Yaesu FT-11R Service Manual (En)
Yaesu FT-11R Service Manual (En)
TECHNICAL
SUPPLEMENT
CNTLUnit......................................... 4B-1
SWUnit .......................................... 4D
CONTACT Unit . .................................... 4E
VCOUnit ......................................... 4F
,------------------------1
The information in this manual is intended coils, electrolytic capacitors, ICs, etc.), or
to supplement the FT-11R Operating ManuaC leaded components only.
for servicing the transceiver. Specifications
While we believe the technical information
and details of operation and options are pro
in this manual is correct, Yaesu cannot assume
vided in the operating manual, and are not
liability for any damage that may occur as a
reprinted herein. Therefore, the manual is not
result of typographical or other errors that
intended to serve as an independent refer
may be present. Your cooperation in pointing
ence, but to be used in conjunction with the
out any inconsistencies in the technical infor
information provided in the operating man mation would be appreciated.
ual. The FT-11R is intended to be serviced
The technical information on this manual
only by qualified technicians.
supersedes all previously published informa
Two PCB layout diagrams are provided for
tion on this product. Where information is
each double-sided circuit board in the trans duplicated in this manual and the operating
ceiver. Each side of the board is referred to by
manual, this manual should generally be con
the type of the majority of components in sidered more current.
stalled on that side ("leaded" or "chip-only").
Yaesu Musen reserves the right to make
In most cases one side has only chip compo
changes in the circuitry of this transceiver, in
nents, and the other has either a mixture of
the interest of technological improvement,
both chip and leaded components (trimmers,
without obligation to o wners.
1 -1
FT-lJR Technical Supplement
Chip Component Information
0 0 10°
Ceramic Capacitors
Resistors
Type L w T
Indicated Letters
1 2 3 4
5 Ii 7 :
' 0 •
1-2
FT-llR Technical Supplement
Chip Component Information
Replacing Chip Components Precautions for Chip Replacement
Chip components are installed at the factory )( Do not disconnect a chip forcefully, or the
by a series of robots. The first one places a spot foil pattern may peel off the board.
of adhesive resin at the location where each
)(Never re-use a chip component. Dispose of
part is to be installed, and later robots handle all removed chip components immediately
and place parts using vacuum suction. to avoid mixing with new parts.
For single-sided boards, solder paste is ap )( Limit soldering time to 3 seconds or less to
plied and the board is then baked to harden the avoid damaging the component and board.
resin and flow the solder. For double-sided
boards, no solder paste is applied, but the Removing Chip Components
board is baked (or exposed to ultra-violet) to
• Remove the solder at each joint, one joint at
cure the resin before dip soldering.
a time, using solder wick whetted with non
In our laboratories and service shops, small acidic flux as shown below. Avoid applying
quantities of chip components are mounted pressure, and do not attempt to remove the
manually by applying a spot of resin, placing tinning from the chip's electrode.
with tweezers, and then soldering by very
small dual streams of hot air (without physical
contact during soldering). We remove parts by
first removing solder using a vacuum suction
iron, which applies a light, steady vacuum at
the iron tip, and then breaking the adhesive
with tweezers.
1 -3
FT-llR Technical Supplement
Chip Component Information
3 seconds.
arrow in the diagram below. Do not apply
heat for more than
1-4
FT-llR Technical Supplement
Transceiver Disassembly and PCB Access
CNTL & AF Unit Removal 0 Referring to Fig. 3, remove the two screws
Before beginning, turn the radio off, re from the metal Sub-Panel, and lift the unit
move the soft case, if used, and the battery out and set it aside.
pack. During the disassembly procedure, be 0 Remove two screws from the AF Unit PCB,
careful not to mix removed screws (some are then slowly and carefully lift up the AF
similar in size, but have different types of Unit to free it from the two connectors that
threading/pitch). mate it to the CNTL Unit beneath. Note
0 Lay the transceiver on a flat surface cov that the CNTL Unit is connected to the
ered with a soft cloth to protect the front Keyboard Unit by a flat ribbon cable and
case from marring, and remove the six connector.
rear-panel case screws (Fig. 1).
Figure 3.
Figure 1.
0 Referring to Fig. 4, remove the two screws
0 Next, carefully separate the front and rear from the metal frame, and the screw affix
transceiver halves, being careful not to lose ing the flexible metal spring plate at the
the case-mounted swivel and battery re upper-right corner. Lift the CNTL Unit
lease slide. (along with the Keyboard Unit) from the
0 Disconnect the flat ribbon cable from it's front case. To remove the Keyboard Unit,
connector on the AF Unit by using two use a small screwdriver to slide the cable
fingertips to slide out the cable release, release outward to free the ribbon cable.
then unplug the 3-pin connector from the Then separate the Keyboard Unit from the
Mother Unit, as shown in Fig. 2. CNTL Unit.
Figure 2. Figure 4.
2-1
FT-llR Technical Supplement
Transceiver Disassembly and PCB Access
Mother Unit Removal 0 The Sub-Panel Unit also contains the Con
0 Remove the top panel DIAL selector knob tact Unit, which makes electrical connec
and antenna gasket, as shown below, then tion with the battery p ack using 4
remove the locking nuts from the BNC jack spring-loaded pins. To separate the Con
and rotary switch. Use a tool designed for tact Unit, use an iron and desoldering
this purpose, or a pair of needle nose pliers braid or vacuum-type suction unit to
desolder the 4 pin connections on the PCB
Fig. 5 below.
(take care not to damage the threads), see
(Fig. 7). The Contact Unit can then be re
moved from the Sub Panel.
Figure 5. Figure 7.
0 Next remove three screws from the Mother 0 This completes the disassembly proce
Unit, and two from the RF Power Ampli dure, reassemble all units in the reverse
fier Module, as shown above. manner, paying attention to screw type
0 Unsolder the antenna lead from the BNC and location. With the CNTL and Key
board Units removes, the translucent key
from the base (see Fig. 6). Slide the Mother
jack center conductor, and the ground tab
board membrane can be popped out for
Unit out from rear case, being careful with replacement if needed.
the RF Power Module leads Be sure to keep the rubber gasket around the
AF Unit MIC & EAR jack, and to carefally
align it with case cut-out when reinstalling
the AF Unit into the case.
Figure 6.
2-2
FT-JJR Technical Supplement
Exploded View & Miscellaneous Parts
R3519680
WIN DOW
R71 4801 0
DOUBLE FACE
ADHESIVE
R3807851
-PAN E L FRONT ASS"Y
M3290020
M IC E L E M E N T
R351 9690
K N OB
REF. YAESU P/N Description Qty.
(J) U07240101 PAN HEAD SCREW M2X4 #1 2
SW Unit
R3807770A
/"'°'
R01 48540A
HOLDER
AF Unit
R3519550
CAP
R0807760A
PANEL SUB
Contact Unit
R6054387B
SPECIAL N UT
R31 47240A
R4807820
PAN E L REAR
R71 48020
BOOTS
2-3
Alignment
The FT-llR is carefully aligned at the fac from use of improper test equipment is not
tory for the specified performance across the covered under the warranty policy. While
amateur band. Realignment should therefore most steps do not require all of the equipment
not be necessary except in the event of a com listed, the interactions of some adjustments
ponent failure. All component replacement may require that more complex adjustments
and service should be performed only by an be performed afterwards. Do not attempt to
authorized Yaesu representative, or the war perform only a single step unless it is clearly
ranty policy may be void. isolated electrically from all other steps. Have
The following procedures cover the some all test equipment ready before beginning,
times critical and tedious adjustments that and follow all of the steps in a section in the
are not normally required once the trans order presented.
ceiver has left the factory. However, if dam:
Required Test Equipment
age occurs and some parts subsequently are
replaced, realignment may be required. If a D RF Signal Generator with calibrated
sudden problem occurs during normal op output level at 200 MHz
eration, it is likely due to component failure; D Deviation Meter (linear detector)
D
realignment should not be done until after Oscilloscope
the faulty component has been replaced.
