Yaesu VX-120 Series Manual
1
©2005 VERTEX STANDARD CO., LTD. EH022N90A
Technical Supplement
Specifications ....................................................................................................................................................................2
Exploded View & Miscellaneous Parts .......................................................................................................................3
Block Diagram ..................................................................................................................................................................5
Circuit Description ..........................................................................................................................................................7
Alignment ..........................................................................................................................................................................9
Board Units (Schematics, Layouts & Parts)
Main Unit................................................................................................................................................................... 13
FTD-7 DTMF Paging Unit (Option) ....................................................................................................................... 29
Introduction
This manual provides the technical information necessary for servicing the VX-120/-170 VHF FM Transceiver.
Servicing this equipment requires expertise in handing surface-mount chip components. Attempts by non-qualified
persons to service this equipment may result in permanent damage not covered by the warranty, and may be illegal in
some countries.
Two PCB layout diagrams are provided for each double-sided board in this transceiver. Each side of the board is
referred to by the type of the majority of components installed on that side (“Side A” or “Side B”). In most cases one
side has only chip components (surface-mount devices), and the other has either a mixture of both chip and leaded
components (trimmers, coils, electrolytic capacitors, ICs, etc.), or leaded components only.
While we believe the information in this manual to be correct, VERTEX STANDARD assumes no liability for damage
that may occur as a result of typographical or other errors that may be present. Your cooperation in pointing out any
inconsistencies in the technical information would be appreciated.
Contents
VX-120/-170
VERTEX STANDARD CO., LTD.
4-8-8 Nakameguro, Meguro-Ku, Tokyo 153-8644, Japan
VERTEX STANDARD
US Headquarters
10900 Walker Street, Cypress, CA 90630, U.S.A.
YAESU EUROPE B.V.
P.O. Box 75525, 1118 ZN Schiphol, The Netherlands
YAESU UK LTD.
Unit 12, Sun Valley Business Park, Winnall Close
Winchester, Hampshire, SO23 0LB, U.K.
VERTEX STANDARD HK LTD.
Unit 5, 20/F., Seaview Centre, 139-141 Hoi Bun Road,
Kwun Tong, Kowloon, Hong Kong
VX-120 VX-170
2
Specifications
General
Frequency Ranges: RX 137 - 174 MHz
TX 144 - 146 (148) MHz
Channel Steps: 5/10/12.5/15/20/25/50/100 kHz
Frequency Stability: ±5 ppm @ 14° to 140° F (–10° to +60° C)
Repeater Shift: ±600 kHz
Emission Type: F2 , F3
Antenna Impedance: 50 Ω
Supply Voltage: Nominal: 7.2 V DC
(Negative Ground) Operating: 6.0 ~ 16.0 V DC (EXT DC Jack)
11.0 ~ 16.0 V DC (EXT DC Jack with Charging)
Current Consumption: 125 mA (Receive, 200 mW output)
(Approx. @7.2 V) 45 mA (Standby, Saver Off)
20.5 mA (Standby, Saver On)
8 mA (Auto Power Off)
1.5 A (5 W TX)
Operating Temperature: –4° to 140° F (–20 °C to +60 °C)
Case Size: 2.36” (W) x 4.72” (H) x 1.26” (D) (60 x 120 x 32 mm)
(W/O knob, antenna, & belt clip)
Weight: 13.8 Oz (390 g) with FNB-83, antenna, and belt clip
Transmitter
RF Power Output: 5.0 W (High) / 2.0 W (Middle) / 0.5 W (Low) (@7.2 V)
Modulation Type: Variable Reactance F2D, F3E
Maximum Deviation: ±5.0 kHz (F2D, F3E)
Spurious Emission: At least 60 dB down (@ High and Middle power)
At least 40 dB down (@ Low power)
Microphone Impedance:2kΩ
Receiver
Circuit Type: Double-Conversion Superheterodyne
Intermediate Frequencies: 1st: 21.7 MHz
2nd: 450 kHz
Sensitivity: 0.2 µV for 12 dB SINAD (137-140 MHz)
0.16 µV for 12 dB SINAD (140-150 MHz)
0.2 µV for 12 dB SINAD (150-174 MHz)
Selectivity: 12 kHz/35 kHz (–6 dB /–60 dB)
AF Output: 700 mW @ 16 Ωfor 10 % THD (Internal Speaker)
(@ 7.5 V) 400 mW @ 8 Ωfor 10 % THD (EXT SP Jack)
Specifications are subject to change without notice, and are guaranteed within the 144 MHz amateur band only. Fre-
quency ranges will vary according to transceiver version; check with your dealer.
3
Exploded View & Miscellaneous Parts
G6090166
LCD
M3290029
MIC. ELEMENT
RA058040A
LIGHT GUIDE
RA0580700
INTER CONNECTOR
RA0578200
MIC HOLDER RUBBER
RA0709200
PANEL ASSY (VX-170)
CP8220001
REAR CASE ASSY
RA0577600
EXT CAP
RA0304300
WASHER
RA0577800
KNOB
RA0577700
KNOB
RA0478500
SPECIAL NUT ASSY
RA0426900
O RING
RA0577900
KNOB SCREW
RA0467600
O RING
RA061740A
RUBBER PACKING
RA0578000
RUBBER PACKING
RA0123500
LATCH NAIL
RA0337300
SHEET
RA070930A
MASK SHEET
RA0700900
RUBBER KNOB
RA0580500
REFLECTOR SHEET
RA0578300
WASHER
RA057840A
RING NUT
RA057730A (x2 pcs)
SPACER
RA0577400 (x2 pcs)
TERMINAL
RA0701100
WINDOW (VX-170)
RA0577100
HOLDER
RA057700A
RUBBER KNOB
RA0576900
DOUBLE FACE
RA0434100
SHEET
M4090168
SPEAKER
RA0607200
SHEET PORON
MAIN-Unit
RA0401600
O RING
RA057720A
LIGHT GUIDE
RA0701000
PANEL (VX-170)
RA0557900
SP NET
S2000056
O RING
Ref.
