main Wiring 7030-0142 Cushman

CAPACITORS

C4001 Cap, 1000PF, 20%, 500V Feedthru 1005-0008 Erie 357-001-X5UO-102M

C4002 Cap, 1000PF, 20%, 500V Feedthru 1005-0008 Erie 357-001-X5UO-102M
C4003 Cap, 1000PF, 20%, 500V Feedthru 1005-0008 Erie 357-001-X5UO-102M
C4004 Cap, lOOOPF, 20%, 500V Feedthru 1005-0008 Erie, 357-001-X5UO-102M
C4005 Cap, lOOOPF, 20%, 500V Feedthru 1005-0008 Erie 357-001-X5UO-102M

FUSE

F2001 Fuse, 2/10 Amp 1955-0009 lBussman MDL 2/10

CONNECTORS

J2001 Conn, 44 Pin Double Row Female 2535-0023 Viking 2VK22D/1-1

J2002 Conn, 44 Pin Double Row Female 2535-0023 Viking 2VK22D/1-1
J2003 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1
J2004 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1
J2005 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1

J2006 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1

J2007 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1
J2008 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1
J2009 Socket, Oct.al 2605-0001 Cinch Jones 8 EM
J2010 Conn, 24 Pin Female 2535-0020 iAmphenol 25-190-24

J2011 Conn, 3 Pin Mini Receptacle Housing 2535-0035 Molex 03-06-1032

J2012 Conn, 6 Pin Mini Receptacle Housing 2535-0049 Molex R03-06-1061
J2013 Conn, 24 Pin Female 2535-0020 ~mphenol 25-190-24
J2014 Conn, BNC Push On 2536-0039 ~ecialty Co. 28JS140-3

J4001 Not Used

J4002 Not Used
J4003 Not Used
J4004 Conn, 44 Pin Double Row Female 2535-0023 Viking 2VK22D/1-1
J4005 Not Used

J4006 Conn, 22 Pin PC Bd Female 2535-0018 Viking 2VK22S/1-1

J4007 Not Used
J4008 Conn, 44 Pin Double Row Female 2535-0023 Viking 2VK22D/1-1

INDUCTORS

L4001 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B

L4002 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L4003 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L4004 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L4005 Choke, 47 OJ.LH , 5% 1585-0019 Delevan 2500-12

SPEAKER

LS2001 Speaker 1715-0003 ~uam 74-6248

CRYSTAL

Y2001 Osc, Ovenized, 5 MHz 2001-0002 Cushman

S601""006S 7-3
 ClM CE-4

R. F. Mixers, 2100

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2100 PCB Assy, RF Mixers 7001-0377 Cushman

PC Board 1780-0709 Cushman

CAPACITORS

C1 Cap, • 002~F, 20%, SOOV Disc 100S-0003 Erie 831-596-ZSU-202M

C2 Cap, 100PF, S%, SOOV Mica 1002-0011 Elmenco DM15-F-101J
C3 Cap, • 002~F, 20%, SOOV Disc 1005-0003 Erie 831-S96-Z5U-202M
C4 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie' 831-596-Z5U-202M
C5 Cap, 100PF, 5%, SOOV Mica 1002-0011 Elmenco DM15-F-101J

C6 Cap, 2-8PF, 350V Vert Trim 1001-0004 Erie S38-002A-2-8-89A

C7 Cap, 1.5PF, .25PF%, SOOV Tub. 100S-0041 Erie 301-000-COKO-1S9C
C8 Cap, 12PF, S%, 500V Mica 1002-0017 Elmenco DM1S-C-120J
C9 Cap, 1. SPF, .2SPF%, SOOV Tub. 1005-0041 Erie 301-000-COKO-1S9C
C10 Cap, 15PF, 5%, SOOV Tub. 1005-0010 Erie 301-000-COGO-150J

Cll Cap, • 002~F, 20%, SOOV Disc 1005-0003 Erie 831-S96-7.5U-202M

C12 Cap, 2-8PF, 350V Vert Trim 1001-0004 Erie S38-002A-2-8-89A
C13 Cap, 15PF, 5%, SOOV Tub. 1005-0010 Erie 301-000-COGO-1S0J
C14 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-S96-Z5U-202M
CIS Cap, 9-3SPF, 200V Vert Trim 1001-0006 Erie S38-002-94D

C16 Cap, • 002~F, 20%, SOOV Disc 100S-0003 Erie 831-596-Z5U-202M

C17 Cap, • 002~F, 20%, SOOV Disc 1005-0003 Erie 831-596- Z5 U-202M
C18 Cap, • 002~F, 20%, SOOV'Disc 100S-0003 Erie 831-S96-Z5U-202M
C19 Cap, • 002~r, 20%, SOOV Disc 1005-0003 Erie 831-596-Z5U-202M
C20 Cap, 5. 5-18PF, 350V Vert Trim 1001-0008 Erie 538-002A-5.5-18

C21 Cap, 3. 3PF, .25PF%, 500V Tub. 1005-0011 Erie 301-000-COJO-339C

C22 Cap, 10PF, 5%, 500V Mica 1002-0016 Elmenco DM15-C-100J
C23 Cap, • 68PF, .25PF%, 500V Tub. 1005-0039 Erie 301-000-COKO-688C
C24 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M
C25 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C26 Cap, 3. 3PF, .25PF%, SOOV Tub. 1005-0011 Erie 301-000-COJO-339C

C27 Cap, 10PF, S%, SOOV Mica 1002-0016 Elmenco DM1S-C-100J
C28 Cap, • 002~F, 20%, SOOV Disc 1005-0003 Erie 831-596-Z5U-202M
C29 Cap, 24PF, 500V Mica 1002-0051 Elmenco DM15-C-240J
C30 Cap, 5PF. • SPF%, SOOV Mica 1002-0028 Elmenco DM15-C-050D

C31 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C32 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C33 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M
C34 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C35 Cap, 24PF, 5%, 500V Mica 1002-0051 Elmenco DM15-C-240J

C36 Cap, 5PF, .5PF%, 500V Mica 1002-0028 Elmenco DM15-C-050D

C37 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-S96-Z5U-202M

DIODES

CR1 Diode, HPA2800 1283-0001 HPA 5082-2800

CR2 Diode, HPA2800 1283-0001 HPA 5082-2800
CR3 Diode, HPA2800 1283-0001 HPA S082-2800
CR4 Diode, HPA2800 1283-0001 HPA S082-2800
CR5 Diode, HPA2800 1283-0001 HPA 5082-2800

CR6 Diode, HPA2800 1283-0001 HPA S082-2800

CR7 Diode, HPA2800 1283-0001 HPA 5082-2800
CR8 Diode, HPA2800 1283-0001 HPA 5082-2800

5601"0065
7-4
 CIM CE-4

R. F. Mixers, 2100 (cont)

---
CKT. REF. I
I
DESC IUPTION CE STOCK NO.
.-
MFR. MFR. NO.

· INDUCTORS
I,
L1 ! Choke, 2 1/2 Turns Wide BaM 1586-0003 VK 20020/4B
L2 • Choke, .33J.lH, 5% 1585-0052 Delevan 1535-04
L3 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L4 Assy, Coil Variable 3 1/4 Tum 1596-0052 Cushman
L5 Assy, C oil Variable 3 1/4 Tum 1596-0052 Cushman
,
I L6
L7 !
Assy, Coil Variable
Choke, • 15t.tH, 20%
3 1/3 Tum 1596-0052
1585-0048
Cushman
Delevan
! 1537-00
L8 i Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
I 1
L9
L10
I

i
Assy, Coil Variable
Assy, Coil Variable
4 3/4 Tum
3 1/4 Tum
1596-0062
1596-0052
I
,Cushman
ICushman
i
Lll ; Assy, Cuil Variable 3 1/4 Tum 1596-0052 Cushman
L12 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L13 · Choke, U-250 Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L14 · Assy, Coil Variable 13/4 Tum 1596-0051 Cushman
L15 i Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B

L16 ,Assy, Coil Variable 1 3/4 Tum 1596-0051 Cushman

L17 Choke, 2 1/2 Turns Wide BaM 1586-0003 VK 20020/4B

· TRANSISTORS

Q1 Trans, 2N3563 1272-0022 Fairchild 2N3563

Q2 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q3 Trans, 2N4121 1272-0023 Fairchild 2N4121
Q4 Trans, 2N4121 1272-0023 Fairchild 2N4121

RESISTORS

R1 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725

R2 Re5, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R3 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R4 Re8, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R5 Res, 2.7K, 5%, 1/4 W Comp 1066-2725 Allen-Bradley CB2725

I
I
R6 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R7 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
i R8 Res, IX, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R9 Res, 51 Ohm, 5%, 1/4 W Comp 1066-5105 Allen-Bradley CB5105
I, RIO Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825
I

I Rll
R12
R13
Res, 4.7K. 5%, 1/4W Comp
Res, 1. 5.K, 5%, 1/4W Comp
Not lfsed
1066-4725
1066-1525
Allen-Bradley
Allen-Bradley
CB4725
CB1525

,1, R14
R15
Res, 4. '"i Ohm, 5%, 1/4 W Comp
Ile.s, 1.8K, 5%, 1/4W Comp
1066-0001
1066-1825
Ohmite
Allen-Bradley CB1825
i
I
I
R16 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-Bradley CB2225
I R17 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
,)
I
j TH.A.NSFORMERS
I

I 1'1
1'2
Assy,
Assy,
Transformer Bifilar Toroidal
Trifilar Coil
1579-0025
1579-0017
Cushman
Cushman

I T3
T4
I
Assy,
AJGY.
Trifi.lar Coil
Transformer Bifilar Toroidal
1579-0017
1579-0025
Cushman
Cushman
II T5 Assy t Transformer Bifilar Toroidal 1579-0025 Cushman

I
T6
1'7
!Assy,
I
Assy, Trifilar Coil
Trifilar Coil
1579-0017
1579-0017
Cushman
Cushman
I T8 I Assy,
I
T ransIorm 8r Bifilar Toroidal 1579-0025 Cushn::an
-,-"-"

5&01"0065 7-5
 ClM CE-4

Frequency Multiplier. 2200

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2200 Assy, Multiplier Frequency 7001-0147 Cushman

PC Board 1780-0297 Cushman

CAPACITORS

C1 Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-I01J

C2 Cap, .04lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C3 Cap, .01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C4 Cap, 30PF, 5%, 500V Mica 1004-0010 Cornell-Dub. CD10ED300J
C5 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C6 Cap, .01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C7 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C8 Cap, .01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103 Z
C9 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C10 Not Used

Cl1 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C12 Not Used
C13 Cap, 390PF, 5%, 100V Mica 1004-0017 Cornell-Dub. CDlOFA391J
C14 Cap, 240PF, 5%, 500V Mica 1002-0030 Elmenco DM15-F-241J
C15 Cap, 10PF, 5%, 500V Mica 1002-0016 Elmenco DM15-C-100J

C16 Cap, 51PF, 5%, 500V Mica 1004-0012 Cornell-Dub. CD10ED510J

C17 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103 Z
C18 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C19 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-I03Z
C20 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-I03Z

C21 Cap, 10PF, 5%, 500V Mica 1002-0016 Elmenco DM15-C-I00J

C22 Cap, 240PF, 5%, 500V Mica 1004-0015 Cornell-Dub. CDI0FD241J
C23 Cap, 10PF, *5%, 500V Mica 1002-0016 Elmenco DM15-C-100J
C24 Cap, 390PF, 5%, 100V Mica 1004-0017 Cornell-Dub. CDI0FA391J
C25 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-I03Z

C26 Cap, • 01~F, :+-80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103 Z
C27 Cap, 15PF, 5%, 500V Mica 1002-0001 Elmenco DM15-C-150J
C28 Cap, 240PF, 5%, 500V Mica 1004-0015 Cornell-Dub. CD10FD241J
C29 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C30 Cap, 27PF, 5%, 500V Mica 1004-0009 Cornell-Dub. CDI0ED270J

C31 Cap, 390PF, 5%, 100V Mica 1004-0017 Cornell-Dub. CD10FA391J

C32 Cap, .01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C33 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-I03Z
C34 Cap, .002~F, 20%, 500V Disc 1005-0003 Erie 831-596- Z4U-202M
C35 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M

C36 Cap, 240PF, 5%, 500V Mica 1004-0015 Cornell-Dub. CDI0FD241J

C37 Cap, .002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C38 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C39 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C40 Cap, 22PF, 5%, 500V Mica 1002-0023 Elmenco DM15-C-220J

C41 Cap, 22PF, 5%, 500V Mica 1002-0023 Elmenco DM15-C-220J

C42 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C43 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C44 Cap, 2. 2PF, .25PF%, 500V Tub. 1005-0017 Erie 301-000-COJO-229C
C45 Cap, 30PF, 5%, 500V Mica 1004-0010 Cornell-Dub. CD10ED300J

C46 Cap, 2. 2PF, .25PF%, 500V Tub. 1005-0017 Erie 301-000-COJO-229C

C47 Cap, 15PF, 5%, 500V Mi-::a 1002-0001 Elmenco DM15-C-150J
C48 Cap, .002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C49 C1.p, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C50 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M

7-6
 ClM CE-4

Frequency Multiplier. 2200 (cont.)

CKT. REF. DESC RIPTlON CE STOCK NO. MFR. MFR. NO.

C51 Cap, • 002J.LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M

C52 Cap, 2. 2PF, .25PF%, 500V Tub. 1005-0017 Erie 301-000-COJO-229C
C53 Cap, 30PF, 5%, 500V Mica 1004-0010 Cornall-Dub. CDlOED300J
C54 Cap, 2. 2PF, .25PF%, 500V Tub. 1005-0017 Cornell-Dub. CD10FA391J
C55 Cap, 15pF, 10%, 500V, P100 Cer Diso 1005-010S RMC CG P100

C56 Cap, 20%, 500V Disc

• 002J.LF, 1005-0003 Erie 831-596-Z4U-202M
C57 Cap, .002J.LF,20%, 500V Disc 1005-0003 Erie, 831-596-Z4U-202M
C58 Cap, 20%, 500V Disc
• 002J.LF, 1005-0003 Erie 831-596-Z4U-202M
C59 Cap, 20%, 500V Disc
• 002J.LF, 1005-0003 Erie 831-596-Z4U-202M
C60 Cap, 3. 3PF •• 25PF%, 500V Tub. 1005-0011 Erie 301-000-COJQ-339C

C61 Cap, 30PF, 5%, 500V Mica 1004-0010 Cornell-Dub. CDlOED300J

C62 Cap, 3.3PF, .25PF%, 500V Tub. 1005-0011 Erie 301-000-COJQ-S39C
C63 Cap, 15pF, 10%, 500V, P100 Cer Diso 1005-0103 RMC CG P100
C64 Cap, • 002J.LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C65 Cap, • 002J.LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M

C66 Cap, .002J.LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M

C67 Cap, 2-8PF, 350V Vert Trim 1001-0004 Erie 538-002A-2-8-89A
C68 Cap, 30PF, 5%, 500V Mica 1004-0010 Cornell-Dub. CD10ED300J
C69 Cap, • OQ2J.LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z4U-202M
C70 Cap, 2-8PF, 350V Vert Trim 1001-0004 Erie 538-002A-2-8-89A

C7l Cap, 15pF, 10%, 500V, P 100 C er Diso 1005-0103 RMC CG P100
C72 Cap, 27PF, 5%, 500V Mica 1004-0009 Cornell-Dub. CD-10ED270J
C73 Cap, 270PF, 5%, 300V Mica 1004-0016 Cornell-Dub. CD10FC27lJ
C74 Cap, 27PF, 5%, 500V Mica 1004-0009 Cornell-Dub. CDlOED270J
C75 Cap, 68PF, 5%, 500V Mica 1004-0014 Cornell-Dub. CD10ED680J

C76 Cap, 270PF, 5%, 300V Mica 1004-0016 Cornell-Dub. CD10FC27lJ

C77 Cap, 56PF, 5%, 500V Mica 1004-0013 Cornell,..Dub. CDlOED560J
C78 Cap, • o1J.LF , +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

INDUCTORS

L1 Choke, 180J.LH, 5% 1585-0035 Delevan 1537-88

L2 Choke, 18 OJ.LH , 5% 1585-0035 Delevan 1537-88
L3 Choke, 180J.LH, 5% 1585-0035 Delevan 1537-88
L4 Choke, 15J.LH, 10% 1585-0034 Delevan 1537-40
L5 Not Used

L6 Coil, 4 Turn 31 MHz 1596-0110 Cushman

L7 Coil, 4 Turn 31 MHz 1596-0110 Cushman
L8 Coil, 4 Turn 31 MHz 1596-0110 Cushman
L9 Coil, 4 Turn 31 lVlliz 1596-0110 Cushman
L10 Coil, 4 Turn 31 MHz 1596-0110 Cushman

L11 Coil, 4 Turn 31 MHz 1596-0110 Cushman

L12 Coil, 4 Turn 31 MHz 1596-0110 Cushman
L13 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L14 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L15 Coil Assy, Variable 7050-0122 Cushman

L16 Coil Assy, Variable 7050-0122 Cushman

L17 Coil Assy, Variable 7050-0122 Cushman
L18 Coil Assy, Variable 7050-0122 Cushman
L19 Coil Assy, Variable 7050-0122 Cushman
L20 Coil Assy, Variable 7050-0122 Cushman

L21 Coil Assy, Variable 7050-0122 Cushman

L22 Coil Assy, Variable 7050-0122 Cushman
L23 Coil Assy, .08J.LH 1596-5702 Cushman

7-7
 CIM CE-4

Frequency Multiplier. 2200. (cont.)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

L24 Choke, .56IlH, 10% 1585-0036 Delevan 1840-07

L25 Assy, Coil, .061'H 1596-5701 CushI;rl3.n

TRANSISTORS

Q1 Trans, 2N4275 1272-0016 Fairchild 2N4275

Q2 Trans, 2N4275 1272-0016 Fairchild 2N4275
Q3 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q4 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q5 Trans, TIS 37 1271-0003 TI TIS 37

Q6 Trans, TIS 37 1271-0003 TI TIS 37

Q7 Trans, TIS 37 1271-0003 TI TIS 37
Q8 Trans, 2N4121 1272-0023 Fairchild 2N4121
Q9 Trans, TIS 37 1271-0003 TI TIS 37
Q10 Trans, 2N4121 1272-0023 Fairchild 2N4121

Q11 Trans, 2N4121 ·1272-0023 Fairchild 2N4121

Q12 Trans, 2N4121 1272-0023 Fairchild 2N4121
Q13 Trans, 2N4121 1272-0023 Fairchild 2N4121
Q14 Trans, 2N4121 1272-0023 Fairchild 2N4121
Q15 Trans, 2N4121 1272-0023 Fairchild 2N4121

Q16 Trans, 2N4121 1272-0023 Fairchild 2N4121

Q17 Trans, 2N4121 1272-0023 Fairchild 2N4121

RESISTORS

R1 Res, 110 Ohm, 5%, 1/8W Comp 1065-1115 Allen-Bradley BBl115

R2 Res, 2.2K, 5%, 1/8W Comp 1065-2225 Allen-Bradley BB2225
R3 Res, 1. 5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R4 Res, 220 Ohm, 5%, 1/8W Comp 1065-2215 Allen-Bradley BB2215
R5 Res, 1K, 5%, 1/8W Comp 1065-1025 Allen-Bradley BB1025

R6 Res, 1K, 5%, 1/8W Comp 1065-1025 Allen-Bradley BB1025

R7 Res, 1K, 5%, 1/8W Comp 1065-1025 Allen-Bradley BB1025
R8 Res, 1. 3K, 5%, 1/8W Comp 1065-1325 Allen-Bradley BB1325
R9 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035
RIO Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035

R11 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035

R12 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035
R13 Res, 10K, 5%, 1/8WComp 1065-1035 Allen-Bradley BB1035
R14 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035
R15 Res, 3.9K, 5%, 1/8W Comp 1065-3925 Allen-Bradley BB3925

R16 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035

R17 Res, 3.9K, 5%, 1/8W Comp 1065-3925 Allen-Bradley BB3925
R18 Res, 3.9K, 5%, 1/8W Comp 1065-3925 Allen-Bradley BB3925
R19 Res, 1K, 5%, 1/8W Comp 1065-1025 Allen-Bradley BB1025
R20 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725

R21 Res, 560 Ohm, 5%, 1/8W Comp 1065-5615 Allen-Bradley BB5615
R22 Res, 3.3K, 5%, l/8W Comp 1065-3325 Allen-Bradley BB3325

R23 Res, 220 Ohm, 5%, 1/8W Comp 1065-2215 Allen-Bradley BB2215
R24 Res, 3.9K, 5%, 1/8W Comp 1065-3925 All en-Bradley BB3925
R25 Res, 3.9K, 5%, 1/8W Comp 1065-3925 Allen-Bradley BB3925

R26 Res, 3.9K, 5%, 1/8W Comp 1065-3925 Allen-Bradley BB3925

R27 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035
R28 Res, 10K, 5%, 1/8W Comp 1065-1035 Allen-Bradley BB1035

7-8
 elM CE-4

Frequency Multiplier, 2200 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R29 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025

R30 Res, lK, 5%, 1/8W Comp 1065-1025 All en-Bradley BBI025
R31 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R32 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R33 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R34 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R35 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025

R36 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025

R37 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R38 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R39 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R40 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725

R41 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025

R42 Res, lK, 5%, 1/8W Comp 1065-1025 All en-Bradley BBI025
R43 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025
R44 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R45 Res, 560 Ohm, 5%, 1/8W Comp 1065-5615 Allen-Bradley BB5615

R46 Res, 2.2K, 5%, 1/8W Comp 1065-2225 Allen-Bradley BB2225

R47 Res, 4.7K, 5%, 1/8W Comp 1065-4725 Allen-Bradley BB4725
R48 Res, 560 Ohm, 5%, 1/8W Comp 1065-5615 Allen-Bradley BB5615
R49 Res, 220 Ohm, 5%, 1/8W Comp 1065-2215 Allen-Bradley BB2215
R50 Res, 220 Ohm, 5%, 1/8W Comp 1065-2215 Allen-Bradley BB2215

!NT EGRA TED CIRCUIT

VI IC, SN7400N TTL Nand Gates 2025-0003 TI SN7400N

7-9
 CIM CE-4

100 kHz Divide-By-N, 2300

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2300 Assy, Divide-by-N, 100 kHz 7001-0144 Cushman