D AF Millivoltmeter
We recommend that servicing be per
D SINAD Meter
formed only by authorized Yaesu service
technicians who are experienced with the cir D In-line Wattmeter with 5% accuracy
cuitry and fully equipped for repair and at 200 MHz
alignment. Therefore, if a fault is suspected, D Regulated DC Power Supply adjustable
contact the dealer from whom the transceiver from 3 to1 2 VDC, 2A
was purchased for instructions regarding re
D Frequency Counter: 0.2 ppm accuracy
pair. Authorized Yaesu service technicians re
align all circuits and make complete at 200 MHz
performance checks to ensure compliance D AF Signal Generator
with factory specifications after replacing any D DC Voltmeter: high impedance
faulty components.
D DC Ammeter 3 A
D Spectrum Analyzer
Those who do undertake any of the follow
ing alignments are cautioned to proceed at
their own risk. Problems caused by unauthor D VHF Sampling Coupler
ized attempts at realignment are not covered
by the warranty policy. Also, Yaesu reserves Alignment Preparation & Precautions
the right to change circuits and alignment A 50-Q dummy load and in-line watt
procedures in the interest of improved per meter must be connected to the main antenna
formance, without notifying owners. jack in all procedures that call for transmis
Under no circumstances should any align sion, except where specified otherwise. Cor
ment be attempted unless the normal func rect alignment is not possible with an
tion and operation of the transceiver are antenna.
clearly understood, the cause of the malfunc After completing one step, read the follow
tion has been clearly pinpointed and any ing step to determine whether the same test
faulty components replaced, and realignment equipment will be required. If not, remove
determined to be absolutely necessary. the test equipment (except dummy load and
The following test equipment (and thor wattmeter, if connected) before proceeding.
ough familiarity with its correct use) is neces
sary for complete realignment. Correction of
problems caused by misalignment resulting
2-5
Alignment
Correct alignment requires that the ambi
ent temperature be the same as that of the
transceiver and test equipment, and that this
temperature be held constant between 20°
and 30°C (68° - 86°F). When the transceiver is
brought into the shop from hot or cold air, it
should be allowed some time to come to room
temperature before alignment.
Whenever possible, alignments should be
made with oscillator shields and circuit
boards firmly affixed in place. Also, the test
equipment must be thoroughly warmed up
before beginning.
Note: Signal levels in dB referred to in the
alignment procedure are based on 0 dBµ = 0.5 µ V
RF Output Levels
ADAPT BATT
GND
't�
L 0/11! I 0.2 - 0.4 W
=====
+
11V DC
PS
'" I
_
I �t' =======
--=Used L 0/11! ,::'
LO/t.: 3
UIGU
1.4 - 2.0 W
2.5 - 3.5 W
4 .5 - 5.5 W
2-6 -------
2-7
li'T-11R TP.r.hnir.al 8uoolement
Alignment
S-Meter Full-Scale Adjust (" S r UL L ") Squelch Preset Tight (" SGL TI")
If you haven't done so already, perform the
Rd
1- II I
power-on key combination as previously de
TT
(�)0 key for 1/2 second (":=:d" appears blink
scribed, and remember to press and hold
VOL ..:t U.IL ' ..L
SAVE
..:t LILL
signal, then press (�)*:::::}
VOL I
This completes the internal alignment rou
tine, to save all settings and exit, press ©�),
SAVE
TSET BC
To
A
and cg) buttons depressed while turn-
0 Adjust the ��nal g,�nerator level -SdB,
�>.
s ing on the transceiver
then press @*:::::}
2-8
FT-llR Technical Supplement
Circuit Description
Receive Signal Path optional headphone jack or 8-ohm loud
Incoming RF from the antenna jack is deliv speaker.
ered to the Mother Unit and passes through a
low-pass filter consisting of coils L1008, Squelch Control
L1012, L1013 & L1014, capacitors C1070, The squelch circuitry consists of a noise
C1071, C1072, C1073, C1074, & C1075 and amplifier, high-pass filter & squelch trigger
antenna switching diodes D1007, & D1008 within Q3001, noise detector D3001
(PLS135) to the RF AMP. Signals within the (1SS302), squelch gate and level controller
frequency range of the transceiver then enter Q3002 (M5222FP), and control circuitry
a varactor-tuned bandpass filter consisting of within Q2009 (HD4074629H).
coils L1006, L1010, L1011, & L1018 capacitors When no carrier is received, noise at the
C1047, C1063, C1064, & Cl081 diodes D1006, output of the detector stage of Q3001 (pin 20)
D1011, & D1013, D1014 (all HVU202A) and RF is detected by D3001 (1SS302) to provide a
amplification by Q1024 (2SC4537). DC control voltage for squelch gate control.
Buffered output from the VCO Unit is am This voltage is delivered to NOISE pin 2 of
plified by Q1007 (2SC4537) to provide a pure Q2009 on the CNTL Unit. With no carrier pre
1st local signal between 126.3 and 130.3 MHz sent, pin 18 of Q2009 is high which signals the
f o r injection t o the 1st mixer Q1021 microprocessor to activate squelch gate Q3017
(2SK882Y). The 17.7-MHz 1st mixer product (DTC144EU), pulling the audio line to
then passes through monolithic crystal filter ground by Q3002 (M5222FP), thus silencing
XF1001 (17M1 B± 7.5 kHz BW) to strip away the receiver while no signal is being received.
all but the desired signal, which is then ampli
fied by Q1015 (2SC4215). Transmit Signal Path
The amplified 1st IF signal is applied to FM Speech input from the microphone is de
IF subsystem IC Q3001 (TK10930V) on the livered to the AF Unit Unit for pre-e�phasis
AF Unit, which contains the 2nd mixer, 2nd by C3046, R3046, before amplification by
local oscillator, limiter amplifier, noise ampli Q3003-3, -2 (NJM3403AM). To prevent over
fier, S-meter amplifier. A 2nd local signal is deviation, the audio is processed by IDC (in
generated from 17.245 MHz crystal X3001 to stantaneous deviation control) Q3003-1
produce the 455 kHz 2nd IF when mixed with (NJM3403AM) and mute S W Q1008
the 1st IF signal within Q3001. The 2nd IF then (DTC124EU) before delivery to the modula
passes through ceramic filter CF3001 tor on the VCO Unit. If an external micro
(CFWM455F), to strip away unwanted mixer phone is used, PTT switching is controlled by
products, and applied to the limiter amplifier Q2002 (OTA144EE), which signals the micro
in Q3001, which removes amplitude vari processor when the impedance at the micro
ations in the 455 kHz IF, before detection of phone jack drops.
the speech by ceramic discriminator CD3001 If a tone Burst or DTMF is enabled for
(CDBM455C7T). transmission, the tone is generated by micro
Detected audio from Q3001 is then de-em processor Q2009 and mixed with transmitter
phasized by the high-pass filter consisting of audio at the Q3003-2.
