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Service Manual
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0 ratings0% found this document useful (0 votes)
2K views73 pagesRci 2950
Service Manual
Uploaded by
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© © All Rights Reserved
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Available Formats
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REV. F DOC-3120-F91
NOVEMBER, 1995
SERVICE MANUAL
AMATEUR 10 METER
MOBILE TRANSCEIVER
AM/FM/SSB/CW
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(RANGER )
Communications, Inc. J
3377 Carmel Mountain Road
jo, CA 92121
(619) 259-0287 » FAX (619) 259-0437
Communications, In
SECTION SUBJECT
SPECIFICATIONS ............e..osccee
. INTRODUCTION
1.0 Introduction ...
1.1 RCI-2950 Features ..
1.2 RCI-2970 Features...
OPERATION
2.0 Introduction
2.1 Controls and iections
2.2 Rear Panel Connectors
2.3 Microphone...
2.4 RCI-2950/2970 Operation...
ALIGNMENT
3.0 Introduction ...
3.1 PLL Synthesizer/Oscillator Frequency Agent
3.2 Receiver Alignment...
3.3 Transmitter Alignment eos
y
»
4, PROGRAMMING
4.0 Introduction
4.1 Frequency Selectio
4.2 Frequency Scanning
4.3 Offset Frequency Operation
5. BLOCK DIAGRAM DESCRIPTION
5.0 Introduction .. . St
5.1 Receiver Description 5A
5.2 PLL Description. 541
5.3 Transmitter Description 5-2
6. SCHEMATICS/BOARD LAYOUTS 6-1
7. RCI-2950 PARTS LIST so TA
8, RCI-2970 PARTS LIST 7 a Bf
9, RCI-2950 SURFACE MOUNT SCHEMATIC/CPU PCB BOARD LAYOUTS........... 9-1
10. RCI-2950 SURFACE MOUNT CPU PCB PARTS LIST......... frost 10-1
WARRANTY .. .~BACK COVER
RANGER
Communications, Inc.
Nab ae ab
GENERAL
Model RCI-2950 RCI-2970
Frequency Range 28.0000-29.6999 MHz 28.0000-29.6999 MHz
Tuning Steps
100 He, 1 kHz, 10 kHz,
100 kHz, 1 MHz
100 Hz, 1 kHz, 10 KHz,
100 kHz, 1 MHz
Emission Types
Frequency Control
Frequency Tolerance
USB, LSB(A3J), CW(A1),
AM(A3), FM(F3)
Phase-Locked-Loop Synthesizer
0.005%
USB, LSB(A3J), CW(AT),
AM(A3), FM(F3)
Phase-Locked-Loop Synthesizer
0.005%
Frequency Stability 0.001% 0.001%
‘Temperature Range °C to 40°C. 0% to 40°C
‘Antenna impedence 502 502
Microphone 4000, Dynamic PTT 4000, Dynamic PTT
Meter Function RF Output, RX Receive Signal Strength RF Output, RX Receive Signal Strength
Modulation, SWR Calibration, SWR___ Modulation, SWR Calibration, SWR
Input Vortage 13.8 VOC 13.8 VOC
Dimensions THAW x 10941 x 27H DAW X1OWLX EH
Weight Abs. 3 oz. Zibs_ 6.02.
TRANSMITTER
RF Power Output 25W: USB/LSB ‘100W: USB/LSB
aw: CW SOW: CW
W: AM/EM SOW: AM/FM.
RF Transmit Modes. USB, LSB, CW, AM, FM USB, LSB, CW, AM, FM
‘Antenna Connector UHE Type, 500 UHF Type, 500
Modulation 16F3, ASE, J3E, AIA 16F3, ASE, JE, ATA
Spurious Emissions 5008 “5048
Cartier Suppression 5008 -50dB
RECEIVER
Sensitivity for 10dB SINAD __AM/CW: 0.5nV. AM/CW: 0.5nV
Sensitivity for 10dB SINAD _USB/LSB: 0.15uV USB/LSB: 0.15nV
Sensitivity for 12dB SINAD FM: 0.25nV) FM: 0.25nV
Image Rejection Ratio “6508 “6508
AGC Figure of Merit SSB/CW/AM: 80dB for SOmV ‘SSB/CW/AM: 80d8 for 50mV
for 10dB Change in Audio Output for 1048 Change in Audio Output
‘Audio Output Power
@10% THD 2.5W 2.5W
* Specifications subject to change without notice.
ii
Comune
Communications, In
aS
1.2 RCI-2970 FEATURES
1.0 INTRODUCTION
The Ranger RCI-2950/2970 is a solid-state, fully
synthesized Amateur 10-meter mobile transceiver
with full-band coverage from 28.0000 MHz to
29.6989 MHz and all-mode operation, including:
FM, AM USB, LSB, CW and PA modes. The 10
most commonly used frequencies can be pre-pro-
grammed by the user for easy channel access,
1.1 RCI-2950 FEATURES
» 25 Watts of Output Power
+ Full Band Coverage
* All Mode Operation
* Brightness Control
* CTCSS Encoder/Decoder (Optional)
+ Repeater/Oftset Switch
+ Programmable Frequencies
© Built-in Dual VFO
# RIT (RX Incremental Tuning)
+ Squelch
* Noise Blanker
+ RF Gain Control
+ RF Power Output Selector
+ External Speaker Connection
+ PA Mode
+ LCD Display
» Multi-Function LCD Meter
SECTION 1
INTRODUCTION
* 100 Watts of Output Power
+ Full Band Coverage
# All Mode Operation
Brightness Control
* CTCSS Encoder/Decoder (Optional)
+ Repeater/Offset Switch
» Programmable Frequencies
uilt-in Dual VFO
« RIT (RX Incremental Tuning)
Squeich
* Noise Blanker
« RF Gain Control
RF Power Output Selector
+ External Speaker Connection
* PA Mode
# LCD Display
* Multi-Function LCD Meter
RANGER |
{| Communications, Inc. |
SECTION 2
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Figure 2.1 RCI-2950/2970 Controls and Connections
2.0 INTRODUCTION
This section explains the basic operating procedures
for the RCI-2950/2970 Amateur 10 meter mobile
transceiver.
2.1 CONTROLS AND CONNECTIONS
(1) FREQUENCY SELECTOR: This control is used
to select a desired transmit and receive frequency.
Itenables you to tune across the entire frequency
range of the transceiver.
(2) RE POWER CONTROL: This control enables you
to adjust RF power continuously over the range of
1 watt through 25 watts (RCI-2970: 10 watts
through 100 watts.)
(3) MIC GAIN CONTROL: This contro! adjust the
microphone gain in the transmit and PA modes.
This feature is designed for use in a high-ambient
noise environment or to maximize talk power.
(4) ON/OFF VOLUME CONTROL: Turn clockwise to
apply power to the radio and to set the desired lis-
tening level,
2-1
(8) SQUELCH CONTROL: This control is used to
control or eliminate receiver background noise in
the absence of an incoming signal. For maximum
receiver sensitivity, itis desired that the control be
adjusted only to the point where the receiver back-
ground noise is eliminated. Turn the control fully
counterclockwise, then slowly tum clockwise until
the receiver noise disappears. Any signal to be re-
ceived must now be lightly stronger than the aver-
age received noise. Further clockwise rotation will
increase the threshold level which a signal must
‘overcome in order to be heard. Only strong signals
will be heard at a maximum clockwise setting.
(6) RE GAIN CONTROL: This control is used to re-
duce the gain of the RF amplifier under strong re-
ceive conditions.
(7) CLARIFIER CONTROL: This control is used to
fine tune the received signal for the maximum clar-
ity in SSB or CW mode. It can adjust the receive
frequency about +/- 500 Hz, but does not affect the
transmit frequency or the frequency display.
(8) MODE SWITCH: This switch allows you to se-
lect one of the six following operating modes: FM,
AM, USB, LSB, CW and PA.
lol
|
il
ll
©
204-9
304
POWER
Figure 2.2 RCI-2950/2970
(9) NB/ANL BUTTON (NB/ANL): The noise blanker
is very effective in eliminating repetitive impulse
noise such as ignition interference. In the ANL po-
sition, the automatic noise limiter in the audio cir-
cuits is activated.
(10) ROGER BEEP BUTTON (R BEEP): This button
activates the ROGER BEEP Circuit when its func-
tion is selected. The ROGER BEEP is a short beep
‘that is transmitted when the PTT button on the mi-
crophone is released. It is used to identify the end
of the transmission.
(11) SPLIT BUTTON (SPLIT): This control activates
‘the offset frequency function. It causes the trans-
mit frequency to be offset either above or below
the receive frequency by a user programmable
amount to allow operation of the RCI-2950/2970
on an FM Repeater.
(12) PROGRAM BUTTON (PRG): This button is used
to program operating or scanning frequencies into
memory. See the OPERATION section of the manual
for further detail.
(13) MANUAL BUTTON (MAN): This is used to re-
tum the unit to manual mode.
(14) SHIFT BUTTON (SHE): This is used to select
100 Hz, 1 kHz, 10 kHz, 100 kHz or 1 MHz frequency
steps.
(15) DIM BUTTON (DIM): This button adjusts the
display backlighting in four different steps to best
match the environment.
(16) SWR BUTTON (SWR): This control is used to
check SWR.
2-2
©
Rear Panel Connectors
(17) SCAN BUTTON (SCAN): This is used to scan
frequencies in each band segment. The OPERATION
segment of this manual provides detailed informa-
tion on using the SCAN control.
(18) MEMORY BUTTON (MEM): This button is used
to program memory channels. Detailed informa-
‘tion on how to use this control is provided in the
OPERATION section of this manual.
(19) ENTER BUTTON (ENT): This is used to pro-
gram frequencies in memory. See the OPERATION
section of this manual for more information on us-
ing this control.
(20) LOCK BUTTON (LOCK): This button is used to
lock a selected frequency. Press it to activate the
switch. In this position, it disables the Frequency
Selector Control, up/down buttons on the front con-
trol panel and remote up/down buttons on the mi-
crophone. Repressing the switch will unlock the
frequency.
(21) UP/DOWN SELECTOR (4.¥): These buttons
are used in conjunction with the shift key to move
the frequency upward or downward to select a de~
sired frequency.
(22) METER: This meter indicates received signal
strength, transmitter RF output power and SWR
level.
(23) LCD DISPLAY: The LCD displays the frequency
‘selected, functions and memory channel.
(24) MIG JACK: Accepts 6 pin female connector
with a type Philmore T616C or Calrad 30445 style
‘connector.
2.2 REAR PANEL CONNECTORS
(1) ANTENNA: This jack accepts 502 coaxial cable
with a PL259 type plug.
(2) GW KEY: This is used for Morse Code opera-
tion. To operate this mode, connect a CW key to
this jack, and place the MODE switch in the CW
position.
(3) EXTERNAL SPEAKER: This jack accepts a 4 to
8Q,, 5 Watt external speaker. When the external
‘speaker is connected to this jack, the built-in
speaker will be disabled.
(4) PA SPEAKER: An 8, 4 Watt PA speaker may
be connected to this jack for PA operation. Place
the MODE selector switch in the PA position for
this operation.
(5) POWER: Accepts 13.8 VDC power cable which
is supplied with a built-in fuse.
2.3 MICROPHONE
(1) PTT SWITCH: Use the Push-to-Talk switch to
control the transmit and receive function of the ra-
dio. Push to transmit and release to receive.
(2) REMOTE UP/DOWN SWITCH: An operating fre-
uency can be incremented or decremented sim-
ply by pushing either of these buttons.
2.4 RCI-2950/2970 OPERATION
2.4.1 Channel Selection
Frequency selection for the RCI-2950/2970 is
simple. Select a desired operating frequency by
rotating the Frequency Selector, or using the
(4) Up and (¥) Down buttons on the front panel
or the microphone. Press the LOCK button to lock
into the selected frequency. This will disable the
Frequency Selector and the up/down buttons on
the front panel and the microphone. Repressing the
LOGK button unlocks the frequency.
Use the SHF button to step frequency in either
100 Hz, 1 KHz, 10 kHz, 100 kHz or 1 MHz incre-
ment when you select a band segment. The fre-
quency step is indicated by a small triangle directly
under the corresponding digit on the frequency dis-
play.
2-3
2.4.2 Mode Selection
‘To select an operating mode on your
RCI-2950/2970, simply rotate the MODE selector
and place it in the desired operating mode posi-
tion.
FWAMJUSB or LSB modes are for your voice com-
munications. In the CW position, you can transmit
CW if you have connected an external key to the
accessory jack provided on the back of the radio.
In the PA position, the radio can be used as a PA.
Before operating in PA mode, you must first con-
ect a PA speaker (8Q., 4 Watt) to the jack pro-
vided on the back of the radio.
2.4.3 RF Power Control
This feature allows the adjustment of the RF out-
put power continuously over the range of 1W
through 25W (RCI-2970: 10W through 100W).
2.4.4 Receive Scanning
Receive scanning allows you to find active frequen-
cies in the entire band segment. To begin scan-
ning, slowly turn the Squelch control clockwise
Until the receiver noise disappears. Press the Scan
button. The unit should start scanning from the
ower to the higher frequencies. Pressing the Scan
button again will change the direction of scanning.
Each time you press the Scan button, “SCAN¢" or
“SCAN- will be displayed on the LCD display. The
radio will stop on any active frequency for the en-
tire duration of the transmission, When the trans-
mission stops, the RCI-2950/2970 will wait ap-
proximately 2 seconds before it resumes scanning.
you want to deactivate Scan mode while itis scan-
ning, press the MAN (manual) button or tum the
‘Squelch control counterclockwise until you hear
the receiver noise. The Manual button will disable
Scan function
2.4.5 Split Function
This function enables you to offset the transmit
and receive frequencies for FM repeater operation.
The transmitter frequency can offset either higher
or lower than the receive frequency. To split fre-
quencies, press the MAN button and the Split but-
ton to select either +/- split frequency. ifthe + split
is selected, the transmit frequency will be higher
than the receiver frequency. If - split is selected,
the transmit frequency will be lower than the re-
ceive frequency. Refer to section 4.3 for Split Pro-
gramming Instructions.
2.4.6 Memory Function
The RCI-2950/2970 can store up to 10 most fre-
quently used frequencies (from 0 to 9). To program
a frequency into memory, follow the procedure de-
scribed below:
(1) Press the MAN button.
(2) Press the PRG button.
(8) Press the MEM button (’MEMORY" and ‘0*
should appear on the left-hand side of the LCD dis-
play). Pressing the MEM button will advance the
channel number from ‘0° to".
(4) Select the desired frequency you wish to store
in memory.
(5) Press the ENT button.
(6) Repeat the same procedure to program other
memory channels.
2.4.7 Memory Channel Scanning
You can scan and select any of these 10 preset fre-
quencies by following the procedure described be-
low:
(1) Press the MAN button,
(2) Press the MEM button.
(8) Slowly turn the Squelch knob clockwise until
the receiver noise disappears.
(4) Press the Scan button. The unit will scan from
lower to higher frequencies. When you press the
button again, it will scan from higher to lower fre~
quencies,
(5) To stop scanning a certain channel, press the
MAN button, or tur the Squelch knob counterclock-
wise until you hear the receiver noise.
2.4.8 Meter
‘The meter built into your RCI-2950/2970 on the
left hand side of the LCD display provides the fol-
lowing information:
(1) S/RE Meter: In transmit mode, it provides a
visual indication of transmit output power, and re-
ceived signal strength on the receive mode.
(2) SWR Meter: In order to achieve maximum ra-
diated power, itis important that your antenna be
in good condition, properly adjusted and matched
to your transceiver.
The built-in SWR (Standing Wave Ratio) meter al-
lows you to measure your antenna condition. To
operate this function, connect your antenna to the
transceiver antenna connector, set the mode switch
to AM and adjust the MIC Gain to minimum. Select
a frequency near the middle of the band you plan to
use most. Activate the SWR function and press the
PTT button on the microphone. A bar on the meter
is an indication of the antenna matching. If there is
no bar, itindicates that your antenna system is per-
fectly matched. The less bar, the better matched. If
several bars appear, your antenna needs adjusting.
2.4.9 CTCSS-Optional
The RCI-2950/2970 can operate with CTCSS fre-
quencies for accessing repeaters, with an optional
CTCSS (Continuous Tone Coded Squelch System)
encoding device installed. For more information,
contact your local dealer or Ranger Communica-
tions Customer Service Department.
24
ee
Communications, Inc.
Sie
SECTION 3
a
i
FIGURE 3.1_RCI-2950/2970 MIC. WIRING
1. GROUND SHIELD
2. AUDIO YELLOW
3. TRANSMIT RED
4. RECEIVE BLACK
5. CHANNEL UP WHITE
6
CHANNEL DOWN BLUE
1. GROUND SHIELD
2 AUDIO WHITE
3. TRANSMIT BLACK
4, RECEIVE Ne
5. CHANNEL UP we
6 we
CHANNEL DOWN
FIGURE 3.3 TURNER 6-WIRE MIC. WIRING
1. GROUND SHIELD & RED
2. AUDIO WHITE
3. TRANSMIT BLUE
4, RECEIVE Ne
5. CHANNEL UP NC
6. CHANNEL DOWN Ne
FIGURE 3.4 ASTATIC 4-WIRE MIC. WIRING
1. GROUND ‘SHIELD
2, AUDIO wire
3. TRANSMIT RED
4. RECEIVE Nc
5. CHANNEL UP Nc
6_ CHANNEL DOWN No
FIGURE 3.5 ASTATIC 6-WIRE MIC. WIRING
1. GROUND SHIELD & BLUE
2. AUDIO waire
3. TRANSMIT RED
4, RECEIVE we
5 CHANNEL UP
6._CHANNEL DOWN
FIGURE 3.6 PALOMAR MIC. WIRING
1. GROUND SHIELD & BLACK
2. AUDIO RED
3. TRANSMIT WHITE
4, RECEIVE we
5. CHANNEL UP we
6. CHANNEL DOWN we
_FIGURE 3.7 INTERNAL ALIGNMENT POINTS
VRI 'AM RECEIVE METER CAL
vre SSB RECEIVE METER CAL
vR3 ‘SSB SQUELCH THRESHOLD
ra ‘AM SQUELCH THRESHOLD
vR? CARRIER BALANCE
vr TRANSMIT METER CAL
VRIt DRIVER BIAS
VRI2 ALC (SSB HIGH POWER)
VR13. AM CARRIER (HIGH POWER)
vRig AMC
VRI5 AM CARRIER (LOW POWER)
VRI6 ALC (SSB LOW POWER)
R21 TX FREQUENCY ADJUSTMENT
10.240 CRYSTAL TRIMMER (X1)
10.240 CRYSTAL TRIMMER (X2)
‘AN FREQUENCY ADJUSTMENT
LSB FREQUENCY ADJUSTMENT
USB FREQUENCY ADJUSTMENT
3.0 INTRODUCTION
The following steps are required to re-align the
RCI-2950/2970. CAUTION: Alignment should only
be attempted by personnel trained in RF product
testing and alignment.
3.1 PLL SYNTHESIZER/OSCILLATOR
FREQUENCY ALIGNMENT
Set radio controls as follows:
Frequency: 28.0000 Miz
Mic Gai Fully counter clockwise
RF Pow Fully clockwise
RF Gain: Fully clockwise
Clarifier: 12 o'clock
Volume On/Oft: On
Squeleh: Fully counter clockwise
Mode Selector: FM
(1) Connect a digital voltmeter to jumper J13, Ad-
just L17 for a reading of 2.2 VOC +0.1.
(2) Connect a digital voltmeter to pin 3 of IC7. Ad-
just L21 for 1.2 VDC 20.1.
(3) Connect a frequency counter to L61 and adjust
VC1 for 10.240 MHz +10 Hz.
3-1
(4) Connect a 502 dummy load to the antenna
connector.
(8) Connect a frequency counter to pin 3 of IC14.
Ensure thatthe clarifier is precisely atthe 12 o'clock
position. Adjust VC2 for 10.240 MHz +10 Hz. Key
the transmitter and adjust VR21 for 10.240 MHz
#10 Hz.
(6) Connect a frequency counter to the cathode of
45. Put mode selector on AM. Key the transmit-
ter and adjust L27 for 10.6950 MHz 210 Hz.
(7) Adjust VR7 fully clockwise. Leave the frequency
counter connected to D45. Put the mode selector
on USB. Key the transmitter and adjust L29 for
10.6925 MHz +10 Hz.
(8) Put the mode selector in LSB. Key the trans-
mitter and adjust L28 for 10.6972 MHz 210 Hz.
Return VR7 to approximately the middle of rota-
tion.
(8) Putthe mode selector in AM. Connect X10 probe
to pin 13, IC17. Check the frequency counter for
5.930 MHz.
(10) Set the oscilloscope for 50nS (.05,S) per di-
vision on the sweep selector and 10mV per divi-
sion on the vertical input. Connect X10 probe to
IC17 pin 13 and very carefully adjust L24 and L25
for the best waveform.
3.2 RECEIVER ALIGNMENT
(1) Put the mode selector on FM, the RF gain fully
clockwise, Clarifier at 12 o'clock and the frequency
at 28.0300 MHz.
(2) Connect an FM signal generator to the antenna
connector. Set the modulation for 3 kHz, output
level at 0.5yV.
(8) Connect a SINAD meter to the external speaker
jack, adjust the volume control to approximately
10 o'clock.
(4) Connect an X10 probe to the cathode of D12,
Set oscilloscope sweep selector for 1mS per divi-
sion and vertical input selector for 10mV per divi-
sion.
(5) Adjust L8 for the best SINAD reading and the
least distorted wave form on the scope. Do not try
tuning this coil for the maximum, as this will result
in degraded receiver performance.
(6) Adjust L9, L11, L12, L13, L14, L4, L3, L5 and
L6 for maximum on scope. Reduce generator level
if necessary, so as not to exceed vertical height on
scope.
(7) Adjust L6 and L5 for best SINAD.
(8) Put the mode selector on LSB. Signal genera-
torto 28.0290 MHz, modulation off, output evel at
O.5pV. Tune L15 and L16 for maximum waveform
on scope.
3.3 TRANSMITTER ALIGNMENT
(1) Connect an audio generator to pin 2 and ground
(pin 1) of the Mic connector. The Mic gain should
be fully counterclockwise. Set generator for 30mV
RMS, 1 kHz sinewave.
(2) Adjust VR14 fully counterclockwise.
(3) Adjust VR12 fully counterclockwise.
(4) Connect a wattmeter and 500. dummy load to
the antenna connector. Set the wattmeter for 30W
scales [100W].
(5) Key the transmitter and slowly increase the Mic
gain until you obtain approximately 10W. Adjust
L19, L48, L47, L46 and L43 for maximum reading
on the wattmeter. Reduce Mic gain if necessary to
maintain about 10 to 15W on wattmeter [40-50W/].
(6) Increase the Mic gain to maximum (fully clock-
wise). Key transmitter and adjust L34 for maximum
power output. Power will typically be 30-35W
1100-120W1.
(7) With the Mic gain still maximum on LSB, key
the transmitter and adjust VR12 for 25 [700W/].
(8) Put the mode selector on AM. Key the transmit-
‘ter with no modulation applied and adjust VR13
for 10W [50W).
(9) With the mode selector still on AM, re-connect
1 kHz audio the generator to radio and key trans-
mitter. With Mic gain at maximum, adjust VR14 for
90% modulation. Use the modulation meter or os-
cilloscope with RF sampler [85%].
(10) Put the mode selector on FM. Key the trans-
mitter and check for 4 kHz deviation 20.5 kHz. There
is no deviation adjustment provided in this radio.
‘Simply check for sufficient transmit audio. Use the
deviation meter or the service monitor.
3-2
RANGER |
Communications, Inc. ||
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Figure 4.1. RCI-2950/2970 Controls and Connectors
4.0 INTRODUCTION
This section explains the basic programming pro-
cedures for the RCI-2950/2970 Amateur 10 meter
mobile transceiver.
4.1 FREQUENCY SELECTION
Frequency selection in the RCI-2950/2970 can be
accomplished using anyone of the three following
methods:
(1) The first method of frequency selection is
through the use of the SHF (Shift) key and the
(A) Up and (¥) Down arrows. To accomplish this,
press the SHF button until the cursor arrow is po-
sitioned under the digit of the frequency that is to
be changed, then use the (4) Up arrow to increase
the number. If a decrease in frequency is desired,
press the () Down arrow. Perform the steps de-
scribed above for each digit of the frequency untit
the desired frequency is displayed in the LCD dis-
play window.
(2) The second method of frequency selection is
accomplished using the SHF button and the fre-
quency select knob located above the microphone
jack. Use the SHF button in the manner described
above to select the digit to be changed.
4-1
Proceed to rotate the frequency select knob clock-
wise to increase the frequency. Rotate the frequency
select knob counterclockwise to decrease the fre-
quency.
(3) The third method of selecting the operating fre-
quency of the radio is through the use of the SHF
button and the Channel (a) Up and (¥) Down
buttons located on the microphone. Frequency se-
lection by this method is accomplished in the same
manner as with the () Up and (%) Down arrows
on the key pad. The only difference is that the Chan-
nel Up and Down buttons on the microphone are
used.
4.2 FREQUENCY SCANNING
Frequency scanning can be achieved using one of
two methods: the first method involves the scan-
ning of pre-programmed memory channels. The
second method permits the user to scan all fre-
quencies between a pre-set upper and lower scan
limit. Both of the methods of the frequency scan-
ning.
4.2.1 All Frequency Scanning
To allow all Frequency Scanning, One must first
program the upper and lower scanning limits. The
‘scan limits are simply the highest and lowest fre-
quencies that will be scanned. To program these
limits, perform the following steps:
(1) Press the PRG (Program) key.
(2) Press the SCAN key (“PRG SCANS" should ap-
pear in the lower right corner of the display win-
dow).
(8) Using the SHF key and the (4) Up and (¥)
Down arrows, select the upper scan limit, then
press ENT.
(4) Press the SCAN key again (*SCAN-" should ap-
pear in the display window).
(6) Using the SHF key and (4) Up and (W) Down
arrows, select the lower scan limit, then press ENT.
The upper and lower scan limits have now been
programmed. To activate the scan feature, return
the radio to manual operation and press the SCAN
button. Ifthe display shows "SCAN4", the radio will
scan from the lower limit to the upper limit. If
“SCAN-" is displayed, the unit will scan from the
upper limit to the lower limit. To change from
SCANs to SCAN- or vice versa, press SCAN.
When programmed, the upper and lower scan
limits will also act as the upper and lower :
{operating limits of the radio. The radio now
cannot be programmed to operate above or
below the scan limits.
4.2.2 Memory Scanning
The RCI-2950/2970 has 10 non-volatile (i.e
memory resident) memory locations which can be
programmed with any available frequency within
the operating band of the radio. The scan function
of the unit can be programmed to scan these
memory channels. The radio will then scan only
those memory channels which have been pro-
grammed.
The first step in utilizing the memory scan function
is to program the desired frequencies into the ra-
dio memory. This can be accomplished by perform-
ing the following steps:
(1) With the radio operating in the manual mode,
press the PRG (Program) key.