PC Board 1780-0299 Cushman

CAPACITORS

C1 Cap, 100/-lF, 10%, 25V, Elect 1013-0003 Sprague 30D107G025DD5

C2 Cap, • 05/-lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C3 Cap, • ol/-lF , +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C4 Cap, • 05/-lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C5 Cap, • 05/-lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C6 Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C7 Cap, • ol/-lF , +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C8 Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C9 Cap, • ol/-lF , +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C10 Cap, .01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

Cll Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C12 Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103 Z
C13 Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103Z
C14 Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C15 Cap, • O~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
I
C16 Cap, • 01/-lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z i
I
C17 Cap, 100PF, 5%, 100V, Min Cer 1005-0082 Erie 8121-100-COG-101K I

INDUCTORS

L1 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B

L2 Choke, 22/-lH, 10% 1585-0012 Delevan 1537-44 I
L3 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B i
TRANSISTOR

Q1 Trans, 2N4275 1272-0016 Fairchild 2N4275

RESISTORS i
I
R1 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R2 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R3 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R4 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R5 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725

R6 Res, 2.7K, 5%, 1/4W Comp 1066-2725 All en-Bradley CB2725

R7
R8
R9
Res,
Res,
Res,
2.7K, 5%, 1/4W Comp
100 Ohm, 5%, 1/4W Comp
1066-2725
1066-1015
Allen-Bradley
Allen-Bradley
CB2725
CB1015 I
2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
RIO Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725 [
I
Rll Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R12 Res, 1.5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R13 Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 Allen-Bradley CB5615

INTEGRATED CmCUITS

U1 IC, SN74196N 2025-0016 TI SN74196N

U2 IC, SN74196N 2025-0016 TI SN74196N
U3 IC, SN74196N 2025-0016 TI SN74196N
U4 IC, SN74196N 2025-0016 TI SN74196N
U5 IC, SN7420N, Dual 4 Input Nand Gate 2025-0008 TI SN7420N

U6 IC, SN74HllN, TTL and Gate 2025-0017 TI SN74HllN

U7 IC, SN74H72N 2025-0023 TI SN74H72N

5601"0065 7-10
 CIM CE-4

17.9 MHz-19 MHz Mixer. 2400

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2400 Assy. PC Bd. Mixer 17.9-19 MHz 7OO1-016S Cushman

PC Board 1780-0264 Cushman

CAPACITORS

C1 Cap •• 01I-'F. +80-20%. 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z

C2 Cap •• OSI-'F. +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z
C3 Cap, • OSI-'F. +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z
C4 Cap •• OSI-'F. +80-20%. 2SV Disc 100S-0014 Erie' S8SS-S0S-YS UO-S03 Z
CS Cap. 100PF. S%. SOOV Mica 1002-0011 Elmenco DM1S-F-101J

C6 Cap, • OSI-'F, +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03 Z

C7 Cap. lSPF, S%, SOOV Mica 1002-0001 Elmenco DM1S-C-1SOJ
C8 Cap. 2. 2PF •• 2SPF%. 500V Tub. 100S-0017 Erie 301-000-COJO-229C
C9 Cap. 96PF, 1%. SOOV Mica 1002-0049 Elmenco DM15-F-960F
C10 Cap. 1. SPF •• 2SPF%. SOOV Tub. 100S-0041 Erie 301~000-COKO-1S9C

Cll
C12 I Cap.
Cap. 110PF. S%. 500V Mica
330PF. 5%. 500V Mica
1002-0026
1002-0032
Elmenco
Elm en co
DM1S-F-111J
DM1S-F-331J
C13 Cap. 2-8PF. 350V Horiz. Trim 1001-0010 Erie S38-006A(2-8)
CJ4 Cap, 5PF •• 5PF%, SOOV Mica 1002-0028 Elmenco DM1S-C-OSOD
CIS Not Used

C16 Cap. 2. 2PF •• 25PF%. 500V Tub. 100S-0017 Erie 301-000-COJO-229C

C17
C18 I Cap. 110PF. 5%, 500V Mica
Cap •• 00221-'1". 10%. 100V
1002-0026
1008-0020
Elm en co
Sprague
DM1S-F-111J
22SP22291 WA3
C19 Cap. 220PF. S%, 500V Mica 1002-0029 Elmenco DM1S-F-221J
C20 Cap. 15PF, 5%. 500V Mica 1002-0001 Elmenco DM1S-C-1S0J

C21 Cap, 96PF. 1%, SOOV Mica 1002-0049 Elmenco DM1S-F-960F

C22 Cap. 180PF, 5%. 500V Mica 1002-000S Elmenco DM1S-F-181J
C23 I Cap. • 05J.1F. +80-20%. 25V Disc 100S-0014 Erie S8SS-50S-YSUO-S03Z
C24 Cap •• OlJ.lF. +80-20%. 25V Disc 100S-0013 Erie S83S-S12-YSU-103Z
C25 Cap, • 011-'F, +80-20%. 25V Disc 100S-0013 Erie 583S-S12-YSU-103Z

C26 Cap, • OSI-'F. +80-20%, 2SV Disc 100S-0014 Erie S8SS-505-YSUO-503Z

C27 Cap, 100PF, S%, SOOV Mica 1002-0011 Elmenco DM1S-F-101J
C28 , Cap, • OSI-'F, +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z
C29 I Cap. • OSJ.lF, +80-20%. 2SV Disc 100S-0014 Erie S85S-S0S-YSUO-S03Z
C30 Cap. • 051-'F, +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03 Z
'
C31 Cap, .01I-'F. +80-20%, 25V Disc 100S-0013 Erie S83S-512-YSU-103Z
C32 Cap, • olJ.IF ,+80-20%. 2SV Disc 100S-0013 Erie 583S-512-YSU-103Z
C33 Cap, 20PF, S%, SOOV Mica 1002-0060 Elmenco DM1S-E-200J
C34 Cap. • 011-'F, +80-20%. 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z
C3S Cap, 100PF, S%, SOOV Mica 1002-0011 Elmenco DM1S-F-101J

C36 Cap, • OSI-'F, +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z

C37 Cap, lSPF, S%, SOOV Mica 1002-0001 Elm en co DM1S-C-1S0J
C38 Cap, • OSJ.lF, +80-20%. 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z
C39 Cap, 10PF, S%, SOOV Mica 1002-0016 Elmenco DM1S-C-100J
C40 Cap, 96PF, 1%, SOOV Mica 1002-0049 Elmenco DM1S-F-960F

C41 Cap, 8. 2PF, .2SPF%, SOOV Tub. 100S-0043 Erie 301-000-COHO-829C

C42 Cap, 120PF. S%, SOOV Mica 1002-0010 Elmenco DMlS-F-121J
C43 Cap, 8. 2PF, .2SPF%, SOOV Tub. 100S-0043 Erie 301-000-COHO-829C
C44 Cap, 120PF, S%, SOOV Mica 1002-0010 Elmenco DM1S-F-121J
C4S Cap, 10PF. 5%, SOOV Mica 1002-0016 Elm en co DM1S-C-100J

C46 Cap, 120PF. S%. SOOV Mica 1002-0010 Elm en co DM1S-F-121J

C47 Cap, 96PF. 1%, SOOV Mica 1002-0049 Elm en co DM15-F-960F
C48 Cap, 39PF. S%. SOOV Mica 1002-0018 Elmenco DM1S-E-390J
C49 Cap •• 0SJ.lF. +80-20%, 2SV Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z
CSO Cap, 270PF. S%. 500V Mica 1002-0031 Elmenco DM1S-F-271J

5501"0065 7-11
 ClM CE-4

17" 9 MHz -19 MHz Mixer, 2400 (cont)

CKT. REF. DESC RIPTION CE STOCK NO. MFR. MFR. NO.

DIODES

CR1 Diode, HPA2800 1283-0001 HP 5082-2800

CR2 Diode, HPA2800 1283-0001 HP 5082-2800
CR3 Diode, HPA2800 1283-0001 HP 5082-2800
CR4 Diode, HPA2800 1283-0001 HP 5082-2800
CR5 Diode, HPA2800 1283-0001 HP 5082-2800

CR6 Diode, HPA2800 1283-0001 HP 5082-2800

CR7 Diode, HPA2800 1283-0001 HP 5082-2800
CR8 Diode, HPA2800 1283-0001 HP 5082-2800
CR9 Diode, G633 1282-0005 ITT G633
CRI0 Diode, G633 1282-0005 ITT G633

CRll Diode, G633 1282-0005 ITT G633

CR12 Diode, G633 1282-0005 ITT G633

INDUCTORS

Ll Choke, 22~H, 10% 1585-0012 Delevan 1537-44

L2 Choke, 22~H, 10% 1585-0012 Delevan 1537-44
L3 Choke, 22~, 10% 1585-0012 Delevan 1537-44
L-! Choke, 22~H, 10% 1585-0012 Delevan 1537-44
L5 Not Used

L6 Coil, 8 Turn 16 MHz 1596-0111 Cushman

L7 Choke, 22~, 10% 1585-0012 Delevan 1537-44
L8 Coil, 8 Turn 16 l'vIHz 1596-0111 Cushman
L9 Coil, 8 Turn 16 MHz 1596-0111 Cushman
L10 Coil, 8 Turn 16 MHz 1596-0111 Cushman

Lll Choke, 120~H, 5% 1585-0033 Delevan 1537-80

L12 Choke, I~H, 10% 1585-0027 Delevan 1537-12
L13 Coil, 8 Turn 16 MHz 1596-0111 Cushman
L14 Choke, l~H. 10% 1585-0027 Delevan 1537-12
L15 Coil, 8 Turn 16 MHz 1596-0111 Cushman

Ll6 Coil, 8 Turn 16 MHz 1596-0111 Cushman

L17 Coil, 8 Turn 16 MHz 1596-0111 Cushman
Ll8 Coil, 8 Turn 16 MHz 1596-0111 Cushman
L19 Coil, 8 Turn 16 MHz 1596-0111 Cushman
L20 Coil, 8 Turn 16 MHz 1596-0111 Cushman

L21 Coil, 8 Turn 16 MHz 1596-0111 Cushman

L22 Choke, 22~, 10% 1585-0012 Delevan 1537-44

TRANSISTORS :
I
Ql Trans, 2N3563 1272-0022 Fairchild 2N3563 !
Q2 Trans, 2N4275 1272-0016 Fairchild 2N4275 !
Q3
Q4
Trans,
Trans,
2N4275
2N3563
1272-0016
1272-0022
Fairchild 2N4275 i
Fairchild 2N3563
Q5 Trans, 2N3563 1272-0022 Fairchild 2N3563 I
f
RESISTORS
t
Rl Res, 1. 8K, 5%, 1/4W Comp 1066-1825
I
Allen-Bradley CB1825
R2 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215
R3 Res, 47 Ohm, 5%, 1/4W Comp 1066-4705 Allen-Bradley CB4705
R4 Res, 1.5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R5 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-B radley CB2225

5601""0065
7-12
 CIM CE-4

17.9 MHz-19 MHz Mixer, 2400 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R6 Res, 1. 5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525

R7 Pot, 100 Ohm, 10%, 3/4W 1215-0010 Helitrim 89WR
R8 Res, 560 Ohm, 5%, 1/4W Camp 1066-5615 Allen-Bradley CB5615
R9 Res, 51 Ohm, 5%, 1/4W Comp 1066-5105 Allen-B radl ey CB5105
RIO Res, 51 Ohm, 5%, 1/4W Comp 1066-5105 Allen-Bradley CB5105

Rll Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825

R12 Pot, 100 Ohm, 10%, 3/4W 1215-0010 Helitrim 89WR
R13 Res, 47 Ohm, 5%, 1/4W Comp 1066-4705 Allem-Bradley CB4705
R14 Res, 1. 5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R15 Res, lK, 5%, 1/4W Camp 1066-1025 Allen-Bradley CBI025
I
R16 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
R17 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
R18 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
R19 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R20 Res, 4.7K, 5%, 1/4W Comp 1066-4725 Allen-Bradley CB4725

R21
R22
R23
Res, 1.5K, 5%, 1/4W Comp
Res, 820 Ohm, 5%, 1/4W Comp
Not Used
1066-1525
1066-8215
Allen-Bradley
Allen-Bradley
CB1525
CB8215 I
R24 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
R25 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025

TRANSFORMERS

Tl Assy, Trifilar Coil 1579-0017 Cushman

T2 Assy, Trifilar Coil 1579-0017 Cushman
T3 Assy, Trifilar Coil 1579-0017 Cushman
T4 Assy, Trifilar Coil 1579-0017 Cushman

INTEGRATED CIRCUIT

U1 IC, SN7490N 2025-0002 TI SN7490N

I
1

5601"0065 7-13
 CIM CE-4

100 kHz VCO and Phase Detector, 2500

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2500 PCB Assy - 100 kHz VCO & Phase De 7001-0380 Cushman
PC Board 1780-0712 Cushman

CAPACITORS

C1 Cap, • Olj..lF, +80-20%, 25V Disc 1005-0013 - Erie 5835-512-Y5U-103Z

C2 Cap, .01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103Z
C3 Cap, 10~F, +50-20%, 35V 1011-0006 ITT 10/35-20
C4 Cap, 10~F, +50-20%, 35V 1011-0006 ITT 10/35-20
C5 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie' 5835-512-Y5U-I03Z

C6 Cap, • 05~F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C7 Cap, 240PF, 5%, 500V Mica 1002-0030 Elmenco DM15-F-241J
C8 Poly •• 047&-1F. 10%. 100V 1008-0049 Sprague 225P47391WA3
C9 Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-I01J
C10 Cap •• 05~F, +80-20%. 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

Cll Cap, 10~F, +50-20%, 35V 1011-0006 ITT 10/35-20

C12 Cap, .008~, 10%, 100V 1008-0095 Plessey 60C822V630
C13 Cap, • 022MF, 5%, 400V Polyester 1008-0094 Electrocube 232A1E223J
C14 Cap, • 022MF, 5%, 400V Polyester 1008-0094 Electrocube 232A1E223J
C15 Cap, .008~, 10%, 100V 1008-0095 Plessey 60C822V630

C16 Cap, 22PF, 5%, 500V Mica 1002-0023 Elmenco DM15-C-220J

C17 Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-I01J
C18 Mylar, .22&-1F, 10%. 100V 1008-0091 Electrocube 232AlB224K
C19 Cap, lO~F, +50-20%, 35V 1011-0006 ITT 10/35-20
C20 Cap, • 002~F, 20%. 500V Disc 1005-0003 Erie 831-5961Z5U-202M
C21 Cap, • 05~F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C22 Cap, 10~F, +50-20%, 35V 1011-0006 ITT 10/35-20
C23 Cap, • 05~F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C24 Cap, 10~F. +50-20%, 35V 1011-0006 ITT 10/35-20
C25 Cap, .05~F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C26 Cap, 150PF, 5%, 500V Mica 1002-0021 Elmenco DM15-F-151J

C27 Cap, 270PF, 5%, 500V Mica 1002-0031 Elmenco DM15-F-271J
C28 Cap, 270PF, 5%, 500V Mica 1002-0031 Elmenco DM15-F-271J
C29 Cap, 150PF, 5%, 500V Mica 1002-0021 Elmenco DM15-F-151J
C30 Cap, 220PF, 5%, 500V Mica 1002-0029 Elm en co DM15-F-221J
C31 Cap, • 221lF, 10%, 100V 1008-00.1 Electrocube 232 AlB224K
C32 Cap, 10~F, +50e20%.35V 10U-0006 ITT 10/:35-20
C33 Cap, 1000PF, 2:5%, 100V Mica 1002-0015 Elmenco nM15-F-1025
DIODES

CRI Diode, MVAM-2 1281-0120 Motorola MVAM-2

CR2 Diode, HPA2800 1283-0001 HP HPA5082-2800
CR3 Not used

INDUCTORS

Ll CH,4.7MH, 10%, RF Molded 1585-0082 Delevan 2307-475

L2 CH,4.7MH, 10%, RF Molded 1585-0082 Delevan 2307-475
L3 CH, 4.7MH, 10%, RF Molded 1585-0082 Delevan , 2307-475
:
L4 Coil, 1.4~, 5% 1596-0045 Dale IDHI041-27
L5 Choke, • 47~H, 20% 1585-0031 Delevan 1537-06
I
L6 Choke, • 56~H, 10% 1585-0036 Delevan I 1840-07
L7 Clloke, • 47J.lH, 20% 1585-0031 Delevan 1537-06
L8 Choke, 100J.lH, 10% 1585-0054 Delevan 1025-68

5601"0065"2 7-14
 CIM CE-4

100 kHz VCO and Phase Detector, 2500 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

TRANSISTORS

Q1 Trans, 2N5089 1272-0031 Motorola 2N5089

Q2 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q3 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q4 Trans, 2N4275 1272-0016 Fairchild 2N4275
I

RESISTORS

R1 Res, 6.81K, 1%, 1/8W 100 PPM 1075-0140 Dale MFF 1/8
R2 Res, 3.3M, 5%, 1/4W Comp 1066-3355 Allen-Bradley CB3355
R3 Res, 6.81K, 1%, 1/8W 100 PPM 1075-0140 Dale MFF 1/8
R4 Res, 15K, 5%, 1/4 W Comp 1066-1535 Allen-Bradley CB1535
R5 Res, 18.2K, 1%, 1/8W MF 1075-0075 Dale MFF 1/8

R6 Res, 1.62K, 1%, 1/8 W MF 1075-0070 Dale MFF 1/8

R7 Res, 1K. 1: 5%, 1/4W Comp 1066-1025 Allen-B radley CB1025
R8 Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 Allen-Bradley CB5615
R9 Not used
RIO Res, 6.SK, 5%, 1/4W Comp 1066-6825 Allen-Bradley CB6S25

Rll Res, 36K, 5%, 1/4W Comp 1066-3635 Allen-Bradley CB3635

R12 Res, 4.7K, 5%, 1/4W Comp 1066-4725 Allen-Bradley CB4725
R13 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
Rl4 Res, 220 Ohm, 5%, 1/4W Comp 1066-2215 Allen-Bradley CB2215
RI5 Res, 300 Ohm, 5%, 1/4W Comp 1066-3015 Allen-Bradley CB3015

R16 Res, 15 Ohm, 5%, 1/4W Comp 1066-1505 Allen-Bradley CB1505

R17 Res, 1.6K, 5%, 1/4W Comp 1066-1625 All en-Bradley CB1625
R18 Res, 2.7K, 5%, 1/4W Comp 1066-2725 All en-Bradley CB2725
R19 Res, 2K, 5%, 1/4W Comp 1066-2025 Allen-Bradley CB2025
R20 Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 Allen-Bradley CB5615

R21 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225

R22 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215
R23 Res, 1.3K, 5%, 1/4W Comp 1066-1325 Allen-Bradley CB1325
R24 Res, 51 Ohm, 5%, 1/4W Comp 1066-5105 Allen-Bradley CB5105
R25 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325

R26 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925

R27 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R28 Res, 220 Ohm, 5%, 1/4W Comp 1066-2215 Allen-Bradley CB2215
R29 Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 Allen-Bradley CB5615

INTEGRATED CIRCUITS

U1 IC, MC4044P Phase Detector 2025-0066 Motorola MC4044P

U2 IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N
U3 IC, SN7402, Quad 2 Inpt Pos Nor Gate 2025-0059 TI SN7402N
U4 IC, LM308H, 8-Pin Type Op Amp 2025-0057 National LM308H

5601"0065"2 7-15
 em CE-4

100 Hz Divide-By-N, 2600

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2600 PCB ABsy, 100 Hz Divide-by-N 7001-0376 Cushman

PC Board 1780-0708 Cushman

CAPACITORS

C1 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C2 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C3 Cap, • 04LF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C4 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-5 03 Z
C5 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z

C6 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z

C7 Cap, •o5J.1F , +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503 Z
C8 Cap, • o12J.1F, 10%. 100V 1008-0040 Sprague 225P 12391 WA3
C9 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

TRANSISTORS

Q1 Trans, 2N3563 1272-0022 Fairchild 2N3563

Q2 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q3 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q4 Trans, 2N4275 1272-0016 Fairchild 2N4275

RESISTORS

R1 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215

R2 Res, 560 Ohm, 5%, 1/4 W Comp 1066-5615 Allen-Bradley CB5615
R3 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
R4 Res, 220 Ohm, 5%, 1/4W Comp 1066-2215 Allen-Bradley CB2215
R5 Res, 12 Ohm, 5%, 1/4W Comp 1066-1205 Allen-Bradley CB1205

R6 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225

R7 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R8 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
R9 Res, 2. 7K, 5%, 1/4 W Comp 1066-2725 Allen-Bradley CB2725
RIO Res, 2. 7K, 5%, 1/4 W Comp 1066-2725 Allen-Bradley CB2725

Rll Res, 2. 7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725

R12 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R13 Res, 2. 7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R14 Res, 2. 7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R15 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725

R16 Res, 2.7K, 5%, 1/4WComp 1066-2725 Allen-B radley CB2725

R17 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R18
R19
Res,
Res,
2.7K,
2. 7K,
5%,
5%,
1/4W Comp
1/4W Comp
1066-2725
1066-2725
Allen-Bradley
Allen-Bradley
CB2725
CB2725
I
R20 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725

R21 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725

R22 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R23 Res, 2.7K, 5%, 1/4WComp 1066-2725 Allen-Bradley CB2725
R24 Res, 2.7K, 5%, 1/4WComp 1066-2725 Allen-Bradley CB2725
R25 Res, 6.2K, 5%, 1/4W Comp 1066-6225 Allen-Bradley CB6225

INTEGRATED CIRCUITS

U1 IC, SN7 400N, TTL Nand Gates 2025-0003 TI SN7400N

U2 IC, SN74196N 2025-0016 TI SN74196N
U3 IC, SN74196N 2025-0016 TI SN74196N
U4 IC, SN74196N 2025-0016 TI SN74196N
U5 IC, SN74196N 2025-0016 TI SN74196N

.... , .....•..... _......