VXSTD P/N
U9900068
U9900136
U24110002
U9900035
U07240202
Description
TAPTITE SCREW M2X4NI#3
SPECIAL SCREW M2X2.35 4050
TAPTITE SCREW M2X10NI
TAPTITE SCREW M2X3 #1
PAN HEAD SCREW M2X4NI#2
Qty.
11
1
2
2
2
VX-170
VX-120
Non-designated parts are available
only as part of a designated assembly.
RA0721500
PANEL ASSY (VX-120)
RA0721800
RUBBER KNOB
RA072170
WINDOW (VX-120)
RA0577100
HOLDER
RA057700A
RUBBER KNOB
RA0576900
DOUBLE FACE
RA0434100
SHEET
RA0607200
SHEET PORON
RA0721600
PANEL (VX-120)
RA0401600
O RING
RA057720A
LIGHT GUIDE
RA0557900
SP NET
M4090168
SPEAKER
RA069860A
SPACER
4
Exploded View & Miscellaneous Parts
Note
5
Block Diagram
6
Block Diagram
Note
7
Circuit Description
Receive Signal Path
Incoming RF signal is from the antenna jack is delivered
to the Main Unit and passed through the low-pass filter
network, antenna switching diode D1003 and D1004 (both
RLS135), and low-pass filter network to the RF amplifier
Q1022 (3SK296ZQ). The amplified RF signal is passed
through band-pass filtered again by varactor-tuned band-
pass filter consisting of coils L1024, L1025, and L1026, and
diodes D1017, D1018, and D1019 (all HVC350B), then ap-
plied to the 1st mixer Q1023 (3SK296ZQ) along with the
first local signal from the PLL circuit.
The first local signal is generated between 115.3 MHz and
152.3 MHz by the VCO, which consists of Q1014
(2SC5005)and varactor diodes D1009, D1010 (both
HVC365) and D1011 (HSC277) according to the receiv-
ing frequency.
IF and Audio Circuits
The 21.7 MHz first IF signal is applied to the monolithic
crystal filters XF1001 and XF1002 which strip away un-
wanted mixer products, and the IF signal is applied to the
first IF amplifier Q1024 (2SC4915). The amplified first IF
signal is then delivered to the FM IF subsystem IC Q1004
(NJM2591V), which contains the second mixer, limiter am-
plifier, noise amplifier, and FM detector.
The second local signal is generated by 21.25 MHz crystal
X1002, produces the 450 kHz second IF signal when mixed
with first IF signal within Q1004 (NJM2591V).
The 450 kHz second IF signal is applied to the ceramic
filter CF1001 or CF1002 which strip away unwanted mix-
er products to the ceramic discriminator CD1001 which
removes any amplitude variations in the 450 kHz IF sig-
nal before detection of speech.
The detected audio from the Q1004 (NJM2591V) is ap-
plied to a band-pass filter consisting of Q1081 and Q1082
(both 2SC4617), then passes through the audio mute gate
Q1052 (2SC4617) and Q1045 (DTC144EE).
The audio signal is passed through the audio VR which
adjusts the audio sensitivity to compensate for audio lev-
el variations, then delivered to the audio amplifier Q1008
(TDA2822D).
Squelch Control
When no carrier received, noise at the output of the de-
tector stage in Q1004 (NJM2591V) is applied to pin 49 of
main CPU Q1001 (HD64F2266TF13), which compares the
squelch threshold level to that which set by the SQL knob.
While no carrier is received, pin 71 of Q1001
(HD64F2266TF13) remains “low,” to disable audio out-
put from the speaker.
Transmit Signal Path
The speech signal from the microphone is amplified by
Q1074 (LM2902PWR). The amplified speech signal is sub-
jected to the low-pass filter network Q1074 (LM2902PWR)
and deviation controller Q1075 (DTC144EE).
VHF Transmit Signal Path
The adjusted speech signal from Q1075 (DTC144EE) is
delivered to VCO Q1014 (2SC5005) which frequency
modulates the transmitting VCO made up of D1010
(HVC365).
The modulated transmit signal passes through buffer
amplifier Q1013 and Q1012 (both 2SC5005).
The transmit signal applied to the Pre-Drive amplifier
Q1011 (2SC5005) and Drive amplifier Q1010 (2SK3074),
then finally amplified by Power amplifier Q1009
(2SK3476) up to 5 Watts. This two stages (Q1010 and
Q1009) power amplifier’s gain is controlled by the APC
circuit.
The 5 Watts RF signal passes through low-pass filter net-
work, antenna switch D1003 (RLS135), and another low-
pass filter network, and then deliver to the ANT jack.
Tx APC Circuit
A portion of the Power amplifier output is rectified by
D1002 (1SS321), then delivered to APC Q1019
(LM2904PWR), Q1020 and Q1021 (both DTC144EE), as a
DC voltage which is proportional to the output level of
the power amplifier.
The APC Q1019 (LM2904PWR) is compared the rectified
DC voltage from the power amplifier and the reference
voltage from the main CPU Q1001 (HD64F2266TF13), to
produce a control voltage, which regulates supply volt-
age to the Drive amplifier Q1010 (2SK3074) and Power
amplifier Q1009 (2SK3476), so as to maintain stable out-
put power under varying antenna loading condition.
PLL
A portion of the output from the VCO Q1014 (2SC5005),
passes through the buffer amplifier Q1017 (2SC5005),
then delivered to the programmable divider section of the
PLL IC Q1003 (MB15A01PFV1), which divided accord-
ing to the frequency dividing data that is associated with
the setting frequency input from the main CPU Q1001
(HD64F2266TF13). It is then sent to the phase compara-
tor.
The 21.25 MHz frequency of the reference oscillator cir-
cuit made up of X1002 is divided by the reference frequen-
cy divider section of Q1003 (MB15A01PFV1) into 4250 or
3400 parts to become 5 kHz or 6.25 kHz comparative ref-
8
Circuit Description
erence frequencies, which are utilized by the phase com-
parator.
