Ws Mn001\MO\VX160180V_SM\vx16 YAESU VX 160 VHF FM Service Manual
User Manual: Pdf YAESU--VX-160-VHF-FM-service-Manual
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VERTEX STANDARD CO., LTD.
4-8-8 Nakameguro, Meguro-Ku, Tokyo 153-8644, Japan
VERTEX STANDARD
VHF FM Transceiver
US Headquarters
10900 Walker Street, Cypress, CA 90630, U.S.A.
International Division
8350 N.W. 52nd Terrace, Suite 201, Miami, FL 33166, U.S.A.
VX-160V/-180V
YAESU EUROPE B.V.
P.O. Box 75525, 1118 ZN Schiphol, The Netherlands
Service Manual
YAESU UK LTD.
Unit 12, Sun Valley Business Park, Winnall Close
Winchester, Hampshire, SO23 0LB, U.K.
VERTEX STANDARD HK LTD.
©2002 VERTEX STANDARD CO., LTD. Printed in Japan.
Unit 5, 20/F., Seaview Centre, 139-141 Hoi Bun Road,
Kwun Tong, Kowloon, Hong Kong
VX-160V
VX-180V
Introduction
This manual provides technical information necessary for servicing the VX-160V and VX-180V FM Transceiver.
Servicing this equipment requires expertise in handling 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 circuit board in the transceiver. Each side of is referred
to by the type of the majority of components installed on that side (“leaded” or “chip-only”). In most cases one side has
only chip components, 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 technical 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
Operating Manual Reprint ........................... 2
Cloning ............................................................. 6
Specifications ................................................... 7
Exploded View & Miscellaneous Parts ...... 8
Block Diagram .................................................9
Circuit Description ................................ 10
Alignment ................................................ 12
Board Unit (Schematics, Layouts & Parts)
MAIN Unit ............................................................... 17
1
Operating Manual Reprint
Controls & Connectors
Battery Pack Installation and Removal
LED Indicator
Glows Green
Blinking Green
Glows Red
Blinking Red
Blinking Yellow
Before You Begin
Monitor on
Busy Channel (or SQL off)
Transmitting
Battery Voltage is low
Receiving a Selective Call
CH (Channel) Selector
Antenna
VOL/PWR Knob
Push To Talk
(PTT) Switch
r To install the battery, hold the transceiver with your
left hand, so your palm is over the speaker and your
thumb is on the top of the belt clip. Insert the battery
pack into the battery compartment on the back of the
radio while tilting the Belt Clip outward, then close
the Battery Pack Latch until it locks in place with a
“Click.”
MIC/SP Jack
(External Mic/Earphone)
Speaker
Monitor Button
LCD (VX-180)
Microphone
Soft KEY (VX-180)
Battery Pack Latch
r To remove the battery, turn the radio off and remove
any protective cases. Open the Battery Pack latch on
the bottom of the radio, then slide the battery downward and out from the radio while holding the Belt
Clip.
Caution!
Display Icons & Indicators (VX-180 Only)
This indicator confirms that
DUAL W ATCH is active.
This icon is the “Low Battery” indicator, which appears when the
battery voltage becomes too low
for proper operation.
This indicator confirms that
DUAL 2-TONE DECODE is active.
2
This indicator confirms that
this channel will be skipped
during scan.
8 Character Alpha-numeric
Invertible Display
Do not attempt to open any of the rechargeable NiCd packs, as they could explode if accidentally shortcircuited.
Low Battery Indication
r As the battery discharges during use, the voltage gradually becomes lower. When the battery voltage reaches
6.3 volts, substitute a freshly charged battery and recharge the depleted pack. The TX/BUSY indicator on
the top of the radio will blink red (on the VX-180, the
“ ” icon will appear on the LCD) when the battery
voltage is low.
r Avoid recharging Ni-Cd batteries often with little use
between charges, as this can degrade the charge capacity. We recommend that you carry an extra, fullycharged pack with you so the operational battery may
be used until depletion (this “deep cycling” technique
promotes better long-term battery capacity).
Operating Manual Reprint
Operation
Preliminary Steps
r Install a charged battery pack onto the transceiver, as
described previously.
r Screw the supplied antenna onto the Antenna jack.
Never attempt to operate this transceiver without an
antenna connected.
r If you have a Speaker/Microphone, we recommend that
it not be connected until you are familiar with the basic operation of the VX-160/-180.
Operation Quick Start
r Turn the top panel’s VOL/
PWR knob clockwise to turn
on the radio on.
r Turn the top panel’s CH selector knob to choose the desired
operating channel.
r Rotate the VOL/PWR knob to
set the volume level. If no signal is present, press and hold
in the MONITOR key (the
lower button on the left side)
for more than 1 seconds; background noise will now be heard, and you may use this
to set the VOL/PWR knob for the desired audio level.
r Press and hold in the MONITOR key for more than 1 seconds (or press the MONITOR
key twice) to quiet the noise
and resume normal (quiet)
monitoring.
r To transmit, press and hold in
the PTT switch. Speak into the
microphone area of the front
panel grille (lower left-hand
corner) in a normal voice level.