5601··0065 "2 7-16

 CIM CE-4

100 Hz Divide-By-N, 2600 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

U6 IC, SN7490N 2025-0002 TI SN7490N

U7 IC, SN7473N, Dual JK Flip Flop 2025-0055 TI SN7473N
U8 IC, SN7430A Nand Gate 2025-0004 TI SN7430A
U9 IC, SN7430A Nand Gate 2025-0004 TI SN7430A
UlO IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N

un IC, SN7472N, TTL Dual Flip Flop 2025-0007 TI SN7472N

U12 IC, SN74196N 2025-0016 TI SN74196N
U13 IC, MC8601P Monostable Multi 2925-0053 Motorola MC8601P

5601"0065 7-17
 CIM CE-4

Reference Divider, 2700

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2700 PCB Assy. Reference Divider 7001-0399 Cushman

PC Board 1780-0528 Cushman

CAPACITORS

C1 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C2 Cap. 560PF, 5%, 300V Mica 1002-0037 Elmenco DM15-F-561J
C3 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C4 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C5 Cap, 12PF, 5%, 500V Mica 1002-0017 Elmenco DM15-C-120J

C6 Cap, 510PF, 5%, 500V Mica 1002-0036 Elmenco DM15-F-51lJ

C7 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503 Z
C8 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C9 Cap, 510PF, 5%, 500V Mica 1002-0036 Elmenco DM15-F-51lJ
C10 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

Cll Cap, 12PF, 5%, 500V Mica 1002-0017 Elmenco DM15-C-120J

C12 Cap, .05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C13 Cap, 680PF, 5%, 300V Mica 1002-0022 Elmenco DM15-F-681J
C14 Cap, • 0039JlF. 10%, 100V 1008-0052 Sprague 225P39291 WD3
C15 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z

C16 Cap, • 05JlF. +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C17 Cap, • 0056JlF. 10%. 100V 1008-0022 Sprague 225P56291 WA3
C18 Cap. 470PF, 5%. 500V Mica: 1002-0035 Elmenco DM15-F-471J
C19 Cap. • 05JlF, +80-20%, 25V Disc 1005-0014 Erie I 5855-505-Y5UO-503Z
C20 Cap, 9-35PF, 200V Vert Trim 1001-0006 Erie 538-002-94D

C21 Cap, 100JlF. +75-10%, 12V 1013-0011 Sprague 30Dl07G012CC5

C22 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C23 Cap. 100JlF, +75-10%, 12V 1013-0011 Sprague 30D107G012CC5
C24 Cap. • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5U-503Z
C25 Cap, • 002JlF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C26 Cap, .05JlF, +80-20%. 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C27 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C28 Cap, .0 lJlF. +80-20%. 25V Disc 1005-0013 Erie 5835~512-Y5U-103Z
C29 Cap. 270PF, 5%, 500V Mica 1002-0031 Elmenco DM15-F-27lJ
C30 Cap, 100JlF, +75-10%. 12V 1013-0011 Sprague 30Dl07G012CC5

C31 Cap, 36PF, 5%, 500V Mica 1002-0041 Elmenco DM15-E-360J

C32 Not Used
C33 Not Used
C34 Cap. 390PF, 5%, 500V Mica 1002-0033 Elmenco DM15-F-39lJ
C35 Not Used

C36 Cap, 15PF, 5%. 500V Mica 1002-0001 Elmenco DM15-C-15OJ

C37 Cap, 390PF, 5%, 500V Mica 1002-0033 Elmenco DM15-F-391J
C38 Not Used
C39 Not Used
C40 Cap. 68PF, 5%, 500V Mica 1002-0013 Elmenco DM15-E-680J

C41 Not Used

C42 Cap, • o82JlF • 10%, 100V 1008-0023 ~rague 225P82391 WA3
C43 Cap, 10JlF. +50-20%. 35V 1011-0006 P'T TAG 10/35-20

INDUCTORS

L1 Chcke, 68J.LH. 5% 1585-0023 ~levan 2500-20

L2 Chcke, 47JlH, 5% 1585-0010 ~levan 1537-60
L3 Chcke. 680JlH, 5% 1585-0023 !Deleva:"l 2500-20
L4 Coil, 3.9 MHz 1596-0104 !cushman
L5 Chcke, 2 1/2 Turns Wide Band 1586-0003 ~ 20020/4B

5601··0065 7-18
 CIM CE-4

Reference Divider, 2700 (cont)

CKT. REF. DESC RIPTION CE ST0CK NO. MFR. MFR. NO.

.~ --.

L6 Coil, 3.9 MHz 1596-0104 Cushman I

L7
L8
Choke, 2 1/2 Turns Wide Band
Not Used
1586-0003 VK 20020/4B I
L9 Clioke, WOIili, 5% 1585-0017 Delevan 1537-76
LW Coil, 3.9 MHz 1596-0104 Cushman

L11 Coil, 8 Turn 16 MHz 1596-0111 Cushman

I
Ll2 Not Used
L13 Coil, 8 Turn 16 MHz 1596-0111 Cushman
L14 Coil, 8 Turn 16 MHz 1596-0111 Cushman

TRANSISTORS

Q1 Trans, TIS 37 1271-0003 TI TIS37

Q2 Trans, TIS 37 1271-0003 TI TIS37
Q3 Not Used
Q4 Trans, TIS 37 1271-0003 TI TIS37
Q5 Trans, 2N3563 1272-0022 Fairchild 2N3563

Q6
Q7
Trans, 2N4275
Trans, 2N4275
1272-0016
1272-0016
Fairchild
Fairchild
2N4275
2N4275
!I
RESISTORS

R1 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-Bradley CB1035

R2 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R3 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925
R4 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CBW35
R5 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R6 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925 !

R7
R8
Res,
Res,
10K, 5%, 1/4W Comp
2.2K, 5%, 1/4W Comp
1066-1035
1066-2225
Allen-Bradley
Allen-Bradley
CB1035
CB2225 !
R9 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-Bradley CB1005
RIO Res, 6.8K, 5%. 1/4W Comp 1066-6825 Allen-Bradley CB6825

R11 Res, 8.2K, 5%, 1/4W Comp 1066-8225 Allen-Bradley CB8225

R12 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R13 Res, 2. 2K, 5%. 1/4 W Comp 1066-2225 Allen-Bradley CB2225
R14 Res, 3.3K. 5%. 1/4W Comp 1066-3325 Allen-Bradley CB3325
R15 Res, 5.lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125

R16 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715 I

R17 Res, 150 Ohm, 5%, 1/4W Comp 1066-1515 Allen-Bradley CB1515

TRANSFORMER

T1 Assy, TIifilar Coil 1579-0017 Cushman

INTEGRATED CIRCUITS

U1 IC, SN7490N 2025-0002 TI SN7490N

U2 IC, SN7490N 2025-0002 TI SN7490N
U3 IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N
U4 IC, SN7490N 2025-0002 TI SN7490N
U5 IC, SN7490N 2025-0002 TI SN7490N

U6 IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N

U7 IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N

CRYSTAL i
Y1 Xtal, 9900.000 kHz Metal 2035-0004 Cushman
I
5601--0065 7-19
 CIM CE-4

100 Hz VCO and Phase Detector, 2800

~

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

2800 PCB Assy - 100 Hz VCO & Phase Det 7001-0375 Cushman
PC Board 1780-0707 Cushman

CAPACITORS

C1 Cap, 10J.lF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20

C2 Cap, 47J.1F, 20%, 20V 1011-0009 Dickson D47GSC20M
C3 Cap, 10J.lF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20
C4 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C5 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C6 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C7 Cap, • 22MF, 10%, 100V Mylar 1008-0091 Electrocube 232AIB224K
C8 Cap, • 1J.1F, 10%, 100V 1008-0031 Sprague 225P10491
C9 Cap, .01J.1F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C10 Cap, • 39J.1F, 10%, 200V 1008-0037 Electrocube 625B1C349K2

C11 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C12 Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-101J
C13 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C14 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C15 Cap, l0J.lF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20

C16 Cap, .47J.1F, 100V, 10% Met. Mylar 1008-0038 Electrocube 210B1A474K
C17 Cap, .47J.1F, 100V, 10% Met. Mylar 1008-0038 Electrocube 210B1A474K
C18 Cap, 1. OJ.lF, 10%, lOOV 1008-0033 TRW X663F
C19 Cap, 10J.lF, 10%, 20V 1011-0007 Kemet K10C20K
C20 Cap, 100J.lF, +75-10%, 12V 1013-0011 Sprague 30D107GO 12CC5-

C21 Cap, 1. OJ.lF, 10%, lOOV 1008-0033 TRW X663F

C22 Cap, 100J.lF, 20%, 20V 1011-0010 Kemet T362D107M020AS
C23 Cap, 10J.lF, 10%, 20V 1011-0007 Kemet K10C20K
C24 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C25 Cap, 1.0J.lF, 10%, 100V 1008-0033 TRW X663F

C26 Cap, 100J.lF, 20%, 20V 1011-0010 Kemet T362D107M020AS

C27 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C28 Cap, • 05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C29 Cap, • 01J.1F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C30 Cap, 220PF, 5%, 500V Mica 1002-0029 Elmenco DM15-F-221J

C31 Cap, 15PF, 5%, 500V Mica 1002-0001 Elmenco DM15-C-150C

C32 Cap, 220PF, 5%, 500V Mica 1002-0029 Elmenco DM15-F-221J
C33 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C34 Cap, • 002J.1F, 20%, 500V Disc 1005-0003 Erie 831-596-Z 5U-202l\I I
C35 Cap, • 01J.1F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C36 Cap, .01J.1F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C37 Cap, 10J.lF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20
C38 Cap, 220PF, 5%, 500V Mica 1002-0029 Elmenco DM15-F-221J
C39 Cap, 240PF, 5%, 500V Mica 1002-0030 Elmenco DM15-F-241J
C40 Cap, 820PF, 5%, 300V Mica 1002-0039 Elmenco DM15-F-821J

C41 Cap, 36PF, 5%, 500V Mica 1002-0041 Elmenco DM15-E-360J

C42 Cap, .05J.1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

DIODES

CR1 Diode, 1N3064 1281-0013 Teledyne 1N3064

CR2 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR3 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR4 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR5 Diode, MVI04 1281-0058 Motorola MV104

7-20
 elM CE-4

100 Hz VCO and Phase Detector, 2800 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

INDUCTORS

L1 Choke, 1000 Iill , 5% 1585-0020 Delevan 2500-28

L2 Coil, Var IF .85-1. 2UF 1596-0114 Cushman
L3 Choke, 561ill, 5%, RF 1585-0042 Delevan 1537-64
L4 Choke, 331ill, 5%, RF 1585-0022 Delevan 1537-52

TRANSISTORS

Q1 Trans, 2N4275 1272-0016 Fairchild 2N4275

Q2 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q3 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q4 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q5 Trans, 2N5962 1272-0059 Fairchild 2N5962

Q6 Trans, 2N3565 1272-0017 Fairchild 2N3565

Q7 Trans, 2N5962 1272-0059 Fairchild 2N5962
Q8 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q9 Trans, 2N5962 1272-0059 Fairchild 2N5962
Q10 Trans, 2N3565 1272-0017 Fairchild 2N3565

Qll Trans, 2N3565 1272-0017 Fairchild 2N3565

Q12 Trans, 2N3904 1272-0032 Motorola 2N3904
Q13 Trans, 2N5089 1272-0031 Motorola 2N5089
Q14 Trans, 2N3563 1272-0022 Fairchild 2N3563
Q15 Trans, 2N3563 1272-0022 Fairchild 2N3563

RESISTORS

R1 Res, 510 Ohm, 5%, 1/4W Comp 1066-5115 Allen-B radley CB5115
R2 Res, 6.81K, 1%, 1/8W 100 PPM 1075-0140 Dale MFF 1/8
R3 Res, 1. 5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R4 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-B radley CB1025
R5 Res, 6.81K, 1%, 1/8W 100 PPM 1075-0140 Dale MFF 1/8

R6. Res, 22 Meg, 5%, 1/4W CC 1066-2265 Allen-Bradley CB2265

R7 Res, 130K, 1%, 1/8W MF 1075-0114 Dale MFF 1/8
R8 Res, 680 Ohm, 5%, 1/4W Comp 1066-6815 Allen-Bradley CB6815
R9 Res, 200K, 1%, 100 PPM Film 1075-0148 Dale MFF 1/8
RIO Res, 3K, 5%, 1/4W Comp 1066-3025 All en-Bradley CB3025

R11 Res, 1K, 1%, 1/8W MF 1075-0037 Dale MFF 1/8

R12 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
R13 Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025
R14 Res, 7.5K, 5%, 1/4W Comp 1066-7525 Allen-Bradley CB7525
R15 Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025

R16 Res, 18.2K, 1%, 1/8W MF 1075-0075 Dale MFF 1/8

R17 Res, 1. 62K, 1%, 1/8W MF 1075-0070 Dale MFF 1/8
R18 Res, 1. 62K, 1%, 1/8W MF 1075-0070 Dale MFF 1/8
R19 Res, 3.4K, 1%, 1/8W MF 1075-0020 Dale MFF 1/8
R20 Res, 3.4K, 1%, 1/8W MF 1075-0020 Dale MFF 1/8

R21 Res, 1K, 1%, 1/8W MF 1075-0037 Dale MFF 1/8

R22 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MFF 1/8
R23 Res, 1K, 1%, 1/8W MF 1075-0037 Dale MFF 1/8
R24 Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025
R25 Res, 715 Ohm, 1%, 1/8W MF 1075-0085 Dale MFF 1/8

R26 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MFF 1/8

R27 Res, 1.62K, 1%, 1/8W MF 1075-0070 Dale MFF 1/8
R28 Res, 715 Ohm, 1%, 1/8W MF 1075-0085 Dale MFF 1/8
R29 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MFF 1/8
R30 Res, 2K, 1%, 1/8W MF 1075-0079 Dale MFF 1/8

7-21
 elM CE-4

100 Hz VCO and Phase Detector, 2800 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R31 Res, 2.74K, 1%, 1/8W MF 1075-0071 Dale MFF 1/8

R32 Res, 1K, 1%, 1/8W MF 1075-0037 Dale MFF 1/8
R33 Res, 4.75K, 1%, 1/8W MF 1075-0038 Dale MFF 1/8
R34 Res, 2.2lK, 1%, 1/8W MF 1075-0010 Dale MFF 1/8
R35 Res, lK, 1%, 1/8W MF 1075-0037 Dale MFF 1/8

R36 Res, 1. 5K, 1%, 1/8W MF 1075-0039 Dale MFF 1/8

R37 Res, 2.21K, 1%, 1/8W MF 1075-0010 Dale MFF 1/8
R38 Res, 26.1 Ohm, 1%, 1/10W MF 1074-1011 Dale MFF 1/10
R39 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R40 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CJ31025

R41 Res, 200 Ohm, 5%, 1/4W Comp 1066-2015 Allen-Bradley CB2015
R42 Res, 430 Ohm, 5%, 1/4WComp 1066-4315 Allen-Bradley CB4315
R43 Res, 680 Ohm, 5%, 1/4WComp 1066-6815 Allen-Bradley CB6815
R44 Res, 820 Ohm, 5%, 1/4WComp 1066-8215 Allen-Bradley CB8215
R45 Res, 510 Ohm, 5%, 1/4WComp 1066-5115 Allen-Bradley CB5115

INTEGRA TED CIRCUITS

U1 IC, SN7490N 2025-0002 TI SN7490N

U2 IC, MC4044P Phase Detector 2025-0066 Motorola MC4044P
U3 IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N
U4 IC, LM308N, Op Ampl 8 Pin 2025-0070 National LM308N
U5 IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N

U6 IC, SN7490N 2025-0002 TI SN7490N

5601"OO.S
7-22
 CIM CE-4:

Microwave Casting Assembly, 3000

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3000 Microwave Casting Assembly 7046-0036 Cushman

CAPACITORS

C1 Not Used
C2 Not Used
C3 Not Used
C4-C19 Feedthru, 1000pF, GMV, 500V 1005-0083 Sprague 514C1
C20 Elec, 25",F, +75-10%, 25V 1013-0010 illinois 25T25

DIODES

CR1 Si, 1N3064 1281-0013 Teledyne 1N3064

CR2 Si, 1N3064 1281-0013 Teledyne 1N3064

CONNECTORS

J1 Submini Straight 2536-0046 Phelps-Dodge 700006

J2 Submini Straight 2536-0046 Phelps-Dodge 700006
J3 Submini Straight 2536-0046 Phelps-Dodge 700006
J4 PC Board 12 Conta<i:, Double Row 2535-0052 Viking 2VK6D/1-1
J5 Submini Straight 2536-0046 Phelps-Dodge 700006

J6 Submini Straight 2536-0046 Phelps-Dodge 700006

PI Sub mini , Right Angle 2536-0044 Phelps-Dodge 700085
P2 Sub mini , Right Angle 2536-0044 Phelps-Dodge 700085
P3 Sub mini , Right Angle 2536-0044 Phelps-Dodge 700085
P4 Not Used

P5 Submini, Right Angle 2536-0044 Phelps-Dodge 700085

P6 Submini, Right Angle 2536-0044 Phelps-Dodge 700085 ,
I
INDUCTORS

L1 RFC, • 22/ili, ±20% 1585-0039 Delevan 1537-02

L2 RFC, .22",H, ±20% 1585-0039 Delevan 1537-02
L3 RFC, .22",H, ±20% 1585-0039 Delevan 1537-02
L4 Not Used
L5-7 RFC, Ferrite Bead ~250 1586-0004 Ferroxcube 56-590-65/4B

L8 Not Used
L9-11 RFC, Ferrite Bead ~250 1586-0004 Ferroxcube 56-590-65/4B
L12 Not Used
L13 Not Used
,
Ll4-26 RFC, Ferrite Bead ~250 1586-0004 Ferroxcube 56-590-65/4B

RESISTORS

R1 Comp, 2.4k, :1:5%, 1/4W 1066-2425 Allen-Bradley CB2425

I
I

I
R2
R3
Comp, 2.7k, :1:5%, 1/4W
Res, 51 Ohm, 5%, 1/4W CC
1066-2725
1066-5105
Allen-Bradley
Allen-Bradley
CB2725
CB5105
I
I
I

5601··0065 7-23
 CIM CE-4

Attenuator Control, 3100

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3100 PCB Assy - Attenuator Control 7001-0402 Cushman

PC Board 1780-0S17 Cushman

CAPACITORS

C1 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z

C2 Cap, 270PF, S%, SOOV Mica 1002-0031 Elmenco DM1S-F-271J
C3 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z
C4 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z
CS Cap, 10PF, S%, SOOV Mica 1002-0016 Elmenco DM1S-C-100J

C6 Cap, 10~F, 10%, 20V 1011-0007 Kemet K10C20K

C7 Cap, 10~F, 10%, 20V 1011-0007 Kemet K10C20K
C8 Cap, • 04tF, +80-20%, 2SV Disc 1005-0013 Erie S83S-S12-YSU-103Z
C9 Cap, • 05~F, +80-20%, 2SV Disc 100S-0014 Erie S85S-505-YSUO-S03Z
C10 Cap, • OS~F, +80-20%, 2SV Disc 100S-0014 Erie S85S-S0S-YSUO-S03Z

C11 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z

C12 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z
C13 Cap •• 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z
C14 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z
CIS Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-Y5U-103Z

C16 Cap, • 04tF, +80-20%, 2SV Disc 100S-0013 Erie S83S-S12-YSU-103Z

C17 Cap, • OS~F, +80-20%, 25V Disc 100S-0014 Erie S8SS-S0S-YSUO-S03Z
C18 Cap, • OS~F, +80-20%, 2SV Disc 100S-0014 Erie S85S-S0S-Y5UO-503Z

DIODES

CR1 Diode, 1N3064 1281-0013 Teledyne IN3064

CR2 Diode, IN3064 1281-0013 Teledyne 1N3064
CRa Diode, 1N3064 1281-0013 Teledyne 1N3064
CR4 Diode, 1N3064 1281-0013 Teledyne 1N3064
CRS Diode, 1N3064 1281-0013 Teledyne IN3064

INDUCTORS

L1 Choke, • 22~H, 20% lS8S-0039 Delevan 1537-02

L2 Choke, • 22~H, 20% 1585-0039 Delevan 1537-02
L3 Choke, • 22~H, 20% 1585-0039 Delevan 1537-02
L4 Choke, • 22~H, 20% 1585-0039 Delevan 1537-02
L5 Choke, • 2~, 20% 1585-0039 Delevan 1537-02

L6 Choke, • 22~H, 20% 1585-0039 Delevan 1537-02

TRANSISTORS

Q1 Trans, 2N3904 1272-0032 Motorola 2N3904

Q2 Trans, 2N3904 1272-0032 Motorola 2N3904
Q3 Trans, 2N3904 1272-0032 Motorola 2N3904
Q4 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q5 Trans, 2N3906 1272-0037 Motorola 2N3906

Q6 Trans, 2N3904 1272-0032 Motorola 2N3904

Q7 Trans, 2N3904 1272-0032 Motorola 2N3904
Q8 Trans, 2N3565 1272-0017 Fairchild 2N3565

RESISTORS

R1 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R2 Pot, 10K, 10%, 3/4W 1215-0014 Hel1trim 89WR
R3 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R4 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R5 Res, 22K, 5%, 1/4W Comp 1066-2235 Allen-Bradley CB2235

5601··0065 7-24
 CIM CE-4

Attenuator Control, 3100 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R6 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015

R7 Pot, 5K, 10%. 3/4W 1215-0012 HeUtrim 89WR
R8 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035
R9 Not Used
RIO Not Used

Rll Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R12 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R13 Res, 6.8K, 5%, 1/4W Comp 1066-6825 Allen-Bradley CB6825
R14 Pot, 20K, 10%, 3/4W 1215-0021 Beckman 89WR
R15 Res, 18K, 5%, 1/4W Comp 1066-1835 Allen-Bradley CB1835

R16 Pot, 10K, 10%, 3/4W 1215-0014 Helitdm 89WR

R17 Res, 5.6K, 5%, 1/4W Comp 1066-5625 All en-Bradley CB5625
R18 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R19 Res, 3.6K, 5%, 1/4W Comp 1066-3625 Allen-Bradley CB3625
R20 Res, 10K, 5%, 1/4 W Comp 1066-1035 Allen-Bradley CB1035

R21 Res, 51K, 5%, 1/4W Comp 1066-5135 Allen-Bradley CB5135

R22
R23
Res,
Res,
2K, 5%, 1/4W Comp
9.1K, 5%, 1/4W Comp
1066-2025
1066-9125
Allen-Bradley
Allen-Bradley
CB2025
CB9125
I
R24 Res, 27K, 5%, 1/4W Comp 1066-2735 All en-Bradley CB2735
I
R25 Res, 3.6K, 5%, 1/4W Comp 1066-3625 Allen-Bradley CB3625

R26 Pot, 20K, 10%, 3/4W 1215-0021 Beckman 89WR

R27 Res, 20K, 1%, 1/8W MF 1075-0096 Dale MFF 1/8
R28 Res, 1.05K, 1%, 1/8W MF 1075-0086 Dale MFF 1/8
R29 Res, 27K, 5%, 1/4W Comp 1066-2735 Allen-Bradley CB2735
R30 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215 I
R31 Res, 4.3K, 5%, 1/4 W Comp 1066-4325 Allen-Bradley CB4325
R32 Res, 68 Ohm, 5%, 1/4W Comp 1066-6805 Allen-Bradley CB6805 I
I
R33 Res, 4.3K, 5%, 1/4 W Comp 1066-4325 Allen-Bradley CB4325
R34 Res,!. 8K, 5%, 1/4W Comp 1066-1825 All en-Bradley CB1825
I
R35 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Ailen-Bradley CB8215 I
R36
R37
Res,
Pot,
10K, 5%, 1/4W Comp
20K, 10%, 3/4W
1066-1035
1215-0021
Allen-Bradley
Beckman
CB1035
89WR
I
R38 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Ailen-Bradley CB5125
R39 Pot, 20K, 10%, 3/4W 1215-0021 Beckman 89WR
R40 Pot, 10K, 10%, 3/4W 1216-0014 Helitrim 89WR

R41 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Ailen-Bradley CB5125 I

R42 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125

R43 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Ailen-Bradley CB5125
R44 Pot, 20K, 10%, 3/4W 1215-0021 Beckman 89WR
R45 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R46 Thrmis - 1K 1253-0002 Veco 31E2

R47 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R48 Res, 220 Ohm, 5%, 1/4W Comp 1066-2215 Allen-Bradley CB2215
R49 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Allen-B radley CB5125
,
R50 Pot, 5K, 10%, 3/4 W 1215-0012 Helitrim 89WR

R51 Res, 4.3K, 5%, 1/4W Comp 1066-4325 Ailen-Bradley CB4325

R52 Res, 43K, 5%, 1/4W Camon Comp 1066-4335 Ailen-Bradley CB4335

INTEGRATED CIRCUITS

U1 IC, SN72741P 2025-0067 S1gnetics UA741CV

U2 IC, LM30lA Op Amp 2025-0032 National LM30lA
U3 IC, SN72741P 2025-0067 Signetics UA741CV

5601··0065 7-25
 CIM CE-4

R. F. Switch, 3200

CKT. REF. DESC RIPTION CE STOCK NO. MFR. MFR. NO.