(2) Press the MEM (Memory) Key. "PRG" should
be displayed in the lower right-hand comer of the
LCD display window. In the upper left portion of
the display, "MEMORY" should be displayed. Di-
rectly below MEMORY, a number between 0 and 9
will be displayed. This number represents the
memory location currently being displayed. Press-
ing the MEM key will increase the memory counter
to the next memory location and the contents of
that memory location will be displayed.
(3) Using the SHF key and the (&) Up and
(¥) Down arrows, enter the frequency to be stored
inthe memory location displayed. After the desired
frequency has been entered, press ENT.
(4) Repeat steps 2 and 3 for all the memory loca-
tions to be programmed.
(6) After all desired memory locations have been
programmed with frequencies, return the unit to
the manual mode of operation by pressing the MAN
key.
(6) To initiate memory scanning, press MEM and
then press SCAN. As previously discussed, the dis-
play will show "SCAN" or *SCAN-* to indicate
whether the radio is scanning from the lowest or
the highest memory location or vice versa.
(7) To return the radio to normal (non-scanning)
operation, press the MAN key.
4.3 OFFSET FREQUENCY OPERATION
The RCI-2950/2970 has an offset or split frequency
feature that will permit the radio to be operated in a
half-duplex mode. This will allow the user to talk
on FM repeaters operating in the 10 Meter band.
NOTE
The FM repeaters may require a subaudible :
CSS) tone be transmitted to gain access to
1 repeater. The RCI-2950 is not factory-
The split frequency function offsets the transmitter
frequency either above or below the receive fre-
quency by a user programmable amount. In the
following example, programming of a 100 kHz off-
set will be described. Before attempting to program
the offset frequency, ensure that the radio is oper-
ating in the manual mode by pressing the MAN key.
(1) Press the PRG (Program) key.
42
(2) Press the SPLIT key. The LCD display window
will display "00000" with "PRG" and “SPLIT* being
displayed in the lower left hand comer.
(3) Using the SHF key and the (A) Up and
(¥) Down arrows as described earlier, program the
display to read "010000".
(4) Press ENT. A100 kHz offset has now been pro-
grammed into the radio.
(5) Return the radio to manual operation by press-
ing the MAN key.
(6) Using the SHF key and the (A) Up and
(¥) Down arrows as described previously, set the
radio for the desired receive frequency.
(7) Press SPLIT. In the lower right comer of the
display, either *SPLIT+" or “SPLIT-* will be dis-
played. if SPLIT+ is displayed, the transmitter will
be offset 100 kHz above the receive frequency when
keyed. If SPLIT- is displayed, the transmitter will
be offset 100 kHz below the receive frequency.
NOTE
When the transmitter is keyed, the frequency :
display will change to show the frequency :
(8) To return the radio to simplex operation
((e., same transmit and receive frequency), Press
the MAN key.
RANGER |
Communications, Inc.
5.0 INTRODUCTION
(Refer to block diagram RCI-2950/2970 behind
Section 5).
This section explains the description of the Block
Diagram of the RCI-2950/2970. The Ranger RCI-
2950/2970 is a solid-state, fully synthesized Ama-
teur 10-meter mobile transceiver with full-band
coverage from 28.0000 MHz to 29.6999 MHz and
all-mode operation including: FM, AM, USB, LSB,
CW and PA modes.
5.1 RECEIVER DESCRIPTION
The RF enters the receiver through the antenna,
proceeds through a filter and into the first RF am-
plifer, 018. The amplified signal then goes through
a band pass filter and into the first mixer, 19
The RX signal is mixed with the first local oscillator
(VCO1) at Q19. The output is the first IF of 10.6950
MHz for AM/FM, 10.6925 MHz +AF for USB, and
10.6975 MHz -AF for LSB. The signal is then fil-
tered by L12, L13 and L14. At this point, the signal
goes in one of two directions depending on the
mode setting of the unit. The AM/FM signal gets
filtered by FL2 and enters Q8 which mixes the
10.6950 MHz signal with the 10.240 MHz. This
yields the second IF of 455 kHz whichis filtered by
FLI. The 455 kHz signal is filtered and amplified by
Q9, L5, Q10, Q11 and L6.
The AM signal goes to the AM detector consisting
of D34 and D35. The FM signal enters the FM de~
tector, IC2. The SSB (Single Sideband) signal is
filtered by a crysta filter (FL3). The signal is ampli-
fied by 020, 021, 022 and 023.
The sideband signal is mixed with a 10.6925 MHz
signal for USB (Upper Sideband) and a 10.6975
Mz signal for LSB (Lower Sideband). The signals
are mixed by Q16 resulting in an audio wave form.
The AGC amplifier (IC1) controts the squelch (017),
8 (AM/FM mixer), 020 (SSB IF), and the gain of
18 (RF AMP). IC1 is quad op amplifier. The in-
uts come from 023 (SSB IF), 011 (AM/FM IF) and
the squelch potentiometer (VR501).
SECTION 5
STH SUE
5-1
DESCRIPTION
5.2 PLL DESCRIPTION
The PLL (Phase-locked Loop) consists of two
VCO's. The primary VCO (VCO1) is the reference
local oscillator (LO) for the Transmit and Receiver
sections. The secondary VCO (VC02) is the refer-
ence as well as the 2.5 kHz offsets for USB (Upper
Sideband) and LSB (Lower sideband). The primary
VCO controls Frequency steps of 10 kHz, 100 kHz
and 1 MHz.
5.2.1 VCO1 Description
VCO1 is controlled by IC17, which receives its data
from the microprocessor on the logic board. 1C17
samples the frequency from IC10, divides the sig-
nal and outputs the resulting waveform to a phase
comparator (ICS). The signal is compared to a 10
kHz reference from IC11. The output of IC5 sends. a
contol signal to D43 inthe oscillator circuit, con
trolling the frequency of VCO1. The output signal
of VCO1 is mixed at IC10 with a modified signal
from VCO2. The output signal of (C10 is sent to
117.
5.2.2 V0O2 Description
VCO2 controls frequency steps of 100 Hz and 1
kHz. When the unit is in USB or LSB, VCO2 shifts
the LO +2.5 kHz and -2.5 kHz respectively. VCO2
consists of a loop much like VCO1 with the oscilla-
tor, amplifier and mixer combined into one IC (1C8),
VCO2 mixes with 10.240 MHz in IC8 and outputs
to IC17. 1C17 divides this frequency and outputs
into a phase comparator (IC7), where the signal is
compared to a 10 kHz (X1, IC11) reference from
1C11. The output of IC7 controls VCO2, VCO1 at
‘the mixer (IC10). VCO2 changes by 100 kHz and
10 kHz steps at IC10. The output signal of VCO2
goes through a divide by 10 (IC12) and mixed with
10.24 MHz (X2) reference. The signal is divided
by 10 (IC13) once more and mixed with a 10.24
MHz (X2) reference. The output is the reference to
VCO1 at the mixer (1C10).
5.3 TRANSMITTER DESCRIPTION
The Transmit signal is produced by mixing 10.6950
MHz for AM/FM (10.6975 MHz for LSB and 10.6925
MHz for USB) with the local oscillator (LO) at the
transmitter mixer (C20). This signal is filtered and
amplified by Q50 to Q59 and 049 into the driver
048. 048 drives the finals Q46 and Q47. The finals
are a direct coupled push-pull configuration. The
‘signal is filtered before entering the antenna jack.
FM modulation is accomplished by amplifying the
signal from the mic audio amplifier and using this,
signal to frequency modulate the reference oscilla-
tor X3 (10.6950 MHz), via the two varactor diodes
in parallel with the crystal load. The crystal (X3)
will shift its frequency by changing the voltage
across the varactors (D8 and D111). This is ac~
complished thru the MIC Audio.
AM modulation is accomplished by changing the
Voltage supplied to the driver (48) and the finals
(046, 047). The power control circuit elements are
051, 052 and 053. 051 supplies the voltage, where
(052 and 053 controls 51. The Mic audio signal is
amplified by 1C16 and the output goes to 052. 052
and 053 changes the bias of 051; therefore, the TX
‘output changes amplitude. When the unit is in the
SSB (Single Sideband) mode, 053 is biased to al-
low 51 to pass full supply voltage.
‘SSB modulation is accomplished by mixing the Mic
auidio signal from IC16 with the reference frequency
‘from X3 (10.6975 MHz for LSB and 10.6925 MHz
USB) at the balanced modulator, 1C3. The mixed
signalis filtered by the crystal filter, (X3), and mixed
with the LO at the mixer (1620).
The primary elements for AM/FM/CW power con-
trol are 051, 052 and 053, where 051 supplies
Voltage to the finals and 052-53 control the bias
of 051. The SSB power control circuit uses the AGC
in the Mic amplifier circuit. The SSB power is fed
back through 043. The output of 043 dictates the
bias of 031. The output from 031 goes to the AGC
contro! for MIC AMP (032). The limiting of AM
modulation is also accomplished by 032.
On the RCI-2970, 046 is removed and a power
amplifiers connected to the main PCB antenna port.
The power amplifieris a class A push-pull configu-
ration using a pair of 25C2290 bipolar transistors.
A relay is used to connect the antenna path directly
to the main PCB in receive mode and the amplifier
output in transmit mode.
5-2
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Communications, Inc. ATH USE
BOARD LAYOUTS
__7**** THIS PAGE LEFT INTENTIONALLY BLANK
6-1
RCI-2950/2970 MAIN BOARD
RCI-2950/2970 MICROPROCESSOR CONTROL BOARD
PRE-MARCH 1995 (THROUGH HOLE VERSION) ONLY «
(TOP VIEW)
RCI-2950/2970 LCD DISPLAY BOARD
RCI-2950/2970 SWITCH ASSEMBLY
RCI-2970 POWER AMPLIFIER BOARD
oHHz
288888.
q
COO
7.0 MAIN BOARD
RCI-2950
Se
He ye AY
7.0 MAIN BOARD (Con’t)
REF®_| DESCRIPTION PARTE REF# [DESCRIPTION PARTE
MAIN PACE EPT2950122 R51 | 220K YAW(M) TYPE RCMT422440
DC B+ PCB EPTi200602 © -RS2__| 1K YAW(U) TYPE Rou141024Z
R53 | 1K 4W(U) TYPE Rcu141024z
CARBON FILM RESISTORS R54 | 100K “W(U) TYPE ROMI41044A
R55 —_| 400K “W(U) TYPE ReM141044A,
R1 | 10K 4W(U) TYPE RCUI410342 RSE | 3.3K MWW(U) TYPE RCu1439242
R2 | 33K 4W(U) TYPE RCUI43334Z R57 | 3.3K MW(U) TYPE RCU1433247
R3_—_| 6800 W(U) TYPE Rcut468142 RB | 3.3K AW(U) TYPE Rou1439247
R§ | 2200 W(U) TYPE RU142214Z—-RSB__ | A7K YAW(U) TYPE RCU1447342
RS | 8300 4W(U) TYPE RoUt43314Z RGD [3.3K YAW(U) TYPE RCUI433247
R6 | 47K AW(U) TYPE RCu1447342 R61 | 3.3K MWW(U) TYPE RCUT433247
RT| 2.7K ¥AW(U) TYPE RCU1427242 REZ | 10K YAW(U) TYPE RCU141034Z
RB | 3300 ”W(U) TYPE RCUT493142 RGB 47K YAW(L) TYPE RCU1447347
RO | 5622 KW(U) TYPE RCUT4S604Z ——REA_| 2.7K W(U) TYPE Rou142724z
Rio | 100k YaW(U) TYPE Reuraioaéz RES | TK AW(U) TYPE Rcur41024z
Rit | 10K “W(U) TYPE Rcu1410342 —R66_| 10K YAW(U) TYPE Rcui4i034z
Ri2 | 6.8K YaW(U) TYPE RCU1466242 RE? | TK AW(U) TYPE RCUMTAIS7Z
RI3__| 470K YaW(U) TYPE Reur4s744z RB | 1K MW(M) TYPE ROM1410240
R14 | 10K MW(U) TYPE Reur4103¢z2 —R6I__| 1K WU) TYPE Rcu14i024Z
RIS | 3309 14W(U) TYPE RCu143914Z—R70_—_| 10K AW(M) TYPE RCM1410348
R16 | 2.7K YeW(U) TYPE Reur42724z R71 | 47K YaW(U) TYPE RCU144734Z
RI7 | 1.8K ¥AW(U) TYPE Rour4ie242 —R72__| 6.8K YAW(M) TYPE ROM1468240,
R18 | 1K W(M) TYPE ROM141024a R73. | 1K MWN(U) TYPE Reur41024z
R19 | 6.8K YAW(U) TYPE RCUI468242 R74 —_| 100K KW(P) TYPE RCP1410447
R20 | 1000 ”W(M) TYPE RCUI41014A R75 | 6800 wWN(U) TYPE Rcu146814z
Ret | 1K 4W(U) TYPE Rour4aiodz —R76—| 1.5K MW(U) TYPE ROUTAI5247
R22 | 1.5K ¥AW(U) TYPE RCUI415242 —«R77_—_| 10K AW(U) TYPE RCUT4 10342
R23 | 2.7K ¥AW(U) TYPE RCUI427242 «RB | 2.2K AW(U) TYPE RoU1422247
R24 | 1.5K W(U) TYPE ROUISIS242 TB | 2.7K MW(U) TYPE RCU1427247
R25—_| 10K YAW(M) TYPE REMi41034A —R8O—_| 10082 MW(U) TYPE Rou1410147
R27 | 4.8K YAW(U) TYPE ROUI4182¢Z RBI | 2.2K KW(M) TYPE ROM1422248
R28 | 1.8K YaW(U) TYPE RCUI818242 R82 | 100K AW(U) TYPE RCUt410447
R29 | 47K uW(M) TYPE ROM144734A—RE3__| 10K YAW(U) TYPE Rcu141034z
R30 | 1000 ¥4W(M) TYPE ROMI410148 R84 | 1000 wWN(U) TYPE Rcu1410142
R31 | 1000 4W(U) TYPE Rcurai014z RBS | 2.2K WN(U) TYPE. Rcu1422242
R32 | 1000 YaW(U) TYPE RCUr410142 R86 | TK MW(U) TYPE. Rcur4i024z
R93 | 1000 vW(M) TYPE ROMI41014A —RB7__| 5.6K 4W(M) TYPE ROM1456240
Roa | 47K MW(M) TYPE RoMi44724A —RBB__| 10K YAW(U) TYPE RCU1410342
R35 | 6.8K 4W(U) TYPE RCU1468242 —RB9_| YOK Y4W(M) TYPE RCM1410348,
R96 | 6.8K AWM) TYPE RCM146824A —R90_—| 1K MWN(U) TYPE. Rcur41024z
R37 | 1000 ¥aW(U) TYPE Rcur4i014z R91 | 10K v4W(U) TYPE Rcut41034z
R98 | 1K 4W(U) TYPE RoUIsiO247 —RE2_| 1.5K KAN(U) TYPE Reur4is2az
R39 | 330K WN(U) TYPE RCU1433442 —R93_—| 6BOG MW(M) TYPE ROM1468148,
R40 | 1M YaW(U) TYPE RCUI41054¢2 —-RO4—_| 1.2K KW(U) TYPE Reur41224z
Rat | 6.8K YAW(M) TYPE RCMi46624A R95 | 8.2K WLU) TYPE Rcu1482242
Ré2_—_| 100K W(U) TYPE RCUI410442 R96 | 22K YAW(M) TYPE Re1422348,
Raa | 100K W(U) TYPE Rcurdi0442 R97 | 2.2K MW(U) TYPE Rcur422047
Raa | 400K vAW(U) TYPE RCUI410442 —RBB_| S.6K YAW(U) TYPE RCU1456247
Ras | 82K vaW(U) TYPE Reu1482342 R100. | 47K W(M) TYPE ROM1447348,
R46 | 47K %W(M) TYPE RM144734A R101 | 1.5K WW(U) TYPE RCUT415247
a7 | 220K ¥4W(U) TYPE RCU1422442 R102 _| 2200 AW(U) TYPE RCU1422147
4B | 680K Y4W(U) TYPE RCU1468442 —R103_| 1000 AW(U) TYPE Rcur4i014z
Raa | 100K W(M) TYPE ROMA4104¢A R104 | 1000 14W(M) TYPE RCM141014A
50 | 100K ¥4W(M) TYPE ReMi4i044A R105. | 1M %4W(U) TYPE Rcur41054z
7
7.0 MAIN BOARD (Con’t)
RCI-2950
7.0 MAIN BOARD (Con’t)
REFF | DESCRIPTION PARTE REFY_[ DESCRIPTION PARTE
R106 [6.8K Y4W(U) TYPE RCUT4BE24Z RIB | 12K MWW(U) TYPE RCUI4I234z
R107 | 100K Y4W(U) TYPE Rcutsi0442 R170 | 10K wiW(U) TYPE RCU1410347
R108 | 68k wW(U) TYPE Rcur468834Z RII | 1K YAW(U) TYPE Rcuia1024z
R109. | 100K Y4W(U) TYPE Rcurai044Z R172 | 1K ¥W(U) TYPE Roui41024z
R110 | 1.5M S4W(U) TYPE RCUI41SS4Z R73. | 4700 MW(U) TYPE ROUIa47142
Ritt | 68K MW(U) TYPE Reur4ee34Z —RI74_‘| 3.3K WWW(M) TYPE ROM1433240
RITZ | 22K WM) TYPE ROM142234A—RI75_| 1.5K KWW(U) TYPE RCUI415242
R113. | 3.3K Y4W(U) TYPE RCU1433242 R176 | 3.3K YW(U) TYPE RGU 1433247
R114 | 6802 Y4W(M) TYPE ROMi46814A R177 | 10K MW(U) TYPE RCU1410342
R115. | 220K YeW(U) TYPE Rcu1422442 RIB | 4.7K MW(U) TYPE RCU1447242
R116 | 47K MW(U) TYPE RCUI44734Z —-RI79_| 1.5K MW(U) TYPE RCU1415542
Ri17 | 1K YaW(U) TYPE RCUr41024Z —R180_| 10K MW(P) TYPE RCP141034Z
R118 | 10K W(M) TYPE RCM14103¢4 R181. | 10K “W(U) TYPE RCU1410342
R119 | 100 MW(U) TYPE RCUI44794Z R182 | 4.7K KW(U) TYPE RcU1447242
R120. | 1K ¥4W(U) TYPE Rour410242 © R183._| 4.7K MW(U) TYPE RCu1447242
R121 | 27K 4W(U) TYPE RCUI427342 R184 | 2.2K MW(U) TYPE Rcu1422242
R122 | 1K AW(U) TYPE RCU141024Z R185. | 1000 W(U) TYPE Rcut41014z
R123 | 10K 4W(U) TYPE RCUT4TO34Z —RIBB_| 3.3K VAW(M) TYPE ROMT43324
R124 | 10K MW(U) TYPE RCUTAI034Z —R1BB_ | 47K YAW(U) TYPE RCU1447342
R125 | 100K ¥4W(U) TYPE RoUT41044Z R189. | 10K MW(M) TYPE ROM1410348
R126 | 10K “W(U) TYPE RCU141034Z R190 _| 10K YAW(U) TYPE RCU1410342
R127 | 1K YOU) TYPE. Rcui4i024Z R191. | 220K ¥AW(U) TYPE RCU1422442
R128 | 2200 (U) TYPE Rcur42214z R192 | 100K ”W(M) RoMt4i044A
R129. | 10K %W(U) TYPE RCU141034Z R193 | 10K YAW(U) TYPE RCu1410342
R130. | 10K MW(U) TYPE Rcur41034Z R194 | 10K YAW(U) TYPE Rcur41034z
R131 | 10K %W(U) TYPE Rcui4i034z R195 | 47K AW(M) TYPE ROM1447344,
R132 | 1000 4W(U) TYPE RCu141014Z R196 | 6800 KW(M) TYPE RM146814A
R133. | 10K “W(U) TYPE RCu1410342 R197 | 1000 4W(U) TYPE Rou141014z
R134 | 10K %W(U) TYPE Rcu14i034Z R198 | 1.8K MW(U) TYPE Rcu141824z
R135 | 2200 *4W(U) TYPE Reur42214Z R199. | 47K YAW(U) TYPE RCU1447342
R136. | 56Q WW(U) TYPE RCU1456042 R200 | 22K W(U) TYPE RCu1422342
R137 | 5600 ‘4W(U) TYPE RCU145614Z R201 | 10K AW(U) TYPE RCU141034Z
R138. | 1500 Y4W(U) TYPE RCUr41514Z R202 | 56Q WWW(M) TYPE RCMT45604A
R139. | 220K YAW(U) TYPE RCU142244Z R203 | 10K YAW(U) TYPE RCu1410342
R140 | 1.5K Y4W(M) TYPE RCMI41524A R204 | 5600 Y4W(U) TYPE RCU145614z
R141 | 1000 %4W(U) TYPE RCUI4I014Z R205. | 33K UW(U) TYPE RCu1433242
R142 | 1K YAW(U) TYPE RCU1410242 R206 | 1000 v4W(U) TYPE RCUIa1014Z
R143. | 10K %W(U) TYPE Rcui410342 R207 | 220 WWM) TYPE ROM1422040
R144 | 3900 W(U) TYPE RCUI43314Z —-RZ0B_ | 1000 *4W(U) TYPE RCUIa1014z
R145 | 10K 4W(U) TYPE Rour410s4z R209. | 220 YAW (U) TYPE Rout422047
R148 | 10K “W(U) TYPE RCU141034Z R210. | 1K YAW(U) TYPE RCU 1410242
R147 | 4K AWW(M) TYPE ROMI410244 RATT | 4.7K MW(U) TYPE RCU1447242
R148 | 270K ‘eWV(M) TYPE ROMI42744A —-R212_| 33K MW(U) TYPE RCU1433347
R150 | 270K W(U) TYPE RCUI42744Z R213. | 10K wW(M) TYPE RM1410348,
Rist | 4.7K WU) TYPE RCUI44724Z —-R214_| 10K KW(U) TYPE RCUT41034Z
R152 | 4.7K Y4W(M) TYPE ROMI447244 R15. | 4.7K WW(U) TYPE RCU1487242
R153 | 10K “W(U) TYPE RCU1410342 R216. | 10K UW(U) TYPE RCUI410342
R154 | 3.3K vAW(U) TYPE RCU1493242 ——R217_| 10K MW(M) TYPE ROM14 10348,
R155 | 2200 W(M) TYPE ROMI422144 R218 | 1K KW(M) TYPE RCM141024A,
R156 | 1000 uW(U) TYPE Reur4ior4z — Rang. | 2aK MWV(U) TYPE. RcU1422342
R157 | 1K 4W(P) TYPE RCP1410242 R220. | 1K Y4W(U) TYPE RCU1410247
R159 | 10K 4W(U) TYPE RCU1410342 R221} 10K MW(U) TYPE RCU1410347
R160 | 330K WW(U) TYPE RCUI49344Z R222 | 4.7K MAW(M) TYPE ROM1447248
R161 | 2200 %W(U) TYPE Reur4z214z © R23__| 6.8K YWN(M) TYPE RCM146824A,
R162 | 100K “WW(U) TYPE RCUI41044Z —-R224_‘| 560 WW(U) TYPE RCU1456042
R163. | 470K W(U) TYPE Rour4as7aaz R225. | 1K MWN(M) TYPE RM141024A,
R164 | 15K “W(U) TYPE RCUI415342 R226} 10K MW(M) TYPE RM410348,
R168. | 10K Y4W(U) TYPE Rcuis10342 R227 | 20K MW(U) TYPE RCU1422947
R167 | 100K %WW(U) TYPE RCUIAI044Z —-R22B_| 4.7K KW(U) TYPE RCUI447242
R168 | 47K 14W(U) TYPE RCUI44734Z R229. | 220K YAW(U) TYPE Rcuis22442
7-2
7.0 MAIN BOARD (Con't)
RCI-2950
7.0 MAIN BOARD (Con’t)
Refe_[ DESCRIPTION PARTE ReF#_[ DESCRIPTION PART
R230 | 1K MW(U) TYPE RCUT41024Z R295] TOK AW(U) TYPE RCUI410342
R231__| 470K ¥4W(U) TYPE RCUI44744Z R296. | 10K 4W(U) TYPE RCU1410342
R232_| 4.7K KW(P) TYPE ROPI447242 R297} 100 MW(U) TYPE RCUI41004z
R233 | 1000 ”W(U) TYPE ROUI41014Z —-R29B_ | 1K YAW(U) TYPE RCUia1024z
R234 | 10K MW(P) TYPE RcP141034Z R299. | 10K “W(U) TYPE RCU1410347
R235 | 1K MW(U) TYPE RU1410242 —-R300_| 5600 YAW(U) TYPE RCU1456142
R236 | 3900 YAW(U) TYPE RCU143314Z R301 | 6.8K KW(U) TYPE RCur46824z
R237 | 10K MW(U) TYPE Reur41034Z R302 | 1K YAN(P) TYPE RCP141024Z
R238 | 10K wW(U) TYPE RcU1410342 R303. | 10K W(U) TYPE. Rcu141034Z
R239. | 2200 VAW(U) TYPE Rcu142214z 304 | 19 4W(P) TYPE RCP1410942
R240 | 10K WWM) TYPE RCM141034 R305. | 2200 YAW(M) TYPE ROM1422144,
R241 | 2.2K YAW(U) TYPE RCU1422242 R306 | 10K MWN(U) TYPE RCUIS10342
R242 | 1000 4W(M) TYPE ROMI410144 RIOT | 1K KW(U) TYPE Roui410242
R243 | 47K MW(U) TYPE RCU144734Z R308 | 1000 14W(U) TYPE RCUISI0147
Re4d | 20K WWN(U) TYPE RCU1422342 R309} 39K YAW(U) TYPE RCUI433342
R245 | 47K MW(U) TYPE RCUI44734Z —R3I0_| 270K Y4W(U) TYPE RCU1433447
R246 | 1.5K 4W(U) TYPE ROUIEIS24Z RINT | 1K MW(M) TYPE RCM1410240
R247 | 4.7K ¥AW(U) TYPE ROUI44724Z B12 | 1K YAW(U) TYPE Rcu141024z
R24 | 1K “W(U) TYPE RCUI410242 R313. | 1K YAW(U) TYPE Rcu141024z
Re49 | 1K MW(M) TYPE RoMi4t0244 R314 | 10K AWV(U) TYPE. Rcu141034z
R250 | 1K YAW(M) TYPE RCMi410244 R315. | 22K MW(U) TYPE Rcui42234z
R251 | 10K MWV(P) TYPE ROP1210342 —-RBI7_| 1K YaW(U) TYPE Rour41024z
R252 | 1K YAW(M) TYPE RCMi410244 R318. | 1000 “W(M) TYPE RM141014A,
R253 | 180 wWN(U) TYPE Rcur4te04Z R319. | 1K MW(U) TYPE RCUT41024z
R254 | 10 VAW(P) TYPE ReP1410942 R320 | 1K YAW(U) TYPE RCU1410247
R255 | 1500 VAW(P) TYPE RoP1215142 R321 | 10K WU) TYPE RCUIA1034Z
R256 | 180 “W(U) TYPE RCU1418042 R322 _| 100K s4W(M) TYPE RCM141044A
R257 | 1500 WIP) TYPE RCPI215142 R323 | 33K KW(U) TYPE RCUI43334Z
R258 | 2.20 WIP) TYPE RcP1422942 R234 | 4.7K ZAW(M) TYPE ROMI447248
R259 | 1500 WU) TYPE RCui4i5i4z R325 | 10K MW(U) TYPE RCUI41034Z
R260. | 4.79 uW(U} TYPE Rcu144794z R326 | 1K AWM) TYPE RCM141024A
R261 | 1.5K ”W(U) TYPE RCUI415242 —R327_| 10K ¥4W(U) TYPE ROU1410342
R262 | 3900 W(U) TYPE RCU143914Z R330. | 1K “W(U) TYPE RCUI410247
R264 | 470 MW(U) TYPE RCU144704Z_—-R331_ | 10K YAW(M) TYPE ROM1410340
R265 | 3300 VAN(U) TYPE RoUI4as14Z RBZ | 1K MW(U) TYPE Rcu141024Z
R266 | 1.5K %4W(U) TYPE ROUI415242 R333. | 1000 W(M) TYPE ROM1410148
R268 | 1K KW(U) TYPE RUI41024Z R334} 1000 Y4W(M) TYPE RoM1410148,
R269 | 100K Y4W(U) TYPE Reu1410442 R335. | 22K “W(U) TYPE Rcu1420347
R270. | 100K Y4W(U) TYPE RCUIa10442 R336} 10K “W(M) TYPE RoM1410348,
R272 | 100K Y4W(U) TYPE Rcur4i044z
R273. | 1000 W(U) TYPE Reur4io14z ‘CERAMIC CAPACITORS
R274 | 10K wW(U) TYPE Rcur4i034z
R276 | 1500 YaW(U) TYPE Reur4aisi4z —ct_—_| SpF SOWV ICH cc0s010044
R277 | 2.2K %4W(U) TYPE Rcur42224z G2 OtuF SOEVZSL ccosotog7L
R278 | 10K W(U) TYPE RCUI41034Z C3. _OtuF SOEVZ SL Ccoso1037L
R279. | 1000 ¥4W(M) TYPE ROMI410144 —C4—_| 100pF SOWWK SL Ccos01015L
R280 | 4.7K %W(M) TYPE RCMI447244 —C5_—_| SpF SOWGCH cC0s00501A
Reet | 4.7K 4W(U) TYPE Rcu1447242 «C6 | O.tuF SOEVZSL ccos01037L
R282 | 4.7K “W(P) TYPE Rep144724zc7_—|_047uF SOWVZSL Ccoso1027t
R283. | 10K W(M) TYPE ROMi41034¢4 cB | OO1pF SOWVZSL ‘ecosotoz7L
Raed | 1K ¥WW(U) TYPE Rcur4st0242 —¢9_—‘| OTF SOEVZ SL ‘ec0501037L
R285 | 4700 wWN(U) TYPE Rcui447142 C11 | 82pF SOW SL ‘ccos08204L
R286 | 150 WW(U) TYPE Reur4tso4z —C12_| .O1uF SOEVZSL ecos01037L
R267 | 3.3K Y4W(U) TYPE RCUI43924Z C14 330pF SOWVK SL ccos03315L
R289 | 4700 4W(U) TYPE Rovi447142 —C17_‘| 330pF SOWVK SL cc0503315L
R290__| 10K wW(U) TYPE Rcuiai03¢z §=—c18 | “O1uF SOEVZSL ccoso10a7L
Rot | 10K WN(U) TYPE ROUI410342 C19 | .047UF SOWVZ SL ccoso47a7t
R292 | 4.7K 4W(M) TYPE RoMt447248 ¢20._‘| SpF SOWVCSL Ccos00501L
R293_| 10K wW(U) TYPE RCUIa10342 —C21_—| O1uF SOEVZSL ccoso10g7L
Rega | 4.7K MW(U) TYPE Reur4s724z —€22_| .4uF SOWVZSL (ccosoro47t
73
RCI-2950
7.0 MAIN BOARD (Con’t)
7.0 MAIN BOARD (Con’t)
ReF# | DESCRIPTION PARTS REF# | DESCRIPTION PARTY
23 | tuF SOWVZSL ecoso1o47L = C10 | OTF SOEVZ SL ‘eco501037L.