Q3008, & Q3009 (both 2SC4116) and level The modulated audio is delivered to var
controlled by VOL IC Q3002 (M5222FP) be actor diodes D6003 & D6004 (both HVU306A),
fore application to audio power amplifier frequency modulating the PLL carrier up to±
Q3004 (TDA7233D), for up to 2 watts for the 5 kHz from the unmodulated carrier at the
transmitting frequency. The modulated signal
3-1
FT-llR Technical Supplement
Circuit Description
from transmitter VCO Q6002 (2SC4226) is and a phase comparator. Stability is main
buffered by Q6003 (2SC4226) and delivered tained by a regulated 3-V supply via Q1003
to the Main Unit for amplification by Q1007 (TK11230M) to QlOOl and temperature com
(2SC4537). The low-level transmit signal is pensating capacitors associated with the 12.8
then applied to the PA Unit, where it is finally MHz frequency reference crystal XlOOl.
amplified by PA module Q1025 (S-AU28) up Receiver VCO Q6001 (2SC4226) on the
to 5 watts output power. The transmit signal VCO Unit oscillates between 126.3 MHz and
then passes through antenna switch D1007 130.3 MHz according to the programmed re
(RLS135) and is low-pass filtered to suppress ceiving frequency. The VCO output is buff
away harmonic spurious radiation before de ered by Q6003 (2SC4226) on the VCO Unit,
livery to the antenna. and then returned to the Mother Unit where a
sample of the output is buffered by Q1004
Automatic Transmit Power Control (2SC4215) for application to the presca
RF
power output from the final amplifier lar I swallow counter section of QlOOl. There
is sampled by C1067- and C1068 is rectified by the VCO signal is divided by 64 or 65, accord
D1012 (1 SS321) . The resulting DC is deliv ing to a control signal from the data latch
ered via Power Adjustment potentiometer section of QlOOl, before being applied to the
VR1002 to high/low power controller Q1017 programmable divider section in the PLL
(UMS1 ), which selects high or low power lev chip.
els, controlled by the output microprocessor The data latch section of QlOOl also re
via Q2009. The output of Q1017 is inverted by ceives serial dividing data from microproces
Q1016 (2SC4617) and passed by Q1012 sor Q2009 on the Control Unit, which causes
(2SA 1586Y) back to the input of final ampli the pre-divided VCO signal to be further di
fier ORed with the receive 5-V bus and ap vided by 25,260 (20,208) to 26,060 (20,848) in
plied to Q1020 to disable the transmitter as the programmable divider section, depend
described above under the APC description. ing upon the desired receive frequency, so as
to produce a 5 kHz or 6.25 kHz derivative of
Spurious Suppression the current VCO frequency. Meanwhile, the
Generation of spurious products by the reference divider section in QlOOl divides the
transmitter is minimized by the fundamental 12.8 MHz crystal reference by 2560 (or 2048)
carrier frequency being equal to the final to produce the 5 kHz (or 6.25 kHz) loop refer
transmitting frequency, modulated directly in ence (respectively).
the transmit VCO. Additional harmonic sup The 5 kHz (or 6.25 kHz) signal from the
pression is provided by a low-pass filter con programmable divider (derived from the
sisting of L1012, L1013, L1014 and C1070, VCO) and that derived from the crystal are
C1071, C1072, C1073, C1074, and C1075, re applied to the phase detector section in
sulting in more than 60 dB of harmonic sup QlOOl, which produces a dual 3-V pulsed out
pression (for transmitting frequencies in the put with pulse duration depending on the
amateur band) prior to delivery to the an phase difference between the input signals.
tenna. This pulse train is converted to DC by charge
pump section of QlOOl, and is then fed
PLL Frequency Synthesizer
through the low-pass filter to varactors D6001
PLL circuitry on the Main Unit consists of & D6002 (both HVU306A) on the VCO Unit.
PLL subsystem IC QlOOl (FQ7925), which
contains a reference oscillator I divider, serial
Changes in the level of the DC voltage
applied to D6001 & D6002 affect the reactance
to-parallel data latch, programmable divider
3-2 ------���-
FT-llR Technical Supplement
---- Circuit Description
in the tank circuit of Receiver VCO Q6001, Transmit Inhibit
changing the oscillating frequency according
When the transmit PLL is unlocked pin 18
to the phase difference between the signals
of PLL chip QlOOl goes to a logic low, turning
· derived from the VCO and the crystal refer
on both Q1002 and Q 1020 (DTA124EE,
ence oscillator. The VCO is thus phase-locked
DTC124EU), which then turns off Automatic
to the crystal reference oscillator.
Power Controller Q1018 and Q1019 (UMW1,
The output of receiver VCO Q6001, after 2SB11320) to_ disable the supply voltage to
buffering by Q6003, is delivered to the Mother transmitter RF amplifiers Q1025, disabling
Unit for amplification by Q1007 (2SC4537) the transmitter
before application to the 1st mixer, as de
scribed previously. Miscellaneous Circuits
Transmitter VCO Q6002 (2SC4226) oscil Push-To-Talk Transmit Activation
lates between 144 MHz and 148 MHz accord
The PTT switch on the microphone is con
ing to the programmed transmit frequency.
nected to pin 26 of microprocessor Q2009, so
The remainder of the PLL circuitry is shared
that when the PTT switch is closed, pin 15 of
with the receiver. However, the dividing data
Q2009 goes low. This signals microprocessor
from the microprocessor is such that the VCO
to activate TX/RX controller QlOll (UMH10),
frequency is at the actual transmit frequency
which then disables the receiver by disabling
(rather than offset for IFs, as in the receiving
the 3-V supply bus at Q1006 (UMB10) to the
case). Also, the transmitter VCO is modulated
by de-emphasized audio applied to D6003 &
front-end, IF, discriminator and receiver VCO
circuitry. At the same time, QlOlO (UMB10)
D6004, as described previously.
activates the transmit 3-V supply line to en
able the transmitter.
3-3
FT-llR Technical Supplement
Notes
3-4
FT-llR Technical Supplement
Block Diagram
r---------------------------------------------------------
1
XF1001
I
17M18
QI015. 01003 I
D1004 Q302 I Q3017
IF AMP
MOTHER-UNIT SW HYSTERESIS MUTE SW VOL
2SC421 SY
OAN222 OTCl44EU DTC144EU
F3404101 I SS302
VOL
Fl
5V
LOWI
DTMF AF CNTL
'
vcv
BEEP/BURST
'
' Ql 025 D1002 Q3010 Q3012
, __ RF PA SW
AF CNTL/
SW REG DRIVE
MIC MUTE
I I
S-AV28 1SS321 IM02 2SC4I16GR
VR1002
QIOl2. 01015
Ql016 Q1007 Q3003-I Q3003-2
APC
DRIVE AMP LPF IDC AMP .. ,
2SA 1586Y '
2SC4617-R 2SC4537 NJM3403AM NJM3403AM I
02CZ3.9Z
'
'
I
D3003 Q3003 - 4 I
I
MOD OET MOD AMP L--
---?
DA204U NJM3403AM
I
I
Q3015.16
REG
I
2SJ204
I
2SA1586Y
I
RN5VL30AA. UMB1
I
I
I
RN5RL30A. OAN222
: +B
I
+B
I
Q2006 Q3019, 20
,-----------1
REG -REG3
I : I
RN5RL30A 2SA 1179. FMWl
L l...
F3404102
I _ _J
I
'
I
'
l
54001 S4004
r-:-
SW I
1 : I
LOCK POWER
Q2009
SQL OFF
coNTAc T-uN 1 T
2SC4617-R
SW SW SW
I
0A221
CPU I : I
!
F3399101A
I I
I
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BATT SEL
Q2017. 08
Q2002 S4003 S4002 I 05001
BATT
I I I
DROP DET
PTT CNTL PTT LAMP I +B DIODE
, ---- I
OTA! '4EE
OTA 144EE SW SW EA40QC04F
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RN5VL35AA < ENC
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....
1
ID ...: ....:
I
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au o.. en u
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VOL UP/DOWN REG
I
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F3405101 (OPT I ONl ADAPT
--......---I
.