3200 PCB Assy - Switch RF 7001-0401 Cushman

PC Board 1780-0281 Cushman

CAPACITORS

C1 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-A100- W5RO-221K

C2 Cap, 6. 8J.!F, 20%, 20V 1012-0001 Kemet T411D685M020AU
C3 Cap, 1000PF, +100-0%, Feedthru 1005-0077 Allen-Bradley FW5N
C4 Cap, 1000PF, +100-0%, Feedthru 1005-0077 Allen-Bra41 ey FW5N
C5 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-AI00-W5RO-22lK

C6 Cap, 6. 8J.!F, 20%, 20V 1012-0001 Kemet TH1D685M020A U

C7 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-A100- W5RO-22lK
C8 Cap, 6. 8J.!F, 20%, 20V 1012-0001 Kemet T411D685M020A U

DIODES

CR1 Diode, MPN3401 1281-0050 Motorola MPN-3401

CR2 Diode, MPN3401 1281-0050 Motorola MPN-3401
CR3 Diode, MPN3401 1281-0050 Motorola MPN-3401
CR4 Diode, MPN3401 1281-0050 Motorola MPN-3401
CRS Diode, MPN3401 1281-0050 Motorola MPN-3401

CR6 Diode, MPN3401 1281-0050 Motorola MPN-3401

INDUCTORS

L1 Choke, U-250 Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

L2 Choke, U-250 Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

RESISTORS

Rl Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025

R2 Res, 680 Ohm, 5%, 1/4 W Comp 1066-6815 All en-Bradley CB6815
R3 Res, 680 Ohm, 5%, 1/4W Comp 1066-6815 Allen-Bradley CB6815
R4 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025
R5 Res, 1K, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBI025

5601··0065 7-26
 ClM CE-4

1000 MHz Low Pass Filter, 3450

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3450 Assy, PCB Filter Low Pass 1000 MHz 7001-0154 Cushman
PC Board 1780-0312

CAPACITORS

C1 Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-101J

C2 Cap, • 0021-'F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5V-202M
C3 Cap, 12PF, 5%, 500V Mica 1002-0017 Elmenco DM15-C-120J
C4 Cap, • 0021-'F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5V-202M
C5 Cap, 1000PF, 10%, 100V Min Cer 1005-0081 Erie 8121-100- WSR-102K

RESISTORS

R1 Res, 680 Ohm, 5%, 1/4W Comp 1066-6815 Allen-Bradley CB6815

R2
I Res, 680 Ohm, 5%, 1/4W Comp 1066-6815 Allen-Bradley CB6815
R3 Res, 470K, 5%, 1/4W Comp 1066-4745 Allen-Bradley CB4745
\ R4 Res, 470K, 5%, 1/4W Comp 1066-4745 Allen-Bradley CB4745
R5 Res, 4.3K, 5%, 1/4W Comp 1066-4325 Allen-Bradley CB4325

INT EGRA TED CIRCUIT

V1
I IC, LM30lA Op Amp 2025-0032 National LM30lA

I I
I

I
!
I

I
i
I i
I ~
i
I
,!
I
I
I
I

--

5601"0065 7-27
 CIM CE-4

Microwave Mixer, 3500

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3500 Assy, PC Bd. Mixer Microwave 7001-0155 Cushman

PC Board 1780-0283 Cushman

CAPACITORS

C1 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5

C2 Cap, 2.2PF, .25PF%, 50V 1012-0003 Varadyne 3BN050S2R2C(S)
C3 Cap, 1.5PF, .25PF%, 50V 1005-0121 ACI FD35NP01H1R5C
C4 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C5 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S101K(S)

C6 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S101K(S)

C7 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S101K(S)
C8 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C9 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N
CIO Cap, lOOOPF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N

Cll Cap, 220PF, 10%, 100V MiDi 1005-0075 Erie 8101-AlOO-W5RO-22lK

C12 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-A100-W5RO-22lK
C13 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-AlOO-W5RO-221K
C14 Cap, FSV Chip

DIODES

CR1 Diode, HPA2900 1283-0003 HPA 5082-2900

CR2 Diode, HPA2900 1283-0003 HPA 5082-2900
CR3 Diode, Microwave Pin, lSV34 1281-0075 Nippon Elec lSV34
CR4 Diode, Microwave Pin, lSV34 i 1281-0075 Nippon Elec lSV34
CR5 Diode, Microwave Pin, lSV34 Ii 1281-0075 Nippon Elec lSV34

INDUCTOR !
LI Choke, 22Ot-lH, 5% I
I
1585-0018 Delevan 1537-92

RESISTORS

R1 Res, 12K, 5%, 1/8W Comp 1065-1235 Allen-Bradley BB1235

R2 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 All en-Bradley CB4715
R3 Res, 6.8K, 5%, 1/8W Comp 1065-6825 All en-Bradley BB6825
R4 Res, lK, 5%, 1/8W Comp 1065-1025 Allen-Bradley BBl,025
R5 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley BB1025

R6 Res, FSV 1%, 1/8W MF 1075-xxxx Dale MF 1/8

R7 Res, 100 Ohm, 5%, 1/8W Comp 1065-1015 Allen-Bradley BB1015
R8 Res, 49.9 Ohm, 1%, 100 PPM, 1/20V 1075-0141 Dale MFF 1/20

TRANSFORMER

T1 Transformer, Toroidal Bifilar 1579-0026 Cushman

5601""0065""2 7-28
 CIM CE-4:

Voltage Controlled Attenuator, 3600

-
... ..... _..... _.

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3600 Assy, PCB Atten Voltage Control 7001-0156 Cushman

PC Board 17BO-0275 Cushman

CAPACITORS

C1 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX05 OS 10 1K(S)

C2 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie B101-A100- W5RO-221K
C3 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N
C4 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N
C5 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S10 lK(S)

C6 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie B101-A100-W5RO-221K

C7 Cap, 4. 7PF, .25PF%, 50V 1012-0009 Varadyne 3BN050S4R7C(S)
CB Cap, 1.3-5. 4PF, Air Var. 1000-0012 EF Johnson 1B7-0103-005
C9 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie Bl01-A100-W5RO-221K
ClO Cap, 1. 3-5. 4PF, Air Var. 1000-0012 EF Johnson 1B7-0103-005

C11 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N

II C12
C13
Cap,
Cap,
1000PF, +100-0%, Feed Thru
1000PF, 10%, 100V Min Cer
1005-0077
1005-00B1
Allen-Bradley
Erie
FW5N
B121-100-W5R-102K
C14 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie B101-A100- W5RO-221K
I C15 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S10 lK(S)
I
I
I
C16
C17
Cap,
Cap,
1000PF, +100-0%,
220PF, 10%, 100V
Feed Thru
Mini
1005-0077
1005-0075
Allen-Bradley
Erie
FW5N
B101-A100-W5RO-221K
C1B Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S101K(S)
C19 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N
C20 I
J
Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N !I
C21
C22
C23
Cap,
Cap,
Cap,
220PF, 10%, 100V
100PF, 10%, 50V
1000PF, +100-0%,
Mini

Feed Thru
1005-0075
1012-0004
1005-0077
Erie
Varadyne
Allen-Bradley
B101-A100-W5RO-221K t
3BX050S101K(S)
FW5N
I
C24 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N ,i
C25 Cap, 1000PF, +100-0%, Feed Thru 1005-0077 Allen-Bradley FW5N I
I C26 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie B101-A100-W5RO-221K I
I C27 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S101K(S)
I C28
C29
Cap,
Cap,
1000PF, 10%, 100V Min Cer
lOOOPF, 10%, 100V Min Cer
1005-0081
1005-00B1
Erie
Erie
B121-100- W5R-102K
8121-100-W5R-102K
C30 Cap, 10PF, 10%, 100V Mini 1005-0074 Erie 8101-100-COG-100K

DIODES ,
I

!
CR1 Diode, Microwave Pin, 1N5767 12B1-o140 HP 1NS767

I CR2
CR3
CR4
Diode,
Diode,
Diode,
Microwave Pin, 1N5767
HPA2811
HPA2811
12B1-0140
12B3-0004
1283-0004
HP
HP
HP
IN5767
5082-2811
5082-2B11
CR5 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767

CR6 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767

CR7 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767
CR8 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767
CR9 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767
CR10 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767

CR11 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767

CR12 Diode, Microwave Pin, 1N5767 1281-0140 HP 1N5767
CR13 Diode, Microwave Pin, 1N5767 12B1-0140 HP 1N5767

5601"0065-' 7-29
 CIM CE-f

Voltage Controlled Attenuator, 3600 (cont)

CKT. REF. DESC RlPTION CE STOCK NO. MFR. MFR. NO.

INDUCTORS

L1 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

L2 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L3 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L4 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L5 Assy, Coil, • 004J..tH, Half Turn 1596-6301 Cushman

L6 Assy, Coil, .004J..tH, Half Turn 1596-6302 Cushman

L7 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L8 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L9 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 5C-590-65/4B
L10 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590j.,65/4B

Lll Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

L12 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L13 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
L14 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B
LI5 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

L16 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

LI7 Choke, U-250, Ferrite Bead 1586-0004 Ferroxcube 56-590-65/4B

TRANSISTORS

Q1 Trans, 2N3906 1272-0037 Motorola 2N3906

Q2 Trans, 2N3904 1272-0032 Motorola 2N3904

RESISTORS ,

R1 Res, 47 Ohm, 5%, 1/4W Comp 1066-4705 Allen-Bradley CB4705

R2 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 All en-Bradley CB4715
R3 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R4 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R5 Pot, 20K, 20%, 1/2W 1203-0055 Bourns 3339H-1-203

R6 Res, 47 Ohm, 5%, 1/4W Comp 1066-4705 Allen-Bradley CB4705

R7 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R8 Res, 51 Ohm, 5%, 1/4W Comp 1066-5105 Allen-Bradfey CB5105
R9 Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 All en-Bradley CB5615
RIO Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

Rll Pot, 5K, 20%, 1/2W 1203-0054 Bourns 3339H-1-502

R12 Res, 750 Ohm, 5%, 1/4W Comp 1066-7515 Allen-B radley CB7515
R13 Res, 6.8K, 5%, 1/4W Comp 1066-6825 Allen-Bradley CB6825
R14 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215 ,
R15 Res, 6.8K, 5%, 1/4W Comp 1066-6825 Allen-Bradley CB6825

R16 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025

R17 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
RIB Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 Allen-Bradley CB5615
R19 Pot, 20K, 20%, 1/2W 1203-0055 Bourns 3339H-1-203
R20 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225

R21 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
R22 Res, 390 Ohm, 5%, 1/4W Comp 1066-3915 Allen-Bradley CB3915
R23 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
R24 Res, 1. 2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225

5601"0065
7-30
 CIM CE-4

1190 MHz-1300 MHz Oscillator, 3700

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3700 Assy, PC Bd. Osc 1190-1300 MHz 7001-0157 Cushman

PC Board 1780-0314 Cushman

CAPACITORS

C1 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5

C2 Plate, Double Sided Cap 2245-0044 Cushman
C3 Cap, lOjlF, 10%, 20V 1011-0007 Kemet K10C20K
C4 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C5 Cap, • 01jlF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C6 Cap, 22PF, 5%, 50V 1012-0007 Varadyne 3BN050S220J(S)

C7 Cap, 10PF, 10%, 100V Mini 1005-0074 Erie 8101-100-COG-100K
C8 Plate, Double Sided Cap 2245-0044 Cushman
C9 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C10 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S10lK(S)

C11 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C12 Cap, 1. 5PF, .25PF%, 50V 1005-0121 ACI FD35NP01H1R5C
C13 Cap, 100PF, 10%, 50V 1012-0004 Varadyne 3BX050S10lK(S)
C14 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-IOlK

DIODE

CR1 Dio, Varactor SI, 11. 5PF, at 3V 1281-0078 Alpha Ind DKV6533B

TRANSISTORS

Q1 Trans, 2SC1424 1272-0071 Nippon Elec 2SC1424

Q2 Trans, 2SC1424 1272-0071 Nippon Elec 2SC1424
Q3 Trans, 2N3567 1272-0014 Fairchild 2N3567

RESISTORS

R1 Res, 130 Ohm, 5%, 1/4W Comp 1066-1315 Allen-Bradley CB1315

R2 Res, 33K, 5%, 1/4W Comp 1066-3335 Allen-Bradley CB3335
R3 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
Pot, 5K, 20%, 1/2W 1203-0054 Bourns 3339H-1-502
R4
R5 He,. 49.9 Ohm. 1%. 100 PPM. 1/201 1075-0141 Dale MFF 1/20

R6 Res, 330 Ohm, 5%, 1/2W Comp 1067-3315 All en-Bradley EB3315
R7 Res, 49.9 Ohm, 1%, 100 PPM, 1/20 1075-0141 Dale MFF 1/20
R8 Res, 49.9 Ohm, 1%, 100 PPM, 1/20\ 1075-0141 Dale MFF 1/20
R9 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
RIO Res, 390 Ohm, 5%, 1/2W Comp 1067-3915 Allen-Bradley EB3915

R11 Res, 1.6K, 5%, 1/4W Comp 1066-1625 All en-Bradley CB1625
R12 THRMIS, lK 1253-0002 Veco 31E2
R13 Res, 2.4K, 5%, 1/4W Comp 1066-2425 Allen-Bradley CB2425
R14 Res, 1. 6K, 5%, 1/4W Comp 1066-1625 Allen-Bradley CB1625

5601""0065 7-31
 CIM CE-4

1190 MHz-1300 MHz Phase Lock, 3750

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3750 Assy, PCB Phaselock 1190-1300 MHz 7001-0158 Cushman

PC Board 1780-0271 Cushman

CAPACITORS

C1 Cap, • 002j.(F, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M

C2 Cap, • 002J.!F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C3 Cap, 5PF, .5PF%, 500V Mica 1002-0028 Elmenco DM15-C-050D
C4 Cap, • 002j.(F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C5 Cap, 1. 5j.(F, 10%, 35V 1013-0001 Sprague 150D155X9035B2

C6 Cap, • 002j.(F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C7 Cap, • 002j.(F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C8 Cap, 10j.(F, +50-20%, 35V 10ll-0006 ITT TAG 10/35-20
C9 Cap, 3. 3j.(F, 10%, 15V 10ll-0008 Kemet K3R3C15K
C10 Cap, • 027J.!F, 1%, 50V 1008-0064 TRW 863UW

Cll Cap, 3.3j.(F, 10%, 15V 10ll-0008 Kemet K3R3C15K

C12 Cap, 3. 31lF, 10%, 15V 1011-0008 Kemet K3R3C15K
C13 Cap, 56PF, 5%, 500V Mica 1002-0019 Elmenco DM15-E-560J
C14 Cap, 5. 5-18PF, 350V, Vert Trim 1001-0008 Erie 538-002A-5.5-18
C15 Cap, • 002J.!F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C16 Cap, .002J.!F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C17 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C18 Cap, 180PF, 5%, 500V Mica 1002-0005 Elmenco DM15-F-181J
C19 Cap, lS0PF, 5%, 500V Mica 1002-0005 Elmenco DM15-F-1S1J
C20 Cap, 9-35PF, 200V, Vert Trim 1001-0006 Erie 538-002-94D

C21 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5 U-202M
C22 Cap, .002J.!F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-20211
C23 Cap, • 002J.!F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C24 Cap, 180PF, 5%, 500V Mica 1002-0005 Elmenco DM15-F-181J
C25 Cap, 30PF, 5%, 500V Mica 1002-0043 Elmenco DM15-E-300J

C26 Cap, • 05J.lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C27 Cap, • 002J.lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5 U-2021\1
C28 Cap, • 002j.(F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C29 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C30 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-A100-W5RO-221K

C31 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C32 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C33 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C34 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C35 Cap, 4.7PF, .25PF%, 50V 1012-0009 Varadyne 3BN050S4R7C(S)

C36 Cap, • 002J.lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C37 Cap, • 002J.lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C38 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5 U-2021\1
C39 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C40 Cap, • 05J.!F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

C41 Cap, 150PF, 5%, 500V Mica 1002-0021 Elmenco DM15-F-151J

C42 Cap, • 002J.lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5lJ-202M
C43 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5 U-202M
C44 Cap, .002IlF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M
C45 Cap, 12PF, 5%, 500V Mica 1002-0017 Elmenco DM15-C-120J

C46 Cap, o 002J.!F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5 U-2021\1
C47 Cap, 1000PF, 10%, 100V Min Cer 1005-0081 Erie 8121-100- W5R-102K
C48 Cap, 47J.lF, 20%, 20V 10ll-0009 Dickson D47GSC20M

5601"0065 7-32
 CIM CE-4

1190 MHz-1300 MHz Phase Lock, 3750 (cant)

CKT. REF. DESC RlPTION CE STOCK NO. MFR. MFR. NO.