24 | OtuF SOEVZ SL ccoso1037L = C113_‘| TUF SOEVZ SL ccoso1037L
28 | .047uF SoZ SL Cc0504737L C114 | 270pF SOW K SL. cc0s02715L
C29 | 68pF SOWV J SL GCOsO6EO4L §— C115 | 270pF SOWV K SL ec0s02715L
630 | S60pF SOWV K SL CCOsOS1SL C17 .047uF SOWVZ SL c0s04737L
31 | 15pF SOWVJ CH CCOS01SO4A = C118_| OTUF SOEVZSL c0501037L
34 | O1uF SOEVZ SL ccoso1037L «C119 _| SpF SOWV CH cc0s01004A,
35 | 100pF SOWVK SL. Ccoso101sL C120 | OtuF SOEVZ SL cos01037L
37 | 270pF SOWVK SL coosez71sL —C121_| S3pF SOW SL ccos03304L
38 | Our SOEVZ SL ecos01037L C122 _| SapF SOW SL ecos03304t.
41 | 001pF SOWVZ SL ecosoio27L C123} OtuF SOEVZ SL ccoso1037L
42. | uF SOWVZ SL ccoso1o47t == C124 | OtuF SOEVZ SL ccos01037L
C43 | 10pF Sow SL Ccos01004. «C125. | OO1pF SOWVZ SL ccosoio27L
45 | 00tpF SoWVZ SL Ccoso10z7L «C126 | -OTuF SOEVZ SL cc0s01037L
48 | tur SOWVZ SL ecoso147L 127 | tur SOEVZ SL ‘ecos010g7L.
51 | .001pF SOWVK SL ccosoz2tsL = ¢129. | tur SEVZ SL. ‘ecoso1037L.
C52 | 220pF SOWV K SL CC0s02215L —C130._| 10pF SOWV J SL ‘eco501004L.
53 | 12pF SOWV J CH ¢c0501204A C131 | uF SOWVZSL ccosot047L.
54 | .047uF SoWVZ SL Ccose47a7L —C132_| .OtuF SOEVZ SL ‘ccoso1037L.
C55 | GBpF SOWV J CH CCOSOBEO4A — C133 | 47pF SOW WW ‘¢c05047046
56 | OtuF SOEVZ SL ccosotos7L C134 | 100pF SOW L UK ‘0c05010156
59 | 047uF SOWVZ SL ccose4737L C135 | .001pF SoWVZ SL ‘ecosot027L.
60 | O1uF SOEVZ SL Ccosotos7L = C196 | .tuF SOWVZSL ccosor047L
61 | SpF SOWV J CH CCOSOTO04A C139 | OTP SOWVZ SL ccoso1027L
063 | uF SOWVZ sk Coosoto47L == C142_| 00 1pF SOWVZ SL ccoso1027L
65 | S6pF SOWV J CH 6605033048 C145_|.001pF SOWVZ SL ccoso1027L
066 | ipF SOWVC CH Ccosooto1A = C148 | .tuF SOWVZ SL ccoso1047L
C67 | 39pF SOW J CH cc05039044 C149 | 00 1pF SOWVZ SL ecoso1o27L
68 | SpF SOWV CCH Ccoso0so1A C150 | .A7uF SOWVZ SL. ecoso4727L
69 | OtuF SOEVZ SL Ccoso1os7L «C151 | A7uF SOWVZSL. ecoso4727L
71 | OtuF S0EVZ SL ccosotos7L ©1852 | O1uF S0EVZSL_ c0s01037L
72 | 3pF SOW CH CC0S00301A «C153 |.001pF SOWVZ SL ccosoio27L
73 | SpF SOWV CCH ccoso0301A C154 | 100pF SOWV K SL ccoso101st
74 | OtuF SOEVZ SL ccosot037L C158 | 150pF SOWV K SL cc0s01515L
75 | 27pF SOWV SL cc0s02704L C159 | OOTP SOWVZ SL ccosoio27L
76 | uF SOWZSL ceosooa7L = C162 | 001pF SWVZSL. ccoso1027L
77 | SpF SOW CSL Ccosooso1L = C163 | 47pF SOWV J SL cc0s04704L
78 | .OtuF SOEVZ SL cc0sot037L C164 | SE0pF SOW K SL ccoso5615L
79} OtuF S0EVZ SL ccnso1037L «C165 | 390pF SOWV K SL ecoso391sL
a0 | .047uF sowZ SL cc0s04737L C166 | 33pF SOWV ISL ccoso3304L
c82_—| 47pF SOWVJ SL. cc0504704. C167 _| 150pF SOWV KSL cc0501515L
683 | .OtuF S0EVZ SL Ccosoos7L «C169 | 33pF SOWV J SL ccos03304L
a4 | uF SOWVZ SL ccnsoto47L © C172_| 33pF SOWV J SL ec0s03304L
cas | uF SOWVZ SL ccosoo47L © C173_‘| 47pF SOWV J CH ¢c0504704A
a6 | uF SOWVZ SL Ccoso1o47L © C174 | 100jpF SOWV K SL ccoso101sL
C87 | 220pF SOWV K SL ccnsoz21s. «C176 | 33pF SOWV J SL ccos03304L
cea | SpF SWVC SL. ccnso0so1L = C177 | O1uF SOEVZ SL ccos01037L
90 | SpF SOW CCH CC0s00S01A C178 _| 10pF SOWV SL ecos01004L
cai | 15pF SOWVJ SL. CC0501SO4L C179 | 33pF SOWV J SL ccos03304L
92 | tuF SOWVZSL ccosoe47L © C180 | 33pF SOWV J SL ccos03304L
93 | tuF SOWVZSL ccoso1e47L == C181 | 100pF SOW K SL ccos01015L
c94 | OtuF SOEVZ SL cc0s01037L C182 | 100pF SOW K SL ccoso101SL
97 | OtuF S0EVZ St ccoso1037L—«C183._| 100pF SOW K SL ccoso1015L
98 | 100pF SOWV K SL coosor01sL © C184 | 82pF SOW UY ‘ecos082046
C100 | .OtuF SOEVZ SL ccoso1037L C187 | .001pF SOWVZ SL ecoso1027L
Gi01 | ooipF Sow SL Ccosoioz7L © C188 | 100pF SOW K SL ccos01015L.
C104 | o47uF SoWVZ SL ccoso4737L C189 | 33pF SOWV J SL cc0s03304L
C105 | SpF SOW J CH Ce0sO10044 C190 | 22pF SOWV J SL ccoso2z04L
107 | oo1pF sowvz SL Ccosotoz7L C191 _| OTP SOWVZ SL ccoso1027L
C108 | 12(F SOW SL cc0so1204. §=—C192_ | 10pF SOWV J SL cc0s01004L
7-4
7.0 MAIN BOARD (Con’t)
RCI-2950
7.0 MAIN BOARD (Con’t)
REF¥ | DESCRIPTION PARTY REFY | DESCRIPTION PARTS
193, | 100pF SOWV K SL ccoso1o1sL §=— C275 | 270pF SOWV KW (6c05027156
C194 | 100pF SOW K SL ccoso101s. §— C276 | .047uF SOWVZ SL ecos04727L
C195 | S3pF soWV SL cc0503304. C277 _| SpF SOWV J CH ecos01004A,
C197. | OtuF SOEVZ SL ccoso1037. —«C278_| 33pF SOWV J CH (cc0503304A
C198 | 33pF SOWVGJ SL Cc0s03304. © €279_| 180pF SOW K Wd ec05018156
C199 | 22pF SOWVY SL Ccosoz204 © €280._| t2pF SOW J CH ¢c0501204A
€200 | 001pF SOWVZ SL Gcoso127L —¢281_| .tuF SOWVZSL ecoso1047L
202 | -tuF SOWVZ SL ccoso1047_ 6284 | 100pF SOWV J CH CCO501015A.
6206 | O1uF S0EVZ SL ecoso1037, C286 | .O1uF SOEVZ SL ecoso1037L
208 | O1uF SOEVZ SL ccoso1037L © —c287_| OtuF SOEVZ SL cc0so1037L
209. | O1uF S0EVZ SL ccoso137L © c289_| 00 1p SOWVZ SL ecoso1027L
212 | 001pF SOWVZ SL ccoso10z7L —¢290 | Sé0pF SOWV K UJ cc0s056156
214 | -tuF sowvZ SL Ccoso147L == c291 | O1uF SoEVZ SL ec0s01037L
215 | 27pF SOWV JCH cos0z704A 293 | 12pF SOWV.JCH cc0501204A,
c2te | -tuF sowvzZ SL ccosoi47L = c294 | A7uF SOWVZ SL. ec0504737L
220 | O1uF S0EVZ SL ccoso1s7L © ¢295._ | -tuF SOWVZSL ccosoi047L
221 | .047uF SOWVZ SL ccoso4727L 296 | Out SOEVZ SL ccoso1037L
222 | -tuF SOWVZ SL Gcosoio47, = C297 | OtuF SOEVZ SL. ccoso1037L.
223 | -tuF SOWVZ SL ccosoi47L = 298 | -tuF SOWVZSL cecoso1047L.
226 | 047uF SOWVZ SL ecosoa727L © €299. | “tuF SOWVZ SL ccoso1047t.
228 | OtuF SOEVZ SL ecoso1037. —¢300_| .o47uF SoWVZ SL ecos04737L
229° | 150pF 6OWV K SL ccoso1s1sL 302 | 001pF SOW Z SL ecoso1027L
230 | 270pF SOWV K SL ccosoz7tst —¢303._| .047uF SOWVZS;L ccos04737L
232 | our SoEVZ SL ccoso1037L © c305. | .OtuF SOEVZ SL coso1037L
¢233 | .001pF SOWVZ SL ccosoo27L C306. | O0tpF SOWVZ SL ecoso1027L
6236 | .001pF SOWVZ SL ccosoto27. §— 307 | .OtuF SOEVZ SL ecos01037L
6237 | SpF SOWVC CH Cc0s00S01A C308. | .OTuF SOEVZ SL ecoso1037L
¢238 | 150pF SOWV K RH Cc0s015150 —C309._| OO1pF SOWVZSL ccoso1027L
¢239 | S6pF SOWV J RH ccos0s604D C310 | uF SOWVZSL ccosote47L
240 | tur SOWVZSL cooso1o47L §=— C314 | O1uF SOEVZSL ccoso1037t
242 | OWuF SOEVZ SL cooso1s7L © c312._| 047uF SOWVZ SL c0504737L
243 | 100pF SOW K UJ ccos0101sG §=—¢313_| .tuF SOWVZSL ‘ecoso1047L.
e244 | 047uF SOWVZ SL ccoso47s7L 314 | -tuF SOWVZSL ccoso1047t.
245 | .tjuF SOWVZ SL Gcoso1047L C316 | OOTP SOWVZ SL ccoso1027L.
6246 | 120pF SOW K CH Gc0501215A —C317_| O47UF SOWVZ SL ccoso4737L.
247 | 18pF SOWVK US cc0501815G C319 | 10pF SOWV J SL ccoso1004L.
248 | SpF SOWV CCH Gc0s00301A © €320 | otuF SOEVZ SL ccosot0g7L.
249 | SpF SOWV CCH ccososo1a §=— 321 | OtuF SOEVZ SL ecoso1037L.
6250 | .SpF SOWVC SL Ccososs1L —¢323_| .001pF SOWVZ SL ecoso1027L.
251 | 270pF SOWV K CH ccoso2715A —324_| -tuF SOWVZ SL ccoso1047t
c2s2_| 3pF Sow CCH ec0500301A 325 | O1uF SOEVZ SL ec0501037L
254 | 330pF SOWV K Us cc05033156 326 | .1uF SOWVZ SL ecoso1047L
255 | 150pF SOW K US ccosoisise 327 | OtuF SOEVZ SL ecoso1037i
256 | -1uF sowvz SL ccosoro47, 329. | O1uF SOEVZ SL ¢c0501037L
257. | tur SOWVZ SL ccoso1047L © €330._| .o01pF SOWVZ SL ecosor027L
6258 | SEOpF SOWV K UJ Ccosossis6 331 | .tuF SOWVZ SL. ecosoi047L
6259. | O1uF SOEVZ SL Ccoso1os7L = c332 | -1uF SWZ SL. ecoso1047L
6260 | O1uF SOEVZ SL ccoso1037L 6333. | tuF SOWVZSL ecosoi047L
6261 | S60pF SOW L UK Cco505615G 6334 | tuF SOWVZSL ccosot047L
262 | Se0pF SOWV L UK coos0s61sG 6335 | tu SOWVZSL ecoso1047L
6263 | 10pF SOWVY SL Gcoso104. 336 | tuF SOWVZSL ccoso1047L
264 | tur SOWVZ SL cos01047L 0337 | -tuF SOWVZSL ccosoto47L
267 | tur SOWVZ SL ccoso1o47. ©3388 | (O1uF SUEVZ SL ccosotos7L
268 | O1uF S0EVZ SL ec0s01037. 6339 | 100pF SOW K SL ccosot01st
269° | 100pF SOWV K UK Gcoso101se © C340_| O1uF SOEVZ SL. ccoso1037L.
G270 | S60pF SOWV K Us cc0s056156 C341 | 100pF SOW K SL ccosot01sL
cart | -tuF sowvz st ccoso1047. —¢343._‘| .001pF SOWVZ SL ccoso1027L.
272 | 100pF SOWV K SL ccosoioist §=— 348 | 3oF SOW C CH ‘ecos00301A
273 | 001pF SOWVZ SLK Gcosoios7. © c349__| OtuF SOEVZ SL. ecos01037.
274 | o1uF S0EVZSL ec0501037L
7-5
7.0 MAIN BOARD (Con’t)
RCI-2950
7.0 MAIN BOARD (Con’t)
EFF [DESCRIPTION PARTE ReFa_ [DESCRIPTION PARTE
(MYLAR CAPACITORS 170 | tour 25Wvz (GE0251067Z
C196 | 47uF 1OWWZ cE 01047672
cis |.0022uF 50M K cmoso2262 C201 | 47uF 10WVZ ce 01047672
633_|.00tuF SOW L (©M05010262 C205. | 10uF 25WVZ (¢E02510672
C47} 022uF 50M K (©M0s022352 C207 | 220uF 16WVZ cE01622772
186 | 001uF SOW L (CM05010252 C213. | 330mF 16WV (CE01633772
234 | 047uF 50M K @M05047352 C216 | 22uF 1OWVZ (ce01022672
235 | 00tuF SOW K emos01025z C219 | 4.7uF SOWVZ (¢E05047572
223 | 47uF 1OWZ (CE01047672
‘TANTALUM CAPACITORS 224 | tuF SOWVZ (CE05010572
231 | 100uF 1OWvZ ceo101072
cio | 4.7uF 16wvM cro164756Z2 C265 | 2.2uF SOWVZ GE05022572
106 |.22uF 16WVM 701622462 C285 | tuF SOWVZ (CE0501057Z
141 | 22uF WWM cTo1622462 C288 | 10uF 25WVZ (002510672
C155. | 22uF 16WVM cT01622462 292 | 10uF 25WVZ cE0251067Z
C156 | 4.7uF CW M 701647562 C301 | 100uF 10WVZ CE010107Z
cieo | .22uF 1eWVM 701622462 C304} 220uF 16WVZ cE01622872
ci61 |22uF 16WVM GT01622562 6322} 220uF 16WVZ cE01622872
ci7t_ | 10uF 16WwWM cTo161066Z C347 tuF SOWVZ (CE05010572
175 | 10uF 16WVM cro1610662
Le.
CHIP CAPACITORS.
ier | NUM324D ENJR00324D
266 | 22uF sow cyoso2246z C2 UPC1028H ENNEO1028H
328 | 22uF SOW cHosoz2462 —Ic3.—| ANGI2. ENMAQ06122
6345 |.22uF SOW cHoso22462 © IC4_— | NJM7805 ENJRO7BO5Z_
ies | Ts0B1AP ENTAO5081A
ELECTROLYTIC CAPACITORS tos | NIM7e0BA ENJRO7BO8A
tor | TosoBtaP ENTAO5081A
13 | 47uF sow ce0s04747Z © IcB_ | TAT310P ENTAO7310P
C16 |2.2uF sow ce0s022572 —Ic9_—| TAT310P ENTAO7310P
25 | 10uF25WVZ. cE02510672 Ico | TAT310P ENTAO7310P.