I
I
OTC143EE SW R N5RL 30A
L-----------
._ _________
l------------
PLL DATA
BATT SEL
--, L _J
RX LINE
TX LINE _________
D-1--
I
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02009 Q2003 Q2011 02008. 11 Q2013
COMMON LINE
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ULT3 TX/BUSY LED EEPROM LAMP CNTL DIODE SW
,
L Tl EP53A AT24C16N UMWl MATRIX OTCl44EE
rr-
I
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I 1
1
--=--=--=--=--=--=--=- -=--=--=--=--=--=--=--=--=--=--=--=--=-
--, ,
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sp
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LAMP LED LEO DR IVE LAMP LED KEY BOARD
JL_ L
F 3 4 03 ,. 01 A 2S81 I 32Q I
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I I
l __________________________ _______________________ I _____
3-5
FT-llR Technical Supplement
Interconnection Diagram
I I J3003
I
I
I I
F3406000 MOTHER-UNT
I
FPC: CABLE
I
CNTL-UNIT AF-UNIT (NO. 1***)
I I
GND
I I
(N0-2***) (N0.3***) ENC ENC
F3404101
I I
F3403101A
-
F3404102
I I
ENC ENC
I ;;:- � I I
P.STB
J
SW-UN
!N0.4***)
J40
I J2001
I I J3001
DATA
CLOCK
I
I
JOOO!
I F3405101 GND 1
H-------{
GND
SQL/MOD TONE TONE SQL/MDO
POWER ON ANT 0---r�
I
SOL OFF MOD
AF MUTE DTMF DTMF AF MUTE
PTT PTT TONE
I
NC SI G/TEMP SIG/TEMP NC
LAMP REG3
I
GND AF CNTL/MIC MUTE AF CNTL/MIC MUTE GND
CPU3 +B +B
T.SQL BEEP/BURST BEEP/BUR ST
I
T.SQL
I
POWER >+-------<6 POWER BATT SEL BATT SEL
I
T.OET SP SP T.DET
R3
_I J I )
T.STB CLONE CLONE T.STB '
SAVE
I
_____ NOISE SP GND SP GND NOISE
LOW1 LOW1
hH------<i�
GND GND GND GND
I.
LOW2 LOW2
TX
I TEMP
I
NC
I
ULT3 ULT3
IF IF
I GNO GND
,-------1 I
J2002 J3004
I
I I
I
BATT SEL POWER O N POWER ON BATT SEL
J
J2003
I :��
+B MIC +B
fX
KEYBOARD-UNIT __________
I i i
1>--��� ,
KR3 KR3 LOW2 2 TX
(N0.7***) VCO-UNIT
MIC
I
KR2 SAVE REG3 REG3 SAVE
�
� U1001 (NO. 6***)
i 0---J\ i
NC I I
KR1 ULT3 VOL VOL ULT3
F3400101
I
B
:
KRO P.STB LOW1 LOW1 P.STB
+
GNO 1
I :: !, � !,
KS3 CLOCK DATA DATA CLOCK "'
0 0
U U > D O O (l') t-
EXT
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KS2 ENC PTT PTT ENC > > U Z O U > ::::>
I I CD@®0®@0@I
a: t- > '-" L > IJl D
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I I
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KS1 GND ENC ENC GND
---j
I
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I I �'
NC
)
KSO
A
I i J
Q�
I
KS4
I
KS4
GND
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LAMP LAMP
____________
I GND
I
GND
I I J3005
1£ ]J
L J I I I _J
W (Y)a�i:ec.<1
I
uJ
I
If)
______
I : _ I
Z � (f) O CJl D l- 0 t- 0
_ _ _ _ L
<t m z
------�,�tn�
1 _ _ _ __ __ .------ _ _,
--------
::::.:::
WIRE ASS'Y
,--� J J
l
§ � � � � � � ct\
- 2 3 ;
CONTACT-UNIT
J I
U U U W fT1 -.J 1- CD <I: 0 _J m o
J I
z z z z
Sijj + i'5
(N0.5***)
u:J
I I
MC0001
I I
SP0001 F3399101A
�
m
I i'--
T-SQL-UNIT (OPTION) t- If)
----------- J I
Q. t- t-
<t t- 0 1-
FTS-26 F3410101 0 "' z "'
-- -0-0-0-0--- -
<l m "' m
'-- --
0 0 0 0
� 05000114
CONNECTOR P I N
3-6
FT-llR Technical Supplement
----- MOTHER Unit
Circuit Diagram
,--------------��--��------------------------------------------------------------- 1
I MOTIER-UNIT
(2 OOV)
I
(2 20V)
F3404101 c��· I
1 1 25dBm
I
ov (2.30v) s. 2ov (8.90V) s.2ov (8.30v)
ov ( 2_sov)
I
?:JV O<
0.90V (2. lOV )
I
I
Lt007 01007
1u Fl.St35
��
C1069
L1006 L1012 L1013 L101-4
o. 0490..J o. 0499..J o.0496.J o.0498.J
��>I
"1i
u Kl
- 1 2.5dsµ I
I
I
I
I
I
I
I
I
I
01005
OA/'222
Ct061
Q, OCH
?:JV B
XF1001
17M1B
[
J1002
P0090966
I -5.9dBµ
I
L1006 L1011
L0022235 L0022235
I
I
I
I
I
L ____
�
a:
® @ © @
To AF Unit JJOOJ
HIGH
TX
(See Page 4C-1 )
LOWl 2.lOV a.3aV a.7av RX
a.3av
®
LOWl LOW2 LOW3
LOW2 2.4aV 1.aav 1.3aV 1.aav H H
® H
TX L L L
H
HIGH
LOW3 2.BOV 1.40V 1.Bav 1.4av L L L
3.20V 2.laV 2.4aV 2.laV
RX ov ov av av
4A-1
FT-llR Technical Supplement
f
(
(
--
--- MOTHER Unit
Parts Layout
I
Fin
Vin Vout Gate
Pin 2 0 ........_
J1002
To CONTACT Unit
I I
Base 2 Base 2
(See Page 4E)
Collector 1 Emitter 2 Collector 1 Emitter 2 Collector Collector
1. BATT SEL Source
~ ~ ~
2. +B
3. GND
UMB10 (B10) UMH10 (H10) OTA124EE ( 15) 2SA1586Y (SY) 2SK882Y (TY)
obverse view of component side (01006, 1010) (01011) (01002) (01012) (01021)
I
Emitter Common Emitter Common Collector Collector
I
Collector
Basel Base 2 Basel Base 2
~
Collector 1
UMW1 (W1)
Collector 2
~
Co11ector 1
UMS1 (S1)
1,,;011ecror 2
Base
OTC124EU (25)
Emitter Base Collector
2SB1132 (BAO)
Emitter Base
(01018) (01017) (01008, 1014, 1020, 1026) (01019) (01009) (01007, 1023, 1024)
2SC4215Y (OY) 2SC4617 (BR)
(01004, 1015) (01016)
2SC4245 (HB)
(01002)
Cathode Cathode
Cathode 1,2 Anode 1,Cethode 2 Cathode 1,Anode 2
obverse view of chip side OAN222 (N) 1SS321 (F9) 1SS302 (C3) MA721 (M1M) 02CZ3.9Z (3.9)
(01004, 1005) (01002, 1012) (01003, 1010) (01001) (01015)
4A-3
FT-llR Technical Supplement
MOTHER Unit
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ------------------ ------ -- - ----
-- - ------------------ ---- ----
- ------ -
4A-5
FT-lJR Technical Supplement
MOTHER Unit
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ------------------ - ------
- --------------- -- - --------- -------