To return to the Receive mode,
release the PTT switch.
r If a Speaker/Microphone is available, remove the plastic cap and its two mounting screws from the right side
of the transceiver, then insert the plug from the Speaker/
Microphone into the MIC/SP jack; secure the plug using the screws supplied with the Speaker/Microphone.
Hold the speaker grille up next to your ear while receiving. To transmit, press the PTT switch on the
Speaker/Microphone, just as you would on the main
transceiver’s body.
Note: Save the original plastic cap and its mounting
screws. They should be re-installed when not using the Speaker/Microphone.
Key Functions
The VX-180 provides programmable [A], [B], and [C]
function keys, and both the VX-160 and VX-180 provide
programmable MONITOR keys. These “Soft” keys functions can be customized (set to other functions), via programming by your VERTEX STANDARD dealer, to meet
your communications/network requirements. Some features may require the purchase and installation of optional
internal accessories. The possible Soft key programming
features are illustrated at the right, and their functions are
explained in the next chapter. For further details, contact
your VERTEX STANDARD dealer.
For future reference, check the box next to each function
that has been assigned to the Soft key on your particular
radio, and keep it handy.
Function
[A]
[B]
Soft Key
[C]
MONITOR key
None
Monitor
Low Power
Lock*
Lamp*
Channel Up*
Channel Down*
Scan
Follow-me Scan
Dual Watch
Talk Around
Add/Del*
Call/Reset
Speed Dial
TX Save Off
* VX-180 only
3
Operating Manual Reprint
Description of Operating Functions
Monitor
Follow-Me Scan
Press the assigned Soft key momentarily to override (disable) the Tone squelch.
Background noise or incoming signals will now be heard
whether or not a matching tone is present on the signal).
Press and hold in the assigned Soft key for more than 1
seconds to override both the Noise and Tone squelch.
Again press and hold in the assigned Soft key for more
than 1 seconds (or press the assigned Soft key twice) to
resume normal (quiet) Noise and Tone squelch action.
“Follow-Me” Scan feature checks a User-assigned Priority Channel regularly as you scan the other channels. Thus,
if only Channels 1, 3, and 5 (of the 8 available channels)
are designated for “Scanning,” the user may nonetheless
assign Channel as the “User-assigned” Priority Channel
via the “Follow-Me” feature.
Press the assigned Soft key to activate “Follow-Me” scanning, then turn the CH selector knob to the channel which
you want to designate as the “User-Assigned Priority
Channel”. When the scanner stops on an “active” channel, the User-assigned Priority Channel will automatically
be checked every few seconds.
Low Power
Press the assigned Soft key to set the radio's transmitter
to the “Low Power” mode, thus extending battery life.
Press the assigned Soft key again to return to “High
Power” operation when in difficult terrain.
Lock
Press the assigned Soft key to lock the Soft keys (except
Lock and Monitor key); thus, the [A], [B], [C], and MONITOR keys can be disabled to prevent radio settings from
being disturbed.
Lamp
Press the assigned Soft key to illuminate the LCD for
five seconds.
Channel Up
Press the assigned Soft key to switch to a higher operating channel number.
Channel Down
Press the assigned Soft key to switch to a lower operating channel number.
Scan
The Scanning feature is used to monitor multiple channels programmed into the transceiver. While scanning, the
radio will check each channel for the presence of a signal,
and will stop on a channel if a signal is present.
r To activate scanning:
Press the assigned Soft key.
The scanner will search the channels, looking for active ones; it will pause each time it finds a channel on
which someone is speaking.
r To stop scanning:
Press the assigned Soft key.
Operation will revert to the channel to which the CH
knob is set.
4
Dual Watch
The Dual Watch feature is similar to the Scan feature,
except that only two channels are monitored: the current
operating channel, and the “Priority” channel.
r To activate Dual Watch:
Press the assigned Soft key.
The scanner will search the two channels; it will pause
each time it finds a channel on which someone is speaking.
r To stop Dual Watch:
Press the assigned Soft key.
Operation will revert to the channel to which the CH
knob is set.
Talk Around
Press the assigned Soft to activate the Talk Around feature when you are operating on duplex channel systems
(separate receive and transmit frequencies, utilizing a “repeater” station). The Talk Around feature allows you to
bypass the repeater station and talk directly to a station
that is nearby. This feature has no effect when you are
operating on “Simplex” channels, where the receive and
transmit frequencies are already the same.
Note that your dealer may have made provision for “Talk
Around” channels by programming “repeater” and “Talk
Around” frequencies on two adjacent channels. If so, the
key may be used for one of the other Pre-Programmed
Functions.