DIODES
CR1 Diode, Microwave Pin, 1SV34 1281-0075 Nippon Elec 1SV34
Z1 Diode, HPA2206 (CR5,6, 7, 8) 1281-0067 HP 5082-2206
CR2 Diode, HPA0136 1282-0006 HP 5082-0136
CR3 Diode, HPA2811 1283-0004 HP 5082-2811
CR4 Diode, HPA2811 1~83-0004 HP 508~-2811
i
CR9 Diode, IN3064 1281-0013 Teledyne IN3064
CRI0 Diode, IN3064 1281-0013 Teledyne IN3064
I CR11
CR12
Diode,
Diode,
IN3064
IN3064
1281-0013
1281-0013
Teledyne
Teledyne
IN3064
IN3064
I
CR13 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR14 Diode, 1N3064
INDUCTORS
1281-0013 Teledyne
I 1N3064

I L1
L2
Choke, 2 1/2 Turns Wide Band
Assy, Coil. 064J.ili, RF
1586-0003
1596-5802
VK
Cushman
20020/4B

L3 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B

L4 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L5 Assy, Coil, .1l4J,LH, RF 1596-5804 Cushman

L6
L7
I Assy, Coil, .098IJH, RF
Choke, 2 1/2 Turns Wide Band
1596-5803
1586-0003
Cushman
VK 20020/4B I
L8
L9
Choke, 2 1/2 Turns Wide Band
Choke, 1.5J.lH, 10%
1586-0003
1585-0038
VK
Delevan
20020/4B
1537-16
I!
L10 Assy, Coil, .131J.lH 1596-5805 Cushman

Lll Assy, Coil, .047J.lH, RF 1596-5801 Cushman

T RAN SISTO RS i
I

Q1 Trans, 2N3643 1272-0066 Fairchild 2N3643

Q2
Q3
Trans,
Trans,
2N3906
2N5089
1272-0037
1272-0031
Motorola
Motorola
2N3906
2N5089
II
Q4
,I
Trans, 2N5089 1272-0031 Motorola 2N5089 I
Q5 Trans, 2N3866 1271-0005 RCA 2N3866

Q6 Trans, 2N3904 1272-0032 Motorola 2N3904

Q7
Q8
Trans,
Trans,
2N3906
2N3904
1272-0037
1272-0032
Motorola
Motorola
2N3906
2N3904 I
I

Q9
Q10
Trans,
Trans,
2N3904
2N3906
1272-0032
1272-0037
Motorola
Motorola
2N3904
2N3906
I
RESISTORS I
Rl Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R2 Res, 1.2K, 5%, 1/4W Camp 1066-1225 Allen-Bradley CB1225
R3 Res, 75 Ohm, 1%, 1/8W MF 1075-0035 Dale MFF 1/8
R4
R5

R6
Res,
Res,
2.43K, 1%, 1/8W MF
5.6K, 5%, 1/4W Camp
1075-0019
1066-5625
Dale
Allen-Bradley
MFF 1/8
CB5625 I
Res, 56 Ohm, 5%, 1/4W Comp 1066-5605 Allen-Bradley CB5605
R7 Res, 1. 8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825
R8 Pot, 10K, 20%, 1/2W 1215-0019 Beckman 66WR10K
R9 Res, 8:20 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
RIO Res, 10K, 5%, 1/4W Camp 1066-1035 Allen-Bradley CB1035

Rll Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025

R12 Res, 4.99K, 1%, 1/8W MF 1075-0095 Dale MFF 1/8
R13 Res, 820 Ohm, 5%, 1/4W Camp 1066-8215 Allen-Bradley CB8215
R14 Res, 15K, 5%, 1/4W Camp 1066-1535 Allen-Bradley CB1535
R15 Res, 3K, 5%, 1/4W Comp 1066-3025 All en-Bradley CB3025

5601"0065"2 7-33
 CIM CE-4

1190 HHz-1300 MHz Phase Lock, 3750 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R16 Res, 22 Ohm, 5%, 1/4W Comp 1066-2205 Allen-Bradley CB2205

R17 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R18 Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625
R19 Res, 1. 8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825
R20 Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825

R21 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R22 Res, 1.5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R23 Res, 1.3K, 5%, 1/4W Comp 1066-1325 Allen-Bradley CB1325
R24 Res, 1. 3K, 5%, 1/4W Comp 1066-1325 Allen-Bradley CB1325
R25 Res, 6.2K, 5%, 1/4W Comp 1066-6225 Allen-Bradley CB6225

R26 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R27 Res, 75K, 5%, 1/4W Comp 1066-7535 Allen-Bradley CB7535
R28 Res, 5.lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R29 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R30 Res, 5.6K, 5%, 1/4 W Comp 1066-5625 : Allen-Bradley CB5625

R31 Res, 15K, 5%, 1/4WComp 1066-1535 , Allen-Bradley CB1535

R32 Res, 680 Ohm, 5%, 1/2W Comp 1067-6815 . Allen-Bradley EB6815
R33 Res, 3.3K, 5%, 1/4W Comp 1066-3325 . Allen-Bradley CB3325
R34 Res, 15 Ohm, 5%, 1/4W Comp 1066-1505 Allen-Bradley CB1505
R35 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925

R36 Res, 8.2K, 5%, 1/4W Comp 1066-8225 Allen-Bradley CB8225

R37 Res, 390 Ohm, 5%, 1/2W Comp 1067-3915 All en-Bradley EB3915
R38 Pot, 20K, 20%, 1 W Trim 1200-0028 CTS 360T203B
R39 Res, 1K, 5%, 1/4 W Comp 1066-1025 Allen-Bradley CB1025
R40 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R41 Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825

R42 Res, 10 Meg, 5%, 1/4W Comp 1066-1065 Allen-Bradley. CB1065
R43 Res, 18K, 5%, 1/4W Comp 1066-1835 Allen-Bradley CB1835
R44 Res, 22K, 5%, 1/4W Comp 1066-2235 Allen-Bradley CB2235
R45 Res, 10K, 5%, 1/4 W Comp 1066-1035 Allen-Bradley CB1035

R46 Res, 100 Ohm, 5%, 1/8W Comp 1065-1015 Allen-Bradley BB1015
R47 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R48 Res, 100 Ohm, 5%, 1/8W Comp 1065-1015 Allen-Bradley BB1015
R49 Res, 49.9 Ohm, 1%, 100 PPM 1/20W 1075-0141 Dale MFF 1/20
R50 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R51 Res, 240 Ohm, 5%, 1/4W Comp 1066-2415 Allen-Bradley CB2415
R52 Res, 240 Ohm, 5%, 1/4W Comp 1066-2415 Allen-Bradley CB2415
R53 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R54 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
R55 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325

R56 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R57 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R58 Res, 1.5K, 5%, 1/4W Comp 1066-1525 Allen-Bradley CB1525
R59 Res, 15K, 5%, 1/4 W Comp 1066-1535 Allen-Bradley CB1535
R60 Not Used
R61 Res, 301 Ohm, 1%, 1/8W MF 1075-0048 Dale MFF 1/8
TRANSFORMER
T1 Assy, Transformer Totoidal Bifilar 1579-0028 Cushman

INTEGRATED CIRCUITS

U1 IC, CA3028B 2025-0061 RCA CA3028B

U2 IC, SN72741P 2025-0067 TI SN72741P
ua IC, LM302 Voltage Follower 2025-0029 National LM302H

5601"0065 7-34
 ClM CE-4

1300 MHz-2200 MHz Oscillator, 3800

CKT. REF. DESC RlPTION CE STOCK NO. MFR. MFR. NO.

3800 Assy, PC Bd. Osc 1300-2200 MHz 7001-0159 Cushman

PC Board 1780-0278 Cushman

CAPACITORS

C1 Cap. .002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C2 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C3 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C4 Cap, .002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C5 Cap, .002~, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C6 Cap, .OO2/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C7 Cap, .002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C8 Cap, .002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C9 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C10 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

Cll Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C12 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C13 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5U-202M
C14 Cap, • 002~, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C15 Cap, • 002~, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C16 Cap, • 002/-LF, 20%. 500V Disc 1005-0003 Erie 831-596- Z5U-202M
C17 Cap, • 002/-LF. 20%, 500V Disc ,, 1005-0003 Erie 831-596-Z5U-202M
C18 Cap, .002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
i
C19 Cap, • 002/-LF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C20 Cap, • 002j.LF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5U-202M

C21 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C22 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C23 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C24 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C25 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5

C26 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C27 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C28 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C29 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C30 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5

C31 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C32 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C33 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C34 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C35 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5 i

C36 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C37 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C38 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C39 Cap, 100PF, 20%, 250V Feed Thru 1005-0080 Aerovox EF-5
C40 Cap, 100PF, 20%. 250V Feed Thru 1005-0080 Aerovox EF-5

C41 Plate, 5'ingle Sided Cap 2245-0043 Cushman

C42 Plate, Single Sided Cap 2245-0043 Cushman
C43 Plate, Single Sided Cap 2245-0043 Cushman
C44 Plate, Single Sided Cap 2245-0043 Cushman
C45 Plate, Single Sided Cap 2245-0043 Cushman

C46 Plate, Single Sided Cap 2245-0043 Cushman

C47 Plate, Single Sided Cap 2245-0043 Cushman
C48 Plate, Single 5'ided Cap 2245-0043 Cushman
C49 Plate, Single Sided Cap 2245-0043 Cushman
C50 Plate, Single Sided Cap 2245-0043 Cushman

5601··0065
7-35
 ClM CE-4

1300 MHz-2200 MHz Oscillator, 3800 (cont)

CKT. REF. DESCRIPTION C:\ STOCK NO. MFR. MFR. NO.

CONNECTORS
J1 Conn, Submini RF Straight Coaxial 2536-0036 Sealectro 50-051
J2 Copper Strip --------- Cushman
J3 Conn, 12 Contact Double Row 2535-0052 Masterite 2MC6D/1-1
INDUCTORS

L1 Assy, Coil Air Core 1596-0061 Cushman

L2 Assy, Coil Air Core 1596-0061 Cushman
L3 Assy, Coil Air Core 1596-0061 Cushman
lA Assy, Coil Air Core 1596-0061 Cushman
L5 Assy, Coil Air Core 1596-0061 Cushman

L6 Assy, Coil Air Core 1596-0061 Cushman

L7 Assy, Coil Air Core 1596-0061 Cushman
L8 Assy, Coil Air Core 1596-0061 Cushman
L9 Assy, Coil Air Core 1596-0061 Cushman
L10 Assy, Coil Air Core 1596-0061 Cushman

TRANSISTORS

Q1 Trans, 2SC1424 1272-0071 Nippon Elec 2SC1424

Q2 Trans, FMT5789 1272-0061 Fairchild FMT5789
Q3 Trans, 2SC1424 1272-0071 Nippon Elec 2SC1424
Q4 Trans, FMT5789 1272-0061 Fairchild FMT5789
Q5 Trans, FMT5789 1272-0061 Fairchild FMT5789

Q6 Trans, FMT;j789 1272-0061 Fairchild FMT5789

Q7 Trans, 2SC1424 1272-0071 Nippon Elec 2SC1424
Q8 Trans, FMT5789 1272-0061 Fairchild FMT5789
Q9 Trans, 2SC1424 1272-0071 Nippon Elec 2SC1424
QI0 Trans, FMT5789 1272-0061 Fairchild FMT5789

RESISTORS

Rl Pot, 1K, 20%, 1WTrim 1200-0024 CTS 360TI02B

R2 Pot, lK, 20%, 1WTrim 1200-0024 CTS 360T102B
R3 Pot, 1K, 20%, lWTrim 1200-0024 CTS 360TI02B
R4 Pot, lK, 20%, 1WTrim 1200-0024 CTS 360T102B
R5 Pot, lK, 20%, lWTrim 1200-0024 CTS 360TI02B

R6 Pot, lK, 20%, 1WTrim 1200-0024 CTS 360T102B

R7 Pot, lK, 20%, 1WTrim 1200-0024 CTS 360TI02B
R8 Pot, lK, 20%, lW Trim 1200-0024 CTS 360T102B
R9 Pot, 1K, 20%, lWTrim 1200-0024 CTS 360TI02B
RIO Pot, 1K, 20%, lW Trim 1200-0024 CTS 360TI02B

Rll Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R12 Res, 470 Ohm, 5%, 1/4WComp 1066-4715 Allen-Bradley CB4715
R13 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R14 Res, 470 Ohm, 5%, 1/4WComp 1066-4715 Allen-Bradley CB4715
R15 Res, 470 Ohm, 5%, 1/4WComp 1066-4715 Allen-Bradley CB4715

R16 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R17 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R18 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R19 Res, 470 Ohm, 5%, 1/4WComp 1066-4715 Allen-Bradley CB4715
R20 Res, 470 Ohm, 5%, 1/4WComp 1066-4715 Allen-Bradley CB4715

R21 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215
R22 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215
R23 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215
R24 Res, 120 Ohm, 5%, 1/4WComp 1066-1215 Allen-Bradley CB1215
R25 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215

5601"0065 7-36

r
 CIM CE-4

1300 MHz-2200 MHz Oscillato..:', 3800 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R26 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 All en-Bradley CB1215
R27 Res, 120 Ohm, 5%, 1/4WComp 1066-1215 All en-Bradley CB1215
R28 Res, 120 Ohm, 5%, 1/4WComp 1066-1215 Allen-Bradley CB1215
R29 Res, 120 Ohm, 5%, 1/4WComp 1066-1215 Allen-Bradley CB1215
R30 Res, 120 Ohm, 5%, 1/4W Comp 1066-1215 Allen-Bradley CB1215

R31 Res, 100 Ohm, 5%, 1/4WComp 1066-1015 Allen-Bradley CB1015

R32 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R33 Res, 100 Ohm, 5%, 1/4WComp 1066-1015 Allen-Bradley CB1015
R34 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R35 Res, 100 Ohm, 5%, 1/4W C omp 1066-1015 Allen-Bradley CB1015

R36 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R37 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R38 Res, 100 Ohm, 5%, 1/4WComp 1066-1015 Allen-Bradley CB1015
R39 Res, 100 Ohm, 5%, 1/4WComp 1066-1015 Allen-Bradley CB1015
R40 Res, 100 Ohm, 5%, 1/4WComp 1066-1015 Allen-Bradley CB1015

R41 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R42 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R43 Res, 49.9 Ohm, 1%, 100 PPM, 1/20W 1075-0141 Dale MFF 1/20

,
,,
!

I
I

I
5601··0065
7-37
 CIM CE-4

1300 MHz-2200 MHz Phase Lock, 3900

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3900 Assy, PCB Phaselock, 1300-2200 MHz 7001-0160 Cushman

PC Board 1780-0274 Cushman

CAPACITORS

C1 Cap, • 002J.lF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M

C2 Cap, • 0021lF. 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M
C3 Cap, 5PF, .5PF%, 500V Mica 1002-0028 Elmenco DM15-C-050D
C4 Cap, .0021lF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M
C5 Cap, 1. 51lF, 10%, 35V 1013-0001 Sprague 150D155X9035B2

C6 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M

C7 Cap, • 0021lF, 20%. 500V Disc 1005-0003 Erie 831-596- Z5U-202M
C8 Cap, 10llF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20
C9 Cap, 10llF, 10%, 20V 1011-0007 Kemet K10C20K
C10 Cap, • 047J.lF, 10%, 100V 1008-0049 Sprague 225P12391WA3

C11 Cap, 10llF, 10%, 20V 1011-0007 ITT TAG 10/35-20

C12 Cap, 3. 31lF, 10%, 15V 1011-0008 Sprague 225P33291 WA3
C13 Cap, 56PF, 5%, 500V Mica 1002-0019 Elmenco DM15-E-560J
C14 Cap, 5. 5-18PF, 350V Vert Trim 1001-0008 Erie 538-002A-5.5-18
C15 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C16 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 83l-596-Z5U-202M

C17 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C18 Cap, 180PF, 5%, 500V Mica 1002-0005 Elmenco DM15-F-18lJ
C19 Cap, l80PF, 5%, 500V Mica 1002-0005 Elmenco DM15-F-18lJ
C20 Cap, 9-35PF, 200V Vert Trim 1001-0006 Erie 538-002-940

C2l Cap, • OlllF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5 U-103 Z
C22 Cap, • 05JlF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C23 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 83l-596-Z5U-202M
C24 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 83l-596-Z5U-202M
C25 Cap, 180PF, 5%, 500V Mica 1002-0005 Elmenco DM15-F-18lJ

C26 Cap, 36PF, 5%, 500V Mica 1002-0041 Elmenco DM15-E-360J

C27 Cap, • 051lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C28 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C29 Cap, • 002J.lF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C30 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-l00-COG-l01K

C3l Cap, 1000PF, 10%, 100V Min Cer 1005-0081 Erie 8l21-100-W5R-102K
C32 Cap, 220PF, 10%, 100V Mini 1005-0075 Erie 8101-AlOO-W5RO-22lK
I C33 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-101K
C34 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-10lK
C35 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8121-100-COG-10lK

C36 Cap, 4.7PF, .25PF%,50V 1012-0009 Varadyne 3BN050S4R7C(S)

C37 Cap, 100PF, 5%, 100V Min Cer 1005-0082 Erie 8l2l-l00-COG-10lK
C38 Cap, • 0021lF, 20%, 500V Disc 1005-0003 Erie 83l-596-Z5U-202M
C39 Cap, • 051lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C40 Cap, 1000PF. 10%, 100V Min Cer 1005-0081 Erie 8l2l-l00-W~R-102K

C4l Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-lOlJ

C42 Cap, l2PF, 5%, 500V Mica 1002-0017 Elmenco DM15-C-120J
C43 Cap, .0' IlF, +80-20%, 25V Disc 1005-001S Erie 5835-5l2-Y5U-l03Z
C44 Cap, 820PF, 5%, 300V Mica 1002-0039 Elmenco DM15-F-82lJ
C45 Cap, • OlIlF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-l03Z

C46 Cap, 560PF, 5%, 300V Mica 1002-0037 Elm en co DM15-F-56lJ

C47 Cap, .011lF, +80-20%, 25V Disc 1005-0013 Erie 5835-5l2-Y5U-103Z
C48 Cap, lOIlF, +100-10%, 25V Elctlt Rdl 1013-0035 Sprague 503D106G025AS

5601"0065
7-38
 CIM CE-4

1300 MHz-2200 MHz Phase Lock, 3900 (cont)

eKT. REF. DEse RIPTION CE STOCK NO. MFR. MFR. NO.

DIODES I
CR1
CR2
Diode,
Diode,
Microwave Pin, 1SV34
1N3064
1281-0075
1281-0013
Nippon Elec
Teledyne
1SV34
1N3064 I
CR3 Diode, HPA0136 1282-0006 HP 5082-0136
CR4 Diode, HPA2811 1283-0004 HP 5082-2811
CR5 Diode, HPA2811 1283-0004 HP 5082-2811
I
CR6 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR7 Diode, IN3064 1281-0013 Teledyne 1N3064 I
CR8
CR9
Diode,
Diode,
1N3064
1N3064
1281-0013
1281-0013
Teledyne
Teledyne
1N3064
1N3064 I
CR10 Diode, IN3064 1281-0013 Teledyne 1N3064
I
CR11 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR12 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR13 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR14 Diode, IN3064 1281-0013 Teledyne 1N3064

INDUCTORS

L1
T')
A"~
Assy, Coil, • 06~H, RF
Choke, 2 1/2 Turns Wide Band
1596-5802
1586-0003
Cushman
VK 20020/4B
I
I
I
L3 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L4 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
L5 1585-0039 Delevan 1537-02
Choke, .22J.lH, 20%
I
L6 Choke, • 1J.lH 1585-0041 Delevan 2307-101 I
L7 Not Used i
i
L8 Choke, 2.2¢I, 10% 1585-0013 Delevan 1537-20 I
L9 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B I
Ir
L10 Choke, 2 1/2 Turns Wide Band 1586-0003 VK 20020/4B
i
L11
L12
Choke, l.5tM, 10%
Assy, Coil, .134LH
1585-0038
1596-5805
Delevan
Cushman
1537-16
I
L13 Choke, 2. 2¢I, j.lO% 1585-0013 Delevan 1537-20
Ll4 Assy, Coil, . 064tM RF 1596-5802 Cushman
L15 Choke, 2.2J.lH, 10% 1585-0013 Delevan 1537-20
1
L16 Choke, 2.2J.lH, 10% 1585-0013 Delevan 1537-20

TRANSISTORS

Q1 Trans, 2N3643 1272-0066 Fairchild 2N3643

Q2 Trans, 2N3906 1272-0037 Motorola 2N3906
Q3 Trans, 2N5089 1272-0031 Motorola 2N5089
Q4 Trans, 2N5689 1272-0031 Motorola 2N5089
Q5 Trans, 2N3866 1271-0005 RCA 2N3866
!
Q6 Trans, 2N3904 1272-0032 Motorola 2N3904
Q7 Trans, 2N3904 1272-0032 Motorola 2N3904
Q8 Trans, 2N3906 1272-0037 Motorola 2N3906
Q9 Trans, 2N3904 1272-0032 Motorola 2N3904
Q10 Trans, 2N3906 1272-0037 Motorola 2N3906

Q11 Trans, 2N3904 1272-0032 Motorola 2N3904

Q12
Q13
Q14
Trans,
Trans,
Trans,
2N3904
2N3565
2N3565
1272-0032
1272-0017
1272-0017
Motorola
Fairchild
Fairchild
2N3904
2N3565
2N3565
I,
Q15 Trans, 2N4393 1272-0055 Teledyne 2N4393 i

5601"0065 7-39
 CIM CE-4

1300 MHz-2200 MHz Phase Lock, 3900 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

RESISTORS

R1 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535

R2 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
Ra Res, 75 Ohm, 1%, 1/8W MF 1075-0035 Dale MFF 1/8
R4 Res, 2.43K, 1%, 1/8W MF 1075-0019 Dale MFF 1/8
R5 Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625

R6 Res, 56 Ohm, 5%, 1/4W Comp 1066-5605 Allen-Bradley CB5605

R7 Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825
R8 Pot, 10K, 10%, 3/4W 1215-0014 Helitrlm 89WR
R9 Res, 12K, 5%, 1/4W Comp 1066-1235 Allen-Bradley CB1235
RIO Res, 1.3K, 5%, 1/4W Comp 1066-1325 Allen-Bradley CB1325

R11 Res, 3.6K, 5%, 1/4W Comp 1066-3625 Allen-Bradley CB3625

R12 Res, 3.3K, 5%, 1/4W C omp 1066-3325 Allen-Bradley CB3325
R13 Res, 1. lK, 5%, 1/4 W Comp 1066-1125 Allen-Bradley CB1125
R14 Res, 18K, 5%, 1/4W Comp 1066-1835 Allen-Bradley CB1835
R15 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535

R16 Res, 43 Ohm, 5%, 1/4W Comp 1066-4305 Allen-Bradley CB4305

R17 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R18 Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625
R19 Res, 8.2K, 5%, 1/4W Comp 1066-8225 Allen-Bradley CB8225
R20 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R21 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535

R22 Res, 820 Ohm', 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
R23 Res, 270 Ohm, 5%, 1/4W Comp 1066-2715 Allen-Bradley CB2715
R24 Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625
R25 Res, 75K, 5%, 1/4W Comp 1066-7535 Allen-Bradley CB7535

R26 Res, 5.lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125

R27 Res, 5.lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R28 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R29 Res, 15K, 5%, 1/4W Comp 1066-1535 All en-Bradley CB1535
RaO Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625

Ra1 Res, 15K, 5%, 1/4 W Comp 1066-1535 Allen-Bradley CB1535

R32 Res, 680 Ohm, 5%, 1/2W Comp 1067-6815 Allen-Bradley EB6815
Ra3 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
Ra4 Res, 15 Ohm, 5%, 1/4W Comp 1066-1505 Allen-Bradley CB1505
R35 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925

R36 Res, 8.2K, 5%, 1/4W Comp 1066-8225 Allen-Bradley CB8225

R37 Res, 390 Ohm, 5%, 1/2W Comp 1067-3915 Allen-Bradley EB3915
R38 Pot, 20K, 20%, 1 W Trim 1200-0028 CTS 360T203B
R39 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R40 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R41 Res, 10 Meg, 5%, 1/4W Comp 1066-1065 Allen-Bradley CBI065

R42 Res, 18K, 5%, 1/4W Comp 1066-1835 Allen-Bradley CB1835
R43 Res, 22K, 5%, 1/4W Comp 1066-2235 Allen-Bradley CB2235
R44 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R45 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015

R46 Res, 200 Ohm, 5%, 1/4W Comp 1066-2015 Allen-Bradley CB2015
R47 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R48 Res, 49.9 Ohm, 1%, 100 PPM, 1/20V 1075-0141 Dale MFF 1/20
R49 Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825
R50 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

5601"0065 7-40
 ClM CE-4

1300 MHz-2200 MHz Phase Lock, 3900 (cont)

CKT. REF. DESC RlPTION CE STOCK NO. MFR. MFR. NO.