c27 | 10juF 25WvZ cE02510672 C11 _| TCs082P ENTADS082P
32 | 47uF 1oWZ cE01047672 = IC12_ | HO10551 ENHI105512
36 | t0uF 25WVZ c£02510672 —IC13._ | HO10551 ENHI105812
39 | 47uF 10WWZ cE01047672 C14 TAT3I0P ENTAO7310P
44 | 47uF 1OWWZ CE01047672 —«IC15._| NJM7808A ENJRO7B08A
C46 | 47uF 1OWZ E01047672 —IC16 | JRC4558D ENJRO45S8D
49 | 47uF 1OWWZ cE01047672 —IC17_| CX7926B ENS0079258
50 | 10uF 25WvZ CE02510672 IC19_| TA7222AP ENTAO7222A
57 | tour 25WVZ ce02510672 1620 | 5042P. ENsMoo042P
58 | 1000uF 1owvZ Ge01010872 —IC21__| TCA069UBP ENTAO4O69U
C70 | 10uF 25WVZ (¢e02510672
cai | 2.2uF sowvz ¢&05022572 nioDEs
a8 | 1uF SOWVZ (CE05010572
cas | 22uF 10WVZ ce01022672 © D1 _—| NOP EDINooO6OP
96 | 220uF 16Wvz cE0t622772 «2 ~—| ANGOP ED1NOOO6OP
99 | 220uF 16WVZ. cE01622772 «3 | 1N4 148 EDINO4148Z
C102 | 1uF teWV NP CEON6IO5EN D4 | 1N4I48 EDINOS148Z
103 | 220uF 1owvz ceoto2772 = st 1Na148 EDINO4148Z
ci09 | 4.7uF sowvz cE0504757Z «D6 1N4148 EDINOS148Z
cit | 100uF towvz ceotoio772 =p aNai48. EDINOs148z
116 | 220uF 1ewvz ceot622772 «= Bi} 1N4148. EDINod148z
C128 | 47uF WZ ceoto47672 =a | 14148, EDINO4148z
137 | 10uF 25WVZ E0251067Z —D10—| 1N4148 EDINOs1482
C138 | 1000uF tow Z ceot010872 © D11__‘| 1NEOP EDINOOD6OP
140 |2.2uF sowZ. ¢£05022572 012_| 1N6OP DINOoo6oP
147 | 10uF 25WvZ CE02510672 13 | 1N4148 EDINO4148z
157 |220uF 1ewvz ce01622772 14 1N4148 EDINO41482
cies | 10uF 25WVZ cE02510672 15 | 1N4148 EDINOs1482
746
7.0 MAIN BOARD (Con’t)
RCI-2950
7.0 MAIN BOARD (Con’t)
REF | DESCRIPTION PARTS EFF | DESCRIPTION PARTE
Die anaiae EDINos48z =—-76 ‘| 1NA14B EDINO4148Z
DIT | iNaiae. EDINOs1482 «77 | 1NG148 EDINOS148Z
Dig | Mc3o1 EDMco0301Z 78 | 1N4148 EDINO4148Z
Dia | Fosam EDECOO0SM © D79_| 1N4148 EDINOS148Z
20 | Mc3o1 EDMcO03012 80 _| 1N4148 ED1NO4148Z
21 | iNgt48 EDINOG148Z 081 | 1N4148 ED1NO4148Z
D2 | 1Na14s EDINO41482 D2 | 1N4148 EDINO4148Z
023 | Fos4m EDECo0S4M =—D83_—| 1N4148 EDINO4148Z
024 | Fos4n EDECOOOS4M © D84 | 1N4148 EDINO41482
025 | mic3o1 EDMc00301Z 085 | 1N4148 EDINO41482
26 | 14148 EDINO¢1482 86 | ZENER SW Sev EDZD055692
27 | 14148 EDINo¢1482 87 | Fos4m EDECOODS4M
28 | 1N4148 EDINOS48Z 88 | 1NA14B EDINO41487
29 | 1N4148 EDINOG48Z DBD | 1NG148 EDINOS148z
030 | 1N4148 EDINos148z = 090, | MVIY EDMVooo01Y
031 | 14148 ED1Nog148Z st | MVIY EDMVoo001Y
032. | 1N4148 EDINOS148Z = 092 | MVIY EDMVO0001Y
033 | 1N4148 EDINOS148Z 93 1N4148 ED1NO4148Z
034 | 1N6oP EDINOoo6oP §=— Dat | FCSAM EDECOO054M
35 | 1N60P EDINOoo6oP = 95 | FCSAM EDECOOOS4M
36 | 1N4148 EDINOS148z © —D96-_| FCSAM EDECOOS4M
p37 | 1Na148 EDINOS148z © D97_| 1N4148 EDINOg148z
Das | 1Ng148 EDINOs148z © D98-_| 1N4148 EDINO4148Z
039 | 1Nd148 EDiNosi48z 099 | 1N4148 EDINOd148z
D4o | 1Na148 EDINOs148z D100 | 1N4148 EDINOS148z
Dar | 1Na148 EDINog148z D101 | 1N4148 EDINOS148Z
b42 | Ke3e2 EDKB003622 © D102_| 1N4148 EDINOS148z
043 | FeSaM | EDECoo0s4m — D103 | 1N4148 EDINOS148z
O44 | 1Ng148 EDINod148z D104 | 1N4148 DINOS 1482
Das] 14148 EDINO#482 105 | 1NA14B EDINOs148Z
46 | 1N4148. EDINOS1482 D106 | 1NA14B EDiNO4148Z
Day | aNa148. EDINO#482 D107 | 1NS148 ED1NO4148Z
Das | 14148, EDINOG148Z D108 | 1NG148 EDINOS148Z
4g | 1N4148. EDINOS148Z —_D109._| 1N4148 EDINOS148Z
Ds0 | 1N4148 EDINOS148Z = D110 | 1N4148 EDINO41482
si | Ke262 eDkB002622 D111 | FCS4M EDECOODS4M
Ds2 | 1N4148, EDINOS1482 = D112_| 1N4148 EDINO4148z
53° | 1N4148, EDINOS148Z —D113_| 1N4148 EDINO41482
054 | 1NG148 EDINOd1482 D116. | M301 EDMC00301Z
ss | 1N4148 EDINOs148Z
Ds6 | 1NG148 EDINOd148Z TRANSISTORS
057 | 1Nd148 EDINO4148z
D8 | 1Nd148 EDINod1482 Qt | 2sc1675K ‘T2sCo1675K
059 | 1Nd148 EDINos1482 © 02_—‘| 2sc1675K ‘T2SCO1675K
Deo | 1Nd148 EDINO#1482 —03-—‘| 2sca45P ‘Tascoog4sP
Der | 1Natas EDiNos148z a4 | 2sca45P ‘Tascooa4sP
Dez | 1Nai48 EDINOs1482 05 | 2SC945P ‘Tascoos4sP
Des | 1Nd148 EDINos148z 06 | 2sc945P ‘Tascooa4sP
Dea | 1N4148. EDINod482 © a7_—‘| 2sc945P ‘Tascoos4sP
Des | 1N4148 EDINOs482 0B | 2sct674K Tescore74K
066 | svc25i Epsvoo2s1z a9 | 2sc1675K ‘TSCO1675K
67 | svc2s1 Epsvoozs1z aio_| ascte7sK ‘T2SCO1675K
Des | 1NG148 EDINod48z = ati | 2sc1675K T2SCO1675K
Deo | inaias EDiNos148z 012 | 28a733P T2SA00733P
70 | 1N4i48. EDinoa148z —a13_| 2sca45P TRSCOOS45P
O71 | iNa148. EDINod1482 14 | 2sc945P TRSCOOS45P
o72 | 1natas EDINOS1482 015] 2SC945P ‘Tasco0s45P
073 | ZENER SW 24v Eozoos24az aie | 2sc945P ‘Tascons4sP
D4 | ZENER SW Sev EDzD0s2692 017 | 2sc945P ‘Tascoos4sP
075 | KB362 EDKB003622 018 | 2SC1674K ‘Tesco1e74K
7-7
RCI-2950
7.0 MAIN BOARD (Con’t)
7.0 MAIN BOARD (Con’t)
REF [DESCRIPTION PARTE ReFY_ [DESCRIPTION PARTY
aig | J310 EZZJ00310Z «129 BEAD F PHe12.5mm ECBAD18550
20 | 2scte7ak ‘Tascoie74k —-L19._—| BEAD F PH=12.5mm ECBAD18550
a2 | 2sct675k TeSCO1e7SK —_L22_| CHOKE 22uH (P TYPE) ECCHK16070
22 | 2sc1675K T2SC01675K 126 | CHOKE 470uH (P TYPE) ECCHK16096
023 | 2sc1906 T2SC01906Z —L30-_| CHOKE 22uH (P TYPE) ECCHK16070
024 | 2sca45P TRSCOOS4SP = L33.««| CHOKE 82uH ECCHK16082
025 | 2Sa73P T2SA00733P «L384 | RF 23H ECRFZ10001
026 | 2sca45P TRSCOOSSP —«L36.-| BEAD D SU-B-1720 ECBAD18504
027 | 2sc1675k Tescore7sk —137_—_| BEAD DSU-B-172D ECBADI8504
028 | 2sc1675K Tesco1g7sK = «L38-| RF.23uF ECRFZ10091
29 | 2sc1675k T2SC01675K —L39_| BEAD F SU-B-172F ECBAD18506
030 | 2sco4sP TRSCOOSSP —L40_— (| BEAD D SU-B-175D ECBAD18504
31 | 2scoasP TRSCOOSSP —L41_| TOROIDAL SU-TR-398 ECRFZ10048
032 | 2sca4sP TRSCOOMSP © L42_—| BEAD F SU-B-172F ECBAD18506
033. | 2sca4sP TRSCOOMSP = L44_ | BEAD F PHH=12.5mm ECBAD18550
034 | 2sco4P TRSCOOSSP = L45.—| BEAD F PH=12.5mm ECBAD18550
35 | 28A733P ‘T2SA00733P —L49._| CHOKE (BIG ROUND) ECCHKI6151
036 | 2sc945P TASCOOS4SP = _L50-| CHOKE 82uF ECCHK16082
37 | 2satze2 T2SA01282F ——L51_‘| CHOKE 10CH (P TYPE) ECCHK16088
038 | 28A1282 T2SA0I282F —L52_| CHOKE 10CH (P TYPE) ECCHK16088
39 | 2sc945P Tascoos4sP —L53_—_‘| CHOKE 470uH (P TYPE) ECCHK16096
40 | 2satz82 T2SA01282F —«L59._—(| BEAD F SU-B-172F ECBAD18506
41 | 2sco45P. ‘TASCOS4SP —_L60__| BEAD F SU-B-172F ECBAD18506
042 | 2sc945P ‘Tascoos4sP == L61._| BEAD F SU-B-172F ECBAD18506
043 | 2sc1675K TeSCO1675K —-L62_—_—| BEAD E PH=10mm ECBAD18526
44 | 2sct675k ‘T2SCO1G75K —_L63_| CHOKE 470uH (P TYPE) ECCHK16096
045 | 28a733P ‘T2SA00733P —L65.__| BEAD F SU-B-172F ECBAD1a506
4s | asceai2 7280023120 ~—«L131_| SPRING .8x6.5x7.5t EcsPG18075
47 | ascesi2 T28002312C —«L132_| SPRING .8x6.5x7.5t ECSPR18003
4g | ascere6c T2sc02166C L503 | CHOKE 47uH (P TYPE) ECCHK16000
4g | asceataF T2sco23i4F L504 | CHOKE 47uH (P TYPE) ECCHK 16000
50 | asci906 T2sc019062 «T1_~—| CHOKE I-19 TF-083 ECCHK16004
51 | 2s8754y T2sB00754Y
052 | 2sca4sP T2sc00945P VARIABLE INDUCTORS
053._| 2sA473/0 ‘T2SA004730
054 | 2sca45P TescoosssP = L1_—_—| IFT M199CC-P14097F ECiFTI2251
055 | 2sc946P TscoosssP = L2_—*| IFT 199C-P1498N EciFT12252
056 | 2scaasP TescoossP = «13 IFT 7MC-7172A8N ECIFT12002
as7 | 2sca4sP TescoosssP = L4_—| IFT_M199CC-P14097F ECIFTI2251
ass | 2sca4sP Tescoos4sP = «LS. IFT. 7MC-7172ABN ECIFT12002
6 | IFT 7MC-7172ABN ECIFT#2002
VARIABLE RESISTORS (7 | iF 7™MC-7174v ECIET12003
18 | IFT MI9CNF-P1499N ECIETI2253
vat | 10K 3P, SEMI FIXED Re10300078 —-L9_—_—| IFT 19CN-P1549N ECIFT12290
vr2 | 10K 3P, SEMI FIXED RE10300078 = L11_| IFT 199CN-P1549N ECIFT12990
VRS | 500K 3P, SEMI FIXED Res0400080 —L12_| IFT M199CC-P1501A ECIETI2255
Rd | 500K 3P, SEMI FIXED Re50400060 —L13_| IFT 199CC-P1502N ECIFTI2256
VR7 | 10K 3P, SEMI FIXED RE10300078 —«L14_| IFT 199CC-P1502N ECIFTI2256
Re | 100K 3P, SEMI FIXED Reio400079 —«L15_—_‘| IFT 199CC-P1498N ECIFTI2252
VA1t | SK 3P, SEMI FIXED Re30200076 —L16_| IFT M199CC-P1503A ECIFT12257
R12. | 10K 3P, SEMI FIXED RE10300078 = L17_—_| IFT 292CN-P112212 ECIFT12263
R13. | SK 3P, SEMI FIXED RE50200077 —«L19_‘| IFT6 M199CC-P1504N ECIFTI2258
R14 | 1K 3P, SEMI FIXED REi0200072 — L2t__| IFT 292CN-PI121Z ECIFT12263
R15. | 1K 3P, SEMI FIXED RE10200072 — L23._‘| IFT 199CC-P1498N ECIFT12252
R16 | 10K 3P, SEMI FIXED REi0300078 —L24-_‘| IFT 199CC-P1498N ECIFT12252
Rat | 5K 3P, SEMI FIXED Re50200077 L25_‘| IFT 199CC-P149BN ECIFT12252
Lar | IFT 143CN-6344z ECIFT12016
cous Lae | IFT 113CN-6344z ECIFTI2016
Leg | FT 143CN-€344z ECIFTI2016
J52 | CHOKE 470uH (P TYPE) ECCHKI6096 © 143. IFT 292CN-P1117A0 ECiFT12262
7-8
7.0 MAIN BOARD (Con’t)
RCI-2950
7.0 MAIN BOARD (Con’t)
REF#_| DESCRIPTION PARTS REF# | DESCRIPTION PARTE
tae] IFT 2920N-P1125R EciFTI2065 «14 | 7x7mmux7 ‘wx01070707
La7 | IFT 292CN-P1125R EciFTi2065 © 16 | 7x5mmx7 wx01070705,
Las | IFTM199CC-P1S01A ECIFTI2285 S17 | 7x10mmx7 wx01070710
S18 | 7x138mmx7 wxo1070713
RELAYS. 19 | txammx7 wx01070704
20° | 7x6mmx7 ‘Wx01070706
AL sv Exosn4ogo2 = 21 | 7x10mmx7 wxo1070710
22} Txémmx7 wx01070706
TRIMMER CAPACITORS 423° | Pxémanx7 ‘wx01070706
424 | Txémmx7 ‘wx01070706
ver | 20P cvosoz00az = 425 | 7x6mmx7 ‘wx01070706
ve2 | 20P cvosoz00az = 126 | 7x6mmx7 wx01070708
ve3 | 30P evosos00az 27 | 7x10mmx7 wxo1070710
28 | 7xommx7 wx01070709
CERAMIC FILTERS, 29°} Tx4mmx7 wxo1070704
430 | 7x5mmx7 wxo1070705
FL | crwassHT EFCFWASSHT = 31 | 7x7mmx7 wx01070707
FL2. | SEF 10.7 Mx EFCFEIO7MX — 32 | 7x6mmx? wx01070706
FL3 | CRYSTAL, 10.695 MHz EFXB106952 33 | 7xtOmmx7 wx01070710
X1—_| CRYSTAL, 10.240 MHz EYCAB10240 34 | 7x10mmx7 wx01070710
2 | CRYSTAL, 10.240 MHz EYCABI0240 — J36- | 7x3mmx7 wx01070709
x3 | CRYSTAL, 10.6975 MHz EYCAE10697 — J38-— | 7x3mmx7 wxo1070703
39° | 7x27mmx7 wxo1070727
CONNECTORS 440 | 7x10mmx7 wxo1070710
Jat | 2xSmmx7 wxo1070705
101 | PCB CONN. SOCKET 2 L=17.8 | ExO7N4B185 442 | 7x1Ommx7 wxo1070710
104 | PCB CONNECTOR SOCKET 3P | EXO7N41216 —-J43_—_‘|-7x9mmX7 ‘wx01070709
J105 | PCB CONNECTOR SockET2P | EXO7NG1226 — J44_—_| 7x10mmx7 wx01070710
Ji07 | PCB CONNECTOR SockET 2P | EXO7NG1226 © J4S_—_| 7x10mmx7 wx01070710
J108 | PCB CONNECTOR SOCKET 2P | EXO7NG1226 © J46—| 7x13mmx7 wx01070713,
J109_ | PCB CONNECTOR SOCKET 3P | EXO7NGI216 © JT | 7x5mmx7 wx01070705,
J110_ | PCBCONNECTOR SOCKET 3P | EXO7NGIZ16 © J48_—| 7x5mmx7 wx01070705
112 | PCBCONNECTOR SOCKET 3P | EXO7NAI216 © 449} 7xtOmmx7 wx01070710
113 | PCBCONNECTOR SOCKET 6P | EXO7N41266 ISO | 7x10mmx7 wx01070710
J115 | PCB CONNECTOR SOCKET aP | EXO7NGI216 51 | 7xtOmmx7 wxo1070710
J116 | PCBCONNECTOR SOCKET 3P | EXO7NAI216 © J53—_| 7x5mmx7 wx01070705,
117 | PCBCONNECTOR SOCKET 7P | EXO7N41261 J 7x6mmx7 wx01070706
J118 | POBCONNECTOR SocKET 3P | EXO7N41216 — J56—|_7xSmmx7 Wx01070706
JI19_ | PCBCONNEGTOR SOCKET 6 | EXO7NG1266 © J57_— | 7x4mmx7 wx01070704
J501 | EARPHONE JACK Exoona045 = 58 | 7x10mmx7 wx01070710
4J502_| EARPHONE JACK ExoGNaIO45 = J59 | 7xSmmxT wxo1070705
4503 | EARPHONE JACK Exoenaio4s §— 460 | 7x6mmx7 wx01070706
61 | 7xémex7 wx01070706
JUMPER WIRES 62 | 7xAmmx7 ‘wx01070704
63. | 7xémmx7 wx01070708
Jt | 7xSmex7 wxo1070705. — J64— | 7x10mmx7 wx01070710
2 | 7x13mmx7 wx01070713 J66- | 7x10mmx7 wx01070710
13 | 7x13mmx7 wxo1070713 67 | 7x14mmx7 wxo1070714
45 | 7x10mmx7 wxo1070710 468 | 7x6mmx7 wx01070706
6 | 7x10mmx7 wxo1070710 469 | 7x10mmx7 wxo1070710
ST | 7«10mme7 wxo1070710 470 | 7x5mmxS wxo1070705
JB | Ixémmx7 wxo1070706 71 | 74mm? wxo1070704
49 | 7x10mmx7 wxo1070710 72 | 7xSmmx7 wxo1070705
10 | 7e10mmx7 wxo1070710—473_| 7xEmmx7 wxo1070705
S12 | TxGmmx7 wxo1070709 474} 7x10mmx7 wx01070710
13 | 7xSmmx7 wxo1070705 475 | 7x8mmx7 wxo1070708
sta | 2e7mmx7 wxo1070707—J76 | 7x7mmx7 wx01070707
S16 | 7eSmmx7 wxo1070705 78 | 7x7mmx7 wxo1070707
S17 | 7x10mmx7 wxo1070710 79 | 7xémmx7 wx01070706
S18 | 7x13mmx7 wxo1070713 J80 | 7x6mmx7 wxo1070706
7-9
RCI-2950
7.0 MAIN BOARD (Con’t) 7.4 MIC JACK P.C. BOARD
ners [DESCRIPTION PARTE ere | DESCRIPTION PARTE
81 | 7xi3mmx7 wxo1070713, MIC JACK PCB. EPT2950702
sez | 7xi5mmx7 wxo1070715
483. | 7x7mmx7 wxot070707 CERAMIC CAPACITORS
4 | 7xt4mmx7 wxot070714
486 | 7xSmn«7 wxo1070705 701 _| ootuF sowvZ SL ccoso1027L
3114 | 7x37 wxo1070708 702 | ootuF SOWWZ SL ccoso1027L
322 | 7xSmmx7 WxO1070705 C703} oOtuF SOWVZ SL ‘ccoso1027L
ANT _|7x50mmx7 Wx01070750
CONNECT
7.1_VSWRP.C. BOARD ONNECTORS
ere [DESCRIPTION PARTY 4701 | PCB CONNECTOR SOCKET 3p | EXO7N48244
—— [VSWA PCB Epraeoosoz J702_‘| PCB CONNECTOR SOCKET 2P | EXO7N48152
4703 | PCB CONNECTOR SOCKET 2P | EXO7NAB152,
CARBON FIXED RESISTORS mic JACK GE meet
R401 | 1000 %4W(P) TYPE ROP141014Z iT SIEAND.EL_BOARD
R402 | 1500 Y4W(P) TYPE Ropi4io14z REEF _| DESCRIPTION Pants
BAND PCB. EPT2950902,
CERAMIC CAPACITORS ROTARY SW, 6N. EWRT320538
PCB CONNECTOR SOCKET 9P | EXO7N41216
405 | O1uF SowvZ SL ccosoro37L PCB CONNECTOR SOCKET 7P | EXO7N41261
406 | O1uF SOWVZ SL Ccoso1037L © J403_| JUMPER WIRE 1mmxémnc7mm | WX01070706
DIODES 7.6 CH/SW P.C. BOARD
DESCRIPTION PARTE
aot | 1NEoP eD1tio0060P CH SW PCB. EPT2950908
402 _| 1N6OP EDINOOOGOP ROTARY SW, GPS-688 EWRT32051
7.2 RF/MIC & VOL/SQP.c. BOARD POB CONNECTOR SOCKET 3P_| EXO7NA1216
REFY_ [DESCRIPTION PARTE 7.7 CHASSIS PARTS
VRPCB EPT2950502 REFH_| DESCRIPTION PARTE
RFIMIC | VR 1KA-SKB RV10203451 —_spg01 | SPEAKER 3W 80 345" s30083550
\VOL/SQ | VR 50KB-50KA RV50303463, FUSE 7A 16V exo2N40210
C CORD wFUSE SOCKET WADO12 185A,
CERAMIC CAPACITORS ‘DG SOCKET 3P ExogN40007
ANT JACK ExOGNA1019
sot | ootur sowvz st ‘ccoso10271 MICROPHONE ASSEMBLY Exo4N40620
6505 |.001uF SOWVZ SL ccoso1027L WIRE CONN. HOUSING 2-4-2P | EXO7N48398
WIRE CONN. HOUSING 3-2-2P | ExO7N48394
CONNECTORS WIRE CONN, HOUSING 2P EXO7N78041
105 | WIRE CONN. HOUSING 2-2 | EXO7N4B391
41501 | PCB CONNECTOR sockET 2° | exo7N41226 —J108 | WIRE CONN. HOUSING 2-2P | exo7Naa391
44502 | PCB CONNECTOR SOCKET 2P | ExO7N41226 —J109 | WIRE CONN. HOUSING 3-3P | EXO7N48389
4503 | PCB CONNECTOR SOCKET 3P | EXO7N41216 —J112 | WIRECONN. HOUSING 3-3P —_| eXO7N48389
4504 | PCB CONNECTOR SOCKET 3P | EXO7N41216 —J113_| WIRE CONN. HOUSING 6P EXO7N48396
4505 _|PCBCONNECTOR SOcKET2> | Exo7N412¢6 115 | WIRE CONN. HOUSING 3-3P —_| Exo7Naa389
7.3 RF/CAL P.C. BOARD J116 | WIRE CONN. HOUSING 3-3P | EXO7N48389,
117 | WIRE CONN. HOUSING 7P EXO7N48387
fete {DESCRIPTION ea 119 | WIRE CONN: HOUSING 3-aP | exo7w4a389
~ VR PCB. EPT295060Z — J501 | WIRE CONN. HOUSING 2-2P EXO7N48391
RFICAL /VR 1KB-20KB RVv10203456 © -J502_| WIRE CONN. HOUSING 3-3P | EXO7N48389
4503 | WIRE CONN. HOUSING 3-3P | EXO7N48389
CERAMIC CAPACITORS J504__| WIRE CONN. HOUSING 3-3P EXO7N48389
J508 | WIRE CONN. HOUSING 2-2P | EXO7N4BQ91
C601 | .00tuF SOWVZ SL Cc0S01027L —J601_| WIRE CONN. HOUSING 3-3P Ex07N48389
J602 | WIRE CONN. HOUSING 3-3 | EXO7N48389
CONNECTORS 43701 | WIRE CONN. HOUSING 2-8-2-3P | EXO7N48397
44702 | WIRE CONN. HOUSING 2-3-2-3P | EXO7N48397
4601 | PCBCONNECTOR socKET3P | Exo7N41216 —_J703_| WIRE CONN. HOUSING 2-3-2-P | Exo7N48397
3602_| PCB CONNECTOR SOCKET 3P_| Exa7NAI216 |
7-10
RCI-2950
7.8 KEY P.C. BOARD
7.10 CPU/MIC UP/ON P.C. BOARD
ners [ DESCRIPTION PARTE (PRE-MARCH 1985 VERSION)
KEY PCB. EPT2950302 -REF# | DESCRIPTION PARTE
CPU PCR, EPTO295042Z
‘CARON FIXED RESISTORS — | MIC UPON Poe, ePT2950802
a | 1.5K 4N(P) TYPE RCP 1615242 ‘CARBON FIXED RESISTORS
isc. R601 | 2700 Y4W(U) TYPE Rous42714z
R602 | 2200 4W(U) TYPE Rours224z
TACT SW EWPS33042X —REO3. | 1800 W(U) TYPE Rour41814z
IC PIN EXO7N48414 E04 | 820 KW(U) TYPE RCU1482047
LED YELLOW Exo1N40081 ROS | 4700.0.1W RCYO14714Z
PCB CONN. SOCK. 6P Le21.8mm | EXO7N48441 gos | 47000.1W RovONa714Z,
R607 | 4700001 Rovor4714z
7.9 LCD P.C. BOARD R608 | 47000.1W RovO14714z
REF#_[ DESCRIPTION PARTE R609 | 10@0.1W RCO 10342
—— [Led Pc. R610 | 190.1W RCYO110247
EPraes0217 peti | a7K OW RCvO147347
RESISTORS RE2 | 47K OW RCVO147372
R613. | 47k o.1W Rcvo14737z
R710 | 39K 1W, CHIP Rovorsesz B14 | 180K 0.1W Reva toeaz|
R711 | 470K .1W, CHIP Rovor47s42 FS |W pe
Rri2. | 680K 1W ROYO
Teese ei8 | 47K OW RovO14734z
‘CAPACITORS R619 | 47K 0.1W RovO14734z
R620 | 47000.1W Rovor4714z
UF 25WVZYSV, MONOLITHIC | cK2io4aB7v REZ | 47K O.1W ROvOMATZ
-3QuF 35WVM, TANTALUM | CT¥g593462 622/47 0.1W pcroiaraae
{uF 16WV M, TANTALUM Cryietossz R623 | 47K O.1W RovOIaTaAZ
‘uF 16WV M, TANTALUM cryietosez — R624_| 47K O.1W poe
0.33uF 38WVM, TANTALUM — | CTY3s3a462_ —R625__| 47K OW REVOLUTE
O.33uF 35WVM, TANTALUM — | CTYa533462 R626 | 4.7K 0.1W Revota72Az
O.33uF 35WVM, TANTALUM — | CTY3533462 R627. | 47K O.1W pevolsree
uF 16WV M, TANTALUM cTyte1056z R628 | 47K O.1W Revorareaz
O.01uF SOWYM, CERAMIC — | CK1103aB6U —RO29_| 47K 0.1W Rovotaredz
0.01uF SOWV M, CERAMIC cK1103aB6y R630. | 1 MEG O.1W Revor0saz
O.O1uF SOW M, CERAMIC — | ckt1osaBeU —R631_| 10K 0.1W Beret eee
O.0iuF SOW M, CERAMIC — | CKtiosaBey ——R632_—| 47K O.1W RavOUareA2)
Oairsmivarceraue | riosagy FESS | S2KO.W Rovorzenaz
O.01uF SOW, CERAMIC | CK1103ABGU
O.01uF SOWV M, CERAMIC ck1i03aB6y 635 | 1 MEG O.1W REVO 10542
O.01uF SOWV M, CERAMIC cKtio3aaeu 636 | 100K O.1W RCVONIOUZ
O.0tuF SOWVM, CERAMIC — | CKtTO3AB6U ——REBT_| 220K O.1W pevoizeae
638 | 100K 0.1W RCYO1 10447
ice R639 | 47K O.1W RovO14734Z
R640 | 47K O.1W Revo14734z
{e701 | HOe1602R soPIN Ensigteozn R41 | 150K 0.1W RovOLtsedz
VARIABLE RESISTORS ARRAY RESISTORS
\VR70% | IM (TMC4K B1M OHM) REtos00102 ABO! | 10K/20K 6P Resoe7ones
ago? | 47K 5P RcS0570009
misc. RAGOS | 47K 5P R¢s0570009
ago4 | 220K SP R¢s0s70022
——~ | ICHDs160¢R ENHIG1602R —_RABOS | 47K SP Arsterants
SEMI-FIXED RESISTOR, 1M | REt0500102 AGO | 220K 9P Resos70021
Leo pISPLAY Exoan4o4aa —RABO7 | 47K SP Ros0s70009
LAMP, 5V.0BA ExotNagogo —_RABOE | 47K SP pester
ic sockeT 2P ExO7NABAa2 — RAGNS | 47K SF Peo
PCB CONN. SOCK. 14P L~21.8
PA=2t Gr EXOTNAEASS nett | 47K BP R¢S0570009
RCI-2950
7.10 CPU/MIC UP/DN P.C. BOARD
7.11 MISC. PARTS (Con’t)
REF# [DESCRIPTION PARTE REFY_[ DESCRIPTION [PARTE
‘GN609 | PCB CONNECTOR SOCKET 2P — [EXO7N41226
CAPACITORS ~ | PCBCONNECTOR SOCKET 3P | EXO7Na8244
PCB CONNECTOR SOCKET 4P —_|/EXo7N48440
601 | 0.1uF SOWV K Z5U, MONO. ck 103487U. PCB CONNECTOR SOCKET 7P —_|/EXO7N48011
C602 | -tuF 25WV M TANTALUM cryast04ez PCB CONNECTOR SOCKET 6P_ | EXO7N48010
¢603 | 33uF 35WV M, TANTALUM cTy353346Z PCB CONNECTOR SOCKET 10P |EXO7N48416
6604 | O1uF SOWV K Z5U, MONO. K1 1034870. SHORT PIN 2P EXO7N48151
6605 | O1uF SOWV K Z5U, MONO. x1 1034870 FRONT PANEL, BLACK |PT2950010A
606 | o1uF SoWV K Z5U, MONO. Ki 1034870. FRONT PANEL (RCI-2970) }PT2950010
6607 | O1uF SOWV K Z5U, MONO. ki 1034870. REFRACTOR PLATE (KEY) /PT2950030A
608 | o1uF SOWV K Z5U, MONO. k1103487U. REFRACTOR PLATE (LCD) jPT2950041A
0609 | o1uF SOWV K Z5U, MONO. x1 1034870. KNOB, BLACK /PT2950051A
610 | o1uF SoWV K Z5U, MONO. K1103AB7U KNOB, BLACK }PT2950060A
C611 | O1uF SOWV K Z5U, MONO. KI 1034870 INNER KNOB, BLACK lpT29s0071A
C612 |33pF SOWVJ CH, MONO. CHIP | CK1330AB4A, OUTER KNOB, BLACK }PT2950080A
C613 |33pF SOWVJ CH, MONO. CHIP | CK1330AB4A, Lo window }PT2950090A.
614 | tur SOWVZ YS5V, MONO. cK2104487V FRONT CHASSIS. 1MT2950010P
615 | .0027uF SOWVZ YSv, MONO. | CK1272ABSR. SPACE KING 1MT2950020E
0616 | 470pF SOWVK SL, MONO. CHIP | CK1471AB5L D SPRING A #6600 1MT3600080T
0617 | 100pF SOWV K SL, MONO CHIP | CKT101ABSL D SPRING 8 #7800 \MT3600090T
818 | tur SOWV K Z5U, MONO. CK11034870 SPRING D #8500 |MT3600100T
HANDLER, BLACK /MT36000304,
1.08 TOP HOUSING, BLACK iMT2950031A
BOTTOM HOUSING, BLACK 1MiT29500414,
feet | Ho4074008F ENHI74008F SET CHASSIS. /wtT3600022x
Yeo | Tcso69UBF ENTAO4O69E ‘SOCKET HOLDER /MT3600050x
e603 | Ms223FP ENMIO5223F ‘SHIELD PLATE (A) IMT1200060N
e601 | TeaosauBr ENTAO4O69F HEAT SINK, BLACK IMN7878040X
los0s |TA78 ‘Tz7ao00782 P.C.B BRACKET /MT36000108
e606 |TA78 ‘TzTA00078Z SHIELD PLATE MT2710060x
lesz |7805 ENSSO7805Z TOP HOUSING /MT29500318
RUBBER KEY JaT29500108
TRANSISTORS MIC PLATE [BT21000208
MIC PLATE /BT21000200
2sc945P ‘TascoosssP MIC PLATE BTOSSBO10B
2sca45P T2sco0s4sP SHIELD CLOTH 10x88x.3t LZzz60001Z
28c945P T2sco0s4sP SHIELD CLOTH 90x90x.18t LZZ2600562
2sc945P T2sco0s4sP LCD SPONGE RUBBER 108x25x1t |XZZ7902057.