Add/Del
The Add/Del feature allows the user to arrange a custom
Scan.
Press the assigned Soft key to delete/restore the current
channel to/from your scanning list.
When you delete a current channel, “SKIP” will appear
on the LCD after pressing the Soft key. When you restore a current channel, “SKIP” indicator on the LCD
will turn off.
Operating Manual Reprint
Description of Operating Functions
Call/Reset
TX Save Off
When the 2-tone selective calling unit is installed, press
the assigned Soft key to silence the receiver and reset for
another call, when a communication is finished.
Press the assigned Soft key to disable the Transmit Battery Saver, if you are operating in a location where high
power is almost always needed.
The Transmit Battery Saver helps extend battery life by
reducing transmit power when a very strong signal from
an apparently nearby station is being received. Under some
circumstances, though, your hand-held radio may not be
heard well at the other end of the communication path,
and high power may be necessary at all times.
Speed Dial
Your Dealer may have pre-programmed Auto-Dial telephone number memories into your radio.
To dial a number, just press the Dealer-assigned Soft key
for Speed Dialing. The DTMF tones sent during the dialing sequence will be heard in the speaker.
Accessories & Options
FNB-64
FNB-V57
FBA-25
NC-77B
NC-77C
VAC-800
VAC-6800
MH-45B4B
MH-37A4B
VC-25
VCM-1
LCC-160/S
LCC-180/S
CT-42
CT-27
CE44
7.2 V 700 mAh Ni-Cd Battery
7.2 V 1100 mAh Ni-Cd Battery
Alkaline Battery Case
120 VAC Overnight Desktop Charger
230-240 VAC Overnight Desktop Charger
Desktop Rapid Charger
6-unit Multi Charger
Speaker/Microphone
Earpiece Microphone
VOX Headset
Mobile Mounting Bracket (for VAC-800)
Leather Case (for VX-160)
Leather Case (for VX-180)
PC Programming Cable
Radio to Radio Programming Cable
Programming Software
5
Cloning
The VX-160/-180 includes a convenient “Cloning” feature, which allows the programming data from one transceiver to
be transferred to another VX-160/-180. Here is the procedure for Cloning one radio's data to another.
1. Turn both transceivers off.
2. Remove the plastic cap and its two mounting screws
from the MIC/SP jack on the right side of the transceiver. Do this for both transceivers.
3. Connect the optional CT-27 cloning cable between the
MIC/SP jacks of the two transceivers.
4. Press and hold in the PTT and MONITOR switches
(just below the PTT switch) while turning the transceiver on. Do this for both transceivers (the order of
the switch-on does not matter). “CLONE” will appear
on the displays (for the VX-180) of both transceivers
when Clone mode is successfully activated in this step;
in the case of the VX-160, no change will be observed
at this point.
5. On the Destination transceiver, press the MONITOR
switch. “LOADING” will appear on the LCD (for VX180; for VX-160, the TX/BUSY indicator on the top
of the radio will glow Green).
6. Press the PTT switch on the source transceiver; “SENDING” will appear on the Source transceiver (for VX180; for VX-160, the TX/BUSY indicator on the top
of the radio will glow Red), and the data will be transferred.
7. If there is a problem during the cloning process, “ERROR” will appear on the LCD (for VX-180; for VX160, the TX/BUSY indicator on the top of the radio
will blink Red); check your cable connections and battery voltage, and try again.
8. If the data transfer is successful, the display will return to “CLONE” (for VX-180; for VX-160, the TX/
BUSY indicator on the top of the radio will turn off).
Turn both transceivers off and disconnect the CT-27
cable. You can then turn the transceivers back on, and
begin normal operation.
9. Replace the plastic cap and its two mounting screws.
Optional Cloning Cable CT-27
6
Specifications
GENERAL Specifications
Frequency Range (MHz):
134 - 160 (A)
148 - 174 (C)
Number of Channels:
16 channels
Channel Spacing:
12.5 / 25 kHz (15 / 30 kHz)
PLL Steps
2.5 / 6.25 kHz
Power Supply voltage:
7.5 VDC ± 20%
Operating Temperature Range: –22°F to +140°F (–30°C to +60°C)
Frequency Stability:
±2.5 ppm
Dimensions (WHD):
2.3" (W) x 4.7" (H) x 1.2" (D) (58 x 120 x 31 mm)
Weight (approx.):
0.81 lb. (365 g) w/FNB-64
RECEIVER Specifications (Measurements made per EIA standard TIA/EIA-603)
Sensitivity
EIA 12 dB SINAD :
20 dB Quieting :
Adjacent channel selectivity:
Intermodulation:
Spurious and Image Rejection:
Hum & Noise
Audio output:
0.20 µV
0.30 µV
65 dB (25 kHz) / 60 dB (12.5 kHz)
65 dB
65 dB
45 dB
500 mW @4 Ohms, 5% THD
TRANSMITTER Specifications (Measurements made per EIA standard TIA/EIA-603)
Power output:
Modulation:
Conducted Spurious Emissions:
FM Hum & Noise:
Audio distortion (@ 1 kHz):
5.0 / 1.0 W
16K0F3E, 11K0F3E
60 dB Below Carrier
40 dB (25 kHz) / 35 dB (12.5 kHz)
<5%
Measurements per EIA standards unless noted above. Specifications subject to change without notice or obligation.