c 1 049 CH I P CAP. O. O l uF 16V B EMK 1 0581 03K-F K221 28802
c 1 050 TANTALUM CH I P CAP. 3. 3uF 1 6V TEMSVA 1C335M-8R K78 1 2002 1
c 1051 CH I P CAP. O. O O l uF 25V B TMK 1 05B 1 02K-F K22148 820
c 1 052 CH I P CAP. 1 5pF 25V CH TMK 1 05CH 1 50J-F K22 1 48 2 1 8
c 1 053 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K22 1 48820
c 1 054 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K22148820
c 1 056 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K22148 820
c 1 057 CH I P CAP. 1 5pF 25V CH TMK 1 05CH 1 50J-F K22 1 482 1 8
c 1058 CH I P CAP. 56pF 25V CH TMK 1 05CH560J-F K22 1 48232
c 1 059 CH I P CAP. l pF 25V CK TMK 1 05CK0 1 0C-F K22 1 48205
c 1061 CH I P CAP. 1 2pF 25V CH TMK 1 05CH 1 20J-F K22 1 4 8 2 1 6
c 1 062 CH I P CAP. lpF 25V CK TMK 1 05CK0 1 0C-F K22 148205
c 1 063 CH I P CAP. 1 80pF 1 6V CH EMK 1 05CH 1 8 1J-F K22 128206
c 1 064 CH I P CAP. 1 8 0pF 1 6V CH EMK 1 05CH 1 8 1 J-F K22 128206
c 1 065 CH I P CAP. 1 50pF 1 6V CH EMK 1 05CH 1 5 1 J-F K22 1 28204
c 1 066 CH I P CAP. O. OO l uF 25V B TMK 1 0581 02K-F K22 148820
c 1 067 CH I P CAP. 0. 5pF 25V CK TMK 1 0 5CKOR5C-F K22 1 48204
c 1 068 CH I P CAP. 0. 5pF 25V CK TMK 1 05CKOR5C-F K22 1 48204
c 1 069 CH I P CAP. 0. 00luF 25V B TMK 1 0581 02K-F K22 148820
c 1 070 CH I P CAP. 27pF 25V CH TMK 1 05CH270J-F K22148224
c 1071 CH I P CAP. 4pF 25V CH TMK 1 05CH040C-F K22148208
c 1072 CH I P CAP. 4pF 25V CH TMK 1 05CH040C-F K22 148 208
c 1073 CH I P CAP. 39pF 25V CH TMK 1 05CH390J-F K22 1 48228
c 1 074 CH I P CAP. 33pF 25V CH TMK 1 05CH330J-F K22148226
c 1075 CH I P CAP. 3pF 25V CJ TMK 1 05CJ030C-F K22148 207
c 1 076 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K221 48820
c 1 077 CH I P CAP. 1 5pF 25V CH TMK 1 05CH 1 50J-F K22 1482 1 8
c 1 078 CH I P CAP. 5pF 25V CH TMK 1 05CH050C-F K22 1 48209
c 1079 CH I P CAP. l QpF 25V CH TMK 1 05CH1 00D-F K22 1 48214
c 1080 CH I P CAP. 22pF 25V CH TMK 1 0 5CH220J-F K22148 222
c 1 08 1 CH I P CAP. 8pF 25V CH TMK 105CH080D-F K221482 1 2
c 1 08 2 CH I P CAP. 33pF 25V CH TMK 1 05CH330J-F K22148226
c 1 083 CH I P CAP. 6pF 25V CH TMK 1 05CH060D-F K221482 1 0
c 1 084 CH I P CAP. 0. 0 0 l u F 25V B TMK 1 0581 02K-F K22148820
c 1 085 TANTALUM CH I P CAP. 22uF 4V TEMSVB20G226M-8R K780600 1 1
c 1 086 CH I P CAP. O. OOluF 25V B TMK 10581 02K-F K221 48820
c 1090 CH I P CAP. 2pF 25V CK TMK 1 05CK020C-F K22 148206
c 1091 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K22 148820
c 1 092 CH I P CAP. 0. 00luF 25V B TMK 1 0581 02K-F K22 148820
c 1 093 CH I P CAP. 0. 0047uF 25V B TMK 1 058472K-F K22148801
c 1 094 CH I P CAP. 0. 0047uF 25V B TMK 1 058472K-F K22148801
c 1 095 CH I P CAP. 0. 047uF 1 6V F EMK 1 05F473Z-F K221 29002
c 1 1 04 CH I P CAP. 3pF 25V CJ TMK 105CJ030C-F K22 148 207
c 1 1 05 CH I P CAP. 3pF 25V CJ TMK 105CJ030C-F K22 1 48207
c 1 1 07 CH I P CAP. O. OO l uF 25V B TMK 1 0581 02K-F K22 148820
c 1 1 08 CH I P CAP. O. OOluF 25V B TMK 1 05B1 02K-F K22 148820
c 1 1 09 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K22 148820
c 1 1 12 CH I P CAP. 0. 00luF 25V B TMK 1 05B1 02K-F K22 148820
c 1 1 13 CH I P CAP. O. OO l uF 25V B TMK 10581 02K-F K22 148 820
c 1 1 15 CH I P CAP. 0. 00 l uF 25V B TMK 1 0581 02K-F K22 148 820
c 11 1 7 CH I P CAP. 0. 00 luF 25V B TMK 1 0581 02K-F K22 148820
4A-6 ------
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
--- --
- ------------------ - ------
- -- ----
- --- ------- - - - ----
-- - -- -
-- --
------ 4A-7
li'T- 1 1 R TP.r.hnir.al Suoolement
MOTHER Unit ----
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
--- --
- -- - ------ ----- --- - ------ -- ----- - ----- -
- - ---- -- --- --
- - -------
Q 1 006 TRANS I STOR UMB l O TN G3070 1 0 8
Q 1 007 TRANS I STOR 2SC4537 TR G3345377
Q 1 008 TRANS I STOR DTC 1 24EU T 1 07 G3070045
Q 1009 TRANS I STOR 2SC4 1 1 6GR TE85R G334 1 1 67G
Q 1010 TRANSI STOR UMB lO TN G3070 1 0 8
Q 1011 TRANS I STOR UMH l O TN G3070096
Q 1012 TRANS I STOR 2SA 1 586Y TE85R G31 1 5867Y
Q 1013 FET 2SK880GR TE85R G3808807G
Q 1 0 14 TRANS I STOR DTC 1 24EU T 107 G3070045
Q 1015 TRANS I STOR 2SC42 15Y TE85R G33421 57Y
Q 1016 TRANS I STOR 2SC46 1 7 TL R G334 6 1 78R
Q 1017 TRANS I STOR UMS l TR G3070077
Q 1018 TRANS I STOR UMW l TR G3070078
Q 1019 TRANS I STOR 2SB 1 1 32 T lOO Q G32 1 1 327Q
Q 1 020 TRANSI STOR DTC 1 24EU T 1 07 G3070045
Q 1021 FET 2SK882Y TE85R G3808827Y
Q 1 0 22 TRANSI STOR 2SC4245 TE85R G3342457
Q 1 023 TRANS I STOR 2SC4537 TR G3345377
Q 1 024 TRANSI STOR 2SC4537 TR G3345377
Q 1 025 IC S-AV28 G 1 0 9 1 662
Q 1 026 TRANS I STOR DTC 1 24EU T 107 G3070045
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU PIN VERS.
-- -- - - - - - -- -- - - --- - - - - -- -------- - --- -- - - - - - -- - - - - --------- - -- - - - - - - - ------
--
-- 4A-9
MOTHER Unit ----
4A-10 --
---
(
CNTL Unit
Parts Layout
; ; 1 1 1 1 1 1 1 1 1 1 1 1 1 ; 1 1 1 1 1 1 11 1 • 1 1 1 1
� � � R � � ���������AR����-at ; Q Q � � S
To SW Unit J4001
( See Page 4D)
1. GND
2. SOL OFF
3. PTT
4. LAM P
5. CPU3
6. POWE R
J200 1 T o AF Unit J300 1 J2002 T o AF Unit J3004 LCD LCM-218BS, Segmentation Circuit Diagram
( See Page 4C-3) ( See Page 4C-3)
.. N ,... ,.