The phase comparator section of Q1003 (MB15A01PFV1)
compares the phase between the frequency-divided os-
cillation frequency of the VCO circuit and comparative
frequency and its output is a pulse corresponding to the
phase difference. This pulse is integrated by the charge
pump and loop filter of D1012 (DA221) and Q1016
(DTC144EE) into a control voltage (VCV) to control the
oscillation frequency of the VCO.
9
Alignment
Introduction
The VX-120/-170 is carefully aligned at the factory for the
specified performance across the amateur band. Realign-
ment should therefore not be necessary except in the event
of a component failure. Only an authorized Vertex Stan-
dard representative should perform all component re-
placement and service, or the warranty policy may be void.
The following procedures cover the adjustments that are
not normally required once the transceiver has left the fac-
tory. However, if damage occurs and some parts subse-
quently are replaced, realignment may be required. If a
sudden problem occurs during normal operation, it is like-
ly due to component failure; realignment should not be
done until after the faulty component has been replaced.
We recommend that servicing be performed only by au-
thorized Vertex Standard service technicians who are ex-
perienced with the circuitry and fully equipped for repair
and alignment. If a fault is suspected, contact the dealer
from whom the transceiver was purchased for instructions
regarding repair. Authorized Vertex Standard service tech-
nicians realign all circuits and make complete performance
checks to ensure compliance with factory specifications
after replacing any faulty components.
Those who do undertake any of the following alignments
are cautioned to proceed at their own risk. Problems
caused by unauthorized attempts at realignment are not
covered by the warranty policy. Also, Vertex Standard
reserves the right to change circuits and alignment proce-
dures in the interest of improved performance, without
notifying owners.
Under no circumstances should any alignment be attempt-
ed unless the normal function and operation of the trans-
ceiver are clearly understood, the cause of the malfunc-
tion has been clearly pinpointed and any faulty compo-
nents replaced, and realignment determined to be abso-
lutely necessary.
Required Test Equipment
The following test equipment (and familiarity with its use)
is necessary for complete realignment. Correction of prob-
lems caused by misalignment resulting from use of im-
proper test equipment is not covered under the warranty
policy. While most steps do not require all of the equip-
ment listed, the interactions of some adjustments may re-
quire that more complex adjustments be performed after-
wards.
Do not attempt to perform only a single step unless it is
clearly isolated electrically from all other steps. Have all
test equipment ready before beginning and, follow all of
the steps in a section in the order presented.
RF Signal Generator with calibrated output level at 200
MHz
Deviation Meter (linear detector)
In-line Wattmeter with 5% accuracy at 200 MHz
50-Ohm 10-W RF Dummy Load
8-Ohm AF Dummy Load
Regulated DC Power Supply adjustable from 6 to 15
VDC, 2A
Frequency Counter: 0.2-ppm accuracy at 200 MHz
AF Signal Generator
AC Voltmeter
DC Voltmeter: high impedance
VHF Sampling Coupler
SINAD Meter
Alignment Preparation & Precautions
A 50-Ohm RF load and in-line wattmeter must be con-
nected to the main antenna jack in all procedures that call
for transmission; alignment is not possible with an anten-
na. After completing one step, read the next step to see if
the same test equipment is required. If not, remove the
test equipment (except dummy load and wattmeter, if
connected) before proceeding.
Correct alignment requires that the ambient temperature
be the same as that of the transceiver and test equipment,
and that this temperature be held constant between 68 ~
86° F (20° ~ 30° C). 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 os-
cillator 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 pro-
cedure are based on 0dBµ = 0.5µV.
10
Alignment
Test Setup
Set up the test equipment as shown below for transceiver
alignment.
Entering the Alignment Mode
Alignment of the VX-120/-170 is performed using a front
panel software-based procedure. To perform alignment
of the transceiver, it must first be placed in the “Align-
ment Mode,” in which the adjustments will be made and
then stored into memory.
To enter the Alignment mode:
1. Press and hold in the PTT and MONI switches turning
the radio on. Once the radio is on, release these two
switches.
2. Press the keypad in the following sequence:
VX-120:[
WX(EMG) ] [LOW(LOCK)SET]
[REV(HOME)] [(MHz)] [(MHz)]
VX-170:[
(MHz)] [0(SET)] [2(CODE)]
[2(CODE)] [MR(SKIP)]
3. Press the [F]key to cause “A0 REF.xxx” to appear on
the display for five seconds, this signifies that the trans-
ceiver is now in the “Alignment Mode.”
PLL Reference Frequency
1. Tune the frequency to 145.050 MHz, then set the trans-
mit power level to “LOW.”
2. Press the [F]key, then press the [MR(SKIP)] key to set
the alignment parameter to “A0 REF.xxx,” if needed.
3. With in five second of appearing the “A0 REF.xxx” on
the display, press the PTT switch to activate the trans-
mitter, adjust the DIAL knob so that the counter fre-
quency reading is 145.050 MHz (±100 Hz).
“TX SECTION” ALIGNMENT SETUP
7.5 V DC
Regulated Power Supply
SINAD
Meter
RF Signal
Generator
8
Dummy Load
Ω
SP GND
“RX SECTION” ALIGNMENT SETUP
Inline
Wattmeter
RF Sampling
Coupler
AF Signal
Generator
9.9 V DC
Regulated Power Supply
50
Dummy Load
Ω
Frequency
Counter
Frequency
Counter
MIC GND
11
RF Front-end Tuning
1. Connect the DC voltmeter to TP1031 on the MAIN
unit, then inject a 145.050 MHz signal at a level of +10
dBµ (with 1 kHz modulation @±3.5 kHz deviation)
from the RF signal generator.
2. Tune the frequency to 145.050 MHz.
3. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A1 TUN.xxx.”
4. With in five second of appearing the “A1 TUN.xxx” on
the display, adjust the DIAL knob so that the DC volt-
meter reaches maximum deflection. The VX-120/-170’s
RF Front-end has a broad bandwidth. Therefore, prior
to adjustment you must adjust the DIAL knob to set
the frequency to the middle of the band, in step 2, so
you can set peak in the DC voltmeter’s deflection in
the center of the RF passband.