2802712 Tescoz7i26 = —- | CLAMP 16zz2500002
2802712 Tesc027126 BEEP SPONGE 22x1.5t xzzz902062
2802712 T2sc027126 FOAM 14x16x20mm. xzzzs0004Z
28A11626R T2SA011626 PCB STOPPER xZzz900062
INSULATING PLATE XZZz900202
bioDEs INSULATING RING XZZ2900032
ANTIMIC SOLDER PLATE
601 | 4NS711 EDINOS7112 16x21x.5t xzzz90982
Deo2 | 1ssté1 EDssoote1Z SPONGE 15:30x111 xz2900212
Deo4 | 188181 EDssoote1Z ‘SODER PLATE xzzz900022
De0s_| 188181 EpssooteiZ LCD PCB SHIELD PLATE
35xBx2t xzzz901872
He LIIMISESPARTS RCI MIC PLATE /BT63000418
DESCRIPTION. PARTE LAMP REFRACTOR LABEL 28x11 |LZZ261278Z
RESONATOR, 4 MHz, CERAMIC | EX14N46510 TOP REFRACTOR LAVEL 25x8 |LZZZ61277Z
BUZZER RKM35-4A exian4esit LGD REFRACTOR LABEL 10x11. |17zz612762
BATTERY LITHIUM, 3V 170mAh | EXO8N41405 _B757Y SCREW, M2.0x0.4px10 PAN HEAD | JS052010MN
PCB CONNECTOR SOCKET 6P | EXO7N41266 ‘SCREW, M2.0x0.4px12 PAN HEAD | JS052012MN
PCB CONNECTOR SOCKET 4P | EXO7N41250 SCREW, M2.0x0.4px12 PAN HEAD |JS052012MN
PCB CONNECTOR SOCKET 3P | EXO7NGI216 SCREW, M2.0x0.4px12 PAN HEAD |JSO52012MN
PCB CONNECTOR SOCKET 2P | EXO7N41226 FRON PANEL (4) SCREW
PCB CONNECTOR SOCKET 2P | EXO7N41226 1M3.0x0.5px6, FLAT HEAD J8033006MN
72
RCI-2950
7.11 MISC. PARTS (Con’t)
ReF®_[ DESCRIPTION PARTE
~—— [DG SOCKET(2), SET CHASSIS(12)
LCE & CPU PCB (6) SCREW
(M3.0x0 Spx6, PAN HEAD 4J8053006MN
‘SCREW, M3.0x0.5px6 (PVC)
ROUND HEAD J8013006MY
MAIN PCB (5) SCREW, T3x6-2
PAN HEAD .J8058006TN
<——~_| HEAT SINK SCREW, T3x8-2
ROUND HEAD. .§8013008TN
SPEAKER (4) SCREW
1M3.0x0.5px8 PAN HEAD 4J8053008MN
-—~ | 17808 KEY PCB(2) SCREW
1M3.0x0.5px10 PAN HEAD +JSO53010MN
R7808(1) KEY PCB (2) CREW
M3.0x0 Spx 10 PAN HEAD +JSO53010MN
—~ | Ie7808x2 SCREW
M2.Cx0 4px8 PAN HEAD JS052008MN
SPEAKER (4) NUT wAWASHER | JN26303578,
282312 (3) NUT sneaz012zs
INSULATING RING xzzz900722
MOUNTING SCREW |
(M5.0x0.8x11 BLACK. | xzzza0007z
‘SCREW Sx10-1 STEEL JS015010WH
SCREW 3.5x8-2 +J8013508TH
OUTSIDE TOOTH WASHER,
5.5x10x0.3 JW315510CN
——~ | INSIDE TOOTH WASHER
4180.3 sw324008cn
FIBER WASHER 4.9x15x1T__| XZZ7901882
7-13
RCI-2970
SECTION 8
RCI-2970 PARTS LIST
Communications, Inc.
.0 MAIN BOARD 8.0 MAIN BOARD (Con’t)
ReFe_| DESCRIPTION PARTE Refe [DESCRIPTION PARTE
—— | MAIN PACE EPT2950122 R51 | 200K YAW(M) TYPE ROM1422440
——~ | DCB: Poe EpTizo0602 R52 | 1K MW(U) TYPE Rcur4i024z
R53 | TK ¥WN(U) TYPE Rcur4i024z
CARBON FILM RESISTORS R54 | 100K %W(U) TYPE ROM1410448,
R55 | 100K Y4W(U) TYPE RCMI41044A
RI | 10K MN(U) TYPE Rcur41034Z RS6_—_| 3.3K WWN(U) TYPE RCu1433247
R2 | 33K MW) TYPE Rcu1433342RS7_—_| 3.3K WWV(U) TYPE Rcu1433242
R3_—_| 6800 *AW(U) TYPE RCur45814Z —R5B__| 3.3K “WN(U) TYPE RCut43324z
R4 | 2200 WU) TYPE Rcur422142 R59 | TK MWN(U) TYPE Rcur41024z
R5 | 3300 %4W(U) TYPE Rcu1433142 —R6O_| 3.3K YW(U) TYPE ROUT433247
RE | 47K MW(U) TYPE RCu1447342 —RB1_—_| 3.3K MW(U) TYPE RCU1433247
R7 | 2.7K ¥W(U) TYPE RCU1427242 —R62_| 10K AW(U) TYPE RCUI41034Z
RB | 3300 WN(U) TYPE RCUT43314Z_ RES) 47K YAW(U) TYPE RCUI447342
RQ | 560 ¥4W(U) TYPE RCUT456042 REE | 2.7K Y4W(U) TYPE Rcu1827247
R10 | 100K “WW(U) TYPE Rcuiaio4g2 RES | 1K MW(U) TYPE RCUT41024Z
RIT | 10K MW(U) TYPE Rcu141034Z R66 | 10K Y4W(U) TYPE Rcu141034Z
R12 | 6.8K YAW(U) TYPE RCU14662¢2 RE? | 1K MW(U) TYPE RCU4741572
Ria | 470K YAW(U) TYPE Rcu1447442 RGB | 1K MW(M) TYPE RCM1410240
Rid | 10K W(U) TYPE Reur410s4z —R69_| 1K MW(U) TYPE Reur41024z
R15 | 3300 AW(U) TYPE Rcut43314Z —R70__| 10K YAW(M) TYPE ROM1410348
RIG | 2.7K VAW(U) TYPE Reur42724z —R71_—_‘| 47K YAW(U) TYPE RCU1447342
RI7 | 1.8K ¥aW(U) TYPE RoUI418242 —R72_| 6.8K YAW(M) TYPE ROM145824A,
R18 | 1K YAW(M) TYPE ROM141024A—R73_—_| 1K “W(U) TYPE RCUI410242
R19 | 6.8K 4W(U) TYPE Rcur468242 —R74—_| 100K MW(P) TYPE RCP141044z
R20 | 1000 %4W(M) TYPE RCUI4I014A R75 | 6800 VW(U) TYPE RCUI46814Z
R21 | 4K MW(U) TYPE Rou1410242 R76 | 1.5K Y4W(U) TYPE Rcu1415247
R22 | 1.5K YAW(U) TYPE RCUI415242—R77_—_| 10K YaW(U) TYPE RCU1410342
R23 | 2.7K YaW(U) TYPE Rou14a2724z— R78 | 2.2K wW(U) TYPE Rcu142224z
R24 | 1.5K YeW(U) TYPE RCUI415242 —-R79._| 2.7K YWN(U) TYPE Rcu1427247
R25 | 10K “W(M) TYPE ROMT41034A —RBO—_| 1000 MW(U) TYPE Rcu141014z
a7 | 1.8K YaW(U) TYPE Reur4atezz —RB1__| 2.2K MW(M) TYPE. ROM422248
R28 | 1.8K YAW(U) TYPE RCU1418242—RB2_—_—| 100K MW(U) TYPE Rcur4i04az
R29 | 47K “W(M) TYPE RCM144734A BB | 10K “W(U) TYPE RCUI410342
R30 | 1000 w(M) TYPE RCMT41014A RB | 1000 AW(U) TYPE RUIa10147
R31 | 1000 ¥4W(U) TYPE Rour4stor4Z RBS [2.2K MW(U) TYPE RCU1422042
R32 | 1000 4W(U) TYPE Rcura10142 RAG | 1K MW(U) TYPE Rcui41024z
R33 | 1000 14WW(M) TYPE ROMI410144 RB? | 5.6K MW(M) TYPE RCM145624A
Roa | 47K MW(M) TYPE ROMI44724& —RBB__| 10K Y4W(U) TYPE Rcu1410342
R35 | 6.8K MW(U) TYPE RCU146824Z RB | 10K Y4W(M) TYPE RCM1410340
R36 | 6.8K 4W(M) TYPE RoM1468244 —R90_—_| 1K 1AW(U) TYPE Rcui4i024z
R37 | 1000 ¥4W(U) TYPE Roursi014z RST | 10K Y4W(U) TYPE Rout41034z
R38 | 4K YAW(U) TYPE Rcur41024z —R92_—| 1.5K WW(U) TYPE Rou1415242
R99. | 330K Y4W(U) TYPE Rcu1433442 —R93_—_| 68OG wW(M) TYPE ROM 1468148
R¢o | 1M YeW(U) TYPE RCUI410542 —RB__| 1.2K AW(U) TYPE Rour412247
Rat | 6.8K MW(M) TYPE ROMI466248 R95 | 8.2K MWW(U) TYPE ROUI482247
R42 | 100K YW(U) TYPE ROUI410442 R96 | 22K AW(M) TYPE RCM1422348
R43_—_| 100K W(U) TYPE Rour4i044z © ROT_—_| 2.2K YAW(U) TYPE RCU1422047
Raa | 100K Y4W(U) TYPE Rour410442 —R9B__| 5.6K WW(U) TYPE. RCU1 456242
Ras | 82K MW(U) TYPE Rcu1482342 R100 | 47K 4W(M) TYPE RCM144734A
Rae | 47K ‘iN(M) TYPE ROM144734A R101 | 1.5K YW(U) TYPE RoU1415242
R47 | 220k *4W(U) TYPE RoU1422442 R102 _| 2200 wW(U) TYPE Reu142214z
Ras | 680K Y4W(U) TYPE RCUI4E44Z R103 _| 10002 4W(U) TYPE RoUT410147
R49 | 100K Y4W(M) TYPE ROM141044A R104 | 1002 wW(M) TYPE RCMI410148
R50 | 100K WM) TYPE ROM141048A R105. | 4M Y4W(U) TYPE RCU141054Z
8-1
8.0 MAIN BOARD (Con't)
RCI-2970
8.0 MAIN BOARD (Con’t)
REF# [DESCRIPTION PART ReF#_[ DESCRIPTION PARTE
R106 | 6.8K Y4W(U) TYPE RCUI46824Z R169 | 12K WU) TYPE RCUT4T2342
R107 | 100k *4W(U) TYPE RCUI41044Z R70. | 10K YAW(U) TYPE RCU1410342
R108 | 68K MW(U) TYPE ROUI4E834Z ITY. | 1K MAN(U) TYPE Rcur4i024z
R109. | 100k ‘4W(U) TYPE RouisI04Z —-RI72_| 1K MW(U) TYPE Rcu141024z
R110 | 1.5M ¥4W(U) TYPE RCUI4IS54Z R173. | 4700 4AW(U) TYPE RCUTA47 147
Rit | 68K MW(U) TYPE RCUI488342 R174 _| 3.3K YW(M) TYPE ROM1433240
R112 | 22K MW(M) TYPE REM142234A—RI75_| 1.5K MWW(U) TYPE RCUT41524Z
R113. | 3.3K Y4W(U) TYPE RCU1433242 R176 | 1K YAW(U) TYPE Rcu1410242
Ri14 | 6800 ¥4W(M) TYPE RCMI468148 R177 | 10K MW(U) TYPE RCUi410342
Ri15 | 220K saW(U) TYPE Rour422442 R178. | 4.7K MW(U) TYPE RCU1447242
Rite | 47K KW(U) TYPE RCUI44734Z N79. | 1.5K MW(U) TYPE RCUT415542
RIT? | 1K ¥W(U) TYPE RCU141024Z R180 | 10K WW(P) TYPE RCP141034Z
R118 | 10K W(M) TYPE RCM141034A R181. | 10K YAW(U) TYPE RCU1410342
R119 | 100 4W(U) TYPE RCUIAA794Z —_RI82_| 4.7K YAW(U) TYPE RCUTa47247
R120 | 4K wWN(U) TYPE RCUI4I024Z —-RIB3_| 4.7K WCU) TYPE RCUIa4724z
Ri2t | 27K 4W(U) TYPE RCU142734Z R184 | 2.2K WWN(U) TYPE RCU1422247
R22 | 1K WU) TYPE RCUI4I024Z IBS| 1002 KW(U) TYPE RCUI410142
R123_| 10K 4W(U) TYPE Rcu141034Z R186 | 3.3K “W(M) TYPE RCM143324A
R124 | 10K MN(U) TYPE Rcui4i034Z R188 | 47K YAW(U) TYPE ROUI447347
R125. | 100K YWW(U) TYPE RCUI4t044Z R189. | 10K MW(M) TYPE RM1410348
R126 | 10K %W(U) TYPE RCuI41034Z R190 _| 10K YAW(U) TYPE RCUT410342
RI27 | 4K YAW(U) TYPE RCUI410242 R11. | 220K AW(U) TYPE RCU1420447
R128 | 2200 4(U) TYPE RcUI422142 R192 | 100K ”W(M) ROM1410448,
R129. | 10K MW(U) TYPE RCUI41034Z R193 | 10K YAW(U) TYPE RCU1410342
R130. | 10K wW(U) TYPE RCUI41034Z RIE. | 22K Y4W(U) TYPE Rcu1422342
R131 | 10K “W(U) TYPE RCUi410342 R195 | 47K AWM) TYPE ROM1447344,
R132 | 1000 WU) TYPE RoUi4si014Z — R196. | 6802 wWN(M) TYPE RCM146814A
R133. | 10K “W(U) TYPE RCUi410342 R197 | 1000 4W(U) TYPE Rcur41014z
R134 | 10K KW(U) TYPE RCU141034Z R198 | 1.8K MW(U) TYPE Rcur4ie24z
R135 | 2200 4W(U) TYPE RCU1422142 R199 | 47K YAW(U) TYPE Rcu1447342
R136 | 560 WW(U) TYPE RCU1456042 R200 | 22K YAW(U) TYPE Rcu1422342
R137 | 5600 %4W(U) TYPE RCU145614Z R201. | 10K YAW(U) TYPE Rcu141034z
R138 | 1500 *4W(U) TYPE RCUI41514Z —-R202_| 560 WWM) TYPE RCMT456040
R139. | 220K ‘aW(U) TYPE RCU1422447 R203. | 10K MW(U) TYPE RCU1410342
R140. | 1.5K 4W(M) TYPE RCM141524a R204 | 5600 KW(U) TYPE RCU1456142
R141 | 1000 %W(U) TYPE RCUI4I014Z R205 | 3.3K WW(U) TYPE. RCU1433247
R142 | 1K YAW(U) TYPE RCUI410242 R206 | 1000 MW(U) TYPE RCUIa10147
R143. | 10K 4W(U) TYPE RCU1410342 R207 | 220 WW(M) TYPE ROM1422048
R144 | 3300 W(U) TYPE RCU1433142 R208 | 1000 MW(U) TYPE RCUI41014Z
R145 | 10K 4W(U) TYPE RCUI410342 R209. | 220 KAW (U) TYPE RcU1422047
R146 | 10K 4W(U) TYPE RCU1410342 R210 | 1K MW(U) TYPE RcUI410242
R1a7__ | 1K WN(M) TYPE RCMI41024A R211 | 4.7K YWW(U) TYPE RCUI447247
R148 | 270K wW(M) TYPE RCMI42744A R212 | 33K WIL) TYPE RCU1433342
R150 | 270K MW(U) TYPE Rcu1427442 R213 | 10K YAW(M) TYPE ROM1410348,
Rist | 4.7K ¥W(U) TYPE RCU1447242 R214 | 10K YaW(U) TYPE RCUIS 10342
R152 | 4.7K WW(M) TYPE ROMI44724q ROIS | 4.7K MW(U) TYPE Rou144724z
R153. | 10K MAN(U) TYPE RCU1410342 R216 | 10K Y4W(U) TYPE Rcu1410342
R154 | 3.3K MW(U) TYPE RCU1433242 R217 | 10K YAW(M) TYPE ROM141034A
R155. | 2200 %4W(M) TYPE RM142214A R218 | 1K YAW(M) TYPE ROM141024A,
156 | 1000 www(U) TYPE RCUI4I014Z R219 | 22K YAW(U) TYPE RCU1422942
Ris? | 1K Wv(P) TYPE ReP14i024z R220} 1K MWN(U) TYPE RCUI41024z
R159 | 10K 4W(U) TYPE Rcu1410342 R221. | 10K YaW(U) TYPE RCU1410342
R160 | 330K “wW(U) TYPE RCu143344Z R222 | 4.7K KWW(M) TYPE ROM1447248
RiGt | 2200 uW(U) TYPE Rcu1422142 R223 | 6.8K KW(M) TYPE ROM1468248
R162. | 100K “W(U) TYPE RCUI4I044Z R224 | 56 VAW(U) TYPE Rcu145604z
R163 | 470K «W(U) TYPE RCui44744z R225. | 1K MW(M) TYPE RoM1410248
R164 | 15K 14W(U) TYPE RCU141534Z R226 | 10K YAW(M) TYPE ROM141034A,
R166 | 10K YaW(U) TYPE RCu1410342 —R227_| 22K YaW(U) TYPE Rcu1422347
R167 | 100K YAW(U) TYPE Rcuiai044Z R228 | 4.7K MW(U) TYPE RCU1447242
R168 | 47K wWN(U) TYPE RCUI447342 R229 | 220K AW(U) TYPE Rou1422442
8-2
8.0 MAIN BOARD (Con’t)
RCI-2970
8.0 MAIN BOARD (Con’t)
REF# | DESCRIPTION PARTS REF®_[ DESCRIPTION PARTE
R230 | 1K AW(U) TYPE Rcur41024z —R295_| TOK KW(U) TYPE RCUIa1034z
R231 | 470K AW(U) TYPE Rcu1447442 R296. | 10K YaW(U) TYPE RCU1410342
R232 | 4.7K 4AW(P) TYPE RCP1447242 R297 _| 100 VAW(U) TYPE RCU141004Z
R233. | 1000 Y4W(U) TYPE RCut410142 R298 | 1K MW(U) TYPE Rou141024z
R234. | 10K MW(P) TYPE RCP1410342 R299 | NO NEED OMITTED
R235 | 1K YAW(U) TYPE RCUT410242 R300 | 560 ”W(U) TYPE Rour45614z
R236 | 3300 W(U) TYPE RCU143314Z ROT. | 6.8K MW(U) TYPE Reur46a24z
R297 | 10K 4W(U) TYPE ROU141034Z_ R302 | 1K YAW(P) TYPE RoP1410242
R238 | 10K KW(U) TYPE Rcu141034Z R303. | 10K MW(U) TYPE Rcur410342
R239. | 2200 W(U) TYPE RCU142214Z R304 | 10 %4W(P) TYPE RCP1410342
R240. | 10K ¥W(M) TYPE RCM141034A R305 | 2200 WM) TYPE ROM1422148,
R241 | 2.2K 4W(U) TYPE Rcur422242 —R306_| 10K YAW(U) TYPE RCUI410342
R242 | 1000 MW(M) TYPE ROM141014a R307 | 1K KW(U) TYPE RU1810247
R243. | 47K MW(U) TYPE RCU144734Z R308 1000 4W(U) TYPE RCUi410147
R244 | 20K wW(U) TYPE Roui422342 R909. | 33K KW(U) TYPE RCU1433342
R245 | 47K wW(U) TYPE ROUI447342 R310 | 270K VAW(U) TYPE Rou14334ez
R246 | 1.5K Y4W(U) TYPE Rou1a152¢2 R311 | 1K Y4W(M) TYPE ROM141024A,
R247. | 4.7K YAW(U) TYPE RCUI447242_—-RB12_| 1K MW(U) TYPE RoUI41024Z
R248 | 1K Y4W(U) TYPE Rou14102¢2 R313. | 1K “W(U) TYPE RCUT4T024Z
R249 | NO NEED OMITTED R314 | 10K 4W(U) TYPE RCU1410342
R250 | NO NEED ‘OMITTED R315 | 22K 4W(U) TYPE RCUT422347
R251 | 10K MW(P) TYPE RCP12i0342 R317 | 1K KW(U) TYPE Reuiai024Z
R252 | 1K YAW(M) TYPE RCM141024a R318 | 100% “W(M) TYPE RCM141014A,
R253 | NO NEED OMITTED R319. | 1K AW(U) TYPE Rcu141024z
R254 | NONEED OMITTED R320 | 1000 4W(U) TYPE Rour4i014z
R255 | NONEED OMITTED R321 | 10K “W(U) TYPE RCUT4 10342
R256 | 150 W(U) TYPE RU141504Z R322 _| 100K Y4W(M) TYPE ROM1410448
R257 | 1500 MW(P) TYPE RCPI218142 R323 | 33K UW(U) TYPE RCU1433347
R258 | 2.20 v4W(P) TYPE ROP1422942 R234 | 4.7K MW(M) TYPE ROM1447240
R259 | 1500 WU) TYPE Rcu141514Z R325 | 10K KW(U) TYPE RCU141034Z
R260 | 4.70 4W(U) TYPE RCUI447942 R326 | 1K AWM) TYPE RCM1410240
R261 | 1.5K Y4W(U) TYPE RCUI416242 —R327_| 10K Y4W(U) TYPE Rcu141034Z
R262 | 3300 ¥4W(U) TYPE RoUr43314Z R330. | 1K MWN(U) TYPE Rcur4i024z
R264 | 470 wW(U) TYPE RCU1447042_—-R331_| 10K YAW(M) TYPE RM141034A,
R265. | 3300 Y4W(U) TYPE Reu1433142 R332. | 1K MW(U) TYPE Rcur41024z
R266. | 1.5K AW(U) TYPE RCUI41524Z R333. | 1000 “W(M) TYPE RCM1410148
R268. | 1K MW(U) TYPE Rou1410242 R334 | 1000 vW(M) TYPE ReMi410148
R269. | 100K %4W(U) TYPE | Rour4to4az R335. | 22K AW(U) TYPE Rou142234z
R270. | 100K Y4W(U) TYPE RCU1410442 R336 | 10K Y4WW(M) TYPE RM1410348
R272 | 100K YAW(U) TYPE Rcur4to4az
R273 | 1000 4W(U) TYPE Rcur41014z CERAMIC CAPACITORS
R274 | 10K %W(U) TYPE RCUI410342
R276 | 1500 Y4W(U) TYPE ROUIaI5142 C1 SpF SOWV CH (cc0s010044
R277 | 2.2K VAW(U) TYPE Rou1422242 2 OtuF SOEVZSL cc0501037L
R278 | 10K MW(U) TYPE Rour4i03¢Z ¢3_—_—| -OtuF SOEVZ SL Ccosor037L
R279 | 1000 »4W(M) TYPE RMI410148 —¢4_—_| 100pF SOWVK SL Ccoso1015L
R280. | 4.7K YAW(M) TYPE ROMI447244 C5 | SpFSOWV CCH CC0500501A
R2e1 | 4.7K 4W(U) TYPE Reui44724z C6 | O.tuF SOEVZ SL ec0501037L
R262. | 4.7K YAW(P) TYPE RcP1487242 C7_—| .O47uF SOWVZ SL ecoso1027L
R263. | 10K ‘MW(M) TYPE RCM141034A C8 -ODIpF SOWVZ SL ecos01027L
R284 | 1K MW(U) TYPE Rcuiai02¢2 3 -OtuF SOEVZ SL ccoso1037t
R285 | 4700 VW(U) TYPE RoUI44714Z_ C11 | BapF SOW SL ccososz04L
R286 | 150 xW(U) TYPE Rour4tsoaz —c12_—| .OtuF SUEVZSL ccoso1037L
R287 | 3.3K YAW(U) TYPE RCUI43324Z G14 | 330pF SOWVK SL Ccos03315L
R289 | 4700 W(U) TYPE Rcu14471¢2 C17_| 330pF SOWVK SL cC0503315L
R290. | 47K MW(U) TYPE RCurs4734z C18_| -OtuF SOEVZSL Ccosor037L
R291 | 4.7K YeW(U) TYPE Rcui44724z C19._| .O47uF SOWVZ SL ccos04737t
R292 | 4.7K “W(M) TYPE ROM1447248 —C20._‘| SpF SOWVC SL CCO5O0501L
R293. | 10K MW(U) TYPE RCUI41034Z —C21_| .OtuF SOEVZ SL cc0s01037L
R294 | 4.7K 4W(U) TYPE Rour4s724z C22 | 1uF SOWVZSL ccos01047L
8-3
8.0 MAIN BOARD (Con’t)
RCI-2970
8.0 MAIN BOARD (Con’t)
ere _[ DESCRIPTION PARTE AREF [DESCRIPTION PARTE
23 | uF sowvzsL cooso1oa7L «110. OtuF SOEVZSL ‘cc0501037L
24 | OtuF SOEVZ SL Ccosotos7L © G143._ | OtuF SOEVZ SL ccosot037L
28 .o47uF Sowvz SL CCO5047STL C114 | 270pF SOW K SL ‘ec05027 151
C23. | 6epF SOWY JSL Ccos06BOAL CIS. | 270pF SOWVK SL ‘ecos027 151
630 | S60pF SOWV K SL CCosDSeSL§ —CI17 | O47uF SOWVZSL ‘ecos04737L
C31 | 15pF SOW JCH CCO501504A C118. | OTF SOEVZ SL Coosoto37L
C34 | OtuF SOEVZ SL Coosot0s7L © C119 | SpF SOW CH ‘¢C05010048
C35 | 100pF SOWV K SL Coosoro1st © ¢120 | otuF sOEVZ SL ccoso1o37L
37 | 270F SOW K SL Coosoz71st C121 | SapF SOWV SL ccoso3z04L
38 | O1uF SOEVZ SL Ccosoros7L C122 | S3pF SOWV ISL ‘ec0503304L
cat | 001pF Sow Z SL Ccosoroe7t 123. | otuF SOEVZ SL ‘¢C0501037L.