!!!!HH
... N .. ,.
)
0
0
�
Base 2 Cathode 3 Anode 1 Anode 2
c
NC NC Collector (GREEN) (RED)
m
Collector 1 Em itter 2
~
0::
u
Pin 1 J����'- Pin 75
�
Cathode 1
:':5
E mitter 1 Collector 2 (GREEN) (RED)
Input
Cathode 2
c
Bese 1
c
a: a: RN5VL30AA-TR 2SC4617 (BR) I MP11 (P11) OA227-TR (N20) LT1EP53A
UMB1 (B1)
H04074629H (02004) (02005) (02001) (02008, 2011) (02002, 2006, 2007, 2010) (02009)
(02009) NC NC Em itter Common Anode 1 ,Cathode 2 Cathode 1,2
Collector Col lector
~
Bose 1 I Bose 2
a
Pin 1 4 -..._
......._ Pin 7
Out Vss
Base Emitter Base Emitter Cathode 1 Anode 2 Anode 1 Anode 2
Vdd Collector 1 Collector 2
TC35305F-11
RN5VL35AA-TR UMW1 (W1) OTA144EE (16) OTC143EE (23) OA221 (K) OAN222 (N)
(02014)
(02017) (02011) (02002, 2008) (02012) (02002) (02004)
NC NC Collector Collector Collector
w
�
�
Pin 8 -..._
- Pin 4
-..._ Pin 1
GND Vin Vout
Base Coll ector Emitter Base Emitter Base Emitter
AT24C16N-10Sl-2.7 S-81230SG-OB-T1 2SB1132 (BAO) OTC124EE (25) OTC144EE (26)
(02003) (02006, 2016) (02010) (02007) (02013, 2015)
(
CNTL Unit
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
- - --
- - -- ------ -- --- --
- -- -------- ------------ - - --- - --- -----
- ----- --
----- 48-5
FT-llR Technical Supplement
CNTL Unit --
---
REF. MF8R ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ --- - - ---- -----
- - - - ------ -- ------- ----------
- --- -----
- - ------
c 2045 CH I P CAP. O. OOluF 25V B TMK 105B1 02K-F K22148820
c 2046 CH I P CAP. O. OO l uF 25V B TMK 105B1 02K-F K22148820
4B-6 --
--
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ------------------ -------- ---- ---- ------------------ --------- -------
--
-- 48-7
Notes
48-8 -------:F:T���l�R�T.�e=chn;::k:a71s;u:�:'Jll:em::en�t
AF Unit
--
---
Circuit Diagram
r--------------------�;-1-OV(1.40V)
f ----OV(1.00V)
-1 ___
OV(1.00V)
, _____
OV(1 DOV) OV(O 20V) 2 20V(O 90V)
---r-1�--------------------------,
�� N.M3403AM/ /
AF-l.JNI
F3404102T ��� ��
�
�: 7A
R3045
OV (0.90V) �� .J..
uol'J
I\!:.:
·•ff��
, /./
i'.l"'ru· i'.l -81
l
-------�
oru,J,,. •
iil
u i'.l•'If; :'.lg
··
2-
'ft.
-------+--� ,
di69
C.3001
·
it·
�
R307•
t= R30 10 '
0 ' 6
Cf."f
��l��l�
� 'i I
16V. B
69< 0 01
7K-
r--7-
25�:1e
2K
--.-C>---- -'>Y.--�;;�-,-.1�1--..- ,
� •
m
av >
��
,r�
R3033 R3035
25x .s �-
1 or�fJEU ov(1.oov)
� ,• a:
, �0�01
�-------�
·--�
-"·""
----m7
C3002
0 OV(0.90V)
6
co 1� v) Q3003-4 1 0V(1.00V)�t,;
l.J.. l--_,,,,,__+--++-HX
c�
� �; NJM3403AM ov(OV)
�
•
��
1
'
� R30EIB 8
o � (OV)
°"
1 1�( W)
IOOK
'fJ_
J;l
- OV(OV) To(See
R300 1
1 40V �
'
v(OV) Q30
W ( W) �� ( W ) -- --
-------------------�------�---------------�
=� l;i,;:; i
UMG1 I
-
ov(ov >
�
a
ov ( OV) , (Ov) 1 1ov
{1 �
f � ifr
CNTL Unit J2DD1
J
-!300 1
� 0 05 ov(Ov)
� �'
(ov ) ��'",.=.. CJ-E0T>F ov(Ov)
'--+--+-+----+-+�,,.�-..;;
P1090795
L---r----+-;;:=,--------------1--++-1-++------++--0-..
Page 48-1 )
1 1 � �
J,, �� �·
1 §;;� 'ii'>� SIG/TE'4' OV(OV )
T
'-'..;,.; 2.50V(OV)
l
2 20V(OV) -r-1-:: llru: · u oru l � 8> :; ,j,. OV(OV)
·
en-in n
.
�
� >F "'TE
I �
0.50V(OV)
.._ '
T-SCI
:;; � .
1.50V(OV) --... .._ ��"' OV(OV)
:::�
2 30V(OV) _,___ 1><2><3i'<•i'<5><S><7><8><9
:-.... � ��
I � !!!
"' '-. 'f
I '
u OKll
tC
� it'
10c::- - H:l'i40
,-,,
�
g h
2.20V(OV)
�;:;>:� ua�
>F ""TE GNl
,.....[""JD�� "' ;
��.�><
,__,
'!fr
_ ,,,, ,_
_. ,,
�J; F
0 ._ 119 '----+-----+---"';;�, C3030 l� T. STB ov(OV)
BEE P/BLJlST
2. �
0. 6 0\ (OV)
[./ \ CI "'I""
h a.CJ-E......_
h SP G>ll '-.... OV(OV) 0.50V(OV)
1
=:1-
1 2 -=-./
'"" I
�
c 30
P\\�
•
cm'vv "'
/ K
0 60V(OV) Q� k
�B . 21< 25V
1.10V
�
91f ......,,
C3041
R.30� R3026 o. 1 33K
�iii "i'&t4
25 "' ID
- � �h Cl>() __.::::;:::"
B
"'
v
2sc411 . ��
. ,,,,.
�
••
r
�:· ov(O:) �V)
••
""1 SE
-
--;; I -
. ...
- -: . 25V
110V(OV) r�=��
i5
•o o
7
iO-"' �
o<D
/
� CI -
Q
-
CH
u
1 10V(OV) :�B �/
� � � �� �� �Hl.�;:; "'
Ei� IBO� 1.30V(OV) 1 � OV(OV) 2SC4116GR �g
I
:
� /- u J < 56
I
/ r'{Z]'' '\-J 2· 1ov ,_,01\lT 8 >"' ..,r;�2·.1· �-+=3.=60�V+(=0= 50 V
� l � / --+-- ov(2.90v)
- -"-<: -
--ov(Ov)-r-- - - - - --t - - - - - - - - , ---t--.
.no,:�,?cl� �
. �
/
1.10V(OV).LJF:,i,,.
'-'
I �- I
t:;
2.40V(2.40V)
..,
.... .
To CNTL Unit J2002
80V(OV)
300
' s
I
;:'" ;::;
BATT
j! � �����; 2.50V(OV)
( See Page 5-1 )
C30 13
SEL
8.50V 0.10V(0.10V)
2- 2
POIER ON -ta
"lli'
�
l:-
!_ �
·� -
,,.._, ,
OV(OV) � � 3
+-F 2 ,
"lo!!'�
R300 11:
::
... ; •· ov(OV)
/
l � I
�
r.i
0""'• rr f- 1.50V(1 50V)
C
1 30
P -•V
Q
i= - •ij8 ' o
. Op\(!v
-,
u 8.50V(8.20V)
TCl-E 1.s;.