TX Power Output
1. Tune the frequency to 146.050 MHz, then set the trans-
mit power level to “LOW.”
2. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A2 PWR.xxx.”
3. With in five second of appearing the “A2 PWR.xxx” on
the display, press the PTT switch to activate the trans-
mitter, adjust the DIAL knob so that the wattmeter read-
ing is 0.5 Watts (±0.05 Watt).
4. Increase the Transmit power level to “MID.”
5. Press the [F/W]key to recall the alignment parameter
“A2 PWR.xxx.”
6. With in five second of appearing the “A2 PWR.xxx” on
the display, press the PTT switch to activate the trans-
mitter, adjust the DIAL knob so that the wattmeter read-
ing is 2.0 Watts (±0.1 Watt).
7. Increase the Transmit power level to “HIGH.”
8. Press the [F/W]key to recall the alignment parameter
“A2 PWR.xxx."
9. With in five second of appearing the “A2 PWR.xxx” on
the display, press the PTT switch to activate the trans-
mitter, adjust the DIAL knob so that the wattmeter read-
ing is 5.0 Watts (±0.1 Watt).
TX Deviation
1. Tune the frequency to 146.050 MHz, then set the trans-
mit power level to “LOW.”
2. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A3 DEV.xxx.”
3. With in five second of appearing the “A3 DEV.xxx” on
the display, press the PTT switch to activate the trans-
mitter, adjust the DIAL knob so that the deviation meter
reading is 4.2 kHz (±0.2 kHz) (EXP version: 4.5 kHz ±
0.2 kHz).
DCS TX Deviation
1. Tune the frequency to 146.050 MHz, then activate the
DCS, and set the transmit power level to “LOW.”
2. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A4 DCS.xxx.”
3. With in five second of appearing the “A4 DCS.xxx” on
the display, press the PTT switch to activate the trans-
mitter (with no microphone input), adjust the DIAL
knob so that the deviation meter reading is 0.7 kHz
(±0.05 kHz).
Alignment
TP1031
12
Alignment
CTCSS TX Deviation
1. Tune the frequency to 146.050 MHz, then activate the
CTCSS encoder with a “100 Hz” tone, and set the trans-
mit power level to “LOW.”
2. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A5 CTC.xxx.”
3. With in five second of appearing the “A5 CTC.xxx” on
the display, press the PTT switch to activate the trans-
mitter (with no microphone input), adjust the DIAL
knob so that the deviation meter reading is 0.7 kHz
(±0.05 kHz).
S-meter Sensitivity
1. Tune the frequency to 146.050 MHz.
2. Inject a 146.050 MHz signal at a level of –5 dBµV (with
1 kHz modulation @±3.5 kHz deviation) from the RF
signal generator.
3. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A6 SM U/D.”
4. With in five second of appearing the “A6 SM U/D” on
the display, press the [(MHz)] key.
5. Increase the RF signal generator output level to +23
dBµV.
6. Press the [F/W]key to recall the alignment parameter
to “A6 SM U/D.”
7. With in five second of appearing the “A6 SM U/D” on
the display, press the [(MHz)] key.
Squelch Sensitivity
1. Tune the frequency to 146.050 MHz.
2. Inject a 146.050 MHz signal at a level of –12 dBµV (with
1 kHz modulation @±3.5 kHz deviation) from the RF
signal generator.
3. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A7 SQL U/D.”
4. With in five second of appearing the “A7 SQL U/D” on
the display, press the [(MHz)] key.
5. Increase the RF signal generator output level to –3
dBµV.
6. Press the [F/W]key to recall the alignment parameter
to “A7 SQL U/D.”
7. With in five second of appearing the “A7 SQL U/D” on
the display, press the [(MHz)] key.
DC Voltmeter
1. Set the power supply voltage to 9.9 V.
2. Press the [F/W]key, then press the [MR(SKIP)] key to
set the alignment parameter to “A8 BAT RV.”
3. With in five second of appearing the “A8 BAT RV” on
the display, press the [REV(HOME)] key.
To close the alignment mote, just turn the power
off by rotating the VOL knob fully counter clockwise. The next
time the transceiver is turned on, normal operation may resume.