R51 Res, 220Ohm, 5%, 1/4W Comp 1066-2215 Allen-Bradley CB2215

R52 Res, 220Ohm, 5%, 1/4W Comp 1066-2215 All en-Bradley CB2215
R53 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R54 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R55 Res, 4.3K, 5%, 1/4W Comp 1066-4325 Allen-Bradley CB4325

R56 Res, 470K, 5%, 1/4W Comp 1066-4745 Allen-Bradley CB4745

R57 Res, 15K, 5%, 1/4 W Comp 1066-1535 Allen-Bradley CB1535
R58 Res, 4.7K, 5%, 1/4W Comp 1066-4725 Allen-Bradley CB4725
R59 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925
R60 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015

R61 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R62 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-Bradley CB1005
R63 Res, FSV 5%, 1/4W Comp 1066-XXXX Allen-Bradley CBXXXX
R64 Res, 18K, 5%, 1/4W Comp 1066-1835 Allen-Bradley CB1835
R65 Res, 4.3K, 5% , 1/4W Comp 1066-4325 Allen-Bradley CB4325

I R66
R67
R68
Res,
Res,
Res,
1.6K, 5%, 1/4 W Comp
lK, 5%, 1/4W Comp
270K, 5%, 1/4W Comp
1066-1625
1066-1025
1066-2745
Allen-Bradley
Allen-Bradley
Allen-Bradley
CB1625
CB1025
CB2745
I R69
R70
Res,
Res,
1K, 5%, 1/4W Comp
3.3K, 5%, 1/4W Comp
1066-1025
1066-3325
Allen-Bradley
Allen-Bradley
CB1025
CB3325

R71 Res, 36K, 5%, 1/4W Comp 1066-3635 Allen-Bradley CB3635

R72 Res, 2.4K, 5%, 1/4W Comp 1066-2425 Allen-Bradley CB2425
R73 Res, 7.5K, 5%, 1/4W Comp 1066-7525 Allen-Bradley CB7525
R74 Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625

TRANSFORMER
I T1 Assy, Transformer Toroidal Bifilar 1579-0027 Cushman

INTEGRATED CmCVITS

VI IC, CA3028B 2025-0061 RCA CA3028B

U2 IC, 72741, 14 Pin Hi Perform Op Am 2025-0022 TI SN72741N
V3 IC, LM302 Voltage Follower 2025-0029 National LM302H
U4 IC, SN72741P 2025-0067 TI SN72741P
I
I
I BRIDGE RECTIFIER

Zl Bridge Quad 1281-0067 HPA HPA2206

5601"0065
7-41
 CIM CE-4

10 MHz Modulator and Switch Logic. 4400

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

4400 PCB Assy. 10 MHz Mod & SW Logic 7001-0442 Cushman

PC Board 1780-0710 Cushman

CAPACITORS

C1 Cap. • 051lF. +80-20%. 25V Disc 1005-0014 Erie 585S-S0S-YSUO-S03Z

C2 Cap. • OSIlF. +80-20%. 2SV Disc 1005-0014 Erie 5855-505-Y5 UO-S03 Z
C3 Cap. .05IlF. +80-20%. 25V Disc 1005-0014 Erie 5855-505-YSUO-S03Z
C4 Cap. • 0271lF. 10%. 100V 1008-0032 ~rague 225P27391
C5 Cap, 1MF 50V DC 10% Electrolytic 1013-0004 ~rague 30Dl05G02SBAS

C6 Cap. • 01llF. +80-20%, 2SV Disc 1005-0013 Erie 5835-512-Y5U-103Z

C7 Cap. 180PF. 5%. 500V Mica 1002-0005 Elmenco DM15-F-181J
C8 Cap. 22PF. 5%. 500V Mica 1002-0023 Elmenco DM1S-C-220J
C9 Cap. 22PF, 2%, SOOV Tub. 1005-0007 Erie 301-000-U2JO-220G
C10 Cap. 470PF. S%, SOOV Mica 1002-0035 Elmenco DM1S-F-471J

C11 Cap. 470PF. S%, 500V Mica 1002-0035 Elmenco DM15-F-471J

C12 Cap •• 01llF. +80-20%. 25V Disc 1005-0013 Erie 583S-512-Y5U-103Z
C13 Cap •• 01llF. +80-20%. 25V Disc 1005-0013 Erie S835-512-YSU-103Z
C14 Cap. 30PF. S%, SOOV Mica 1002-0043 Elmenco DM15-E-300J
CIS Cap. • 0 11lF, +80-20%. 2SV Disc 100S-0013 Erie S835-512-Y5U-103Z

C16 Cap, • 011lF, +80-20%. 25V Disc 1005-0013 Erie S835-512-Y5U-103Z

C17 Cap. 39PF, 5%. 500V Mica 1002-0018 Elmenco DM15-E-390J
C18 Cap. 390PF. S%. 500V Mica 1002-0033 Elmenco DM 15-F -391J
C19 Cap •• 01llF, -1-80-20%. 25V Disc 1005-0013 Erie S835-S12-YSU-I03Z
C20 Cap, • 01llF. +80-20%. 25V Disc 1005-0013 Erie 5835-S12-YSU-I03Z

C21 Cap •• 01llF. +80-20%. 2SV Disc 1005-0013 Erie S835-512-Y5U-I03Z

C22 Cap •• 011lF. +80-20%. 25V Disc 1005-0013 Erie 5835-512-Y5U-I03Z

DIODES

CRl Not used

CR2 Not used
CR3 Diode. IN3064 1281-0013 Teledyne IN3064
CR4 Diode. V33 1281-0010 TRW V33

INDUCTORS

Ll Choke. 821lH. 5% 1585-0032 Delevan 1537-72

L2 Coil. 3. 8 to 7. 31lH 1596-0025 Delevan 4000-18
L3 Coil. 8 Turn 16 MHz 1596-0111 Cushman
L4 Choke, 821lH, 5% 1585-0032 Delevan 1537-72
L5 Choke. 821lH. 5% lS85-0032 Delevan 1537-72

TRANSISTORS

Q1 Trans, 2N3565 1272-0017 Fairchild 2N3565

Q2 Trans, 2N3638 1272-0015 Fairchild 2N3638
Q3 Trans, 2N4275 1272-0016 Fairchild 2N4275
Q4 Trans, 2N3906 1272-0037 Motorola 2N3906
Q5 Trans. 2N4275 1272-0016 fairchild 2N4275

Q6 Trans, 2N3565 1272-0017 ~airchild 2N3565

Q7 Trans, 2N3565 1272-0017 ~airchild 2N3565
Q8 Trans, 2N4249 1272-0024 ~airchild 2N4249
Q9 Trans, 2N4249 1272-0024 lFairchild 2N4249
Q10 Trans, 2N3565 1272-0017 lFairchild 2N3565

5601--0065 "2
7-42

r
 CIM CE-4

10 MHz Modulator and Switch Logic, 4400 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

Ql1 Trans, 2N3565 1272-0017 FairchiW 2N3565

Q12 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q13 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q14 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q15 Trans, 2N3565 1272-0017 Fairchild 2N3565

Q16 Trans, 2N3565 1272-0017 Fairchild 2N3565

Q17 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q18 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q19 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q20 Trans, 2N3565 1272-0017 FairchiW 2N3565

RESISTORS

Rl Res, 3.6K, 5%, 1/4W Comp 1066-3625 Allen-Bradley CB3625

R2 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R3 Pot, 10K, 10%, 3/4 W 1215-0014 Helitrim 89WR
I R4 Pot, 5K, 10%, 3/4W 1215-0012 Helitrtm 89WR
R5 Pot, 1K. 10%, 3/4 W 1215-0013 lHelitrim 89WR
I
I R6 Res,!. 2K, 5%, 1/4W Comp 1066-1225 iAIlen-Bradley CB1225
i R7 Res, 220K, 5%, 1/4W Comp 1066-2245 Allen-Bradley CB2245
I R8 Res, 1.5 Meg, 5%, 1/4W Comp 1066-1555 Allen-Bradley CB1555
I R9 Res, 27K, 5%, 1/4 W Comp 1066-2735 Allen-Bradley CB2735
RIO Res, 6.8K, 5%, 1/4W Comp 1066-6825 Allen-Bradley CB6825
Rll Res, 330 Ohm, 5%, 1/4W Comp 1066-3315 ~llen-Bradley CB3315
R12 Res, 910K, 5%, 1/4W Carbon Comp 1066-9145 Allen-Bradley CB9145
R13 Res, 4.7K, 5%, 1/4W Comp 1066-4725 iAllen-B radley CB4725
I
I
R14
R15
Res,
Res,
10K, 5%, 1/4 W Comp
20K, 5%, 1/4W Comp
1066-1035
1066-2035
iAllen-B radley
!Allen-Bradley
CB1035
CB2035

I R16
R17
Res,
Res,
10K, 5%, 1/4W Comp
10K, 5%, 1/4W Comp
1066-1035
1066-1035
iAllen-Bradley
JAIlen-Bradley
CB1035
CB1035
I R18 Res, 8.2K, 5%, 1/4W Comp 1066-8225 lAuen-Bradley CB8225
R19 Res, 8.2K, 5%, 1/4W Comp 1066-8225 !Allen-Bradley CB8225
R20 Res, 2.2K, 5%, 1/4W Comp 1066-2225 ~llen-Bradley CB2225
I R21 Res, 10K, 5%, 1/4W Comp 1066-1035 iAIlen-Bradley CBI035
R22 Res, 8.2K, 5%, 1/4W Comp 1066-8225 iAllen-Bradley CB8225
R23 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-B radley CB1005
R24 Res, 220 Ohm, 5%, 1/4W Comp 1066-2215 Allen-Bradley CB2215
R25 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Br-...dley CB1035
R26 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R27 Res, 1K, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R28 Res, "22 Ohm, 5%, 1/4W Comp 1066-2205 Allen-Bradley CB2205
R29 Res, 10K, 5%, 1/4W Comp 1066-1035 ~llen-Bradley CB1035
R30 Res, 10K, 5%, 1/4W Comp 1066-1035 iAllen-Bradley CB1035
R31 Res, 20K, 5%, 1/4WComp 1066-2035 iAllen-Bradley CB2035
R32 Res, 20K, 5%, 1/4WComp 1066-2035 iAllen-Bradley CB2035
R33 Res, 10K, 5%, 1/4W Comp 1066-1035 iAllen-Bradley CB1035
R34 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-Bradley CB1035
R35 Res, 20K, 5%, 1/4WComp 1066-2035 iAllen-Bradley CB2035
R36 Res, 10K, 5%, 1/4WComp 1066-1035 ~llen-Bradley CB1035
R37 Res, 10K, 5%, 1/4WComp 1066-1035 ~llen-Bradley CB1035
R38 Res, 20K, 5%, 1/4W Comp 1066-2035 ~llen- Bradley CB2035
R39 Res, 10K, 5%, 1/4W Comp 1066-1035 Wlen-Bradley CB1035
R40 Res, 10K, 5%, 1/4W Comp 1066-1035 lAuen-Bradley CB1035

5601"·00&5
7-43
 CIM CE-4

10 MHz Modulator and Switch Logic, 4400 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R41 Res, 20K, 5%, 1/4WComp 1066-2035 iAllen-Bradley CB2035

R42 Res, 10K, 5%, 1/4W Comp 1066-1035 iAllen-Bradley CB1035
R43 Res, 20K, 5%, 1/4W Comp 1066-2035 iAllen-Bradley CB2035
R44 Res, 10K, 5%, 1/4W Comp 1066-1035 iAllen-Bradley CB1035
R45 Res, 10K, 5%, 1/4W Comp 1066-1035 !Allen-Bradley CB1035

R46 Res, 20K, 5%, 1/4W Comp 1066-2035 iAllen-Bradley CB2035

R47 Res, 10K, 5%, 1/4WComp 1066-1035 iAllen-Bradley CB1035
R48 Res, 10K, 5%, 1/4W Comp 1066-1035 iAllen-Bradley CB1035
R49 Res, 20K, 5%, 1/4WComp 1066-2035 [AIlen-Bradley CB2035
R50 Res, 20K, 5%, 1/4W Comp 1066-2035 iAllen-Bradley CB2035

R51 Res, 10K, 5%, 1/4WComp 1066-1035 iAllen-Bradley CB1035

R52 Res, 10K, 5%, 1/4WComp 1066-1035 !Allen-Bradley CB1035
R53 Res, lOOn, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R54 Res, lOOn, 5%, 1!4W Comp 1066-1015 All en-Bradley CB1015
R55 Res, lOOn, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015

INTEGRATED CIRCUITS

VI IC, SN7400N, TTL Nand Gates 2025-0003 TI SN7400N

V2 IC, SN7402, Quad 2 Iopt Pos Nor Gate 2025-0059 TI SN7402N

5601""0065""2 7-44
 CIM CE-4

Second I. F. /Discriminator, 4600

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

4600 PCB Assy, Second IF /Discrimlnator 7001-0400 Cushman

PC Board 1780-0525 Cushman

CAPACITORS

C1 Cap, 151lF, 10%, 25V 1013-0005 Sprague 30Dl56G025BB5

C2 Cap, • 051lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C3 Cap, 151lF, 10%, 25V 1013-0005 Sprague 30Dl56G025BB5
i C4 Cap, 470 OR, 500iJF, 25V Elctlt 1014-0020 m. Cap. 25T470
Ii C5 Cap, 470PF, 5%, 500V Mica. 1002-0035 Elmenco DM15-F-47lJ

I C6 Cap, .027/-1F, 10%, 100V 1008-0032 Sprague 225P27391

I C7 Cap, .027/-1F, 10%, 100V 1008-0032 Sprague 225P27391
I
C8 Not Used
II C9 Not Used
C10 Cap, • 0271lF, 10%, 100V 1008-0032 Sprague 225P27391
II, Cll Cap, • 027/-1F, 10%, 100V ~008-0032 Sprague 225P27391
C12 Cap, 15/-1F, 10%, 25V 1013-0005 Sprague 30Dl56G025BB5
I C13 Not Used
I C14 Cap, • OliJ.F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C15 Cap, • OliJ.F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C16 Cap, • 0 liJ.F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

j C17 Cap, 100/-lF, +75-10%, 12V 1013-00ll Sprague 30Dl07G012CC5
C18 Cap, • 011lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
j C19 Cap, .0 liJ.F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
! C20 Cap, .04lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
j C21 Cap, .OliJ.F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
i
C22 Cap, 430PF, 5%, 500V Mica. 1002-0034 Elmenco DM 15-F -43lJ
I C23
C24
Cap,
Cap,
3. 3PF,
• 05/-1F,
.25PF%, 500V Tub.
+80-20%, 25V Disc
1005-0011
1005-0014
Erie
Erie
301-000-COJO-339C
5855-505-Y5 UO-503 Z
I, C25 Cap, 2. 2PF, • 25PF%, 500V Tub. 1005-0017 Erie 301-000-COJO-229C

I
I
C26 Cap, 430PF, 5%, 500V Mica. 1002-0034 Elmenco DM15-F-43lJ
~ C27 Cap, • 05/-1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
,
C28 Cap, .0liJ.F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
i; C29 Cap, 470PF, 5%, 500V Mica. 1002-0035 Elmenco DM15-F-471J
~
C30 Cap, • O~F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
I
C31
C32
C33
I
Cap,
Cap,
Cap,
470PF,
• 05/-1F,
100PF,
5%, 500V Mica.
+80-20%, 25V Disc
5%, 500V Mica.
1002-0035
1005-0014
1002-0011
Elmenco
Erie
Elmenco
DM15-F-47lJ
5855-505-Y5UO-503 Z
DM15-F-10lJ

. C34
C35
Cap,
Cap,
• 05/-1F,
470PF,
+80-20%, 25 V Disc
1%, 500V Mica.
1005-0014
1002-0044
Erie
Elmenco
5855-505-Y5UO-503 Z
DM15-F-471F

C36 Cap, • 05/-1F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503 Z

C37 Cap, • 051lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z

DIODES
!
! CR1 Diode, G633 1282-0005 ITT G633
CR2 Diode, 1N3064 1281-0013 Teledyne IN3064
CR3 Diode, G633 1282-0005 ITT G633
CR4 Diode, G633 1282-0005 ITT G633
CR5 Diode, 1N3064 1281-0013 Teledyne IN3064
I
CR6 Diode, 1N3064 1281-0013 Teledyne 1N3064
II CR7
CR8
Diode,
Diode,
n:3064
1N3064
1281-0013 Teledyne IN3064
1N3064
1281-0013 Teledyne
CR9 Diode, G633 1282-0005 ITT G633
CR10 Diode, 1N3064 1281-0013 Teledyne 1N3064
CRll Diode, 1N3064 1281-0013 Teledyne 1N3064

5601"0065 7-45
 CIM CE-4

Second 1. F. /Discriminator, 4600 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

INDUCTORS

L1 Choke, 470flH, 5% 1585-0019 Delevan 2500-12

L2 Choke, 2200J.lH, 5% 1585-0030 Delevan 2500-44
L3 Choke, 4700J.lH, 5% 1585-0006 Delevan 2500-60
L4 Choke, 4700J.lH, 5% 1585-0006 Delevan 2500-60
L5 Choke, 2200flH, 5% 1585-0030 Delevan 2500-44

L6 Choke, 470flH, 5% 1585-0019 Delevan 2500-12

L7 Coil, 8 Turn 16 MHz 1596-0111 Cushman
L8 Coil, 8 Turn 16 lVIHz 1596-0111 Cushman
L9 Choke, 82j.LH, 5% 1585-0032 Delevan 1537-72
L10 Choke, 82flH, 5% 1585-0032 Delevan 1537-72
L11 Choke, 22MH, 15% 1585-0029 Delevan 2534-56
L12 Choke, 22MH, 15% 1585-0029 Delevan 2534-56
L13 Choke, U-250 Ferrite bead 1586-0004 Ferroxcube 56-590-65/4B

TRANSISTORS
Q1 -Trans, 2N3565 1272-0017 Fairchild 2N3565
Q2 Trans, 2N3565 1272-0017 Fairchild 2N3565 I
Q3 Trans, 2N3567 1272-0014 Fairchild 2N3567
Q4 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q5 Trans, 2N3565 1272-0017 Fairchild 2N3565

Q6 Not Used
Q7 Trans, TIS 37 1271-0003 TI TIS37
Q8 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q9 Trans, 2N4275 1272-0016 Fairchild 2N4275
Q10 Trans, 2N4275 1272-0016 Fairchild 2N4275
I
Q11 Trans, 2N4275

RESISTORS
1272-0016 Fairchild 2N4275
I
,

R1 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-B radley CB1025

R2 Res, 4.7K, 5%, 1/4W Comp 1066-4725 Allen-Bradley CB4725
R3 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-Bradley CB2225
R4 Res, 22 Ohm, 5%, 1/4W Comp 1066-2205 ' Allen-Bradley CB2205
R5 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925 f

R6 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-B radley CB1025

R7 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-Bradley CB2225 t
R8
R9
RIO
Res,
Res,
Res,
2.2K, 5%, 1/4W Comp
20K, 5%, 1/4W Comp
12K, 5%, 1/4W Comp
1066-2225
1066-2035
1066-1235
Allen-Bradley
Allen-Bradley
Allen-Bradley
CB2225
CB2035
CB1235
I
Rll Res, 150 Ohm, 5%, 1/4W Comp 1066-1515 Allen-Bradley CB1515
R12 Res, 15 Ohm, 5%, 1/4W Comp 1066-1505 Allen-Bradley CB1505
R13 Res, 3.24K, 1%, 1/8W MF 1075-0092 Dale MFF 1/8
R14 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MFF 1/8
R15 Res, 332 Ohm, PPM Metal Film 1075-0024 Dale MFF 1/8

R16 Res, 2.21K, 1%, 1/8W MF 1075-0010 Dale

I MFF 1/8
R17 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R18 Not Used
R19 Res, 475 Ohm, PPM Metal Film 1075-0023 Dale MFF 1/8
R20 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925

R21 Res, 3.9K, 5%, 1/4W Comp 1066-3925 (llen-B radley CB3925
R22 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325
R23 Res, 220 Ohm, 5%, 1/4W Comp 1066-2215 All en-Bradley CB2215
R24 Res, lK, 5%, 1/4W Comp 1066-1025 IAllen-Bradle y CB1025
R25 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925

5601"0065"2 7-46
 CIM CE-4

Second I. F. /DiscriminatoC', 4600 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R26 Not Used

R27 Not Used
R28 Not Used
R29 Res, 1. 2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
R30 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-Bradley CB2225

R31 Res, 51 Ohm, 5%, 1/4W Comp 1066-5105 Allen-Bradley CB5105

R32 Res, 1.5K, 5%, 1/4WComp 1066-1525 •Allen-Bradley CB1525
, R33 Res, 1.2K, 5%, 1/4W Comp 1066-1225 Allen-Bradley CB1225
R34 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-Bradley CB2225
R35 Res, 820 Ohm, 5%, 1/2W Comp 1067-8215 Allen-Bradley EB8215

R36 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325

R37 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325
R38 Res, 22 Ohm, 5%, 1/4 W Comp 1066-2205 ,Allen-Bradley CB2205
R39 Res, 2.2K, 5%, 1/4WComp 1066-2225 Allen-Bradley CB2225
R40 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen -Bradley CB2225

R41 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325

R42 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
I R43 Res, 12K, 5%, 1/4W Comp 1066-1235 Allen-Bradley CB1235
MFF 1/2 T1
I R44 Res, lK, 1%, 1/2W MF 1076-0007 Dale
R45 Res, 357 Ohm, 1%, 1/2W MF 1076-0012 Electra MF7C-D-3750-F

R46 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R47 Res, 1.2K, 5%, 1/2W Comp 1067-1225 Allen-Bradley EB1225
R48 Res, 14.7K, 1%, 1/4W MF 1077-0002 Electra MF6C-D-1472-F
I R49 Res, 4.7K, 5%, 1/4W Comp 1066-4725 Allen-Bradley CB4725
R50 Res, 3. 3M, 5%, 1/4W Comp 1066-3355 Allen-Bradley CB3355

I R51 Res, 33K, 5%, 1/4W Comp 1066-3335 All en -Bradley CB3335
II R52
R53
Res,
Pot,
lK, 1%, 1/2W MF
200 Ohm, 10%, 1/4W Trim
1076-0007
1200-0016
Electra
Allen-Bradley
MF7C-D-1001-F
F-FR20lU
R54 Res, 274 Ohm, 1%, 1/2W MF 1076-0013 Electra MF7C-D-2740-F
I 1066-xxxx Allen -Bradley CBxxxx
R55 Res, FSV, 5%, 1/4W Comp