a2 | ‘1uF sowvz SL Gcoso1047L C124 OtuF SOEVZSL (6005010371
C43 | 1pF SOWVI SL Ccosoo101A §— C125 | OO1pF SoWVZ SL Ccoso10z7L
45 O01pF SOWVZ SL Ccosotoz7L = c126 | otuF soEVZ SL ‘¢c05010371
cag | 1uF sowvzsL. ccosoio47L © c127 | OtuF SOEVZSL. ‘€00501037L
cst | 001pF SOWVK SL Ccosoz21st C129 | o1uF SEVZ SL ccosoro37i
52 | 220pF SOWVK SL Ccos0z215L C130 | 10pF SOWV SL ccoso1004t
C53 | 12pF SOWV JCH CCO501206A C131 | tuF SOWVZSL Ccosoroa7L
54 | .047uF SOWVZ SL Cc0s04737L C132} O1uF SOEVZSL ccoso1037L
55 | 68pF SOWV J CH CcososBo4A 6133 | 47pF SOW UL cco5047046
56 | .OtuF SOEVZ SL Coosoia37L C134 | 100pF SOWV L UK cc05010156
¢59 | L047uF SOWVz SL Ccos04737L C135 | .001pF SOWVZ SL ccosor0271
ceo | oF soEvZsL Cooso10s7L ©6196. | 1uF SOWVZ SL Coosoro47L
cei | Spr sowv scH CCOSO1004A C139} 001pF SOWVZ SL ccosoroz7t
cea | tur Sowvz sk Coosoioa7L C142. | .001pF SOWVZ SL Ccosoioz7L
65 | S6pF SOWV JH Ccos03304A C145. | 00pF SOWVZ SL Coosoroz7L
C66 | ipF SOW CCH CoosooTO1A «C148 | 1uF SOWVZSL. cooso1047
C67 | 39pF SOWV J CH CC0503004A C149 | 001pF SOWVZ SL coosot027t
C68 | Spr SOW CCH Ccoso0s01A C150 | 47UF SOWVZSL coosos7a7t
cea | otuF sOEVZ SL Ccosotoa7L cist | 47uF SOW ZSL ccoso4727L
cri | ovr soevz st Ccoso10s7L 182 | OtuF SOEVZ SL ccos01037L
C72 | 39F SOW CH Coos00301A C153 | 001pF SOWVZ SL coosot0z7L
C73. | 3pF SOW CCH Co0s00s01A C154 | 100pF SOWV K SL Ccos01015L
c74 | OtuF SOEVZSL CoOsOIOS7L C158 | 150pF SOWVK SL cco501515L
C75 | 27pF SOW SL Co0502704L C159} O01pF SOWVZ SL ccosoi027t
76 | uF SOWVZSL Coosoto47L C162} O01pF SW ZSL ccoso1027L
C77 | Ser SOW SL Coosooso1L —C163._| 47pF SOWV ISL (CC0504704L
C78 | OtuF SOEVZ SL CCosDTOS7L © — C164 | S6DpF SOW K SL Ccosos61sL
c73_| OtuF SOEVZ SL Ccoso1037L C185. | 390pF SOW K SL cc0503915L
a0 | .o47uF Sowvz SL Ccosos7s7t C166 | 33pF SOWV SL (ccos03304L
ce2 | 47pF SOW ISL CCOSDA7O4L © C167. | 150pF SOW K SL CoosotstsL
a3 | OtuF SOEVZ SL Coosor0s7L —G169 | S3pF SOWV ISL ‘Cco503304L
ces | tur SOWVZSL Coosoroa7L 172 | 33pF SOWV ISL Ccos0a304L
cas | “1uF sowvz st Gcosoios7L C173. | a7pF SOW CH 6005047044
a6 | “tur SOWVZSL Ccoso1047L © C174. | 100jpF SOWVK SL coosot01st
87 | 220pF SOWVK SL Ccosoz215L 6176 | 3apF SOWV ISL ‘cco503304L
cea | SpF Sow CSL CcosoosoiL — C177 | OTuF SOEVZ SL ccosoto37L
C90 | Spr SOWV.C CH Ccosocso1A 178 | 10pF SOWV ISL ccosot004t
a1 | 15pF SOWV J SL Ccoso1s04 6179 | SapF SOWV ISL consosa04L
92 | uF SOWvZ SL Ccoso1o47L © C180_| S3pF SOWV J SL co0s03304L
33 | tuF SOWVZSL CCOsoTOA7L C181 _| 100pF SOW K SL ccoso1015L
34 | .OtuF SOEVzZ SL ccosoi0a7L © C182. | 100pF SOWVK SL cooso1015_
97 | otuF SoEVZ SL CCOsO1037L C183} 100pF SOWV K SL conso1015L
C98 | 1009F SOWY K SL CcosoIo1sL §— C184 | B2pF SOW J WI ccos082046
C100 | OtuF soEVZ SL Ccosov0s7t C187 _| 001pF SOWVZ SL cooso1o27L
C101 | .Oo1pF SOW Z SL CcosoTOZ7L C188 | 100pF SOWVK SL Ccoso1015t
104 | ‘047uF soWy Z SL Ccos04737L C189 | SapF SOWV ISL cooso3a04L
105. | SpF SOW J CH Cooso10o4A C190 | 220F SOW SL ccoso2204L
C107 | .ootpF sowyz st Coosoice7L C191 | .O01pF SOWVZ SL ccosoroz7L
C108 | 121F soWV ISL Cooso1204L C192 | 10pF SOW SL Ccoso1004t
8-4
8.0 MAIN BOARD (Con’t)
RCI-2970
8.0 MAIN BOARD (Con’t)
REF# | DESCRIPTION PARTS REFY [DESCRIPTION PARTE
cisa | 100pF SOW K SL Gcoso1o1sL C275 | 270pF SOWV K US ‘0c05027156
C194 | 100pF SOW K SL Ccoso101sL © C276 | 047uF SOWVZ SL ccoso47271.
C195 | S3apF SoWV SL ccosos304. © 027_| SpF SOW ICH ¢c0501004A
197, | o1uF SOEVZ SL Cc0s01037L —278_| 33pF SOW J CH ecos03304A
C198 | 33pF SOWVGJ SL cc0s03304. —279._| 180pF SOWV KW c05018156
C199 | 22pF SOWVJ SL Cc0sz204. C280. | 12pF SOWV J CH 6c0501204a,
200 | 001pF SoWVz SL cooso1027L 281 | uF SOWVZSL ecosoto47L
202 | uF SOWVZ SL cco501047L C284 | 100pF SOWV J CH cc0501015A,
6206 | O1uF SOEVZ SL Ccoso10s7L C286 | OtuF SOEVZSL ecoso10371.
208 | O1uF SOEVZ SL ccosoios7. —c287_| oF S0EVZ SL ecos01037L.
209. | OtuF SOEVZ SL Gcos01037L —¢289._ | L001pF SOWVz SL ecoso10271.
212 | 001pF SOWVZ SL Gcosoto27L © €290_| NO NEED OMITTED
214 | tur SOWVZSL ccosoto47L = 291_| O1uF SOEVZ SL. ec0501037L
C215 | 27pF SOWVJ CH CCO502704A —G293_| 12pF SOW ICH 6c05012044,
218 | uF SOWVZ SL. Gcoso1047L casa | A7uF SOWVZSL c0s04737L
220 | OtuF SOEVZ SL Goos01037L C295 | tuF SOWVZSL ecos01047L.
221 | 047uF SOWVZ SL. cooso4727L —¢206 ‘| o1uf S0EVZ SL ecoso1037L.
222 | tur SOWVZ SL ccosoio47. 297 | our SoEVZ SL ecoso1037t.
223 | tur SOWVZSL Ccoso1o47L © ¢298 | tuF SOWVZ SL ccoso1047L
226 | 047uF SOWVZ SL cc0s0s727L 299. | -tuF SOWVZSL ecosor047L
228 | O1uF SOEVZ SL Gcos01037L 300. | .047uF SOWVZ SL c0s04737L
229° | 150pF 6OW K SL GC0501515L C302 | O01pF SOWVZ SL ccosoto27L
6230 | 270pF SOWV K SL ccosoz71sL © ¢303_| .047uF SOWVZS:L ccoso4737L.
6232 | O1uF SOEVZ SL ccoso1037L —¢305_ | Lo1uF soEVz SL ecos01037L
0233 | 001pF SOWVZ SL. ccoso1027L —¢306 | .001pF SOW z SL ccoso1027L
6236 | o01pF SoZ SL Ccosoto27L © c307 | ou SoEVZ SL. ccoso1037L
237 | SpF SOWVC CH Cc0s00501A C308 | O1uF SOEVZ SL cc0soi037L
238 | 150pF SOWV K RH Cc0s015180 C309 | OO1pF SOW Z SL ccosotoz7L
239. | S6pF SOWVJ RH Ccosos6040 C310 | -tuF SoWVZSL ccosoto47t
240 | tuF SOW Z SL ccoso147L 311 | O1uF SOEVZSL ccoso1037L.
6242 | O1uF SOEVZ SL ccoso1037L —¢312_| .o47uF SOWVZ SL. ecoso4737i
6243 | 100pF SOW K Us cc05010156 —C313_| .tuF SOWVZSL ecoso1047L
244 | 047uF SOWV2 SL. ccoso4737L 314. | ‘tuF SOWVZSL ccosoi047L
C245 | .tjuF SOWVZ SL Conso1047L C316. | .0OtpF SOWVZ SL ccosoto27L
C246 | 27pF SOWV K CH ccosoz7048 C317 | .o47uF SOWVZ SL cc0s04737L
247 | 150pF SOW K UU CC501515G —¢319_| 10pF SOWV SL ‘ccoso1004L.
6248 | SpF SOWV CCH Gcos00301A 6320 | OtuF SOEVZSL ccoso1037L.
6249 | SpF SOWV CCH co500s01A C321 | LOtuF SOEVZ SL ecoso1037L
250 | SpF SWVC CH Ccos00501A —C323_| OTP SOWVZ SL ecoso1027i
251 | 270pF SOWV K CH ccosoz715A 324 | -1uF SOWVZSL ccosot047L
252 | SpF SOWVC CH CC0S00301A C325. | O1uF SOEVZ SL. ecoso1037L
254 | 270pF SOWV K US Ccosoz71sL 326 | uF SOWVZSL ccosotoa7L
6255. | 150pF SOWVK UJ co0s01s156 6327 ‘| O1uF SOEVZ SL ccosoto37t.
6256} uF SOWVZSL Gcoso1c47. = ¢329 ‘| Lo1uF SoEVZ SL ecoso10s7t.
257. | .tuF SOWVZ SL Ccoso1047L © ¢330_| Lo 1pF SOWVz SL ecosoto27L
258 | S6OpF SOWV K US ccoseséis6 331 | -1uF SOWVZ SL ccoso1047L
259. | O1uF SOEVZ SL Gooso1s7L 332. | uF SOWVZSL ccosoro47t
260 | NONEED OMITTED 6333 | -tuF SoWVZ SL ccosoto47t
6261 | 680pF SOWV PU Ccoso6s1s6 C334 | “tuF SOWVZSL ccoso1047L.
6262 | NO NEED OMITTED 335 | tur SOWvZSL ecosor047i
263 | 10pF SoWVY SL cc0se7004. ©6396 | “suF SOWVZ SL ccoso1047L
264 | .tuF sowvz SL Ccoso1047L C337. | uF SOWVZSL ccoso1047L
267 | uF SOWVZSL ccoso1047L cae | O1uF SoEVZSL ecoso1o37L
6268 | O1uF SOEVZ SL c0501037L C339. 100pF SOWVK SL ccosor015t
€269° | 100pF SOW k UK Ccoso10156 © c340 | oUF SoEVZ SL ccosor037.
C270 | SG0pF SOWV K US Cc05056156 C341 _| 100F SOW K SL ccasorotst.
C271 | tur sowvz SL Ccoso1047. © ¢343._| LOOtpF SOW SL ecosor027L
272 | 100pF SOWV k SL Conso101s. 348 | 3pF SOW CCH cc0500301A
C273 | O01pF SOWV 7 SLK Coosot0s7L = c349._| OtuF SOEVZ SL ecoso1037L
274 | O1uF SOEVZ SL ecas01037L
8-5
8.0 MAIN BOARD (Con’t)
8.0 MAIN BOARD (Con’t)
REF# [DESCRIPTION PARTE REF# | DESCRIPTION PARTE
MYLAR CAPACITORS 6170 | 10uF 25WVZ (CE02510672
C196 | 47uF 1OWVZ (cE01047672
15 | .o022uF 50M K emoso22262 201 | 47uF 10WVZ (c£01047672
633 | oo1uF SOW ©M05010252 C205. | 10uF 25WVZ (002510672
47} .022uF 50M K @Mo5022952 © C207 | 220uF 16WVZ ce0162272
186 | oo1uF SOW L @Mos010252 C213. | 330mF 16WV (¢E01639772
234 | 047uF SOM K ©M05047352 C216 | 22uF 10WVZ ce01022672
235 | o01uF SOWVK ©MO5010252 C219 | 4.7uF SOWVZ (¢E05047572.
223 | 47uF 1OWVZ Ge01047672.
‘TANTALUM CAPACITORS 224 | tuF SOWVZ (ce 05010572.
231 | 100uF 1owvZ (ce01010772
cio | 4.7uF ew M 701647562 6265. | 2.2uF SOWVZ ‘ce05022572
C106 | 22uF EWM cTo1622462 285 | tuF SOWVZ (CE0501057Z
e141 | 22uF tow M cToteze462 C288 | 10uF 25WVZ CE0251067Z
15s | 22uF ew crov62246z 292 | 10uF 25WVZ c£0251067Z
C156 |4.7uF 1M cT0164756Z C301 | 100uF 1OWZ ce01010772
C160 | .22uF ew cro1622462 304 | 220uF 16WVZ c£0162287Z
ci61 |22uF eww crovezes6z —¢322_| 220uF teWvZ ce01622872
171 | 10uF 16M crover066z 347 | 1uF SOWZ (CE0501057Z
175 | 10uF 16M. cTot61066z
Le,
CHIP CAPACITORS
Ie1 | NUM324D ENJROOS24D
266 | .22uF SOWV coso2246z 12 UPC1028H ENNEO1026H
328 | 20uF SOW cHos02246z —Ic3.—| ANG12. ENMAQ06 127
345 | 22uF SOWV cHos022462 cd | NJM7805 ENJRO7805Z
ies | Tesog1ap ENTAOS0B1A
ELECTROLYTIC CAPACITORS ies | NIM780BA ENJRO7BO8A
ie? | Tcs0B1aP ENTAOSOB1A
G13 | 47uF SOWWZ ce05047472 cB | TA7310P ENTAQ7310P
C16 | 2 2uF SOWZ ce0s022572 Ic9_—| TAT310P ENTAO7310P
25 | 10uF 25wvZ e02510672 —Ic10_| TA7310P ENTAO7310P
C27 | 10juF 25WVZ ceo2st067z © Ict1_‘| Tc5082P ENTAOSO82P
c32 | 47uF 1owZ ce01047672 == I12_ | HD10551 ENHIT0551Z_
36 | 10uF 25WvZ c£0251067Z 113. | HD10551 ENHIT0551Z_
39 | 47uF 1oWVZ cE01047672 —I14_| TA7310P ENTAQ7310P
4s | 47uF 1OWZ cE0104767Z C15 | NJM7808A ENJRO7B08A
46 | 47uF 1OWZ cE01047672 —IC16 | JRC4S58D ENJRO4558D
49 | 47uF 1OWVZ cE01087672 © Ic17 | Cx79258 ENS007925B
50 | tour 25Wvz cE02510672 —Ic19_| TA7222AP ENTAO7222A,
cs7 | tour 25wvz ce02510672 — 1¢20_‘| soap. ENsMo0042P
58 | 1000uF tow Zz ceo11087z2 © IG21_| TCAO69UBP ENTAD4069U
70 | tour 25wvz (GE0251067Z
a1 |2.2uF sow (005022572 DIODES.
cas | tuF SOWVZ (CE0501057Z
95 | 22uF 10WvZ, ce01022672 © D1 ‘| 1NEOP EDINOOO6OP
c96 | 220uF 16WVZ ce01622772 02 ‘| NOP ED1NOOO6OP
99 | 220uF 1ewvZ. ceo1e22772 ««03_—«| 1NG148 EDINOS148Z
c102__| tuF 16WV NP CEONEIOSEN = D4 | 1NG148 EDINO4148Z
C103 | 220uF 1owZ ce0t022772 «S| 1N4148 EDINOS148Z
C109 | 4.7uF sowVZ CE05047572 D6 | 1N4148 EDINOS148Z
cit | 100uF 1owvZ cEotoi0772 = D7 1N4148 EDINOS148Z
C116 | 220uF 1ewvZ cE01620772 «DB | AN4148 EDINO4148Z
128 | 47uF 1owvZ ceo104767Z «09 | 1NG148 EDINO4148Z
C137 | 10uF 25WvZ cE02510672 © D10_—‘| 1NG148 EDINO4148z
138 | 1000uF tow z ceo110s7z = 11 | 1NGOP. ‘EDINOOD6OP
C140 | 2.2uF sowvZ ceoso22572 —-D12_—| 1NGOP. EDINOOD6OP
C147 | 10uF 25WVZ, Ge02s10672 © 13-—| 1N4148 ED1NO4148Z
C187 | 220uF 16WVZ ceove22772 «14 | 1N4148 EDINO4148Z
C168 | 10uF 25WvZ cE0251067Z 15 | 1N4148 EDINO41487
8-6
8.0 MAIN BOARD (Con’t)
RCI-2980
8.0 MAIN BOARD (Con’t)
ers [ DESCRIPTION PART# REF# | DESCRIPTION PARTY
Die | iNav48 EDINOdT48Z = D76 | 1NaI48. EDINO4148Z
DI7 | 1Na148 EDINO148Z = D7 | 1N4148 EDINO4148Z
Dis | Mc3ot EDMco03012 078 | 1N4148. ED1N041487
D19_| Fo54mt EDECOOS4M © 79 | 1N4148 EDINO4148Z
020 | mc3o1 EDMC00301Z DBO | 1N4148 EDINOS148Z
et | 1N4148 EDINO41482 © DB1_ | 1N4148 EDINOS148Z
022 | 1Na148 EDINOS148z = Dez | N44 EDINO4148Z
023 | Fos4m EDECOONS¢M © p83 | 1N4148. ED1NO4148Z
024 | Fos4m EDECOODS4M © 84 | 1N4148 ED1N04148Z
025 | Mc3o1 EDMCO0301Z 85 | 4N4148. EDINOS148Z
026 | nasa EDINod1482 a6 ZENER SW 5.6V EDzD0ss69z
27 | 1Na148, EDINos1482 © a7 | FCSAM EDECOO0S4M
28 | 14148 EDINod 482 C88 | 14148 EDINO4148Z
029 | iNa148 epinod14ez Deo | 1N4148 EDINOS148z
030 | inatas EDINOs1482 90 | NONEED. OMITTED
031 | iNatas EDinNosi48z pat | MVIY EDMvooo01Y
032, | 1NG148 EDinosi4ez p92 | MVIY EDMVOoOO1Y
033 | 1Na148 EDINO41482 93 1N4148 EDINOd148z
34 | 1N6oP EDINood6oP 94 | FCSAM. EDECOOOS4M
035 | 1N6oP EDINOOOGOP = 095 FCSAM EDECOOOS4M
036 | 1Nai48 ED1NO41482 096 | FCS4M EDECOOOS4M
37 | 1Na148 EDINOd1482 = 97 | 14148 ED1NO4148Z
38 | 14148 |EDINod148z 98 | tNa148 EDINO4148z
39 | 1Na148 EDINOd1482 99 | 14148 EDINOS148z
40 | 1Na148 EDINOd1482 — D100 | 1N4148 EDINOs148z
Dat | inaias EDINO4148Z D101 | 1N4148 EDINO4148z
Daz | KB362 EDKB003622 © D102_| 1N4148 EDINOd148Z
Das | FoS4M EDECOOOS4M © D103.| 1N4148 EDINO4148Z
a4 | iNa148 EDINOS1462 D104 | 1N4148 ED1N04148Z
4s | 1Na148 EDINOS148Z D105. | 1N4148 EDINO4148Z
4s | 1NG148 EDINO4148Z D106. | 1N4148 EDINOs148Z
Da7 | ina148 EDINOd1482 D107 | 1N4148 EDINOS148Z
Das | Naas EDINO41482 D108. | 1N4148 EDINOS148z
Daa | 1nai48 EDINOS1482 D109. | 1N4148 EDINO41487
50 | 14148 EDINOS148Z D110. | 1N4148. EDINO4148Z
st | KB262 EDKB002622 © D111 | FCS4M EDECOODS4M
Ds2 | 1NG148 EDINosi4ez = D112. | 1N4148 EDINOS148z
D3 | 1Ng148 EDINOd1482 D113. | 1N4148 EDINOS148z
Dea | 1NG148 EDINod148Z D116 | MC301 EDMC003012
055 | 1Na148 EDINos148z
Ds | 1Na148, ED1N04148Z ‘TRANSISTORS
57 | 1Na148 EDINOS148z
058 | 1Nd148 EDINOs1482 = at | 28C1675K T2Sco1675K
59 | 1NG148 EDINOd1482 a2 2801675K T2SC01675K
Deo | 1Nd148 EDINosi48z 03 2SCa4sP ‘TRSCODS45P
Der | 1Nd148 EDINOs148z 04 | 2SC945P ‘Tasco0a4sP
De2 | 1Na148 EDINO41482 05 | 2SC945P ‘TASCOOS45P
63 | 1N4148 EDINOs148z 0 | 2SCO45P ‘TASCOOS45P
64 | 1Na148 EDINos1482 a7 | 2SC945P ‘TASCOOSASP
065 | 1Na148 EDINOd1482 a8 | 2sC1674K T28001674K
66 | svc2st EDsvoozs1Z a9 | 2801675K T2sco1675K
67 | svc25i EDSvo02s1Z aid | 28C1675K ‘TeSco1675K
Des | 1Nai48 EDINOG148Z G11 | 2SC1675K ‘TSCO1675K
Deo | 1Nav48 EDINOG148z == at2_—| 254733 ‘T2SA00733P
70 | iNa148 EDINOd148Z = Q13-_| 2SC945P. TRSCOOS45P
Dri | inai4s, EDINOdi48z = a14 | 2SC945P. TRSCOOS4SP
D72 | 1Nai4e EDINod148z ais | 2Sca45P. ‘Tascooa45P
073 | ZENER sw 2.4 EozD052492 Q16 | 2SC945P ‘Tascooa4sP
074 | ZENER SW S6v EDZD052692 17 ‘| 2SC945P ‘TASCOOSSP
75 | KB362 EDKB003622 ats | 28C1674K T2SCo1674K
8-7
8.0 MAIN BOARD (Con’t)
RCI-2970
8,0 MAIN BOARD (Con’t)
REF DESCRIPTION PARTE EFA _ | DESCRIPTION PARTE
aia [310 EZZJ00310Z 129 BEAD F PH=12.5mm ECBADI8550
20 | ascte7aK Tescote74k —L19.—| BEAD F PH=12.5mm ECBAD18550
a2t | 2scte7sk TeSCO1675K —L22_—_| CHOKE 22uH (P TYPE) EccHKi6070
ze | 2sct675K TeSCOIG7SK —-L26-_| CHOKE 470uH (P TYPE) ECCHK6096
023 | 2sc1906 TeSCO1906Z —-L30._—_| CHOKE 22uH (P TYPE) EccHKi6070
24 | ascoas TRSCOOM4SP —L33_—| CHOKE .82uH ECCHK16082
025 | 2sa7saP T2sAOO7I3P «34 | RF 23uH ECRFZ10001
026 | 2scassP TRSCOOMSP = -L36- | NO NEED OMITTED
27 | asci675k Tescore7sk 37 | BEAD D SU-B-172D ECBAD18504
28 | 2sct675k Tescore7sk — 138. | RF 23uF EcRFz10091
29 | ascte7sk TeSCO1675K 39 | BEAD F SU-B-172F ECBAD18506
30 | 2sca4sP TRSCOOSP LAO. BEAD D SU-B-175D ECBAD1E504
ast | 2sco4sP TRSCOOM4SP —-L41_—_| TOROIDAL SU-TR-398 ECRFZ10048
32 | 2sc94sP TRSCOOSASP —L42_| BEAD F SU-B-172F ECBAD18506
33 | asca4sP TRSCOOSASP = L44_| BEAD F PH=12.5mm ECBAD18550
034 | 2sca4sP TRSCOOSA5P «LAS BEAD F PH=12.5mm ECBAD18550
35 | 28a733P ‘TeSA00733P —-L49_| CHOKE (BIG ROUND) ECCHKI6151
36 | 2sca4sP TRSCOOSASP —-L50_| CHOKE 82uF ECCHK16082
037 | 2sat262 TaSAOt262F —-L51._| CHOKE 10CH (P TYPE) ECCHK16088
038 | 2sa1262 T2SAOI282F —L52_| CHOKE 10CH (P TYPE) ECCHK16088
39 | asco4sP TASCOOSASP —-LS3_—_| CHOKE 470uH (P TYPE) ECCHK16096
40 | 2sate2 ‘TaSAOT262F 59 ECBAD18506
41 | asco4sP TRSCOOMSP —L60 ECBAD18506
042 | 2sco4sP TRSCOOSASP —L6I ECBAD18506
43 | ascte7sK TeSc01675K —L62_| BEAD E PH=t0mm ECBAD18526
44 | asci675K TaSCON67SK —L63_| CHOKE 470uH (P TYPE) ECCHK16096
045 | 28a733P Tasago733P 65 | BEAD FSU-B-172F ECBAD18506
4s | 2scza12 Tasco23i2c —L131_| SPRING .8x6.5x7.5t EcsPG18075
47 | asceaiz Tasco23i2c L132. | SPRING .Bx6.5x7.5t ECSPR18003
4s | ascot6ec Tasco2ie6C L503 | CHOKE 47uH (P TYPE) ECCHK16000
4a | ascaai4F Tascozst4F — L504 | CHOKE .47uH (P TYPE) ECCHK16000
050 | 28¢1906 Tesco19062 —T1_—_—| CHOKE El-19 TF-083 ECCHK16004
051 | 288754y T28B00754Y
052 | asca4sP Tesco094sP VARIABLE INDUCTORS
53 | 28a473”0 T28A004730
054 | 2sca45P TascooassP = L1_—_| IFT Mi99Cc-Pt4og7F ECIFTI2251
ass | ascaasP Tescoossp = 2 IFT 199C¢-P1496N ECIFTI2252
056 | 2sca45P TascoosssP = L3_—_| IFT 7MC-7172ABN ECIFTI2002
057 | ascaasP TascoosesP = L4—_ | IFT M199CC-P14097F ECIFTI2251
ase | asca4sp TescoosssP LS | IFT 7MC-7172ABN EcIFT12002
Le | FT 7MG-7172A8N ECIFTI2002
VARIABLE RESISTORS U7 |ieT7MG-7174y ECIFTI2003
Le | IFT Mt9CNF-P1499N ECIFT2253
vet | 10k 3P SEMI FIXED RE10300078 —L9_—_(| IFT 19GN-P1549N EciFT12290
vR2 | 10K 3P. SEMI FIXED RE1O300078 —L11_| IFT 199CN-P1549N ECIFT12990
vR3__ | 500K 3P, SEMI FIXED RE50400080 —L12_| IFT M199CC-P1501A ECIFTI2255
VR4 | 500K 3P, SEMI FIXED Re50400080 —L13_‘| IFT 199CC-P1502N ECIFT2256
v7 | 10K 3P, SEMI FIXED RE10300078 —Li4_| IFT 199CC-P1502N ECIFTI2256
vR8_ | 100K 3P, SEMI FIXED RE10400079 —L1S_‘| IFT 199CC-P149BN ECiFT2252
vRit | 3K 3P SEMI FIXED E30200076 —L16_—| IFT M199CC-P1503A ECIFT2257
VRi2_| 10k 3P, SEMI FIXED RE10300078 —L17_| IFT 292CN-P11221Z ECIFTI2263
Ria. | 5k 3P, SEMI FIXED RE50200077 L19_—| IFT6 M199CC-P1504N ECIFTI2258
Ria | 1K SP. SEMI FIXED RE10200072 — L21_| IFT 292CN-P11212 ECIFTI2263