13
MAIN Unit
Circuit Diagram
1.78 V
1.13 V
1.29 V
1.83 V
2.15 V
3.18 V
3.18 V
5.12 V
8.13 V
8.05 V
1.91 V
1.29 V
8.00 V
3.75 V
3.72 V
RX: 1.93 V
TX: 1.89 V
2.45 V
3.12 V
0.42 V
4.43 V
5.08 V
3.30 V
2.08 V @ Low Freq.
Wide: 5.05 V
Narrow: 0 V
RX: 4.41 V
TX: 5.05 V
RX: 5.02 V
TX: 0 V RX: 0 V
TX: 4.96 V
Wide: 0 V
Narrow: 5.07 V
Wide: 4.49 V
Narrow: 0 V
RX: 5.07 V
TX: 0 V
0.65 V
4.32 V
RX: 0.40 V
TX: 5.09 V
RX: 4.56 V
TX: 5.00 V
RX: 5.05 V
TX: 0.60 V
RX: 0.64 V
TX: 0 V
RX: 4.86 V
TX: 0 V
2.61 V
2.33 V
2.88 V 5.11 V
4.64 V
2.35 V
0.28 V
0.88 V
5.13 V
2.07 V
2.07 V
9.14 V 3.30 V
3.30 V
5.13 V
3.36 V
2.77 V
3.32 V
1.95 V
1.95 V
1.95 V
1.95 V
5.13 V
1.48 V @CHG (PWR "OFF")
0.91 V @CHG (PWR "OFF")
1.53 V @CHG
13.1 V @CHG
13.8 V
13.5 V
4.90 V
4.86 V
0.99 V
+16.0 dBµ
4.21 V
2.24 V
0.69 V
4.84 V
1.80 V
0.26 V 0.81 V
TX: 1.88 V
TX: 3.93 V
TX "H": 2.33 V
TX "M": 2.09 V
TX "L": 1.85 V
TX "H": 8.10 V
TX "M": 8.14 V
TX "L": 8.17 V
TX "H": 3.04 V
TX "M": 1.64 V
TX "L": 0.59 V
TX "H": 2.23 V
TX "M": 1.25 V
TX "L": 0.50 V
TX: 1.72 V
4.96 V 4.66 V
2.77 V
0.66 V
0.14 V
2.10 V
2.10 V
2.10 V 2.10 V
5.13 V
2.10 V
2.10 V
1.95 V
2.26 V
PTT: 1.65 V
MONI: 2.05 V
3.30 V
3.30 V
1.90 V
2.98 V
TX: 2.96 V
3.25 V
TX: 3.25 V
3.28 V
3.19 V
3.26 V
2.14 V1.06 V
RX: 2.00 V
TX: 0 V
5.57 V 3.95 V
2.73 V
1.97 V
2.62 V
TX: 2.62 V
10.9 V
3.30 V
9.37 V @CHG (PWR "OFF")
TX: 10.5 V
TX: +18.3 dBm @146.00 MHz
TX: +6.3 dBm
RX: –0.9 dBm
TX: +2.5 dBm
+11.2 dBm @124.30 MHz
+12.7 dBµ @21.7 MHz
+18.3 dBµ
+13.0 dBµ @ 146.00 MHz,
SINAD 12 dB
1.43 V @146.00 MHz
14
MAIN Unit
15
MAIN Unit
Parts Layout (Side A)
BADCFE G
1
3
2
4
BD4845FVE
(Q1006)
HD64F2266
(Q1001)
DA221 (K)
(D1025)
1SS321 (F9)
(D1002)
DAN222 (N)
(D1024)
2SA1774 (FR)
(Q1030, 1031, 1032,
1034, 1040, 1059)
2SC4617 (BR)
(Q1034, 1038, 1039,
1042, 1061, 1062,
1064, 1065, 1069,
1076, 1077, 1079)
2SC4915 (QY)
(Q1024)
FMMTL718TA
(Q1041)
2SB1132 (BA)
(Q1063, 1078)
DTA144EE (16)
(Q1033, 1043, 1058,
1071)
DTC144EE (26)
(Q1020, 1021, 1029,
1044, 1045, 1057,
1068)
H
2SB1201S
(Q1037)
2SD1664 (DA)
(Q1067)
2SK3476
(Q1009)
BR24L64F
(Q1002)
LM2904PWR
(Q1019)
TDA28822
(Q1008)
16
MAIN Unit
Parts Layout (Side B)
badcfeg
1
3
2
4
2SA1774 (FR)
(Q1018, 1036)
2SC4617 (BR)
(Q1028, 1052, 1055,
1060, 1066, 1072,
1073, 1081, 1082)
2SC5005 (73)
(Q1011, 1012, 1013,
1014, 1017)
DTC144EE (26)
(Q1015, 1016, 1025,
1026, 1047, 1048,
1049, 1051, 1070,
1075)
MB15A01PFV1
(Q1003)
NJM2591V
(Q1004)
DA221 (K)
(D1012, 1030)
DAN222 (N)
(D1021, 1022, 1029)
2SJ364 (4M)
(Q1056)
2SK3074 (WA)
(Q1010)
DTA144EE (16)
(Q1027, 1054, 1084)
LM2904PWR
(Q1050, 1083)
LM2902PWR
(Q1046, 1074)
NJU7231F30
(Q1007)
XC6202P
(Q1080)
BU2090FS
(Q1005)
h
3SK296ZQ (ZQ)
(Q1022, 1023)
17
Parts List
REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS.
LOT
SIDE
LAY ADR
MAIN Unit
PCB with Components CS1841001 VX-170 USA A2
CS1841002 VX-120 USA A2
CS1841003 VX-120 EXP A1
CS1841004 VX-120 EXP A2
CS1841005 VX-120 EXP A3
CS1841006 VX-120 EXP B1
CS1841007 VX-120 EXP B2
CS1841008 VX-120 EXP B3
CS1841009 VX-170 EXP A1
CS1841010 VX-170 EXP A2
CS1841011 VX-170 EXP A3
CS1841012 VX-170 EXP B1
CS1841013 VX-170 EXP B2
CS1841014 VX-170 EXP B3
Printed Circuit Board AH022N000 FR0133500
C 1002 CHIP CAP. 15pF 50V CH GRM1552C1H150JZ01D K22178216 1- B a1
C 1003 CHIP CAP. 5pF 50V CH GRM1552C1H5R0BZ01D K22178292 1- B a1
C 1004 CHIP CAP. 33pF 50V CH GRM1552C1H330JZ01D K22178224 1- B a1
C 1005 CHIP CAP. 3pF 50V CJ GRM1553C1H3R0BZ01D K22178290 1- B b1
C 1007 CHIP CAP. 0.001uF 50V B GRM188B11H102KA01D K22174821 1- B b1
C 1008 CHIP CAP. 27pF 50V CH GRM1552C1H270JZ01D K22178222 1- B a1
C 1009 CHIP CAP. 27pF 50V CH GRM1552C1H270JZ01D K22178222 1- B b1
C 1010 CHIP CAP. 10pF 50V CH GRM36CH100B50PT K22178297 1- A G1
C 1011 CHIP CAP. 0.5pF 50V CK GRM1554C1HR50BZ01D K22178285 1- A G1
C 1012 CHIP CAP. 3pF 50V CJ GRM1553C1H3R0BZ01D K22178290 1- A G1
C 1013 CHIP CAP. 0.5pF 50V CK GRM1554C1HR50BZ01D K22178285 1- A G1
C 1014 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G1
C 1016 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G1
C 1017 CHIP CAP. 0.001uF 50V B GRM188B11H102KA01D K22174821 1- B b1
C 1018 CHIP CAP. 15pF 50V CH GRM1552C1H150JZ01D K22178216 1- B b1
C 1019 CHIP CAP. 10pF 50V CH GRM36CH100B50PT K22178297 1- B b1
C 1020 CHIP CAP. 12pF 50V CH GRM1552C1H120JZ01D K22178214 1- B b1
C 1021 CHIP CAP. 18pF 50V CH GRM1552C1H180JZ01D K22178218 1- B b1
C 1022 CHIP CAP. 43pF 50V CH GRM1552C1H430JD01D K22178227 1- B c1
C 1023 CHIP CAP. 47pF 50V CH GRM1552C1H470JZ01D K22178228 1- B c1
C 1025 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b2
C 1026 CHIP CAP. 0.1uF 25V B GRM40B104M25PT K22140811 1- A G2
C 1027 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b1
C 1028 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G1
C 1029 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G1
C 1030 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G1
C 1031 CHIP CAP. 0.047uF 10V B GRM36B473K10PT K22108801 1- A G1
C 1032 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A G1
C 1033 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G1
C 1034 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- A F1
C 1035 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F1
C 1037 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b1
C 1038 CHIP CAP. 47pF 50V CH GRM1552C1H470JZ01D K22178228 1- B c1
C 1039 CHIP CAP. 43pF 50V CH GRM1552C1H430JD01D K22178227 1- B c1
C 1040 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1041 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B d1