INTEGRA TED CmCVITS

VI IC, CA3028A, RF Amp 2025-0012 RCA CA3028A

I V2 IC, CA3028A, RF Amp 2025-0012 RCA CA3028A

5601""0065 7-47
 CIM CE-4

Audio Amplifier and Varactor Control, 4800

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

4800 PCB Assy, Audio Amp. & Varactor 7001-0379 Cushman

Control
PC Board 1780-0711 Cuslunan
CAPACITORS
C1 Cap, 100",F, 10%, 25V 1013-0003 Sprague 30Dl07G025DD5
C2 Cap, 100/lF, 10%, 25V 1013-0003 Sprague 30Dl07G025DD5
C3 Cap, • 05/lF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C4 Cap, • 002/lF, 20%, 500V Disc 1005-0003 Erie 831-596- Z5 U-202M
C5 Cap, 100J-lF, 20%, 20V 1011-0010 Kemet T362D107M020AS

C6 Cap, • 1J-1F, 10%, 100V 1008-0031 Sprague 225P10491 WA3

C7 Cap, .01J-1F, 10%, 200V 1005-0065 Aerovox CK06BXI03K
C8 Cap, • IJ-1F, 10%, 100V 1008-0031 Sprague 225P 10491 WA3
C9 Cap, .0 lJ.IF, 10%, 200V 1005-0065 Aerovox CK06BX103K
C10 Cap, .047J-1F, 20%, 100V Mini 1005-0096 Erie 8121-100-651-473M

Cll Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-I01J

C12 Cap, 100J-lF, 20%, 20V 1011-0010 Kemet T362D107M020AS
C13 Cap, .047pF ,10%, 35V 1005-0096 Erle 8121-10G-651-473M
1013-0003 Sprague
I C14
C15
Cap,
Cap,
100J-lF, 10%, 25V
10 OJ-l F , 20%, 20V 1011-0010 Kemet
30D107G025DD5
T363Dl07M020AS

C16 Cap, 250J-lF, +75-10%, 16V 1013-0016 Sprague 30D57G016DF2

C17 Cap, .05i-LF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z

DIODES

CR1 Diode, 1N3064 1281-0013 Teledyne 1N3064

CR2 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR3 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR4 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR5 Diode, 1N3064 1281-0013 Teledyne 1N3064

CR6 Diode, 1N4733 1281-0015 Motorola lN4733

TRANSISTORS

Q1 Trans, 2N3565 1272-0017 FaircJ:rild 2N3565

Q2 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q3 Trans, 2N3642 1272-0018 Fairchild 2N3642
Q4 Trans, 2N3644 1272-0040 Fairchild 2N3644
I RESISTORS

Rl
R2
Res,
Res,
5.1K,5%, 1/4W Comp
3 K, 5%, 1/4W #3
1066-5125
1066-3025
Allen-Bradley
All en-Bradley
CB5125
CB3025
I
R3 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R4 Res, 4.7K, 5%, 1/4W Comp 1066-4725 Allen -Bradley CB4725
R5 Res, 5.6K, 5%, 1/4W Comp 1066-5625 Allen-Bradley CB5625

R6 Res, 3K, 5%, l/4W Comp 1066-3025 Allen-Bradley CB3025

R7 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
R8 Res, 3.9K, 5%, 1/4W Comp 1066-3925 Allen-Bradley CB3925
R9 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325
RIO Res, 2.2K, 5%, l/4W Comp 1066-2225 Allen-Bradley CB2225

Rll Pot, 50K, 10%, 3/4W 1215-0023 Bedunan 89WR

R12 Pot,50K, 10%, 3/4W 1215-0023 Beckman 89WR
R13 Pot, 50K, 10%, 3/4W 1215-0023 Beckman 89WR
R14 Pot, 50K, 10%, 3/4W 1215-0023 Beckman 89WR
R15 Pot,20K, 10%, 3/4W 1215-0021 Beckman 89WR

5601"0065"2
7-48
 CIM CE-4

Audio Amplifier and Varactor Control, 4800 (cont)

CKT. REF. DESC ill PTION CE STOCK NO. MFR. MFR. NO.

R16 Pot, 10K, 10%, 3/4W 1215-0014 Helitrtm 89WR

R17 Pot, 10K, 10%, 3/4W 1215-0014 Helitrtm 89WR
R18 Pot, 5K, 10%, 3/4W 1215-0012 Helitrtm 89WR
R19 Pot, 5K, 10%, 3/4W 1215-0012 Helitrtm 89WR
R20 Pot, 5K, 10%, 3/4W 1215-0012 Helitrtm 89WR

R21 Res, 2. 7K, 5%, 1/4 W Comp 1066-2725 Allen-Bradley CB2725

R22 Res, 10K, lo/c, 1/8W MF 1075-0009 Dale MFF 1/8
R23 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MFF 1/8
R24 Res, 43K, 5%, 1/4W Carbon Comp 1066-4335 Allen-Bradley CB4335
R25 Res, 470K, 5%, 1/4W Comp 1066-4745 Allen-Bradley CB4745

R26 Res, 910K, 5%, 1/4W Carbon Comp 1066-9145 Allen-Bradley CB9145
R27 Res, 200K, 5%, 1/4W Comp 1066-2045 Allen-Bradley CB2045
R28 Res, 16.9K, 1%, 1/8W 1075-0059 Dale MFF 1/8
R29 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R30 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R31 Res, 3OK, 5%, 1/4W Carbon Comp 1066-3035 Allen-Bradley CB3035
R32 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-B radley CB1035
R33 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R34 Res, lOOK, 5%, 1/4W Comp 1066-1045 Allen-Bradley CB1045
R35 Res, 560 Ohm, 5%, 1/4W Comp 1066-5615 Allen -Bradley CB5615

R36 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R37 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R38 Res, 1. lK, 570, 1/4W Comp 1066-1125 Allen-Bradley CB1125
R39 Res, 8.2K, 5%, 1/4W Comp 1066-8225 Allen-Bradley CB8225
R40 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R41 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535

R42 Res, 33.2K, 1%, 1/10W MF 1075-0098 Dale MFF 1/10
R43 Res, 1. 5K, 5%, 1/4 W Comp 1066-1525 Allen-Bradley CB1525
RH Res, FSV, 5%, 1/4W Comp 1066-XXXX Allen-Bradley CBXXXX
R45 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015

R46 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R47 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R48 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R49 Res, 2. 2K, 5%, 1/4 W Comp 1066-2225 Allen-Bradley CB2225
R50 Res, 1. 5K, 5%, 1/4 W Comp 1066-1525 Allen-Bradley CB1525

R51 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R52 Res, 3K, 5(,0, 1/4W Comp 1066-3025 Allen-Bradley CB3025
R53 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R54 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R55 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035

R56 Res, 68K, OJd)T,a, 1/4W Comp 1066-6835 Allen-Bradley CB6835

R57 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R58 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035
R59 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R60 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035

R61 Res, 270K, 5%, 1/4W Comp 1066-2745 Allen-Bradley CB2745

R62 Res, 5. lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R63 Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025
R64 Res, 82 Ohm, 5%, 1/2W Comp 1067-8205 Allen-Bradley EB8205
R65 Res, 82 Ohm, 5%, 1/2W Comp 1067-8205 Allen-Bradley EB8205

5601"0065"2 7-49
 CIM CE-4

Audio Amplifier and Varactor Control, 4800 (cont)

CKT. REF. DESC RIPTION CE STOCK NO. MFR. MFR. NO.

R66 Res, 10 Ohm, 5%, 1/4 W Comp 1066-1005 Allen-Bradley CBI005

R67 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-Bradley CBI005
R68 Res, 22 Ohm, 5%, 1/4 W Comp 1066-2205 Allen-Bradley CB2205
R69 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB2205

INTEGRATED CIRCUITS

Ul IC, SN7445N, BCD to Deml. Dedr Drvr 2025-0046 TI SN7445N

U2 IC, LM301A Op Amp 2025-0032 National LM30lA
U3 IC, N5558V, Dual Op Amp 2025-0058 Signeties N5558V
U4 IC, SN72741P 2025-0067 TI SN72741P
U5 IC, N5558V, Dual Op Amp 2025-0058 Signeties N5558V

U6 IC, N5558V, Dual Op Amp 2025-0058 Signetics N5558V

5601··0065
7-50
 CIM CE-4

Rear Panel Assembly & AC Filter Assembly, 5000, 5200

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

5000 Panel Assy, Rear 7003-0113 Cushman

FUSES

F1 FU, 11/2 Amp/125V, 3AG, Slo-Blo 1955-0018 Bussman MDL 1 11/2

F2 FU, 2/10 Amp/250V, 3AG, Slo-Blo 1955-0009 Bussman MDL 2/10

TRANSFORMER

T1 Xfmr, Power 1575-0019 Cushman

TRANSISTORS

Q1 Xstr, 2N3055. NPN Si 1272-0041 RCA 2N3055

Q2 Xstr, 2N3055, NPN Si 1272-0041 RCA 2N3055
Q3 Xstr, 2K3055, NPN Si 1272-0041 RCA 2N3055

5200 ~CB A~~y

IPC Board
- Filter AC 7001-0415
1780-0523
Cushman
Cushman

ICAPACITORS
Cl Cap, 2200pF, 20%, 3K, Disc 1005-0098 Sprague 30GA-D22
C2 f.ap,22000F, 20%, 3K, Disc 1005-0098 Sprague 30GA-D22

'DUCTORS

L1 hoke, 100J..LH, 20%, 2 Amp 1585-0040 Cushman

L2 ihoke, IOO/ill, 20%, 2 Amp 1585-0040 Cushman

I
5&01"00&5 7-51
 CIM CE-4

Power Supply/Regulator, 5100

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

5100 Assy, PCB Power &lpply/Regulatof 7001-0168 Cushman

PC Board 1780-0288 Cushman

CAPACITORS

C1 Cap, 2000~F, +150-10%, 50V 1014-0015 ill. Elna 50T2000

C2 Cap, 4700~F, +150-10%, 25V 1014-0017 ill. Elna 25T4700
C3 Cap, 2000~F, +150-10%, 50V 1014-0015 ill. Elna 50T2000
C4 Cap, 50~F, 50V 1013-0007 Ill. Elna 50T50
C5 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C6 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M

C7 Cap, • 01~F, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C8 Cap, 250~F, +75-10%, 16V 1013-0016 Sprague 30D257G016DF2
C9 Cap, 500~F, +100-10%, 25V 1014-0002 ill. Elna 25T500
C10 I
I Cap, 500~F, +100-10%, 25V 1014-0002 Ill. Elna 25T500

DIODES

CR1 Not Used I

I

CR2
CR3
Not Used
Not Used
I
Diode, 1N747A Zener 1281-0076 Motorola 1N747A
I
CR4
CR5 Diode, 1N827 1281-0038 Transitron 1N827
I
CR6 Diode, 1N827 1281-0038 Transitron 1N827
CR7 Diode, 1N47J7 1281-0026 IR 1N4737
CR8 Diode, 1N4750 1281-0052 Motorola 1N4750
CR9 Diode, 1N4744 1281-0028 Motorola 1N4744

FUSES I
F1
I Fuse, 2 1/2 Amp, Slo Blo 1955-0023 Bussman MDL 2-1/2 SiB
F2
F3 I Fuse, 2 1/2 Amp, 810 Blo
Fuse, 2 1/2 Amp, 810 Blo
1955-0023
1955-0023
I Bussman
Bussman
MDL 2-1/2 SiB
MDL 2-1/2 SIB

I
I
I TRANSISTORS I
Q1
Q2
Trans,
Trans,
2N3053
2N3053
1272-0011
1272-0011
RCA
RCA
2N3053
2N3053 I
Q3
Q4
Trans,
Trans,
2N3053
2N3567
1272-0011
1272-0014
RCA
Fairchild
2N3053
2N3567
I
Q5

Q6
Trans, 2N3567

Trans, 2N3567
1272-0014

1272-0014
Fairchild

Fairchild
2N3567

2N3567
II
Q7 Trans, 2N3567 1272-0014 Fairchild 2N3567 I
RESISTORS II
R1 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035 I
R2
R3
Res,
Res,
10K, 5%, 1/4W Comp
10K, 5%, 1/4W Comp
1066-1035
1066-1035
Allen-Bradley
Allen-Bradley
CB1035
CB1035 I
R4 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
R5 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715

R6 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025

R7 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
R8 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R9 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CBI025
RIO Res, .5 Ohm, 3%, 3WWW 1159-0002 Dale RS-2B

5601""0065 7-52
 ClM CE-4

Power Supply/Rcgulator, 5100 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R11 Res, .5 Ohm, 3%, 3WWW 1159-0002 Dale R8-2B

R12 Res, .75 Ohm, 1%, 3W WW 1159-0005 Dale RS-2B
R13 Res, 6.8K, 5%, 1/4W Comp 1066-6825 Allen-Bradley CB6825
R14 Res, 1.6K, 5%, 1/4W Comp 1066-1625 Allen-Bradley CB1625
R15 Res, 1.8K, 5%, 1/4W Comp 1066-1825 Allen-Bradley CB1825

R16 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-Bradley CB1005

R17 Pot, 100 Ohm, 10%, 3/4W 1215-0010 HeUtrim 89WR
R18 Res, 270 Ohm, 5%, 1/4W Comp 1066-2715 Allen-Bradley CB2715
R19 Res, 820 Ohm, 5%, 1/4W Comp 1066-8215 Allen-Bradley CB8215
R20 Res, 887 Ohm, 1%, 1/8W MF 1075-0022 Dale MFF 1/8
R21 Pot, 500 Ohm, 10%, 3/4W 1215-0011 HeUtrim 89WR
R22 Res, 2.21K, 1%, 1/8W MF 1075-0010 Dale MFF 1/8
R23 Res, 475 Ohm, PPM Metal Film 1075-0023 Dale MFF 1/8
R24 Pot, 500 Ohm, 10%, 3/4W 1215-0011 HeUtrim 89WR
I R25 Res, 475 Ohm, PPM Metal Film 1075-0023 Dale MFF 1/8

I
I
R26
R27
R28
Res, 820 Ohm, 5%, 1/4W Comp
Res, 820 Ohm, 5%, 1/4W Comp
Res, 820 Ohm, 5%, 1/4W Comp
1066-8215
1066-8215
1066-8215
Allen-Bradley
Allen-Bradley
Allen-Bradley
CB8215
CB8215
CB8215
I
I INTEGRA TED CIRCUITS
1
U1 IC, SN72741P 2025-0067 TI SN72741P
U2 IC, SN72741P
I
I
2025-0067 TI SN72741P

BRIDGE RECTIFIERS
I I
Zl Dio, VS148 Si Brdg Rect 100 PIV 2A 1281-5003 Varo VS148
I Z2
Z3
Dio, VS148 Si Brdg Rect 100 PIV 2A
Dio, VS148 Si Brdg Rect 100 PIV 2A
1281-5003
1281-5003
Varo
Varo
VS148
VS148
I
I
I

II

5601"00.5
7-53
 CIM CE-4

40 dB Attenuator

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

Pad Assy, 40 dB 7001-0430 Cushman

PC Board 1780-0737 Cushman

FUSE

F1 FU, 1/10 Amp/125V Mintr Fast-Bl 1955-0032 Littelfuse 273.100

CONNECTOR

J1 Assy, Connector BNC Type Modified 2536-0050 Cushman

RESISTORS

R1 Res, 61. 9 Ohm, 1%, 1/10W MF 1075-0007 Dale MFF 1/10

R2 Res, 249 Ohm, 1%, 1/10W MF 1074-0098 Dale MFF 1/10
R3 Res, 61. 9 Ohm, 1%, 1/10W MF 1075-0007 Dale MFF 1/10
R4 Res, 232 Ohm, 1%, 1/10W MF 1074-0097 Dale MFF 1/10
R5 Res, 61.9 Ohm, 1%, 1/10W MF 1075-0007 Dale MFF 1/10
R6 Res, 200 Ohm, 1%, 1/8W MF 1075-0082 Dale MFF 1/8

5601··0065
7-54
 CIM CE-4

Audio Amplifier and Varactor Control MI0, 4800-MI0

I CKT. REF. DESC RlPTION CE STOCK NO. MFR. MFR. NO.

4800MI0 PCB Assy, Audio Ampl & Varactor 7001-0416 Cushman

PC Board 1780-0711 Cushman

CAPACITORS

Cl Cap, 100~F, 10%, 25V 1013-0003 Sprague 30Dl07G025DD5

C2 Cap, 100~F, 10%, 25V 1013-0003 Sprague 30Dl07G025DD5
C3 Cap, • 05~F, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5 UO-503 Z
C4 Cap, • 002~F, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C5 Cap, 100~F, 20%, 20V 1011-0010 Kemet T362Dl07M020AS

C6 Cap, • l~F, 10%, 100V 1008-0031 Sprague 225P10491

C7 Cap, • 01~F, 10%, 200V 1005-0065 Aerovox CK06BX103K
C8 Cap, • l~F, 10%, 100V 1008-0031 Sprague 225P10491
C9 Cap, .01~F, 10%, 200V 1005-0065 Aerovox CK06BX103K
, C10 Cap, • 047~F, 20%, 100V Mini 1005-0096 Erie 8121-100-651-473M

Cll Cap, 100PF, 5%, 500V Mica 1002-0011 Elmenco DM15-F-101J

C12 Cap, 100~F, 20%, 20V 1011-0010 Kemet T362Dl07M020AS
C13 Cap, 2. 2~F, 10%, 35V 1011-0001 Dickson D2RdGSB35K
C14 Cap, 100~F, 20%, 20V 1011-0010 Kemet T363D107M020AS
C15 Cap, 100~F, 20%, 20V 1011-0010 Kemet T363DI07M020AS

C16
C17
II Cap,
Cap,
250f.lF, +75-10%, 16V
• 05f.lF, +80-20%, 25V Disc
1013-0016
1005-0014
Sprague
Erie
30D257G016DF2
5855-505-Y5 UO-503 Z
I,
I DIODES

CR1
CR2
I Diode,
Diode,
IN3064
1N3064
1281-0013
1281-0013
Teledyne
Teledyne
1N3064
1N3064
CR3 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR4 Diode, 1N3064 1281-0013 Teledyne 1N3064
CRS Diode, 1N3064 1281-0013 Teledyne 1N3064
I
CR6 I Diode, 1N4733 1281-0015 Motorola 1N4733

I TRANSISTORS
I
Q1 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q2 Trans, 2N3565 1272-0017 Fairchild 2N3565
Q3 Trans, 2N3642 1272-0018 Fairchild 2N3642
Q4 Trans, 2N3644 1272-0040 Fairchild 2N3644

RESISTORS

R1 Res, 5. 1K, 5%, 1/4WComp 1066-5125 Allen-Bradley CB5125

R2 Res, 3 K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025
R3 Res,2.7K, 5%, 1/4WComp 1066-2725 Allen-Bradley CB2'P25
R4 Res,4.7K, 5%, 1/4WComp 1066-4725 Allen-Bradley CB4725
R5 Res, 5.6K, 5%, 1/4WComp 1066-5625 Allen-Bradley CB5625

R6 Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025

R7 Res, 2.7K, 5%, 1/4W Comp 1066-2725 Allen-Bradley CB2725
RS Res, 3.9K. 5%, 1/4W Comp 1066-3925 Allen-B radley CB3925
R9 Res, 3.3K, 5%, 1/4W Comp 1066-3325 Allen-Bradley CB3325
RIO Res, 2.2K, 5%, 1/4W CQmp 1066-2225 Allen-Bradley CB2225

Rll Pot,IOOK, 10%, 3/4W 1215-0006 HeUtrlm 89WR

R12 Pot,100K, 10%, 3/4W 1215-0006 Helltrlm 89WR
R13 Pot, 50K, 10%, 3/4W 1215-0023 Beckman 89WR
I R14 Pot,50K, 10%, 3/4W 1215-0023 Beckman 89WR
R15 Pot,20K, 10%, 3/4W 1215-0021 Beckman 89WR

7-55
 CIM CE-4

Audio Amplifier and Varactor Control M10, 4800-M10 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R16 Pot, 10K, 10%, 3/4W 1215-0014 Hel1trtm 89WR

R17 Pot, 10K, 10%, 3/4W 1215-0014 Helitrim 89WR
R18 Pot, 5K, 10%, 3/4W 1215-0012 Helitrtm 89WR
R19 Pot, 5K, 10%, 3/4W 1215-0012 Helitrim 89WR
R20 Pot, 5K, 10%, 3/4W 1215-0012 Hel1trtm 89WR

R21 Res, 2. 7K, 5%, 1/4 W Comp 1066-2725 Allen-Bradley CB2725

R22 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MF 1/8
R23 Res, 10K, 1%, 1/8W MF 1075-0009 Dale MF 1/8
R24 Res, 43K, 5%, 1/4W Carbon Comp 1066-4335 Allen-Bradley CB4335
R25 Res, 470K, 5%, 1/4W Comp 1066-4745 Allen-Bradley CB4745

R26 Res, 910K, 5%, 1/4W Carbon Camp 1066-9145 Allen-Bradley CB9145
R27 Res, 200K, 5%, 1/4W Comp 1066-2045 Allen-Bradley CB2045
R28 Res, 16.9K, 1%, 1/8W 1075-0059 Dale MF 1/8
R29 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R30 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-B radley CB1035

R31 Res, 30K, 5%, 1/4W Carbon Comp 1066-3035 Allen-Bradley CB3035
R32 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R33 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R34 Res, lOOK, 5%, 1/4 W Comp 1066-1045 Allen-Bradley CB1045
R35 Res, 560 Ohm, 5%, 1/4 W C omp 1066-5615 Allen-Bradley CB5615

R36 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen -Bradley CB1035
R37 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R38 Res, 1.lK, G%, 1/4W Comp 1066-1125 Allen-Bradley CB1125
R39 Res, 8. 2K, 5%, 1/4 W Camp 1066-8225 Allen-Bradley CB8225
R40 Res, 10K, 5%, 1/4W Comp, 1066-1035 Allen-Bradley CB1035