1 51 V(1 5(V .
-
' " l.l.TJ
rDTC143ZE'\
...
Q3012 � 1J
•
O
""
Q 90V(OV) -- T-SGL :l;
2:l!i v
-"'"�3P1.1U1 'lil� ,/
-, EtC 2.40V(2.40V) GNl
>< 3><2><1- Ov(OV)
RJ,..
Q3007
�Y
OV(OV)
>---
2.50V(2.50V)-- T.OET ® // r;
Q�o2
0 10V(O 10V) 0.60V(0.60V)
UI,_
OV(2.90V)
C4 2.50V(OV) CI f_..! :..
-
OV(OV)
T- STB ®
.... .
J
/� i:l>
ID
<:'.OCK 0 OV(OV)
I
OV(OV) ��� l llO\ 1 40V ....-'f 2.90V(OV) ' / 15�
I
I 3 oov (3 oov)
1 1 5DV(1 5DV) 10 (8.BOV) I
�
/ ', 1 nn\/r� nn\•)
l I
j�ib54/910V(8 80V) I � � � ·�.�-�-----!
g
I
·
T
•
�;w w�� �80."'�.['"K'J �u 80-� i
11
- .·��.'.J�.,>�
R3069
�J
� " --
SP
� I S �h _i: �
"'""' -
' ) �I o OV) �l
R3071
8
:
I l ij V�o+Kl----------����----------------� � � ��)
u�-il
-,.
�-"' I
8 I u
���STOA VALl£S AFE IN • - 1116W '
uil il
·· u:;i-il�- -
+
CAPACITOR VALLES - IN •F !;OV •
I ' p;u:.... ·' lp;uo·"'ru "' ITICAPACIT� VALLES AR: TANTAL\..14 .
u
----------- .J
"'
-----------------
. .
1-----------------
. . . LN..ESS OHERWISE t-.OTEO
03005
3.00V(3.00V)
... ' DA204J
P1090810 Q
� il'j U I;;
U il'j '4
ID !;;
* * < * * ) : RX(TX)
J3003
.: 0
To MOTHER Unit
(See Page 4A-1 )
4C-1
FT-llR Technical Supplement
,
..
Parts Layout
�
Base 2
�
Col lector 1 Emitter 2 Collector Anode 1 ,Cothode 2
To MOTHER U n i t
( See Page 4A-3)
1. G N D
2. ENC
Pin 24 "
� -
"
Pin 12
3. ENC "
4 . P.STB Pin 1
I
5. DATA
6. CLOCK Em itter 1 Col lector 2 Base Collector Emitter Cothode 1 Anode 2
7. POWER ON TK10930VT1 T OA72330-TR Base 1
8. M O D
9. TONE (03001) (03004) 2SB1132 (BAO) OA204U (K)
1 0. Rt:G3
11. +B
IM02 (02)
12. B AT T S E L (03011) (03003, 3005)
1 3 . R3
(03010)
14. SAVE
15. LOW1
Em itter Common Collector
16. LOW2
/h
17. TX Base 1 Base 2 Cothode 1 ,2
18. T E M P
�
19. N C
2 0 . U L T3
21. I F
22 " N D
Pin 14 '-.,.
�
'-..
Pin ?
Pin 8 " � O:/"
'
-·
"
Pin 4
""-. Pin 1
"
Pin 1
To FTS-26 (Option)
( Ses Page 5- 1 )
Base E m itter
UMG1 (G1)
� (03003) (03002)
"'
uuuu (03019) OAN222 (N)
� (03005)
zzzz a:
.,...: N' c..) -.:f � 2SA1586Y (SY) (03004)
(03016)
obverse view of component side
I
Emitter Common
Collector Coll ector Bose 1 Bose 2 Collector Cothode 1 ,Anode 2
Bose
OTC143ZE (E23)
E mitter Base
OTC144EU (26)
Emitter
~
Collector 1 Collector 2 Base
2SC4116GR
Emitter
[QJ
Anode 1 Cothode 2
J3001 Drain
To CNTL U nit J2001
~
( See Page 48-3)
�
§�
wC
Q..
W '-. al
� a:
�..... �c £2 � tl!al g, (j g, f5
Cl) ...: • . . .
Gate Source
. . . . . - oo in "
- ('r) ln l""- C> - - - -
C w 2SJ204
.... m �
0 ....
} ::!: c � q � o �
� ::::> ...J
(03015)
..,- ,.....
a u.. u z .,_ .,_ ._ z e:>
(,I) < z (!) • • • • .
. • • • Q N (Q C:O
N � <O C:O ..... ..... .- ..-
J3004
To CNTL Unit J2002
obverse view of chip side ( See Page 48-3)
4C-3
FT-llR Technical Supplement
(
AF Unit
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
- ----- - --
- ------------ -- -------- -------- -------
- -- -- ----
--- ------ -
*** AF UN I T ***
PCB W i th Components CA 1 0 2 1 0 0 1
--
--- 4C-5
FT-llR Technical Supplement
AF Unit
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ---- ------- ----
- -- --- ----
- ---------- --- --
-- - ------ --
- - ------
c 3049 TANTALUM CH I P CAP. 4. 7uF 6. 3V TEMSVAOJ475M-8R K780800 1 7
c 3050 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K22148820
c 305 1 TANTALUM CH I P CAP. 4. 7uF 6. 3V TEMSVAOJ475M-8R K780800 1 7
c 3052 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K22 148820
c 3053 CH I P CAP. 0. 0 0 l uF 25V B TMK 1 058 1 02K-F K22 148820
c 3054 TANTALUM CH I P CAP. l OuF 6. 3V TEMSVAOJ 1 06M-8R K78080027
c 3055 CH I P CAP. 0. 0 0 l uF 25V B TMK 1 058 1 02K-F K22148820
c 3056 TANTALUM CH I P CAP. 2. 2uF 6. 3V TESVAOJ225M l -8R K78080009
c 3057 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K221 48820
c 3058 CH I P CAP. 0. l uF 25V B GRM40 8 1 04M25PT K22 1 408 1 1
c 3059 CH I P CAP. O. O l uF 16V B EMK 10581 03K-F K22 1 28802
c 3060 CH I P CAP. 0. 033uF 1 6V F EMK 105F333Z-F K22 1 2900 1
c 306 1 CH I P CAP. O. O l uF 16V B EMK 1 058 1 03K-F K221 28802
c 3062 CH I P CAP. O. O l uF 16V B EMK 1 05Bl 03K-F K22 1 28802
c 3064 CH I P CAP. O. O O l uF 25V B TMK 1 058 1 02K-F K22 148820
c 3065 CH I P CAP. 0. 0 l uF 16V B EMK 1 0581 03K-F K22 1 28802
c 3067 CH I P CAP. O. O O l uF 25V B TMK 1 058 1 02K-F K22 148820
c 3068 TANTALUM CH I P CAP. 4. 7uF 6. 3V TEMSVAOJ475M-8R K78080 0 1 7
c 3069 CH I P CAP. O. O luF 16V B EMK 1 058 1 03K-F K22 1 28802
c 3070 CH I P CAP. O. O l uF 16V B EMK 1 058 1 03K-F K22 1 28802
c 3071 CH I P CAP. O. OOluF 25V B TMK 10581 02K-F K22 1 48820
c 3072 CH I P CAP. O. OO l uF 25V B TMK 1 058 1 02K-F K22 148820
c 3073 TANTALUM CH I P CAP. l OuF 6. 3V TEMSVAOJ 1 06M-8R K78080027
c 3075 CH I P CAP. O. OO l uF 25V B TMK 1 05 8 1 02K-F K22 148820
c 3077 CH I P CAP. O. OO l uF 25V B TMK 1 058 1 02K-F K22 1 48820
c 3078 CH I P CAP. O. O O l uF 25V B TMK 1 058 1 02K-F K22 148820
c 3079 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K22148820
c 3080 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K22 1 48820
c 3082 CH I P CAP. 0. 0 0 l uF 25V B TMK 1058 1 02K-F K22148820
c 3083 CH I P CAP. 0. 0 0 l uF 25V B TMK 10581 02K-F K22148820