C 1042 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1043 CHIP CAP. 33pF 50V CH GRM1552C1H330JZ01D K22178224 1- B d1
C 1044 CHIP CAP. 27pF 50V CH GRM1552C1H270JZ01D K22178222 1- B d1
C 1045 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1046 CHIP CAP. 10pF 50V CH GRM36CH100B50PT K22178297 1- B e1
C 1047 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B e1
C 1048 CHIP CAP. 5pF 50V CH GRM1552C1H5R0BZ01D K22178292 1- B f1
C 1049 CHIP CAP. 5pF 50V CH GRM1552C1H5R0BZ01D K22178292 1- B f1
C 1050 CHIP CAP. 1.5pF 50V CK GRM1554C1H1R5BZ01D K22178288 1- B f1
C 1051 CHIP CAP. 18pF 50V CH GRM1552C1H180JZ01D K22178218 1- B f1
C 1052 CHIP CAP. 18pF 50V CH GRM1552C1H180JZ01D K22178218 1- B f1
C 1053 CHIP CAP. 0.001uF 50V B GRM188B11H102KA01D K22174821 1- B f1
C 1054 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1055 CHIP CAP. 33pF 50V CH GRM1552C1H330JZ01D K22178224 1- B f1
C 1056 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1057 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1058 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f2
C 1059 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1060 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1061 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f2
C 1062 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1063 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f2
18
Parts List
MAIN Unit
REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS.
LOT
SIDE
LAY ADR
C 1064 CHIP TA.CAP. 0.1uF 20V SKF-1D104M-RP K78130049 1- B f1
C 1065 CHIP TA.CAP. 0.1uF 20V SKF-1D104M-RP K78130049 1- B f1
C 1066 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- B g1
C 1067 CHIP TA.CAP. 0.1uF 20V SKF-1D104M-RP K78130049 1- B g1
C 1068 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B f1
C 1069 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B g1
C 1070 CHIP CAP. 0.047uF 10V B GRM36B473K10PT K22108801 1- B g2
C 1071 CHIP CAP. 47pF 50V CH GRM1552C1H470JZ01D K22178228 1- B g1
C 1072 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- B g2
C 1073 CHIP CAP. 0.001uF 50V B GRM188B11H102KA01D K22174821 1- B g1
C 1074 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B g1
C 1075 CHIP CAP. 1uF 10V F GRM188F11A105ZA01D K22105001 1- B g2
C 1076 CHIP CAP. 33pF 50V CH GRM1552C1H330JZ01D K22178224 1- B g2
C 1077 CHIP CAP. 33pF 50V CH GRM1552C1H330JZ01D K22178224 1- B g2
C 1078 CHIP CAP. 33pF 50V CH GRM1552C1H330JZ01D K22178224 1- B g2
C 1079 CHIP CAP. 100pF 50V CH GRM1552C1H101JD01D K22178236 1- B g1
C 1080 CHIP CAP. 10pF 50V CH GRM36CH100B50PT K22178297 1- B g1
C 1081 CHIP CAP. 22pF 50V CH GRM1552C1H220JZ01D K22178220 1- B g1
C 1082 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B h2
C 1083 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B h2
C 1084 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A D2
C 1086 CHIP CAP. 10pF 50V CH GRM36CH100B50PT K22178297 1- B g1
C 1087 CHIP CAP. 22pF 50V CH GRM1552C1H220JZ01D K22178220 1- B h1
C 1088 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B h1
C 1089 CHIP CAP. 1uF 6.3V B GRM188B10J105KA01D K22084801 1- B g2
C 1090 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B h1
C 1092 CHIP CAP. 27pF 50V CH GRM1552C1H270JZ01D K22178222 1- B a2
C 1093 CHIP CAP. 100pF 50V CH GRM1552C1H101JD01D K22178236 1- B b2
C 1097 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c1
C 1098 CHIP CAP. 8pF 50V CH GRM1552C1H8R0BZ01D K22178295 1- B b2
C 1099 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b2
C 1100 CHIP CAP. 2pF 50V CK GRM1554C1H2R0BZ01D K22178289 1- B c2
C 1101 CHIP CAP. 7pF 50V CH GRM1552C1H7R0BZ01D K22178294 1- B c2
C 1102 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c2
C 1103 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B c2
C 1104 CHIP CAP. 8pF 50V CH GRM1552C1H8R0BZ01D K22178295 1- B c2
C 1106 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c2
C 1107 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c2
C 1108 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c2
C 1109 CHIP CAP. 1pF 50V CK GRM1554C1H1R0BZ01D K22178287 1- B c2
C 1110 CHIP CAP. 1pF 50V CK GRM1554C1H1R0BZ01D K22178287 1- B c2
C 1111 CHIP CAP. 0.5pF 50V CK GRM1554C1HR50BZ01D K22178285 1- B c1
C 1112 CHIP CAP. 0.75pF 50V CK GRM1554C1HR75BZ01D K22178286 1- B c1
C 1113 CHIP CAP. 10pF 50V CH GRM36CH100B50PT K22178297 1- B c1
C 1114 CHIP CAP. 47pF 50V CH GRM1552C1H470JZ01D K22178228 1- B c1
C 1115 CHIP CAP. 47pF 50V CH GRM1552C1H470JZ01D K22178228 1- B c1
C 1116 CHIP CAP. 0.5pF 50V CK GRM1554C1HR50BZ01D K22178285 1- B c2
C 1117 CHIP CAP. 0.75pF 50V CK GRM1554C1HR75BZ01D K22178286 1- B d1
C 1118 CHIP CAP. 4pF 50V CH GRM1552C1H4R0BZ01D K22178291 1- B c1
C 1119 CHIP CAP. 47pF 50V CH GRM1552C1H470JZ01D K22178228 1- B c1
C 1120 CHIP CAP. 0.5pF 50V CK GRM1554C1HR50BZ01D K22178285 1- B d1
C 1121 CHIP CAP. 8pF 50V CH GRM1552C1H8R0BZ01D K22178295 1- B d1
C 1122 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1123 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1124 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B d1
C 1125 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1126 CHIP CAP. 56pF 50V CH GRM1552C1H560JD01D K22178230 1- B d1
C 1128 CHIP CAP. 6pF 50V CH GRM1552C1H6R0BZ01D K22178293 1- B e1
C 1129 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d1
C 1130 CHIP CAP. 22pF 50V CH GRM1552C1H220JZ01D K22178220 1- B d1
C 1131 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A C1
C 1132 CHIP CAP. 43pF 50V CH GRM1552C1H430JD01D K22178227 1- A C1
C 1133 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B e2
C 1134 CHIP TA.CAP. 22uF 6.3V TEMSVA0J226M-8R K78080047 1- B g2