7
Exploded View & Miscellaneous Parts
RA029600A (Lot. 17~)
RA0296000 (Lot. 1~)
FRONT CASE ASSY (VX-160)
REF. VXSTD P/N
RA0173500
CAP
Â
Â
À
U44104002
Á
U44104002
(VX-180U)
U20206007
Â
R6147510
RING NUT (x 2 pcs)
Description
10
TAPTITE SCREW M2X4NI
2
BINDING HEAD SCREW M2.6X6B
2
Ã
Ä
U24110002
TAPTITE SCREW M2X10NI
2
U02206007
SEMS SCREW SM2.6X6B
2
Å
U00103002
PAN HEAD SCREW M2X3NI
1
RA0296100
VOLUME KNOB
RA0210900
WINDOW
RA0294400
LCD HOLDER (VX-180)
G6090139
LCD (VX-180)
RA029450A (Lot. 10~)
RA0294500
LIGHT GUIDE (VX-180)
RA0309800 (Lot. 20~)
MYLAR SHEET (SP)
RA0334900A
REFLECTOR SHEET (VX-180)
RA0294800
INTER CONNECTOR (VX-180)
À
RA029590B (Lot. 17~)
RA0295900 (Lot. 1~)
FRONT CASE ASSY (VX-180)
RA0294200
PTT KNOB
RA0210600
RUBBER PACKING (x 2 pcs)
M4090151A (Lot. 10~)
M4090151 (Lot. 1~)
RA029620A (Lot. 3~) SPEAKER
RA0296200 (Lot. 1~)
KNOB (CH)
À
À
À
À
À
Á
À À
MAIN Unit
À
RA0110200
HOLDER RUBBER
Á
RA0293900
RUBBER KNOB
RA0107000
TERMINAL PLATE R
RA010340A
TERMINAL HOLDER
RA0123500
LATCH NAIL B
TERMINAL PLATE L
RA0294300 (Lot. 1~)
RA029430A (Lot. 4~)
RUBBER PACKING
RA029310D (Lot. 26~)
RA029310C (Lot. 20~)
RA029310B (Lot. 11~)
RA029310A (Lot. 3~)
RA0293100
REAR CASE ASSY
(w/SMA CONNECTOR, TERMINAL PLATE L,
PAN HEAD SCREW M2X3NI)
Ã
À
Å
Ã
CAUTION
Ä
8
Ä
Qty.
TAPTITE SCREW M2X4NI
CP7064001
BELT CLIP ASSY
The mic element must be desoldered
and removed from the PCB on order to reinstall its protective rubber cover.
Therefore, be
Á
careful not to remove À
this cover unless mic
element replacement
is necessary.
Block Diagram
9
Circuit Description
Receive Signal Path
Squelch Control
Incoming RF from the antenna jack is delivered to the
RF Unit and passes through a low-pass filter consisting
of coils L1001, L1002, and L1031, capacitors C1004,
C1005, C1008, C1010, C1014, C1016, and C1221, and
antenna switching diode D1003 (RLS135 TE-17).
Signals within the frequency range of the transceiver
enter a varactor-tuned band-pass filter consisting of coils
L1010 and L1011, capacitors C1044, C1046, C1060,
C1065, and C1068, and diodes D1011 (HVC358B),
D1012 (HVC358B), D1013 (HVC358B), and D1014
(HVC358B), then are amplified by Q1012 (2SC5006T1) and enter a varactor-tuned band-pass filter consisting
of coils L1017 and L1021, capacitors C1084, C1086,
C1095, and C1097, and diodes D1018 (HVC358B) and
D1019 (HVC358B), before mixing by first mixer Q1026
(SGM2016AM-T7).
Buffered output from the VCO is amplified by Q1007
(2SC5005-T1) to provide a pure first local signal between 190.25 and 218.25 MHz for injection to the first
mixer. The 44.25 MHz first mixer product then passes
through monolithic crystal filter XF1002 (HDF0042, 5.5
kHz BW) to strip away unwanted mixer products, and the
IF signal is then amplified by Q1033 (2SC4215Y
TE85R).
The amplified first IF signal is applied to FM IF subsystem IC Q1037 (TA31136FN-EL), which contains the
second mixer, second local oscillator, limiter amplifier,
noise amplifier, and RSSI amplifier.