R41 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen"'B radley CB1535
R42 Pot, 50K, 10%, 3/4W 1215-0023 Beckman 89WR
R43 Res, 1. 5K, 5%, 1/4 W Comp 1066-1525 Allen-Bradley CB1525
R44 Res, 240K, 5%, 1/4W Comp 1066-2445 Allen - Bradley CB2445
R45 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015

R46 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R47 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R48 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535
R49 Res, 2.2K, 5%, 1/4W Comp 1066-2225 Allen-Bradley CB2225
R50 Res, 1. 5K, 5%, 1/4 W Comp 1066-1525 Allen-Bradley CB1525

R51 Res, 100 Ohm, 5%, 1/4W Comp 1066-1015 Allen-Bradley CB1015
R52 Res, 3K, 5%, 1/4 W Comp 1066-3025 Allen-Bradley CB3025
R53 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R54 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CBI035
R55 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035

R56 Res, 68K, 5%, 1/4W Comp 1066-6835 Allen-Bradley CB6835

R57 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R58 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035
R59 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R60 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035

R61 Res, 270K, 5%, .1/4W Comp 1066-2745 Allen-Bradley CB2745

R62 Res, 5.lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R63 Res, 3K, 5%, 1/4W Comp 1066-3025 Allen-Bradley CB3025
R64 Res, 82 Ohm, 5%, 1/4W Comp 1066-8205 Allen-Bradley CB8205
R65 Res, 82 Ohm, 5%, 1/4 W Comp 1066-8205 Allen-Bradley CB8205

560 \'·0065 ··2

7-56
 CIM CE-4

Audio Amplifier and Varactor Control M10, 4800-M10 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

R66 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-Bradley CB1005

R67 Res, 10 Ohm, 5%, 1/4W Comp 1066-1005 Allen-Bradley CB1005
R68 Res, 22 Ohm, 5%, 1/4W Comp 1066-2205 Allen-Bradley CB2205
R69 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R70 Res, 130K, 5%, 1/4W Comp 1066-1345 Allen-Bradley CB1345

INTEGRATED CIRCUITS

U1 IC, SN7445N, BCD to Oem! Dcdr Dvr 2025-0046 TI SN7445N

U2 IC, LM30lA Op Amp 2025-0032 National LM30lA
U3 IC, N5558V, IAlal Op Amp 2025-0058 Signetics N5558V
U4 IC, SN72741P 2025-0067 TI SN72741P
U5 IC, N5558V, IAlal Op Amp 2025-0058 Signetics N5558V

U6 IC, N5558V, IAlal Op Amp 2025-0058 Signetics N5558V

560 j"OQ6 5 7-57

 CIM CE-4

Frequency Synthesizer and Switch Mounting M10, 4900/1100-M10

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

- 4900 PCB Assy, Frequency Synthesizer 7001-0383 Cushman

PC Board 1780-0714 Cushman

CAPACITORS

C1 Cap, 30PF, 5%, 500V Mica 1002-0043 Elmenco DM15-E-300J

C2 Cap, 9-35PF, 200V Vert Trim 1001-0006 Erie 538-002-94D
C3 Cap, 100PF, 2%, 500V Mica 1002-0050 Elmenco DM15-F-101G
C4 Cap, 390PF, 5%, 500V Mica 1002-0033 Elmenco DM15-F-391J
C5 Cap, • 04lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C6 Cap, • 01flF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C7 Cap, • 002flF, 20%, 500V Disc 1005-0003 Erie 831-596-Z5U-202M
C8 Cap, 39PF, 5%, 500V Mica 1002-0018 Elmenco DM15-E-390J
C9 Cap, .04lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C10 Cap, .01flF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z

C11 Cap, 30PF, 5%, 500V Mica 1002-0043 Elmenco DM15-E-300J

C12 Cap, 200PF, 5%, 500V Mica 1002-0042 Elmenco DM 15-F-201J
C13 Cap, 4lF, 20%, 50V 1011-0013 ITT TAG-F-20-1/50-20
C14 Cap, • 01flF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C15 Cap, 1. 5flF, 10%, 35V 1013-0001 Sprague 150D155X9035B2

C16 Cap, • 22MF, 10%, 100V Mylar 1008-0091 Electrocube 232A1B224K

C17 Cap, • 04lF, +80-20%, 25V Disc 1005-0013 Erie 5835-512-Y5U-103Z
C18 Cap, 30PF, 5%, 500V Mica 1002-0043 Elmenco DM15-E-300J
C19 Cap, 150PF, 5%, 500V Mica 1002-0021 Ehnenco DM15-F-151J
C20 Cap, 47flF, 20%, 20V 1011-0009 Dickson D47GSC20M

C21 Cap, 4lF, 20%, 50V 1011-0013 ITT TAG-F-20-1/50-20

C22 Cap, • 05flF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C23 Cap, • 05flF, +80-20%, 25V Disc 1005-0014 Erie 5855-505-Y5UO-503Z
C24 Cap, 390 pF, 5%, 500V Min Cer 1002-0033 Ehnenco DM15-F-391J
C25 Cap, lOpF, 10% lOOV, NP 0 Min C er 1005-0074 Erie 8101-100-COG0-100K

DIODES

"CR1 Diode, HPA2800 1283-0001 HPA 5082-2800

CR2 Diode, HPA2800 1283-0001 HPA 5082-2800
CR3 Diode, 1N3064 1281-0013 Teledyne 1N3064
CR4 Diode, 1N4744 1281-0028 Motorola 1N4744
CR1101 Diode, 1N3064 1281-0013 Teledyne 1N3064
CONNECTORS
J1101 Conn, 22 Cntct. Rtang PCB Edge HSG 2535-0098 Molex 09-02-2222
J1102 Conn, Rtang 9 Contact 2535-0100 Cushman
J1103 Conn, 6 Pin Locking Mintr JK 2535-0074 Cablewave 700169-002
J4002 Conn, PC Board 44 Pin Dbl Row 2535-0023 Viking 2VK22D/1-1
INDUCTORS
L1 Choke, lOOflH, 5% 1585-0017 Delevan 1537-76
L2 Choke, 100flH, 5% 1585-0017 Delevan 1537-76

TRANSISTORS

Q1 Trans, 2N3904 1272-0032 Motorola 2N3904

Q2 XSTR, 2N4119 1272-0078 National 2N4119
Q3 Trans, 2N4275 1272-0016 Fairchild 2N4275
Q4 Trans, 2N4249 1272-0024 Fairchild 2N4249
Q5 Trans, 2N4391 1272-0042 Teledyne 2N4391

7-58

r
 ClM CE-4

Frequency Synthesizer and Switch Mounting M10, 4900/1100-M10 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

RESISTORS

R1 Res, 20K, 5%, 1/4W Comp 1066-2035 Allen-Bradley CB2035

R2 Res, 2K," 5%, 1/4W Comp 1066-2025 Allen-B radley CB2025
R3 Res, 470 Ohm, 5%, 1/4W Comp 1066-4715 Allen-Bradley CB4715
R4 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R5 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R6 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R7 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-Bradley CB1035
R8 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R9 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen -Bradley CB1035
RIO Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

Rll Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R12 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R13 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-B radley CB1035
R14 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-Bradley CB1035
R15 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-Bradley CB1035

R16 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen -Bradley CB1035
R17 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-B radley CB1035
R18 Res, 10K, 5%, 1/4WComp 1066-1035 Allen-Bradley CB1035
R19 Res, 10K, 5%, 1/4 W Comp 1066-1035 Allen-B radley CB1035
R20 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R21 Res, 2.49K, 1%, 1/8W MF 1075-0027 Dale MF 1/8

R22 Res, 4. 99K, 1%, 1/8W MF 1075-0095 Dale MF 1/8
R23 Pot, 5K, 20%, 1/2W 1 Trn Cer Trim 1203-0071 Beckman 91AR5K
R24 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R25 Res, 1 Meg 5%, 1/4 W Comp 1066-1055 Allen-Bradley CB1055

R26 Res, 1 Meg 5%, 1/4W Comp 1066-1055 Allen-Bradley CB1055

R27 Res, 5. lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R28 Pot, 2K, 20%, 1/2W 1 Trn Cer Trim 1203-0072 Beckman 91AR2K
R29 Pot, 50K, 20%, 1/2W 1 Trn Cer Trirr 1203-0070 Beckman 91AR50K
R30 Res, 300 Ohm, 5%, 1/4W Comp 1066-3315 Allen-Bradley CB3315

R31 Res, 20 Ohm, 5%, 1/4W Comp 1066-2005 Allen-Bradley CB2005

R32 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R33 Res, 27K, 5%, 1/4W Comp 1066-2735 Allen -Bradley CB2735
R34 Res, 5. lK, 5%, 1/4 W Comp 1066-5125 Allen-Bradley CB5125
R35 Res, 15K, 1%, 1/8W MF 1075-0081 Dale MF 1/8

R36 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025

R37 Res, 2.2K, 5%, 1/4W Comp 1066-2225 All en-Bradley CB2225
R38 Res, 2.2K, 5%, 1/4 W Comp 1066-2225 Allen-Bradley CB2225
R39 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035
R40 Res, 30K, 5%, 1/4W Comp 1066-3035 Allen-Bradley CB3035

R41 Res, 15K, 5%, 1/4W Comp 1066-1535 Allen-Bradley CB1535

R42 Res, 5.1K, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125
R43 Res, 1 Meg, 5%, 1/4W Comp 1066-1055 Allen-Bradley CB1055
R44 Res, 51K, 5%, 1/4W Comp 1066-5135 Allen-Bradley CB5135
R45 Res, 10K, 5%, 1/4W Comp 1066-1035 Allen-Bradley CB1035

R46 Res, 430 Ohm, 5%, 1/4W Comp 1066-4315 Allen-Bradley CB4315
R47 Res, lK, 5%, 1/4W Comp 1066-1025 Allen-Bradley CB1025
R48 Res, 12K, 5%, 1/4W Comp 1066-1235 Allen-Bradley CB1235
R49 Thrmis, 1K 1253-0002 Veco 31E2
R50 Res, 5.lK, 5%, 1/4W Comp 1066-5125 Allen-Bradley CB5125

7-59
 elM CE-4

Frequency Synthesizer and Switch MOilllting M10, 4900/ll00-M10 (cont)

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

INTEGRATED CIRCUITS

U1 IC, SN74LSOON, TTL Nand Gates 2025-0114 TI SN74LSOON

U2 IC, SN7 4LSOON, TT L Nand Gates 2025-0114 TI SN74LSOON
U3 IC, SN74167N, Syn Decade Rt. Mltplr 2025-0097 Tl SN74167N
U4 IC, SN74167N, Syn Decade Rt. Mltplr 2025-0097 TI SN74167N
U5 IC, SN74167N, Syn Decade Rt. Mltplr 2025-0097 TI SN74167N

U6 IC, SN74167N, Syn Decade Rt. Mltplr 2025-0097 TI SN74167N

U7 IC, SN74LS90N, Decade Counter 2025-0113 TI SN74LS90N
U8 IC, SN74LS90N, Decade Counter 2025-0113 TI SN74LS9ON
U9 IC, SN74LS191N, Syn Up/Dwn Cntrs. 2025-0115 TI SN74LS191N
U10 IC, SN74LS191N, Syn Up/Dwn Cntrs. 2025-0115 TI SN74LS191N

Ull IC, SN74LS73N, DJal J-K Flip Flop 2025-0110 TI SN74LS73N

U12 IC, MC1408L-7 D-to-A Converter 2025-0089 Motorola MC1408L-7
U13 IC, LM301A, Op Amp 2025-0032 National LM30lA
U14 IC, MC1455P1, Timing Circuit 2025-0091 Motorola MC1455P1
U15 IC, LM301A, Op Amp 2025-0032 National LM30lA

U16 IC, HA-29ll, Wide Band Op Amp 2025-0033 Harris Semi HA2-911-5

CRYSTAL

Y1 Xtal, 5.1 MHz 2035-0022 Cushman

SWITCHES

S1101 Sw assy 4 Sect Thumbwheel 7011-0028 Cushman

S1102 Sw, Lever 1 P 3 Pos PCB Mount 1851-0094 Cushman
S1103 Sw, Lever 1 P 3 Pos PCB Mount 1851-0094 Cushman

5601""0065
7-60
 CIM CE-4

WIDE BAND AMPLIFIER FUSE ASSEMBLY. 3050-Mll

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3050 Wide Band Ampl

7001-0455
PC Board Assy
PC Board 1780-0263
Cushman
Cushman I
CABLE ASSEMBLY I
3" RG-188 Right Angle Plug to Ferrule 7032-1702 Cushman
15" RG-188 BHD to Ferrule 7032-5243 ICushman
FUSE I

F1 1/8 Amp AT 125V 1955-0019 Littelfuse 275.125

DIODES

CR1 Pico Second Computer 1281-0061 Fairchild FD700

CR2 Pico Second Computer 1281-0061 Fairchild FD700
CR3 Pico Second Computer 1281-0061 Fairchild FD700
CR4 Pico Second Computer 1281-0061 Fairchild FD700

I RESISTORS

Rl Comp, 3.9K, ±5%, 1/4W 1066-3925 Allen-Bradley CB3925

R2 Comp, 3.9K, ±5%, 1/4W 1066-3925 Allen-Bradley CB3925

~
I

I
I

,
II
I

I
I

5&01"0065"1 7-61
 CIM CE-4

RF SWITCH. 3200-M11

CKT. REF. DESC ill PTION CE STOCK NO. MFR. MFR. NO.

3200 RF Switch
PC Board Assy 7001-0152 Cushman
PC Board 1780-0281 Cushman

CABLE ASSEMBLIES

Straight Bulkhead 7032-0010-01 Cushman

Straight Bulkhead 7032-0010-02 Cushman
Straight Plug 7032-0018-02 Cushman

CAPACITORS

C1 Cer, 220pF, ±10%, 100V 1005-0075 Erie 8101-A100-W5RO-221K

C2 Tant Chip, 6.8J.LF, ±20%, 20V 1012-0001 Kemet T411D685M020AU
C3 Feed Thru, 1000pF, +100-0% 1005-0077 Allen-Bradley FW5N
C4 Feed Thru, 100OpF, +100-0% 1005-0077 Allen-Bradley FW5N
C5 Feed Thru, 1000pF, +100-0% 1005-0077 Allen-Bradley FW5N

C6 Cer, 220pF, ±10%, 100V 1005-0075 Erie 8101-A100-W5RO-221K

C7 Tant Chip, 6. 8J.LF, ±20%, 20V 1012-0001 Kemet T41ID685M020AU
C8 Not Used
C9 Tant Chip, 6. 8J.LF, ±20%, 20V 1012-0001 Kemet T41ID685M020AU
C10 Cer, 220pF, ±10%, 100V 1005-0075 Erie 8101-A100- W5RO-221K
C11 Tant Chip, 6. 8J.LF, ±20%, 20V 1012-0001 Kemet T41ID685M020AU

COILS

L1 Choke, Ferrite Bead, U-250 1586-0004 Ferroxcube 56-590-65/4B

L2 Choke, Ferrite Bead, U-250 1586-0004 Ferroxcube 56-590-65/4B
L3 Choke, Ferrite Bead, U-250 1586-0004 Ferroxcube 56-590-65/4B

DIODES I
CR1 Si, Pin Switching 12S1-0050 Motorola MPN-3401
CR2 Si, Pin Switching 12S1-0050 Motorola MPN-3401
CR3 Si, Pin Switching 1281-0050 Motorola MPN-3401
CR4 Si, Pin Switching 12S1-0050 Motorola MPN-3401
CR5 Si, Pin Switching 1281-0050 Motorola MPN-3401

CR6 Si, Pin Switching 12S1-0050 Motorola MPN-3401

CR7 Si, Pin Switching 12S1-0050 Motorola MPN-3401
CRS Si, Pin Switching 1281-0050 Motorola MPN-3401

JACK

J4 RF Straight, Subminiature 2536-0036 Cushman

RESISTORS

R1 Comp, 1K, ±5%, 1/8W 1065-1025 Allen-Bradley BB1025

R2 Comp, 680n, ±5%, 1/4W 1066-6815 Allen-Bradley CB6S15
R3 Comp, 680n, ±5%, 1/4W 1066-6815 Allen-Bradley CB6S15
R4 Comp, 680n, ±5%, 1/4W 1066-6S15 Allen-Bradley CB6S15
R5 Comp, 1K, ±5%, l/SW 1065-1025 Allen-Bradley BB1025

R6 Comp, 1K, ±5%, 1/8W 1065-1025 Allen-Bradley BB1025

R7 Comp, 1K, ±5%, 1/8W 1065-1025 Allen-Bradley BB1025

5601··0065··1 7-62
 CIM CE-4

HIGH LEVEL AMPLIFIER. 3300-Mll

CKT. REF. DESCRIPTION CE STOCK NO. MFR. MFR. NO.

3300 High Level Amplifier

PC Board Assembly 7001-0263 Cushman
PC Board 17BO-0516 Cushman

CAPACITORS

C1 Tant, lO/-IF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20

C2 Cer, .01/-1F, ±20%, 100V 1005-0100 Erie B121-100-651-103M
C3 Not Used
C4 Cer, .01/-LF, ±20%, 100V 1005-0100 Erie B121-100-651-103M
C5 Tant, 10/-lF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20

C6 Cer, .01/-1F, ±20%, 100V 1005-0100 Erie B121-100-651-103M

C7 Cer, • 01/-LF, ±20%, 100V 1005-0100 Erie B121-100-651-103M
CB Cer, 1000pF, ±10%, 100V 1005-00B1 Erie B121-100-W5R-102K
C9 Cer, • l/-1F, ±20%, 50V 1005-0097 Erie B121-050-651-104M
C10 Cer, FSV, ±10%, 100V 1005-XXXX Erie

Cll Tant, lO/-IF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20

C12 Tant, lO/-IF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20
C13 Cer, 1000pF, ±10%, 100V 1005-00B1 Erie B121-100-W5R-102K
C14 Tant, 10/-lF, + 50-20%, 35V 1011-0006 ITT TAG 10/35-20
C15 Tant, 10/-LF, +50-20%, 35V 1011-0006 ITT TAG 10/35-20

C16 Cer, • 01/-LF, ±20%, 100V 1005-0100 Erie B121-100-651-103M

C17 Cer, 1000pF, ±10%, 100V 1005-00B1 Erie B121-100- W5R-I02K
CIB Cer, .01/-1F, ±20%, 100V 1005-0100 Erie B121-100-651-103M
C19 Cer, .01/-1F, ±20%, 100V 1005-0100 Erie B121-100-651-103M
C20 Cer, 100pF, ±10%, 100V 1005-0082 Erie B121-100-COG-101K
CONNECTOR

J1 Right Angle Jack, 5012, &Ib Min 2536-0041 Sealectro 50-053-0000

INDUCTORS

L1 RFC 2 1/2T, Wide Band 1586-0003 Ferroxcube VK20020/4B

L2 RFC 2 1/2T, Wide Baocl 1586-0003 Ferroxcube VK20020/4B
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L3 RFC, .15/-1H, ±10% 15B5-0065 Delevan 1025-00
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INTEGRATED CmCUIT I
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IC1 Wide Band Amp ATF 417 2025-0065 Amperex ATF417 I

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RESISTORS

R1 Comp, 3912, ±5%, 1/8W 1065-3905 Allen-Bradley BB3905

R2 Met. Film, 7. 68K, ±1%, l/BW 1075-0054 Dale MFF 1/8 T1
R3 Comp, 33012, ±5%, 1/4W 1066-3315 Allen-Bradley CB3315
R4 Comp, 15012, ±5%, 1/4W 1066-1515 Allen-Bradley CB1515
R5 Comp, 15012, ±5%, l/BW 1065-1515 Allen-Bradley BB1515

R6 Met. Film, 3. 16K, ±1%, 1/10W 1074-1016 Dale RN55D

R7 Comp, 5W, ±5%, 1/8W 1065-5105 All en-Bradley BB5105
R8 Comp, 68012, ±5%, 1/4W 1066-6815 Allen-Bradley CB6815
R9 Comp, 68012, ±5%, 1/4W 1066-6B15 Allen-Bradley CB6815
RIO Comp, 1K, ±5%, l/BW 1065-1025 Allen-Bradley BB1025

Rll Comp, 30K, ±5%, 1/8W 1065-3035 All en-Bradley BB3035

R12 Comp, 12K, ±5%, 1/8W 1065-1235 Allen-Bradley BB1235
R13 Comp, 1. 8K, ±5%, 1/8W 1065-1825 Allen-Bradley BB1825
R14 Comp, 82012, ±5%, 1/8W 1065-8215 Allen-Bradley BB8215
R15 Comp, lOOn, ±5%, 1/8W 1065-1015 Allen-Bradley BBI015

5601"0065"1 7-63
 CIM CE-4

HIGH LEVEL AMPLIFlER. 3300-Mll (contd)

CKT. REF. DESC RIPTION CE STOCK NO. MFR. MFR. NO.

R16 Comp, FSV, ±5%, 1/8W 1065-XXXX Allen-Bradley BBXXXX

R17 Comp, 1.6K, ±5%, 1/8W 1065-1625 Allen-Bradley BB1625
R18 Comp, 3.9K, ±5%, 1/8W 1065-3925 Allen-B radley BB3925
R19 Comp, lK, ±5%, 1/8W 1065-1025 Allen-Bradley BB1025
R20 Comp, 2400, ±5%, 1/4W 1066-2415 Allen-Bradley CB2415

R21 Comp, 2400, ±5%, 1/4W 1066-2415 Allen-Bradley CB2415

R22 Comp, 220, ±5%, 1/8W 1065-2205 Allen-Bradley BB2205
R23 Comp, 2400, ±5%, 1/4W 1066-2415 Allen-Bradley CB2415
R24 Met. Film, 3320, ±l%, 1/8W 1075-0024 Dale MFF 1/8 T1

TRANSFORMER

T1 TorOidal, Bifilar 1579-0035 Cushman

TRANSISTORS

Q1 SI, NPN, 2N3904 1272-0032 Motorola 2N3904

Q2 SI, PNP, 2N4121 1272-0023 Fairchild 2N4121
Q3 SI, NPN, 2N3904 1272-0032 Motorola 2N3904
Q4 SI, NPN, 2N5179 1272-0060 Motorola 2N5179
Q5 SI, NPN, 2SC1424 1272-0071 NEC 2SC1424 I

Q6 SI, NPN, Microwave V021 1272-0076 NEC V021 I

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5601""0065""1 7-64