C 1135 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B g3
C 1136 CHIP CAP. 39pF 50V CH GRM1552C1H390JZ01D K22178226 1- B g3
C 1137 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B g3
C 1138 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B g3
C 1139 CHIP CAP. 56pF 50V CH GRM1552C1H560JD01D K22178230 1- B g2
C 1140 CHIP CAP. 68pF 50V CH GRM1552C1H680JZ01D K22178232 1- B g2
C 1141 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B f2
C 1142 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B g3
C 1143 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B g3
19
Parts List
REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS.
LOT
SIDE
LAY ADR
MAIN Unit
C 1144 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B g3
C 1145 CHIP CAP. 470pF 50V B GRM155B11H471KA01D K22178805 1- B g2
C 1146 CHIP CAP. 470pF 50V B GRM155B11H471KA01D K22178805 1- B g2
C 1147 CHIP CAP. 220pF 50V B GRM155B11H221KA01D K22178801 1- B f2
C 1148 CHIP CAP. 680pF 50V B GRM155B11H681KA01D K22178807 1- B f2
C 1149 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B g2
C 1150 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B g2
C 1151 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B h3
C 1152 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A C2
C 1153 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- A C2
C 1154 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- A C2
C 1155 CHIP CAP. 1uF 6.3V B GRM188B10J105KA01D K22084801 1- A F2
C 1156 CHIP CAP. 0.1uF 25V B GRM40B104M25PT K22140811 1- A F2
C 1157 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F3
C 1158 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- A G3
C 1159 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- A F2
C 1160 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B f2
C 1161 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G2
C 1162 AL.ELECTRO.CAP. 100uF 16V ECEV1CA101WP K48120012 1- B a3
C 1163 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- A G3
C 1164 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A G3
C 1165 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G3
C 1166 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A G2
C 1167 AL.ELECTRO.CAP. 100uF RVZ-10V101MF55U-R2 K48100008 1- B b2
C 1168 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A G2
C 1169 AL.ELECTRO.CAP. 100uF RVZ-10V101MF55U-R2 K48100008 1- B a3
C 1170 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F2
C 1171 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F2
C 1172 CHIP CAP. 100pF 50V CH GRM1552C1H101JD01D K22178236 1- A G2
C 1173 CHIP CAP. 100pF 50V CH GRM1552C1H101JD01D K22178236 1- A G2
C 1174 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B a2
C 1175 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- A H3
C 1176 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- A H3
C 1177 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b1
C 1178 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B f4
C 1179 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B f4
C 1180 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B d3
C 1181 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B d3
C 1182 CHIP CAP. 0.0022uF 50V B GRM155B11H222KA01D K22178813 1- B d3
C 1183 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B d3
C 1184 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B d3
C 1185 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B d3
C 1186 CHIP TA.CAP. 22uF 6.3V TEMSVA0J226M-8R K78080047 1- B d3
C 1187 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B g4
C 1188 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B g4
C 1189 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B g3
C 1190 CHIP CAP. 0.0068uF 25V B GRM36B682K25PT K22148803 1- B g3
C 1191 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B g3
C 1192 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B g3
C 1193 CHIP CAP. 0.047uF 10V B GRM36B473K10PT K22108801 1- B g3
C 1194 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- A G3
C 1195 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A E1
C 1196 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D1
C 1197 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A D1
C 1198 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D1
C 1199 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b4
C 1200 AL.ELECTRO.CAP. 47uF 16V RV4-16V470MF46-RR2 K48120019 1- B b3
C 1201 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b4
C 1202 CHIP TA.CAP. 150uF 4V TEMSVC0G157M12R K78060034 1- B a4
C 1203 CHIP CAP. 0.1uF 25V B GRM40B104M25PT K22140811 1- A G3
C 1204 CHIP CAP. 0.22uF 10V B GRM188B11A224KA01D K22104801 1- A H3
C 1205 CHIP TA.CAP. 22uF 6.3V TEMSVA0J226M-8R K78080047 1- A G2
C 1206 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A G2
C 1207 CHIP CAP. 0.022uF 16V B GRM36B223K16PT K22128806 1- B d2
C 1208 CHIP CAP. 1uF 6.3V B GRM188B10J105KA01D K22084801 1- B d2
C 1209 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B d2
C 1210 CHIP CAP. 330pF 50V B GRM155B11H331KA01D K22178803 1- B c2
C 1211 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- B c2
C 1212 CHIP CAP. 0.022uF 16V B GRM36B223K16PT K22128806 1- B c2
C 1213 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B c2
C 1214 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- B c2
C 1215 CHIP CAP. 680pF 50V B GRM155B11H681KA01D K22178807 1- B c2
C 1216 CHIP CAP. 470pF 50V B GRM155B11H471KA01D K22178805 1- B c2
20
Parts List
MAIN Unit
REF DESCRIPTION VALUE V/W TOL. MFR'S DESIG VXSTD P/N VERS.