VRIS| 1K 3P, SEMI FIXED RE10200072 128‘ IFT 199CC-P1498N ECIFTI2252
VRI6 | 10k 3P, SEMI FIXED RE10300078 © L24_| IFT 199CC-P1498N ECIFTI2252
VR21_ | 5K 3P, SEMI FIXED RESO200077 125‘ IFT 199CC-P1498N ECIFT2259
Lar FT 1130N-6344z ECIFTI2016
cous Las IFT 113cN-6344z ECIFTI2016
Lag | FT 1130N-6344Z ECIFTI2016
52 | CHOKE 470uH (P TYPE) EccHKie096 §=— 43. IFT 292CN-P1117AQ EciFT12262
8-8
8.0 MAIN BOARD (Con’t)
RCI-2970
8.0 MAIN BOARD (Con’t)
REF¥_| DESCRIPTION PARTE REF | DESCRIPTION PARTE
Las] FT 2920N-PT125R EcirT12265 «14 | 7x7mmx7 ‘wx01070707
Lay | IFT 292cN-P1125R ECIFTI2¢65 «= 16 | 7x5mmx7 ‘wx01070705,
Las | IFT M199CC-P1501A ECIFTI2265 17 | 7x10mmx7 ‘wx01070710
18 | 7x13mmx7 wxo01070713
RELAYS. 19°} txdmmx7 wx01070704
520 | 7x6mmx7 Wx01070706
RL | av ExosN40802 21 | 7x10mmx7 wx01070710
22 | 7xGmmx7 wx01070706
‘TRIMMER CAPACITORS 123 | TxGmmx7 wxo1070706
24 | 7x6mmx7 ‘wx01070706
ver | 20p Cvosoz00az 125 | 7x6mmxT ‘Wx01070706
vez | 20P Cvoso200AZ 26 | 7x6mmxT wx01070706
ves | 30P cvosos00aZ = 27 | 7xt0mma7 wx01070710
428 | 7x9mmx7 wx01070709
CERAMIC FILTERS 423° | 2e4mmx7 wx01070704
530 | 7xSmmx7 wx01070705
FL | CrWassHT EFCRWASSHT = 31 | 7x7mmx7 wxo1070707
FL2_ | SEF 10.7 MK EFCFEIO7MX = 32 | 7x6mmx7 ‘wx01070706
FL3_| CRYSTAL, 10.695 MHz EFXB106952 133 | 7x10mma7 wx01070710
x1 | CRYSTAL, 10.240 MHz EYCAB10240 = 34 | 7x10mmax7 wx01070710
X2_—_| CRYSTAL, 10.240 MHz EYCABI0240 = 36 | 7x9mmx7 wxo1070709
X3__| CRYSTAL, 10.6975 MHz Eycae10697 38 | 7x3mmx7 wxo1070703
39 | 7x27mmw7 wxo1070727
‘CONNECTORS $40 | 7x10mmx7 wxo1070710
Jat | 7xSmmx7 wxo1070705
101 | PCB CONN. SOCKET 2P L=17.8 | EXO7NAB185 —442__| 7x10mmx7 wx01070710
S104 | PCB CONNECTOR SOCKET SP | EXO7NAI216 = 443—_| -7x9mmX7 wx01070709,
J105 | PCB CONNECTOR SOCKET 2P | EXO7N41226 44 | 7x10mma7 wx01070710
107 | PCB.CONNECTOR SOCKET 2P | EXO7N41226 445. | 710mm wx01070710
4108 | PCB CONNECTOR SOCKET 2P | EXO7N41226 46 | 7x13mmu7 wx01070713
J109_ | PCB CONNECTOR SOCKET 3P | EXO7NG1216. © J47_—_| 7x5mmx7 wx01070705
110 | PCBCONNECTOR SockeT3P | EXO7NAIZ16 © J48_—|_7xSmmx7 wxo1070705
J112 | POBCONNECTOR SOCKET 3P | EXO7NGI216 © J49_—_| 7x10mmx7 wx01070710
113 | PCBGONNECTOR SOCKET 6P | EXO7NG1266 © J50—_ | 7x10mmx7 wx01070710
115 | PCB CONNECTOR SOCKET SP —/ EXO7NAIZ16 © 51_—| 7x10mmx7 wx01070710
116 | PCBCONNECTOR SOCKET 3P | EXO7NGI216 © J53—_| 7xSmmx7 wx01070705
J117| PCB CONNECTOR SOCKET 7P —[ EXO7NAI261 J54_—_| 7x6mmx7 wx01070706
J118 | PCBCONNECTOR SOCKET 3P | EXO7N41216 —J56.— | 7x5mmx7 wx01070706
J119_ | PCBCONNECTOR SOCKET 6P | EXO7N41266 © J57_—_| 7x4mmu7 wxo1070704
J501_| EARPHONE JACK ExoeNAIO45 58 | 710mmx7 wx01070710
44502 | EARPHONE JACK Exoenat04s §=— 59 | 7x5mmx7 wx01070705,
J503 | EARPHONE JACK Exo6n4t045 — J60 | 7x6mmx7 wx01070706
61 | 7xémex7 Wx01070706
JUMPER WIRES 462 | Pxdmex7 wxo1070704
63° | 7x8mmx7 wx01070708
St | PxSmmnx7 wx01070705 64 | 7x10mmx7 wxo1070710
2 | 7a13mmx7 wxo1070713 66 | 7x10mmx7 wxo1070710
3 | 7x13mmx7 wxo1070713—J67—_ | 7«14mmx7 wx01070714
5 | 7x10mmx7 wxo1070710 468} 7xémmx7 Wx01070706
46 | 7et0mme7 wxo1070710 — J69_ | 710mmx7 wx01070710
37 | 710mm? wxo1070710 470 | 7x5mmxs wx01070705
38 | Tx6mmx7 wxo1070706 71 | 7x4mmx? wxo1070704
J9— | 710mm wxo1070710 472} 7xSmmx7 wxo1070705
S10 | 7x10mmx7 wxo1070710 473 | 7x5mmx7 wxo1070705
siz | 7ammx7 wxo1070709 474} 7x10mmx7 wxo1070710
3 | Ze5mmx7 wxo070705 75 | 7x8mmx7 wxo1070708
4 | Te7_mmx7 wxo1070707 76 | 7x7mmx7 wx01070707
6 | 25mm wxo1070705.J78.—| 7x7mmx7 wx01070707
S17 | ZetOmmx7 wxo1070710 479. | 7xémmx7 wx01070706
S18 | 7x13mmx7 wxo1070713 480. | -7x6mmx7 wxo1070706
RCI-2970
8.0 MAIN BOARD (Con’t) 8.4 MIC JACK P.C. BOARD
DESCRIPTION PARTE EFA [DESCRIPTION PARTE
7xt3mmX7 wxo1070713 MIC JACK PCB. EPT2950702
7xt5mmx7 wxo1070715
Ix7mmx7 wxo1070707 CERAMIC CAPACITORS
Ixt4mm7 wxor070714
7xSmmx? wxo1070705. c701_ | ootuF soWVZ SL ccoso1027t
7x3mmx7 ‘wxo1070706 702 _| ootuF SOWVZSL ccoso1027L
‘TxSmmnx7 wxo1070705 C703. | OOtuF SOWVZ SL ‘ecosor027t
7xS0mmx7 wx01070750
CONNECTORS
8.1 VSWR P.C. BOARD :
DESCRIPTION PART 4701 | PCB CONNECTOR SOCKET 3P | EXO7NAB244
VSWR PCB Epraoosoz 4702 | PCBCONNECTOR SOCKET 2 | exo7NeB152
PCB CONNECTOR SOCKET 2P | EXO7N48152
CARBON FIXED RESISTORS MIC JACK 6P EXOBNATITY
R401 | 1000 4W(P) TYPE RoP141014z cee)
R402 | 1500 4W(P) TYPE RoP14i014z —-REF#_| DESCRIPTION PARTE
BAND PCB. EPT2950902,
CERAMIC CAPACITORS ROTARY SW, 6N EWAT320538
PCB CONNECTOR SOCKET 3P | EXO7N41216
405 |.otuF sowvz sL ccoso1037L — | PCB CONNECTOR SOCKET 7P | EXO7N41261
406 | otuF SOWvZ SL Ccoso037L — 4403 _| JUMPER WIRE tmmxémc7mm | WXO1070706
Taner 8.6 CH/SWP.C. BOARD
DESCRIPTION PARTE
401 | 1N6oP ED1NooO6OP CH SW PCB, EPT2950908
0402_| 1N6oP EDINOOO6OP ROTARY SW, GPS-688 EWAT320518
8.2 RF/MIC & VOL/SQP.C. BOARD POB CONNECTOR SOCKET 9P_| EXO7N41216
REF# | DESCRIPTION PART# 8.7 CHASSIS PARTS:
VRPCB EPT2950602 -REFW_| DESCRIPTION PARTE
RRIMIC |VR 1KA-SKB Rv10203451 _sp501 | SPEAKER 3W 80 2" Es200820MC
‘VOLISO | VR 50KB-50KA 50303453, FUSE 20A 16V FUS-0020-000
DC CORD wiFUSE SOCKET wage12200¢
CERAMIC CAPACITORS DC SOCKET 6P Ex06N41163
ANT JACK EX06N41019
C501 | OO1UF SOWVZ SL ecoso1027L MICROPHONE ASSEMBLY x04N40620
505 | 0OtuF SOWVZ SL ccoso1oz7L WIRE CONN. HOUSING24-2P | exo7N48398
WIRE CONN. HOUSING 3.2.2P | ExO7N48394
CONNECTORS WIRE CONN. HOUSING 2P EXO7N78041
105 | WIRE CONN. HOUSING 2-2P | EXO7N48391
3501 | PCB CONNECTOR SOCKET 2P | EXO7N41226 = J108 | WIRE CONN. HOUSING 2-2P- EXO7N48391
J502 | PCB CONNECTOR SOCKET 2P | EXO7N41226 109 _| WIRE CONN. HOUSING 3-3P | EXO7N48389
4503 |PCB CONNECTOR SOCKET 3P | EXO7N41216 S142 | WIRECONN. HOUSING 3-3P | Exo7N4a380
4504 |PCB CONNECTOR SOCKET 3P | EXO7N41216 —4y13_| WIRE CONN. HOUSING 6P EXO7N48396
4505 _|PCB CONNECTOR SOCKET 2P | EXO7N41226 —J115 | WIRE CONN HOUSING 3-3P | ExO7N48389
8.3 RF/CAL P.C. BOARD J116 | WIRE CONN. HOUSING 3-3P | EXO7N48389
117 | WIRE CONN. HOUSING 7P EXO7N48387
nea) eae ‘119 | WIRE CONN. HOUSING 3-ae | exo7w4aaag
VRPCOB, EPT295060Z —J501_| WIRE CONN. HOUSING 2-2P | EXO7N48391
VR 1KB-20KB v10203456 502 | WIRE CONN. HOUSING 3-aP | EXO7N48389
4503 | WIRE CONN. HOUSING 3-3P | EXO7N48389,
CERAMIC CAPACITORS 4504 | WIRE CONN. HOUSING 3-3P | EXO7N48389
4508 | WIRE CONN. HOUSING 2-2P | EXO7N48391
601 |.ootuF SoWVZ SL Ccoso1027L —J601_| WIRE CONN: HOUSING 3-3P | exo7Naa389
J602 | WIRE CONN. HOUSING 3-3P | EXO7N48989
‘CONNECTORS: J701__| WIRE CONN. HOUSING 2-3-2-3P | EXO7N48397
14702 | WIRE CONN. HOUSING 2-3-2-3P | EXO7N48397
J601 | POB CONNECTOR SOCKET SP | EXO7N41216 4703 _| WIRE CONN. HOUSING 2-3-2-aP | EXO7N48397
602_| PCB CONNECTOR sockeT 3P_| Exo7Na1216
8-10
8.8 KEY P.C. BOARD
RCI-2970
8.10 CPU/MIC UP/DN P.C. BOARD
ere [DESCRIPTION PARTE (PRE-MARCH 1995 VERSION)
KEY PCB, EPT2960302 EFA DESCRIPTION PARTE
— | cPuPCB. EPT26042Z
‘CARON FIXED RESISTORS, Mic UP/DN PC. EPT2950802
1.5K heW(P) TYPE ROP1615242 ‘CARBON FIXED RESISTORS
misc, R601 | 2700 4W(U) TYPE RoUt427142
R602 | 2200 4W(U) TYPE RoU1422147
TACT SW EWPS33042X R603 _| 1800 uW(U) TYPE RCUI418147
IC PIN EXO7N48414—REO4 | 820 MW(U) TYPE RCU148204Z
LED YELLOW EX01N40081 ARGOS | 4700.0.1W. ROYO147147
POB CONN. SOCK. 6PLx21.8mm | EXO7NAB461 gos. | 47000.1W Rovora714z
Reo? | 47000.1W Rovo14714z
8.9 LCD P.C. BOARD R608 | 47000.1W RCvOI4714Z
ere [DESCRIPTION PARTE R609 | 1o20.1W ROY0110342
R610 | 190.1W Rcvo11024Z
ee EPT26502I7 Rett | a7K OW ROvO147342
RESISTORS R612 | 47K OW Rov0147372
R613. | 47K O.1W RCYO14737zZ
R710 | 39K 1W, CHIP Rovorsasaz R14 | 150K 0.1 Revo 1544z
R711 | 470K .1W, CHIP Rovor474az RBIS | 47K O.1W ROYOIA7AAZ
R7i2 | 680K 4W Rovoiesaaz R617. | 47K O.1W RCvO147342
R618 | 47KO.1W ROYO14734Z
CAPACITORS R619 | 47KO.1W ROYOTAT34Z
R620 | 47000.1W Rovor4714z
tuF 25WVZY5V, MONOLITHIC | CK2tosag7y —RB21_ | 47K O.1W Revo14734z
.S3uF 36WVM, TANTALUM — | CTY353462 -ROZ2_| 47K O.1W Rovoi47a4z
{uF T6WWV M, TANTALUM Cryietosez R623 | 47K O.1W Rovot4734z
C701 | uF 16WV M, TANTALUM cryisi056z R624 | 47K O.1W ROVOUTI2
C702 | 0.33uF 35WVM, TANTALUM — | cT¥a533462 -R625_| 47K 0.1W REVOMATS4Z
703. | 0.33uF 35WVM, TANTALUM — | CTY3533462 R26 | 4.7K 0.1W Revora724z
C704 | 0.33uF 35WVM, TANTALUM — | CTv359346z R27. | 47K 0.1W Revoureaz
C705 | 1uF 16WVM, TANTALUM Cryt61056z R628 | 47K 0.1W RCVOMTB4z
707 | 0.01uF SOWV M, CERAMIC ckitosagsy R629 | 47K O.1W Rovov47a4z
C710. | O.01uF SOWV M, CERAMIC cktiosassu R630. | 1 MEG O.1W AovOItOsaz
C711 | 0.01uF SOWV M, CERAMIC Ckriozapey REST | 10K 0.1W ROvOTIOMZ
C712_| O.0tuF SOWV M, CERAMIC ckitosapeu R632] 47K O.1W RoVOL THz
C713__| 0.01uF SOWV M, CERAMIC ckt1o3aB6U R633. | 39K 0.1W REVOISAHZ
C716 | O.otuF SOWVM, CERAMIC — | CKI1osaBeu R34 220K 0.1W RCVOI224A7
C717 | o.01uF SOWVM, CERAMIC | CK1103aB6U R63 | 1 MEG O.1W ewaitetz
720 | 0.01uF SOWV M, CERAMIC cktiogageu R696] 100K 0.1W Revo11044z
721 | 0.01uF SOWV M, CERAMIC Ckrtosageu — R637] 220K 0.1W Revotz2edz
R638 | 100K 0.1W RcvO1 10447
ice R639 | 47K 0.1W RovO14734z
Read | 47K O.1W Rovo14734z
e701. | HD6160zR 8oPIN ENHigté02R R641 | 150K 0.1W RovOI 15442
VARIABLE RESISTORS ‘ARRAY RESISTORS
‘R701 | IM (TMC4K B1M OHM) Retosooto2 RABO! | 10K/20K 6P Reso6700¢3
A602 | 47K SP R¢s0570009
misc. A603 | 47K 5P R¢S0570009
RaGOs | 220K SP Resosz00z2
IC HD61602R EnHie1602R —-RABOS | 47K SP ‘RCS0S70009
SEMI-FIXED RESISTOR, 1M | RE10500102 _-RAGDE | 220K 9P Rosog7od2t
cD DISPLAY exoan4o4ga ABO | 47K SP Rcsos70009
LAMP, 5V 088 Exoinaooeo -RAB0B | 47K SP R¢s0570009
IG SOCKET 2°. Exo7Naeaa _RABO | 47K SP ‘RCS0570009
PCB CONN. SOCK. 14P L=21.8mm EXO7N48498 -RABIO | 220K 9P Resos700z2
RABI | 47K SP RCS0570009
RCI-2970
8.10 CPU/MIC UP/DN P.C. BOARD 8.11 MISC. PARTS (Con’t)
REFe [DESCRIPTION PART DESCRIPTION PARTE
PCB CONNECTOR SOCKET 2P _|EXO7N41206
CAPACITORS PCB CONNECTOR SOCKET 3? |Exo7N48244
PCB CONNECTOR SOCKET 4P —_[EXO7Na8440
C601 | 0.tuF SOWV K Z5U, MONO. k1103A870 PCB CONNECTOR SOCKET 7P | EXO7N48O11
0602 | 1uF 35WV M TANTALUM cTy3510462 PCB CONNECTOR SOCKET 6P —_[EXO7N48010
603 | 33uF 35WVM, TANTALUM | CTY3533462 PCB CONNECTOR SOCKET 10P [EXO7N48416
0604 | OTF SOWV K Z5U, MONO. k1103A870 SHORT PIN 2P |ExO7NaB151
605 |.O1uF SOWVKZ5U, MONO. | CK1103AB7U FRONT PANEL, BLACK IPT29500104
¢606 | OtuF SOWVK Z5U, MONO. | CK1103AB7U FRONT PANEL (RCI-2870) Pr29500106
607 | OtuF SOWVKZ5U, MONO. | CK1103AB7U REFRACTOR PLATE (KEY) PT2950030A
C608 | TUF SOWVK Z5U, MONO. —_| CK1103AB7U. REFRACTOR PLATE (LCD) PT29500418
609 | otuF SOW KZ5U, MONO. | CK1103AB7U KNOB, BLACK PT2950051A
610 |.O1uF SOWVK75U, MONO. | CK1103AB7U KNOB, BLACK PT29500608
611 |.OtuF SOWVKZ5U, MONO. | CK103AB7U INNER KNOB, BLACK PT29500718
C612 |33pF SOWVJCH, MONO. CHIP | CK1330AB4A CUTER KNOB, BLACK PT2950080A
613. |33pF SOWV.JCH, MONO. CHIP | CK1330AB4A, Lc window PT2950090A
614 | 1uF SOWV2 YSV, MONO. (CK21044B7V FRONT CHASSIS lwrreas0010P
615 |.0027uF SOWVZ YSV, MONO. | CK1272AB5R SPACE KING lure9500208
616 | 470pF SOWVK SL, MONO. CHIP | CK1471AB5L D SPRING A #6600 IwiTae0008oT
C517 | 100pF SOWV K SL, M ONO CHIP | CK1101ABSL D SPRING B #7800 IwiT3600090T
618 |.O1uF SOWVKZ5U, MONO. | CK1103AB7U SPRING D #8500 IwTa600100T
HANDLER, BLACK Iurr3600030A
Les TOP HOUSING, BLACK lurr29s0031A
BOTTOM HOUSING, BLACK | MTZ9500418
e601 | Ho4o74008¢ ENHI74008F SET CHASSIS Iuracooozex
leso2 | TesoeguBF ENTADA069F SOCKET HOLDER 1w'T3600050x
lceo3_|Ms223FP ENMIO5223F SHIELD PLATE (A) IwT1200060N
iceor | TeaoeguBF ENTAD4069F HEAT SINK, BLACK IMn7878040x
esos | a78 ‘TzTa000782 PCB BRACKET IMrae00010s
ceo |TA78 ‘TzTA00O78Z SHIELD PLATE Iwir2710060x
lest2 | 7805 ENSSO7805Z TOP HOUSING lwr29500318
RUBBER KEY lar29s0010A
‘TRANSISTORS. MIC PLATE lpr21000208
MIC PLATE 1pr21000200
TRe01 |2sca45P ‘Tescoos4sP MIC PLATE [pTossB0108
R602 |28C945P Tascoos4sP SHIELD CLOTH 10x88x.3t -Zzze0001z
TRe03 |2sc945P ‘Tescoos45P SHIELD CLOTH 90x90x.18t —_|LZZ2600562
eos |2sca45P TescooadsP LCD SPONGE RUBBER 108x25x't }XZZ7902052
REDS |28C2712 T2sc027126 CLAMP [ezzzs0000z
TRe0s |2802712 Tesc027126 BEEP SPONGE 221.5t xzzz902062
2sco7t2 7280027126 FOAM 14x16x20mm xzzz90004z
2SA1162GR T2SA011626 PB STOPPER XZZ2900062
INSULATING PLATE xzzz300202
DiovEs INSULATING RING xzzzs0003z
ANTIMIC SOLDER PLATE
Deor | 1Ns711 EDINOS7I1Z Tox21x st XZZ2900982
Déo2 | 1ssie1 EDss00181Z SPONGE 15x30x11t xzzz900212
eos | 185181 088001812 SODER PLATE XZz2900022
De05_| 188181 EDSS00181Z LCD PCB SHIELD PLATE
35x8x2t yzz2901872
ett PARTS RCI MIC PLATE /BT6300041A
DESCRIPTION PARTE. LAMP REFRACTOR LABEL 26x11 |27261278Z
RESONATOR, 4 Miz, CERAMIC | EXT4N46510 TOP REFRACTOR LAVEL 25x8 | LZZZ61277Z
BUZZER RKM35-48 EXt4Nd6511 LOD REFRACTOR LABEL 100x11_|LZZZ612762
BATTERY LITHIUM, 3V 170mAh_| EXOBN41405 SCREW, M2.0x0.4px10 PAN HEAD] JSO52010MN
PCB CONNECTOR SOCKET 6P | EXO7N41266 SCREW, M2.0x0.49x12 PAN HEAD] /S052012MN
PCB CONNECTOR SOCKET 4P | ExO7N41250 ‘SCREW, M2.0x0.4px12 PAN HEAD| JSO52012MN
PCB CONNECTOR SOCKET SP | EXO7N41216 ‘SCREW, M2.0x0.4px12 PAN HEAD |JS052012MN
PCB CONNECTOR SOCKET 2P | EXO7N41226 FRON PANEL (4) SCREW
PCB CONNECTOR SOCKET 2P | EXO7N41226 M3.0x0.5px6, FLAT HEAD }4S033006MN
RCI-2970
8.11 MISC. PARTS (Con’t)
8.11 POWER PCB (Con’t)
Ref DESCRIPTION PARTE eFa_ [DESCRIPTION PARTE
~~~ [De SockeT(2), SET CHASSIS(T2) 92a | cic o.1uF soWV SLZ coosor047i
LCE & CPU PCB (6) SCREW Ca24 | cic o.tuF soWV SLZ ‘ec0501047L
MS.0x0.5px6, PAN HEAD JS0S3006MN C925. | C/C O.tuF SOWV SLZ ccoso1047L
~~ | SCREW, M3.0x0.5px6 (PVC) 926 | cit 0.tuF SOWV SLZ ccosoi047t
ROUND HEAD 4S013006MY 6927 | C/C O.tuF SOWV SLZ ccos01047L
MAIN PCB (5) SCREW, T3x6-2 C928 | cic o.tuF soWv sLZ Ccosoroa7t
PAN HEAD 48053006TN €929_| C/C O.tuF SOW SLZ cooso1o47L
———_| HEAT SINK SCREW, T3x8-2 930 | cic 0.1uF sowv SL z ccosor047L
ROUND HEAD J8013008TN C931 | CIC O.1uF SOWV SLZ ccosoi047L
~~] SPEAKER (4) ScREW c992_| cic o.1uF sowv siz coso1047L
M3.0x0 Spx8 PAN HEAD J8053008MN €933_| C/C 0. 1uF SOWV SLZ ccoso1047L
T7808 KEY PCB(2) SCREW 934 | C/C O.1uF SOWY SLZ Ccoso1047t
(M3.0%0.5px10 PAN HEAD JS053010MN 6935 | C/CO.1uF SOW SLZ ccosoro47L
R7808(1) KEY PCB (2) CREW 6936 | MICAIC 100pF so0v @ cos0010187
1M3.0x0.5px10 PAN HEAD JSOSSO10MN C937 | C/C O.tuF SOWV SLZ ccosoi047L
IC7e08x2 SCREW 938 | &/¢ 220uF 38WVZ (c£03520772
M2.0x0.4px8 PAN HEAD JS052006MN 939 | C/C 0-1uF SOWV SLZ ccosoio47t
w-_| SPEAKER (4) NUT wAVASHER | J26303578 C940 | C/C O-TUF SOWVSLZ ccosoioa7t
2802312 (3) NUT wNeazorezs cast | crc O-1uF SOW SLZ ccosoro47t
INSULATING RING xzzz900722, 0901 | DIODE 1N4oo1 EDINO4001Z
MOUNTING SCREW 902 | DIODE 1n4001 ED1No4001zZ
MS.0x0.8x11 BLACK xzzzso0o7z 0903 | DIODE 1n4148 EDINO4148z
SCREW 5x10-1 STEEL Jso1so10wH —D904_| DIODE 1N4148 ED1NO4148Z
SCREW 3.5x8-2 Jso1a50eTH = Jg01_| PCB CONS 2PT EXO7N41226
OUTSIDE TOOTH WASHER 902 | PCB CONNYS 2° T EXO7N41226
5.5x10x03 JW315510CN L901 | BEED COAIL 6xtOx3t ECBADIE553
~--~_| INSIDE TOOTH WASHER ‘CHOKE COIL 6.8uH ECCHK 16098
4x8x0.3 .sw3240080N SPRING COIL 1x6.5x7t ECSPG18069
sn _| FIBER WASHER 4.9xt5x1T | xZz7901882 ‘SPRING COIL 1x6.5x7t ECSPG18069
SIFIR 1K (S) TYPE RE10200046,
8.11 POWER PCB RELAY DS2-M-DCaV Ex05N40825
REF#_| DESCRIPTION PARTS RF COIL ECRFZ10096
RF COIL RCRFZ10097
POWER PCB EPAQIOO10A ae ean
CIFIR 22W ‘4W(U) TYPE Rou1422042 TR28C2290 Tascoz290z
fot | GRR ik M0) YPE RCP1410242 TR2SC1406-GR TeSDO1406R
R902 | C/F/R 1K YAW(M) TYPE ROM141024A M'TYPE JACK (M PIN)
R903 | C/F/R 39K 2W(P) TYPE RCP203904Z TMP-IPIX-V6 Gzzzs00622
R904 | C/FIR 1W YAW(U) TYPE RCU1410942 CPIN AG 220 GZZZ500112,
R909. | G/FIR 10K “4W(U) TYPE Rout41034z SHIELD COVER ‘MT2970040x
R910 | SIFIR 10K (5) TYPE RE10300069 ——~_| ONSERT M2.6xMsx3t MTTURB160X
R911 | CHIR 10k HW(P) TYPE RCP1210342 HEAT SINK MT2970080x
‘Wo/R 220W 2W/(P) TYPE RFP2O22 147,
GG 22pF SOWV SLI ccosoza0aL
C901 | CiC 0.tuF soWV siz cooso1047t
902 | C/C 3909F SOWV SL k ‘ccoso3915L
903 | C/C 390pF SOWV SLK Ccososa15t
6905. | CC 31uF SoWV SL Z ecosoros7t
6906 | C/C 0.tuF SOWV SLZ ccoso1047L
6908 | MICAX 180pF a00WV 5 cos0018147
909 | MICA/C 680pF 300Wv J 030068142
910 | MICA/C 180pF 300W J coso01814z
6916 | MICAC 150pF 300WVJ 030015142
917 | MICAC 100pF Soo 6 (€050010182
918 | MICAC 68pF 300WV J c030068047
C919 | HV DISCIC O.01uF
DE1St0E103z1K ex00710372
920 | cic 0.1uF SOWY sL.Z ccosoro47L
921 | cic 0.1uF SOWV SLZ ccosor047L
C922 | BC 220uF tewvz ceo1622772
8-13
SECTION 9
RMA g(a OUND
Ror yale oa)
BOARD LAYOUT
RAN!
|| Communications, Inc.