The second local signal is produced from the PLL reference/second local oscillator of 14.60 MHz crystal
X1001. The 14.60 MHz reference signal is tripled by
Q1036, capacitor C1209, and coil L1029, and the resulting 43.8 MHz second local signal is then delivered to the
mixer section of Q1037, which produces the 450 kHz second IF when mixed with the first IF signal.
The second IF then passes through ceramic filter
CF1001 (ALFYM450G=K on “Narrow” channels) or
CF1002 (ALFYM450F=K on “Wide” channels) to strip
away all but the desired signal, and then is applied to the
limiter amplifier in Q1037, which removes amplitude
variations in the 450 kHz IF, before detection of the speech
by the ceramic discriminator, CD1001 (CDBC450CX24).
Detected audio from Q1037 is applied to the audio
high-pass filter, and then passes via the volume control to
the audio amplifier Q1039 (NJM2070M-TE2), which
provides up to 1/2 Watt to the optional headphone jack or
a 4-ohm loudspeaker.
The squelch circuitry consists of a noise amplifier and
band-pass filter within Q1037, and noise detector D1018
(1SS355 TE-17).
When no carrier is received, noise at the output of the
detector stage in Q1037 is amplified and band-pass filtered by the noise amplifier section of Q1037 and the network between pins 7 and 8, and then is rectified by D1028.
The resulting DC squelch control voltage is passed to
pin 37 of the microprocessor Q1014 (M37516E6HP). If
no carrier is received, this signal causes pin 24 of Q1014
to go high and pin 20 to go high. Pin 24 signals Q1060
(RT1P441U-T11-1) to disable the supply voltage to the
audio amplifier Q1039, while pin 20 holds the green
(Busy) half of the LED off, when pin 24 is high and pin
20 is high.
Thus, the microprocessor blocks output from the audio amplifier, and silences the receiver, while no signal is
being received (and during transmission, as well).
When a carrier appears at the discriminator, noise is
removed from the output, causing pin 37 of Q1014 to go
low and the microprocessor to activate the “Busy” LED
via Q1014.
The microprocessor then checks for CTCSS or CDCSS
code squelch information, if enabled. If not transmitting
and CTCSS or CDCSS is not activated, or if the received
tone or code matches that programmed, audio is allowed
to pass through the audio amplifier Q1039 (NJM2070M
TE2) to the loudspeaker by the enabling of the supply
voltage to it via Q1037.
10
Transmit Signal Path
Speech input from the microphone is amplified by
Q1017 (NJM2902V TE1); after pre-emphasis by C1066
and R1054, the audio is amplified in another section of Q1017.
The processed audio may then be mixed with a CTCSS
tone generated by Q1014 (M37516E6HP) for frequency
modulation of the PLL carrier (up to ±5 kHz from the
unmodulated carrier) at the transmitting frequency.
If a CDCSS code is enabled for transmission, the code
is generated by microprocessor Q1014 (M37516E6HP)
and delivered to D1004 (HVC350B TRF) for CDCSS
modulating.
The modulated signal from the VCO Q1002
(2SC5231C8-TL) is buffered by Q1007 (2SC5005-T1).
The low-level transmit signal then passes through the T/
R switching diode D1016 (DAN235E-TL) to driver amplifiers Q1015 ( 2 S C 5 2 2 7 - 4 - T B ) and Q1016
(2SK2596BXTL), then the amplified transmit signal is
applied to the final amplifier Q1024 (2SK2974-T11),
which delivers up to 5 watts of output power.
The transmit signal then passes through the antenna
switch D1003 (RLS135 TE-11) and is low-pass filtered,
to suppress harmonic spurious radiation, before delivery
to the antenna.
Circuit Description
Automatic Transmit Power Control
Current from the final amplifier is sampled by R1108,
R1115, and R1125, and is rectified by Q1057 (IMZ2A
T108). The resulting DC is fed back through Q1032
(FMW1 T98) to the drive amplifier Q1016 and final amplifier Q1024, for control of the power output.
The microprocessor selects “High” or “Low” power levels.
Transmit Inhibit
When the transmit PLL is unlocked, pin 7 of PLL chip
Q1005 goes to a logic “Low,” and unlock detector Q1056
(2SA1586Y TE85R) goes to a logic “High.” The resulting DC unlock control voltage is passed to pin 14 of the
microprocessor, Q1014. While the transmit PLL is unlocked, pin 22 of Q1014 remains high, which then turns
off Q1029 (CPH6102-TL) and the Automatic Power Controller Q1032 (FMW1 T98) to disable the supply voltage
to the drive amplifiers Q1015/Q1016 and final amplifier
Q1024, thereby disabling the transmitter.
Spurious Suppression
Generation of spurious products by the transmitter is
minimized by the fundamental carrier frequency being
equal to final transmitting frequency, modulated directly
in the transmit VCO. Additional harmonic suppression is
provided by a low-pass filter consisting of coils L1001,
L1002, and L1031 plus capacitors C1004, C1005, C1008,
C1010, C1014, C1016, and C1221, resulting in more than
60 dB of harmonic suppression prior to delivery of the
RF signal to the antenna.