c 3084 CH I P CAP. O. O O l uF 25V B TMK 1 058 1 02K-F K22 1 48820
c 3085 CH I P CAP. 0. luF 25V B GRM408 104M25PT K22 1 408 1 1
c 3086 TANTALUM CH I P CAP. 6. 8uF 6. 3V TEMSVAOJ685M-8R K78080025
c 3087 CH I P CAP. O. O O l uF 25V B TMK 1058102K-F K22148820
c 3088 CH I P CAP. O. O O l uF 25V B TMK 1 058 1 02K-F K22148820
c 3089 TANTALUM CH I P CAP. 6. 8uF 6. 3V TEMSVAOJ685M-8R K78080025
c 309 1 CH I P CAP. O. O O l uF 25V B TMK 10581 02K-F K22 148820
c 3093 CH I P CAP. O. O O l uF 25V B TMK 1 058 1 02K-F K22 1 48820
c 3096 CH I P CAP. O. O O l uF 25V B TMK 1 058102K-F K22 148820
c 3097 CH I P CAP. O. OOluF 25V B TMK 1 058 1 02K-F K22 148820
c 3098 CH I P CAP. O. OOluF 25V B TMK 1 058 1 02K-F K22 148820
c 3099 CH I P CAP. O. OOluF 25V B TMK 1 058 1 02K-F K22 1 48820
c 3 1 00 CH I P CAP. O. OOluF 25V B TMK 1 058 1 02K-F K22 1 48820
c 3 1 08 TANTALUM CH I P CAP. 4. 7uF 6. 3V TEMSVAOJ475M-8R K780800 1 7
c 3 1 09 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K22 148820
c 3 1 1 1 CH I P CAP. O. O O l uF 25V B TMK 1 0581 02K-F K22 148820
c 3 1 1 3 CH I P CAP. 0. 0 0 l uF 50V B GRM3981 02M50PT K221 74809
c 3 1 14 CERAM I C CAP. O. O O l uF 50V B UP0508 1 02K-A-B K28 1 79001
c 3 1 1 5 CH I P CAP. 0. l uF 25V B GRM408 1 04M25PT K221408 1 1
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
- -- -
-- ------ -----------
- -------- ----------- ------
- --- -----
- ------ -
---- 4C-7
FT-llR Technical Supplement
AF Unit -------
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ------------------ -------- ---- ---- ------------------ --------- -------
4C-B ----
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ------------------ -------- ------------------ - - ------- -------
------- 4C-9
FT-JlR Technical Supplement
:N"otes
SW Unit
Circuit Diagram
I SW-UN�--:4:: ------ 1
F3405 10 1
�
N5090051
I
I
54004
�
N509005 1
�
N5090051
I
54001
�
N5090051
I
I
C4001
I
I
0. 001 B
I
NOTE •
L
CAPACITOR VALUES ARE IN µf. 50V :
_!
UNLESS OTHERWISE NOTED.
_ _ _ _ _ _ _ _ _ _ _ _
Parts Layout
z o 1- <1: c.. o
(!) "' c.. _J (.) a..
_: N C't) .q: ID t.O
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ -- -- --- ---- --- --- -- - -- - - - --- - -- -
- - ---- - - ---- --- - -- --- - - - ----
*** SW UN I T ***
40
FT-JlR Technical Supplement
CONTACT Unit
Circuit Diagram
I To MOTHER Unit J 1 002
(See Page 4A-1 ) Cathode 1,2
[QJ
-
CONTACT-UNIT
F3399101A
Anode 1 Anode 2
05001
EA400C04F EA400C04F
(05001)
NC NC
~
NOTE =
RESISTOR VAU..E:S ARE IN Q. 1/16W :
CAPACITOO VALUES ARE I N ,F. 50V :
UNLESS OTl-ERWISE NOTED.
Ground
I Output
Input
RN5RL30AA-TR ( OC)
(050b1)
Parts Layout
3. G N D
2. + B
1 . BATT S E L
Parts List
------
REF.
- -- - - - ------- - ----
MFGR ' S DES I G - VALUE
- ------
WV TOL. --------------
DESCR I PT I ON --- ---------
YAESU P/N -------
VERS.
-
*** CONTACT UN I T ***
W I RE ASSY T9206298
4E
FT-llR Technical Supplement
VCO Unit
,------------------------------ ---,
Circuit Diagram
i VCD-t..tJI T Q600 1
§�
l!l_
CD
2SC4226-R22
I
F3400 1 0 1
U1001
5p CK
R6004 C6006
0 Q.
Q6002
2SC4226-R22
{'<')"1
oo
0{'<')
ID::>
L6003 O>
gg
4 . 7u I
<(
Q6003
2SC4226-R22
" '°
l
ID::>
0>
I
C60 1 4
I-�--��-+--��-+�
!50p CH
NOTE '
FESISTDR VALUES ARE IN D . !/!6W :
CAPACITOR VALUES ARE IN • F · 50V :
Il-OUCTOR VALUES ARE IN H :
J
LN..ESS OTHERWISE NOTED.
L_ - - - - - - - - - - - -��
J600!
_ _ _ _ _ _ _ _ _ _ _
�
0 0
fr To MOTHER Unit
u
>-
l- M Q Cl D > 8 8
Parts Layout 6 i;; � � � � i'.:: 5:
cO r--: cO Lri -.:i M tN" .,...:
[hJ
Anode
1SS153 ( A9)
N.C.
~
Base
2SC4226 ( R22)
Em itter
~
Base
k
DTC124E E (25)
Em itter
4F-1
FT-llR Technical Supplement
VCO Unit
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ - ------- --
- --- - -
- - ----- --- --- -------------
- - --------- -------
*** VCO UN I T ***
PCB W i th Components CA 1 09 1 0 0 1
----- 4 F-3
FT-llR Technical Suoolement
VCO Unit -----
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
------ ------------------ -------- ---- ---- ------------------ --------- -------
4F-4 ----
CL���U-co R�� 1
I
I
I
I
I
I
I
I
I
�·
��§��T��\ff�A�T��. D. 1/lOW
I
L-------------------------�I
I
:
Parts Layout
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU P/N VERS.
4G
FT-llR Technical Supplement
FTS-26 CTCSS Tone Squelch Unit ( option)
To AF Unit J3002
(See Page 4C-1 )
T . OET
T . 5TB
CLOCK
DATA
���YSTOR I
GND
I
CAPACITOR VALL.£5 ARE IN • F · 50V ;
I T I CAPACITOR VALL.£5 ARE TANTALUM ;
�_:L�:_�:_�D-·- ----------------------J
Parts Layout
...J ID
0 >
u u Cl) CI)
z z ...: ...:
Pin 8
MX265DW
( 00001 )
5-1
FT-llR Technical Supplement
FTS-26 CTCSS Tone Squelch Unit ( option)
Parts List
REF. MFGR ' S DES I G VALUE WV TOL. DESCR I PT I ON YAESU PIN VERS.
-
--- --- - ----- - -
------- -- - - - --
- -- - -- - - - --
---- -- - - --- --- -
---- - ---- --
5-3
FT-1 JR Technical Su1111Iement
Notes
5-4
FT-llR Technical Supplement
Este manual foi doado por Bernardo Charnis da empresa
wirelesstech.com.br para ser scaneado e disponibilizado
GRATUITAMENTE a toda a comunidade
Printed in Japan.
E03989000 ( 312v-OA)