\esssrussecanenncen eee
***** THIS PAGE LEFT INTENTIONALLY BLANK *****
RCI-2950 MICROPROCESSOR CONTROL BOARD
+ POST MARCH, 1995 (SMD VERSION) ONLY «
(TOP VIEW)
"pe ® u bee ” 7
id aes iy ° []
a ct Be, J
(BOTTOM VIEW)
ae Oo « A
L DPL29s0407z 4
RCI-2950 SURFACE MOUNT (POST MARCH 1995 VERSION)
SECTION 10
RANGER Ra ee uN Walt
Communications, Inc. U
He Pee
RCI-2950 SURFACE MOUNT CPU P.C.I 10.0 RCI-2950 SURFACE MOUNT CPU P.C.B (con)
iefe_[ oescAIPTION ARTE aera oescarTion PART
----- | CPUPCB ‘DPT2950402 C612 | O.1uF SOWVZ SL CK1104AB7L_
KEY SW PCB EPT296031Z C613 | O.1uF SOWVZ SL CKI104AB7L_
C/FIR 1.5K OHM "heW P_ RCP161524Z, C614 | 0.1uF SOWVZ SL. CK1104AB7L
‘TACT SW JIP-1250 EWPS33042X_ C615 | 0.1uF SOWVZSL CKIT04AB7L_
IC PIN EXO7N48414 C616 | O.1uF SOWVZ SL CK1104AB7L_
PCB CONNECTOR/S EXO7N48441 C617 | O.1uF SOWVZ SL CKIT04AB7L
CARBON FILM RESISTORS 1.6. (S.M.D)
REOT | 10K O.1W RCYO11034Z U601 | HD404818C89FS 80 PIN YNRG2950SP-
R602 | 1M O.1W RCYO110542 U602 | AN8005M-E2 3 PIN YNMAO8005M
REOS | 10K 0.1W RCYO11034Z U604 | BU4094BF 16 PIN YNRO040948
R604 | 82 OHM YW (U) TYPE RCU1282042, U605 | BU4094BF 16 PIN. YNR004094B
REOS | 10K 0.1W RCY011034Z U606 | P93L46 BP YNEXO3L46P
R604 | 562 %W(U) TYPE RCU1256042
R607 | 5.6K 0.1W RCY015624Z TRANSISTORS:
RGO8 | 470K 0.1W RCYO14744Z,
REO9 | 47K O.1W RCYO14734Z, Q601 | 28C2712GR-TEBSL TY2SC27126
R610 | 10K O.1W RCYO11034Z 602 | 2sD999 ‘Ty2sp0999Z
R611 | 10K O.1W RCYO11034Z, Q603 | 2SC2712GR-TEBSL TY28C27126
RGI2 | 47K 0.1W RCYO14734Z, 0604 | 2sD999 ‘TY2SD0999Z
‘R613. | 47K 0.1W RCY014734Z, Q605 | 2SC2712GR-TEBSL ‘TY28C27126
R614 | 100K O.1W RCYO11044Z_ 0606 | 2SC2712GR-TESSL ‘TY2SC27126
‘R615 | 56K 0.1W RCY015634Z, 0607 | 2SC2712GR-TEBSL ‘TY28C27126
R616 | 27K 0.1W RCYO12734Z,
R617 | 56K 0.1W RCY015634Z_ DIODES:
R618 | 27K 0.1W RCY012734Z_
R619 | 56K 0.1W RCY015634Z 0601 | 1SS355 EDSSOO355Y
R620 | 27K O.1W RCY0127342 D602 | 1SS355 EDSSOO355Y
R621 | S6K O.1W RCYO15634Z,
R622 | 56K O.1W RCY0156342_ MISC.
R623 | 27K O.1W RCY012734Z
R624 | 27K OW RCY012734Z, LCD DISPLAY MT-628PAT ‘EXO3N40460
R625 | 56K O.1W RCYO15634Z, 601 | KBR-4.0M EX14N46510
R626 | 56K O.1W RCYO15634Z, BZ601 | BUZZER PKM35-4A WHY EX14N46511
R627 | 10K O.1W RCYO11034Z_
R628 | 47K O.1W RCY014734Z, PCB CONNECTOR/S:
R629 | 33K 0.1W RCY013334Z,
‘R630 | 150K 0.1W RCYO11544Z_ CN6O1 | 4PT EX07N41250
R631 | 10K 0.1W RCY011034Z, CN602 | 2PT EXO7N41226,
CN6O3 | 3PT ‘EXO7N41216,
CERAMIC CAPACITORS CN6O4 | 3PT ‘EXO7N41216,
NGOS | 3PT EXO7N41216,
C601 | 33pF SOW CK1330AB4A CN606 | 6PT EXO7N41266,
C602 | 0.1uF SOWVZ SL CKONI4AB7L CN6O7 | 6PT ‘EXO7N41266
C603 | O.tuF SOWVZ SL CKOII4AB7L ‘CN608 | 2PT ‘EXO7N41226
C604 | 1000uF 10WVZ CEO101087Z, CN610 | 3PT EXO7N41216
C605 | 0.1uF SOWVZ SL CKO1I4AB7L_ JP601 | 4P° EXO7N48440
C606 | 33pF SOWV CK1330AB4A JP602 | 4P ‘EXO7N48440
607 | ozauF soy 2vsv cki2nias7e SHORT] SHORT PIV exornaetst
C608 | 0.001uF SOWVZSL CK1102AB7L SHORT SHORT PIN. X07N48151
C609 | 0.001uF SOWVZ SL CK1102AB7L_ ‘SK601 | 6P ‘EXO7N48772
C610 | O.tuF SOWVZ SL CK1104AB7L_ ‘SK602 | 6P ‘EXO7N48772
C611 | O.1uF SOWVZ SL CK1104AB7L_ LP601 | 5.3V 150mA EXO1N40102
rece | 8.3V 150m pxorNaot02
10-1
W
VIE
RCI-e950 EXPLODED
MAIN GICOTdX4 OL6Z-104
LIMITED WARRANTY
Ranger Communications, Inc. (Ranger) warrants to the original purchaser ONLY
this product against defects in material or workmanship as follows:
(1) Ranger warrants the product to be free of defects in material for a period of
one (1) year from the original date of invoice or other proof of purchase. Labor to
perform warranty services will be provided without charge for the first ninety
(90) days of the warranty period. After this period, the original purchaser must
pay for any labor at the prevailing rates at either an authorized Ranger warranty
repair facility or at the factory. In addition, Ranger will supply, at no charge, new
or rebuilt replacements for defective parts during the warranty period.
(2) In the event of a defect during the warranty period, Ranger shall, at its option,
repair or replace the defective product. Such action shall constitute the purchaser's
exclusive remedy under this warranty.
(3) A Return Authorization Number must be obtained from the Ranger Customer
Service Department before any returns for warranty repair will be accepted. Send
the defective product postage-paid, along with proof of the date of purchase
(photocopy of the original invoice or receipt) to:
(RANGER |
Communications, Inc. j
3377 Carmel Mountain Road
San Diego, CA 92121
(619) 259-0287 » FAX (619) 259-0437
(4) This warranty does not cover cosmetic damage or damage due to acts of
God, accident, misuse, abuse, negligence, improper installation, UNAUTHORIZED
MODIFICATION or any action in violation of the product's instruction manual.
This warranty is valid ONLY in the United States of America.
(5) This warranty is valid ONLY if the serial number appears on the products.
(6) Ranger reserves the right to void a warranty or make reasonable charges for
the repair of a product which displays evidence of misuse, abuse, neglect, acci-
dent, or modification of the basic design.
(7) Warranties give you, the buyer, specific legal rights. You may also have other
tights which may vary from state to state. This warranty is extended only to
Ranger products purchased and shipped to locations in the United States of
America or its possessions.
RANGER |
Communications, Inc.
Va
3377 Carmel Mountain Road
San Diego, CA 92121
(619) 259-0287 » FAX (619) 259-0437
SS
(RANGER | eS
EDT)
(artes
(_ Communications, Inc. |]
a
Source Voltage = 13.80; Frequency = 28.000 MHz; Power Settings = AM 2W SSB 25W
AM/FM/SSB AM/FM USB/ALB
NB/OFF NB/ON RX TX AX OK
at E= 0.00 1.06 a9 —= GRO GRO GRO GRO
2sc1675 C= 0.00 7.67 28C1674 C= 304 003 0030.02
NPN B= 0.00 1.7 NPN B= O71 «001082 O.8t
AM/FM/SSB AM/FM USBAB
NB/OFF NB/ON AX 1X RX OK
a2 —= GRO GRO 10 Es 226 0.01 0.00 0.01
2SC1675 C= 0.00 2.09 2SC1675 C= 5.764 0.02 8.02 0.02
NPN B= 0.00 0.71 NPN B= 303-002 0030.02
AM/FM/SSB AM/FM. USB/B
NB/OFF NB/ON ax 1K ORK OK
a3 E= 0.00 1.45 at 1.52 0.01 0.01 0.01
2sc945 C= (0.00 7.76 2S8C1675 6.49 0.02 8.02 0.02
NPN B= 0.00 2.09 NPN 2.26 0.01 0.00 0.01
AM/FM/SSB AM/FM
NB/OFF NB/ON NB/OFF NB/ON
04 f= 001 1.06 RX OX
2sca4s C= 8018.01 ai Es 806 806
NPN Be 0.00 0.02 2SA733 C= (0,00 8.01
AM/FM/SSB PNP. B= 8.02 7.35
NB/OFF NB/ON AM/FM USBAB
05 E001 003 RX 1X AX IX
28045 C= 7.37 7.37 a13 —: GRO GRO GRD GRD
NPN B= 0.00 0.01 280945 C= 0.25 0.24 «0.01 0.01
AM/FM/SSB NPN Be 0.00 001 O71 Ot
NB/OFF NB/ON AM/FM USBALB
a6 f 801 aot RX RX
250733 C= 0.00 0.00 ata GRD GRO GRD GAD
NPN Beate oe 28¢945 O01 0.02 Ott 0.0
AM/FM/SSB NPN 0.70 O71 0.01 0.01
NB/OFF NB/ON AM/FM usB/LB
a7 —= GRO GRD RX ™X RX ™
2sca45 C= (0.00 0.01 ais GRO GRD GRD GAD
NPN Be 0.00 0.00 2sca4s 002 001 © 0.01 Oot
AM FM USB/LSB NPN 0.01 0.01 0.70 O71
RX TX AX IX RX IX AM/FM USBAB
a8 048 2.44 0.48 244 2.38 2.44 ee ees
2SC1674 6.93 0.03 6.93 0.02 7.60 0.02 aie 0.67 0.68 0.68 0.68
NPN Be 1.18 0.02 1.18 0.01 1.30 0.01 280945, 5.04 5.05 5.01 5.01
NPN 261.27 1.28 1.26
AM/FM USB/LB
RX 1X
nz, —& GRD GRD
280945 C= 0-001 0.02
NPN Bs 0.00 076
AM FM ——-USB/LSB
RX TX RX TX RX TX
a8 Es 1.41 0.01 1.41 0.01 1.41 0.01
2SC1674 C= 7.73 0.03 74,730.08 7.74 0.02
NPN B= 2.15 0.02 2.15 0.03 2.16 0.01
AM/SSB FM
RX TX RX TX
aig t= 1.89 0.03 1.90 0.07
J310 2= 7.95 0.02 7.95 0.07
FET = 0.03 0.01 0.00 0.01
AM FM SSB
RX TK RX TX AX TX
020 Ee 0.23 7.34 0.23 7.35 0.85 7.34/7.36umo0
2SC167S C= 0.24 3.02 0.24 1.19 6.69 7.11/7.13wMo0
NPN Be 0.95 3.41 0.95 1.96 1.60 3.40/3.42wmo0
AM/FM USB/LSB
RX TX RX TX
zt —= GRD GRD GRD GRD
2SC1675 C= 1,74 0.03 3.43 0.02/0.04wmon
NPN B= 0.22 0.02 0.73 0.01/0.03wmoo
AM/FM USB/LSB
RX TK RX 1X
022 E= 0.92 0.02 2.66 0.01/0.03wmoo
2SC1675 C= 0.93 0.40 6.52 7.09/7.16wao0
NPN Be 1.74 0.03 3.43 0.02/0.04waa0
AM/FM USB/LSB
RX TX RX TX
23 E= 0.23 0.02 1.90 0.01/0.03wasoo
2801906 C= 7.78 0.02 6.10 0.02/0.04umo0
NPN B= 0.92 0.02 2.65 0.01/0.02wa00
AM FM SSB
RX TX RX TX RX TX
a24 Es GRD GRD GRD GAD GRD GRD
280945 C= 0.01 0.02 0.18 0.05 0.01 0.02/0.20wmao
NPN Be 0.70 0.71 0.01 0.02 0.01 0.01/0.03wmo0
AM FM SSB
RX TX AX TK AX TK
025 «Exon 8.05 806 0.01 0.02 0.01 0.01
orF 7.38 7.39 0.01 0.02 0.01 0.01
2SA733. Cz0N 0.16 0.22 0.01 0.02 0.01 0.01
orF 7.98 7.28 0.01 0.02 0.01 0.01
NPN Bon @01 8.02 0.01 0.02 0.01 0.02
(ANL) OFF 6.72 6.73 0.01 0.02 0.01 0.02
026
2sc945
NPN
27
2sci675
NPN
028
281675
NPN
29
28C1675
NPN
030
2sca45
NPN
31
2SA945
NPN
32
280945
NPN
033
2894s
NPN
034
28945
NPN
AM/FM/SSB
aX
™
228 2.29
719 7.20
2.82 2.84
AM/FM/SSB
RX =X
Ee 270 271
C= 5.93 5.94
B= 344 3.45
AM/FM/SSB
RX TX
— GAD GRO
Ce 4.96 4.37
Be O72 072
AM FM SSB
RX TX RX TX AX TX
= GRD GRO GAD GRD GAD GRD
7.95 7.96 0.02 0.07 7.94 7.95
0.01 0.02 0.75 0.79 0.01 0.01
AM/FM = SSB
RX TK AX TX
E= GRD GRD GRD GRO
C= 0.02 0.03 2.95 2.89/2.91ww00
Be O.71 0.72 0.01 0.01/0.03wmoo
AM FM SSB
RX TX AX TX RX TX
Ee 8.06 8.06 8.06 8.06 8.06 8.05/7.57wao0
C= 0.14 -0.34 0.11 -0.39 -0.11 -0.43/5.46wm00
Be 8.02 8.02 8.02 8.02 8.02 8.02/6.95wn00
AM/FM
RX TX
E= GRD GRD
C= 0.01 0.01
Be 0.71 0.01/0.50wmo0
AM/FM/SSB
RX TX
= GRD GRO
C= 0.25 0.72/0.74wsse moo
B= 0.24 0.57/0.58wsse moo
AM/FM/SSB
RX 1X
E= GRD GRO
1.32, 0.01/0.44wawssa woo
Be 0.00 0.00/0.01wsse mao
AM/FM/SSB
ROGER ROGER
BEEP = BEEP
ON OFF
RX TX RX TX
035 8.06 8.07 8.06 8.07
2SA733 3.05 -0.70 8.05 8.06
PNp 8.02 8.03 7.41 7.42
AM/FM/SSB
RX ™
036 = 0.01 0.35
280945, 8.03 8.04
NPN 0.01 0.02
AM/FM/SSB
RX =X
037 E= 805 8.06
2SA1282 C= 8.02 0.02
PNP Be 7.36 8.05
AM -FM/SSB
RX TX RX TX
8.06 8.05 8.06 8.04
0.00 7.95 0.00 7.96
8.02 7.27 8.02 7.28
AM/FM/SSB
RX ™
039 = GRD GRD
280945 C= (0.05 8.04
NPN Be 0.63 0.01
038
2SA1282
PNP
AM/FM/SSB
AX TX
a4o Es 8.05 8.06
2SA1282 C= 0.28 8.04
PNP Be 7.54 7.35
AM/FM/SSB CW MODE
RX TX RX TX
a4 E> GRD GRD GRD GRD
280945 C= 029-315 0.01 0.02
NPN Be 0.00 0.01 0.70 0.71
AM/FM/SSB
RX 1K
42 = 015 016
2sca4s 1.65 1.65
NPN 077 078
AM/FM SSB
RX ™ RX TX
043 Ee 0.01 1.41 1.38 1.40/1.05qm00
2SC167S C= 8.04 8.04 8.04 8.04/5.60wao0
NPN Be 0.00 0.01 0,00 0.01/0.07.atoo
047
NPN
ast
288754
PNP
as2
280945
NPN
053
2SA473
PNP.
AM/FM SSB
RX TX RX TX
Es 001 141 1.38 1.40
C= 003 4.56 4.54 4.57
B= 0.02 212 210 212
AM/FM/SSB CW
RX TX RX IX
0.00 0.01 804 5.58
= 0.01 0.02 0.00 5.54
Bs 8.04 8.05 8.04 4.91
AM/FM SSB
RX TX RX IX
0.00 0.68 0.00 0.88/0.71mwao
4.15 3.80 13.25 12.60/15.1 woo
GRO GAD GRO GAD
AM/FM SSB
RX IX RX IX
0.00 0.68 0.00 0,68/0.7twmoo
448 3.80 13.25 12.60/15.11wwoo
GRO GRO GRD GRD
AM/FM SSB
RX TX RX TX
0.00 0.74
13.25 12.75
GRD GRO
SSB
RX OX
0.00 0.70 0.00 —0.57/0.59wmoo
0.00 8.30 0.00 —7.95/8.06wnoo
0.00 1.25 0.00 1.28/1.30wao0
AM/FM SSB
RX TX RX 1K
0.00 0.71 0.00 0.66/0.62ea00
0.00 7.95 0.00 7.95/7.97wmoo
0.00 1.41 0.00 1.45
AM/FM SSB
RX TX RX 1K
Es 13.31 12.74 13.25 12.80/12.15waoo
C= 4.29 3.43 13.25 12.30/11.52wMoo
B= 13.79 13.57 13.79 13.66/13.39wmo0
AM/FM SSB
RX TX AX TX
4.18 3.48 12.85 12.55/11.79xm00
1.30 12.18 12.63 12.90/11.52wmoo
4.03 4,03 12.27 11.75/11.23em00
AM/FM SSB
RX TX AX IX
13,90 12.15 12.63 12.30/11.52wa00
1.29 3.43 13.26 12.80/12.13wm00
3.31 12.74 13.25 12.80/12. 15000
054
2sca45
NPN
055
28¢945
NPN
056
28c945
NPN
7
2sca45
NPN
ase
2sc945
NPN
(ct
SQ AMP,
AGC AMP
NJM324D
ce
FM DET
uPct028H
AM/FM
RX TX
—= GRD GRD
C= 13.30 12.18
B= 0.00 0.02
AM/FM
RX =X
per
e222
2
g
6
AM
RX TX
SSB
RX TX
GRD GRD
0.05 —0.05/0.07wwa0
0.73 0,79/0.75waoo
SSB
RX 1X
1.65 1.62/1.53watoo
8.05 8.05/6.90wmoo
0.63 0.63/0.63uaa0
SSB
RX TX
GRO GRO
0.01 0.01/0.03uatoo
0.71 0.71/0.73e0ma0
FM SSB
RX TX RX TX
E2 GRD GAD GRD GRD GAD GRD
C= 0.02 0.03 0.71 0.72 0.71 0.72/0.73wmoo
Be 0.69 0.70 0.00 0.02 0.00 0.01/0.03wmoo
AM
RX 1X
FM SSB
RX TX RX TK
E= 0.01 0.02 0.38 0.40 0.01 0.01
Ce 02 4.32 4.32 0.01 0.01
Be
0.01 0.02
4.02 1.03 0.01 0.01
IC VOLTAGES
‘SQUELCH
OFF ON
6.66 6.66
0.01 0.01
4.05 4.05
4= 8.08 8.06
5= 0.02 0.02
AM/FM
SSB
Ie 0.03
BAL MOD 3.22
ANG12 3.20
GRO
5.75 5.92 5.80
722 7.40 7.28
ica t= 8.02 8.02
NJM7805 2= GRD GAO
VREG «3. 5.04 5.05
AM/FM/SSB
RX/TX
Jes t= 2.94
Tes081 = 3.36
PHASE- 35 3.36
COMP = 4= 7.39
5s 7.41
b= 7.23
Ts 287
8 7.37
92 GRO
cs j= 13.63 13.32
NIM7808 2= GRD GRD
VREG = 35 8.06 8.07
AM/FM «USB LSB
RX TX RX TX RX TX
\c7 0.01 0.02 0.02 0.02 0.02 0.02
Tc5081 795 7.95 7.95 7.95 7.95 7.95
PHASE- 1.90 1.90 236 2.36 1.49 1.49
comp. 7.98 7.98 7.98 7.98 7.98 7.98
7.99 7.99 7.99 7.99 7.99 7.99
799 7.99 7.99 7.99 7.99 7.99
1.97 1.97 1.97 1.97 2.00 2.00
257 2.57 287 257 257 257
GRD GRD GRD GRD GAD GAD
AM/FM/SSB
RXITX
ica t= 2.58
TA7310 = 1.90
veo 1.22
MIXER 2.63
GRO
5.00
2.07
5.03
4.62
AM/FM/SSB
RX/TX
Ico 1s 256
TAT310 = 217
veo 3:
MIXER
de
AM/FM/SSB
RXITX
2.62
1.94
1.23
2.65
GRD
$.03
2.09
5.04
4.62
cto
TA7310
veo
MIXER
PPrPr rere
AM/FM/SSB
lent
Tes082P
‘CMOS FREQ.
DIVIDER
and AMP
AX/TX
12
2
3s
4s
Se
&
Ts
be
Qe
0.98
2.85
278
2.52
5.21
2.46
257
257
GRD
AM/FM/SSB
RX/TX
GRD
GRD
2.21
GRO
4.22
422
4.22
2.37
era te
HD10551 2s
3e
4=
5s
6:
Te
8:
era 1
HD10551 2=
GRO
GRD
2.32
GRO
= 4.22
422
4.22
2.36
icra t= 262
TAT310 2.28
veo 0.01
MIXER 4= 2.66
GRO
5.02
2.10
5.03
5.01
AM/FM/SSB
RX
3.88
3.89
3.88
GRO
= 4.16
6 3.11
= 7.10
8 7.78
%
387
3.88
3.88
GRD
214
att
2.10
7
AM/FM
AX
le17 t= -2.37
CX79258 = 4.86
4.86
4.87
2.00
2.18
3.43
a2
GRO
™
2.36
487
487
487
GRO
AM/FM/SSB
RX
t= 13.64
TA72224P 6.55
AUDIO- 0.01
AMP 4= 0.00
1.10
11
GRO
&= GRD
d= 6.80
10= 12.92
Ie19
™
13.30
6.42
0.02
0.50
2.14
2.12
GRO
GRD
0.01
11.02
USB
237 -2.36
4.86 4.87
4.88 4.87
487 4.87
2.00 2.00
26 2.16
3.43 3.43
0.19 0.20
657 657
0.23 0.23
0.48 0.48
4.78 4.78
2.00 2.00
GRO GRD
LSB
RX TX RX TX
237
4.88
4.86
487
2.00
2.20
3.43
0.23
6.57
0.23
0.48
478
2.00
GRD
2.36
487
487
487
2.00
220
3.43
0.24
657
0.23
0.48
478
2.00
GRD
AM/FM/SSB
RX
ie20 t= GRD
s042P = 0.00
TRANS- 0.00
MIXER GRO
0.00
GRO
0.00
0.00
GRO
0,00
0.00
01083
GRD
AM
RX
j= 8.05,
0.00
0.01
8.06
8.06
0.00
7= GRD
8= 0.00
9 8.05
10= 8.05
t= 0.44
12= 0.01
13s
142
eat
‘Te4069UBP
cMos
HEX
INVERTER
1
2
PTEP
8.05
8.06
™
77
vt
GRO
27
GRO
2.92
2.92
GRO
0.82
1.45
0.82
1.45
GRO
VFM
™%
8.04
0.01
SSB
RX 1X
0.78 0.73
778 7.78
0.01 0.02
079 0.73
0.79 0.73
778 7.78
GRO GRO
0.00 0.01
8.05 8.04
8.05 8.04
001 0.02
8.05. 8.04
8.06 805
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RANGER COMMUNICATIONS, INC. |
""&cl-2950 SURFACEMOUNT CPU pee
SCHEMATIC DIAGRAM
ere 01/23/96 sees !
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