PLL Frequency Synthesizer
The PLL circuitry on the Main Unit consists of VCO
Q1002 (2SC5231C8-TL ), VCO buffer Q1007
(2SC5005), and PLL subsystem IC Q1005
(MB15A02PFV1-G-BND-EF), which contains a reference divider, serial-to-parallel data latch, programmable
divider, phase comparator, and charge pump.
Frequency stability is maintained by temperature compensating thermistor TH1004. The output from TH1004
is applied to pin 39 of Q1014. Q1014 outputs thermal
data to D/A converter Q1052 (M62364FP 600D), which
produces a DC voltage corresponding to the thermal data.
The resulting DC voltage is applied to varactor diode
D1004 (HVC350B TRF) to stabilize the 14.60 MHz Reference Frequency.
While receiving, VCO Q1002 oscillates between
190.25 and 218.25 MHz according to the transceiver version and the programmed receiving frequency. The VCO
output is buffered by Q1007, then applied to the prescaler
section of Q1005. There the VCO signal is divided by 64
or 65, according to a control signal from the data latch
section of Q1005, before being sent to the programmable
divider section of Q1005.
The data latch section of Q1005 also receives serial
dividing data from the microprocessor, Q1014, which
causes the pre-divided VCO signal to be further divided
in the programmable divider section, depending upon the
desired receive frequency, so as to produce a 2.5 kHz or
3.125 kHz derivative of the current VCO frequency.
Meanwhile, the reference divider section of Q1005
divides the 14.60 MHz crystal reference (from the reference oscillator, Q1022) by 5840 (or 4672) to produce the
2.5 kHz (or 3.125 kHz) loop references (respectively).
The 2.5 kHz (or 3.125 kHz) signal from the programmable divider (derived from the VCO) and that derived
from the reference oscillator are applied to the phase detector section of Q1004, which produces a pulsed output
with pulse duration depending on the phase difference
between the input signals.
This pulse train is filtered to DC and returned to the
varactor D1037 (HVC358B) and D1042 (HVC355B).
Changes in the level of the DC voltage are applied to the
varactor, affecting the reference in the tank circuit of the
VCO according to the phase difference between the signals derived from the VCO and the crystal reference oscillator.
The VCO is thus phase-locked to the crystal reference
oscillator. The output of the VCO Q1002, after buffering
by Q1007, is applied to the first mixer as described previously.
For transmission, the VCO Q1002 oscillates between
146 and 174 MHz according to the model version and
programmed transmit frequency. The remainder of the PLL
circuitry is shared with the receiver. However, the dividing data from the microprocessor is such that the VCO
frequency is at the actual transmit frequency (rather than
offset for IFs, as in the receiving case). Also, the VCO is
modulated by the speech audio applied to D1005 (1SV229
TPH3), as described previously.
Receive and transmit buses select which VCO is made
active, using Q1059 (RT1N441U-T11-1) and Q1059
(RT1P441U-T11-1).
Miscellaneous Circuits
Push-To-Talk Transmit Activation
The PTT switch on the microphone is connected to
pin 48 of microprocessor Q1014, so that when the PTT
switch is closed, pin 23 of Q1014 goes low. This signal
disables the receiver by disabling the 5 V supply bus at
Q1036 (DTB123EK T146) to the front-end, FM IF subsystem IC Q1037, and the receiver VCO circuitry.
At the same time, Q1027 (FMW1 T98) and Q1029
(CPH6102-TL) activate the transmit 5V supply line to
enable the transmitter.
11
Alignment
Introduction
Required Test Equipment
The VX-160/-180 has been aligned at the factory for
the specified performance across the entire frequency
range specified. Realignment should therefore not be necessary except in the event of a component failure. All component replacement and service should be performed only
by an authorized Vertex Standard representative, or the
warranty policy may be voided.
The following procedures cover the sometimes critical and tedious adjustments that are not normally required
once the transceiver has left the factory. However, if damage occurs and some parts are replaced, realignment may
be required. If a sudden problem occurs during normal
operation, it is likely 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
authorized Vertex Standard service technicians who are
experienced with the circuitry and fully equipped for repair and alignment. Therefore, if a fault is suspected, contact the dealer from whom the transceiver was purchased
for instructions regarding repair. Authorized Vertex Standard service technicians 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 must reserve the right to change circuits and alignment procedures in the interest of improved performance, without
notifying owners. Under no circumstances should any
alignment be attempted unless the normal function and
operation of the transceiver are clearly understood, the
cause of the malfunction has been clearly pinpointed and
any faulty components replaced, and the need for realignment determined to be absolutely necessary. The following test equipment (and thorough familiarity with its correct use) is necessary for complete realignment. Correction of problems caused by misalignment resulting from
use of improper test equipment is not covered under the
warranty policy. While most steps do not require all of
the equipment listed, the interactions of some adjustments
may require that more complex adjustments be performed
afterwards. 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.