LOT
SIDE
LAY ADR
C 1217 CHIP CAP. 0.022uF 16V B GRM36B223K16PT K22128806 1- B c3
C 1218 CHIP CAP. 0.0068uF 25V B GRM36B682K25PT K22148803 1- B c3
C 1219 CHIP CAP. 330pF 50V B GRM155B11H331KA01D K22178803 1- B c3
C 1220 CHIP CAP. 680pF 50V B GRM155B11H681KA01D K22178807 1- B c3
C 1221 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- B c3
C 1222 CHIP CAP. 0.22uF 10V B GRM188B11A224KA01D K22104801 1- B c3
C 1223 CHIP CAP. 1uF 6.3V B GRM188B10J105KA01D K22084801 1- B d2
C 1224 CHIP CAP. 0.0068uF 25V B GRM36B682K25PT K22148803 1- B c2
C 1225 CHIP CAP. 0.0068uF 25V B GRM36B682K25PT K22148803 1- B d2
C 1226 CHIP CAP. 100pF 50V CH GRM1552C1H101JD01D K22178236 1- B d2
C 1227 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B d3
C 1228 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c1
C 1229 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A E3
C 1230 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c4
C 1231 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c4
C 1232 CHIP TA.CAP. 4.7uF 16V TEMSVA1C475M-8R K78120031 1- A F3
C 1233 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B c4
C 1234 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c4
C 1235 CHIP CAP. 0.022uF 16V B GRM36B223K16PT K22128806 1- B c3
C 1236 CHIP CAP. 0.022uF 16V B GRM36B223K16PT K22128806 1- B c3
C 1237 CHIP CAP. 470pF 50V B GRM155B11H471KA01D K22178805 1- B c3
C 1238 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F3
C 1239 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F1
C 1240 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B b4
C 1241 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A A4
C 1242 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c3
C 1243 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B d3
C 1244 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B c3
C 1245 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- B b3
C 1246 CHIP CAP. 5pF 50V CH GRM1552C1H5R0BZ01D K22178292 1- B b3
C 1247 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- B b2
C 1248 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- B b3
C 1249 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B c3
C 1250 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c3
C 1251 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- B c3
C 1252 CHIP CAP. 27pF 50V CH GRM1552C1H270JZ01D K22178222 1- B c3
C 1253 CHIP CAP. 470pF 50V B GRM155B11H471KA01D K22178805 1- B c3
C 1255 CHIP CAP. 1uF 6.3V B GRM188B10J105KA01D K22084801 1- B c3
C 1256 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A E2
C 1257 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- A F2
C 1258 CHIP CAP. 0.01uF 16V B GRM36B103K16PT K22128804 1- A D2
C 1259 CHIP CAP. 0.0047uF 25V B GRM36B472K25PT K22148830 1- A D3
C 1260 CHIP CAP. 2pF 50V CK GRM1554C1H2R0BZ01D K22178289 1- B d2
C 1261 CHIP CAP. 22pF 50V CH GRM1552C1H220JZ01D K22178220 1- B d2
C 1262 CHIP CAP. 18pF 50V CH GRM1552C1H180JZ01D K22178218 1- B d2
C 1263 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A E3
C 1264 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A E3
C 1265 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A E3
C 1266 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A E2
C 1267 CHIP TA.CAP. 47uF 4V SK7-0G476M-RA K78060048 1- B d2
C 1268 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D3
C 1269 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A D3
C 1270 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D1
C 1271 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D1
C 1272 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D1
C 1273 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A F4
C 1274 CHIP CAP. 0.001uF 50V B GRM155B11H102KA01D K22178809 1- A D4
C 1275 CHIP TA.CAP. 22uF 6.3V TEMSVA0J226M-8R K78080047 1- B b3
C 1276 CHIP TA.CAP. 10uF 10V TEMSVA1A106M-8R K78100028 1- B g3
C 1277 CHIP CAP. 0.0033uF 50V B GRM155B11H332KA01D K22178815 1- B g3
C 1278 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- A C3
C 1279 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B g2
C 1280 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B d4
C 1281 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B e2
C 1283 CHIP CAP. 12pF 50V CH GRM1552C1H120JZ01D K22178214 1- A F1
C 1284 CHIP CAP. 0.5pF 50V CK GRM1554C1HR50BZ01D K22178285 1- B f1
C 1285 CHIP CAP. 0.1uF 10V B GRM36B104K10PT K22108802 1- B d4
CD1001 CERAMIC DISC JTBC450C7 H7901500 1- B g2
CF1001 CERAMIC FILTER LTWC450G H3900562 1-3 B g2
CF1002 CERAMIC FILTER LTWC450F H3900563 1- B g3
D 1002 DIODE 1SS321 TE85R G2070076 1- A G1
D 1003 DIODE RLS135 TE-11 G2070128 1- B b1
D 1004 DIODE RLS135 TE-11 G2070128 1- B a1
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