r Avionics Radio Tester with calibrated output level at
500 MHz
r In-line Wattmeter with 5% accuracy at 500 MHz
r 50-ohm, 10-W RF Dummy Load
r Regulated DC Power Supply (standard 7.5V DC, 2A)
r Frequency Counter: ±0.2 ppm accuracy at 500 MHz
r AF Signal Generator
r AC Voltmeter
r DC Voltmeter
r UHF Sampling Coupler
r IBM PC/compatible Computer with Microsoft DOS
v3.0 or later operating system
r Vertex Standard CT-42 Connection Cable and CE44
Alignment program
12
Alignment Preparation & Precautions
A 50-ohm RF Dummy load and in-line wattmeter must
be connected to the main antenna jack in all procedures
that call for transmission, except where specified otherwise. Correct alignment is not possible with an antenna.
After completing one step, read the following step to
determine whether the same test equipment will be 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
20° and 30°C (68°~ 86°F). When the transceiver is brought
into the shop from hot or cold air, it should be allowed
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 this procedure are
based on 0 dBµ = 0.5 µV (closed circuit).
Important Note
When connecting the CT-42 plug into the MIC/SP
jack of the VX-160/-180, you must remove the plastic cap and its mounting screws prior to programming.
Please remember to re-attach the cap and screws when
the programming is complete.
Alignment
Set up the test equipment as shown below for transceiver alignment, and apply 7.5V DC power to the transceiver.
50-ohm
Dummy Load
RF Signal
Generator
Inline Wattmeter
Deviation Meter
Frequency
Counter
RF Sampling
Coupler
Transceiver
MIC/SP
CT-42 connection
Cable
Power Supply
7.5V DC
PC
COM port
The transceiver must be programmed for use in the
intended system before alignment is attempted. The RF
parameters are loaded from the file during the alignment
process.
In order to facilitate alignment over the complete operating rang of the equipment, it is recommended that the
channel data in the transceiver be preset as per the chart
below.
Channels
Low Band Edge
(Channel 1)
Band Center
(Channel 2)
High Band Edge
(Channel 3)
Frequency (MHz)
Ver. A
Ver. C
134.000
148.000
161.000
(High POWER) (High POWER)
160.000
174.000
(High POWER) (High POWER)
Tone-Frequency (Hz) / DCS-code
Channel
Low Band Edge
(Channel 1)
Band Center
(Channel 2)
High Band Edge
(Channel 3)
Ver. A
Installation of the Alignment tool
The “alignment mode” is a software-based protocol,
accessed by an “Alignment Mode” command from the
computer while switching the transceiver on.It is operated by the alignment tool automatically. During use of
the alignment mode, normal operation is suspended. The
alignment tool program provides all needed operation capability.
The alignment tool consists of an executable file
“CE44.exe” and an accmpanying configuration file
“CE44.cfg” which should be loaded per standard DOS
procedures. Create a suitable directory, then copy these
foles from the distribution diskette into the new directory.
For example, if copying the file from Drive A, use the
following DOS command sequence:
c:\ mkdir align [enter]
c:\ cd align [enter]
c:\ align\ copy a:ce44.*
No further installation steps are required. If you wish
to utilize a different name for the alignment directory, it
will not matter to the executable file.
Booting the Alignment Tool
Change to the “align” directory (or the directory name
you utilized in the previous section). Now type on the
command line: ce44 [ENTER] to boot the alignment tool.
The introductory screen will appear, and you may press
any key to enter the main screen.
Entering Alignment Mode
To enter the alignment mode, turn the transceiver off,
Select “Radio” then “Adjust” parameter. Now, turn the
transceiver back on. When the command has been successful, a message on the computer screen will confirm
that the transceiver is now in the “Alignment” mode.
(Low POWER) (Low POWER)
147.000
The alignment tool outline
Ver. C
CTCSS
DCS
CTCSS
DCS
–
–
–
–
151.4
–
151.4
–
–
627
–
627
Alignment Sequence
Although the data displayed on the computer's screen
during alignment is temporary data, it is important you
follow the basic alignment sequence precisely, so that the
displayed data and the data loaded into the transceiver are
identical.
Basic Alignment Sequence
1. Enter the alignment mode
2. Upload data from transceiver
3. Align data
4. Download data to transceiver
13
Alignment
PLL VCV (Varactor Control Voltage)
MIC Sensitivity
r Connect the DC voltmeter between TP3 on the Main
Unit and ground.
r Set the transceiver to CH 3 (high band edge), and adjust L1004 on the Main Unit for 3.7~3.8 V on the DC
voltmeter.
r Set the transceiver to CH 1 (low band edge), and confirm the low-end VCV is 0.9 ~ 1.5 V while transmitting, and also while receiving.
r Set the transceiver to CH 2 (band center).
r Inject a 1 kHz tone at –37 dBm to the MIC jack.
CLONE GND
SP
IN
Transmitter Output Power
High Power
r Set the transceiver to CH 2 (band center).
r Open the “Adjust” window on the CE44 program, then
select the “RF Power (High)” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
power meter reading is 5.5 W (± 0.1 W). Confirm that
the current consumption is 2.2 A or lower.
r Press the [ENTER] key to lock in the new data.
r Open the “Adjust” window on CE44, then select the
“MIC Sensitivity” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
deviation meter reading is ±3.0 kHz (±0.1 kHz) (for
25 kHz steps) deviation.
r Press the [ENTER] key to lock in the new data.
Low Power
r Set the transceiver to CH 1 (Low band edge).
r Open the “Adjust” window on the CE44 program, then
select the “RF Power (Low)” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
power meter reading is 1.0 W (± 0.1 W) (for “RF Power
Low”). Confirm that the current consumption is 1.0 A
or lower.
r Press the [ENTER] key to lock in the new data.
TP3
14
L1004
Alignment
MAX Deviation
RF Frequency
r Set the transceiver to CH 2 (band center).
r Inject a 1 kHz tone at –17 dBm to the MIC jack.
r Open the “Adjust” window on CE44, then select the
“MAX Deviation” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
deviation meter reading is ±4.2 kHz (±0.1 kHz) (for
25 kHz steps) or ±2.1 kHz (±0.1 kHz) (for 12.5 kHz
steps) deviation.
r Press the [ENTER] key to lock in the new data.
r Set the transceiver to CH 2 (band center).
r Open the “Adjust” window on CE44, then select the
“RF Frequency” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
frequency counter displays the band center frequency
(±100 Hz) for the version being aligned.
r Press the [ENTER] key to lock in the new data.
CTCSS Deviation
r Set the transceiver to CH 2 (band center).
r Open the “Adjust” window on CE44, then select the
“CTCSS Deviation” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
deviation meter reading is ±0.8 kHz (±0.1 kHz) (for
25 kHz steps) or ±0.5 kHz (±0.1 kHz) (for 12.5 kHz
steps) deviation.
r Press the [ENTER] key to lock in the new data.
DCS Deviation
Sensitivity
r Set the transceiver to CH 3 (high band edge).
r Tune the RF signal generator to the same frequency as
the transceiver’s, then set the generator output level to
40 dBµ with ±3.0 kHz deviation @ 1 kHz tone modulation.
r Open the “Adjust” window on CE44, then select the
“RX Tune” parameter.
r Press the [ENTER] key to enable programming of this
parameter. Use the [¡] or [¢] arrow keys to tune for
best sensitivity; ultimately, the radio should be aligned
so that the RF signal generator output level is –6 dBµ
EMF (0.25 µV) or less for 12 dB SINAD.
r Press the [ENTER] key to lock in the new data.
r Set the transceiver to CH 3 (high band edge).
r Open the “Adjust” window on CE44, then select the
“DCS Deviation” parameter.
r Press the [ENTER] key to enable programming of this
parameter; use the [¡] or [¢] arrow keys so that the
deviation meter reading is ±0.75 kHz (±0.1 kHz) (for
25 kHz steps) or ±0.35 kHz (±0.1 kHz) (for 12.5 kHz
steps) deviation.
r Press the [ENTER] key to lock in the new data.
15
Alignment
Note:
16
MAIN Unit
Circuit Diagram
SQL Open:0.73V
SQL Close:0.74V
SQL Open:2.78V
SQL Close:2.78V
SQL Open:0.0V
SQL Close:0.0V
SQL Open:1.97V
SQL Close:1.97V
SQL Open:0.73V SQL Open:0.0V
SQL Close:0.73V SQL Close:0.0V
<5.04V>
{5.04V}
2.76V
(2.80V)
3.91V
(3.91V)
5.08V
(0.0V)
0.0V
(5.0V)
3.33V
(3.38V)
2.7V
(4.32V)
2.17V 0.78V
(2.28V) (0.24V)
<2.07V>
{0.74V}
Wide:0.0V
Narrow:0.0V
Wide:4.98V
Narrow:0.0V
<2.04V>
{0.72V}
<7.18V>
{7.37V}
<2.7V>
{1.35V}
Wide:4.97V Narrow:1.22V
Wide:4.97V
Narrow:1.19V
Wide:3.13V
Narrow:1.87V
<2.61V>{1.34V}
0.0V
(0.71V)
3.47V
(0.0V)
0.0V <2.07V> {0.75V}
0.0V
(0.0V)
<6.6V>
{6.77V}
0.0V
(0.0V)
Wide:3.15V
Narrow:1.9V
<7.22V>
{7.36V}
Wide:3.71V
Narrow:0.0V
<6.6V>
{6.77V}
Wide:3.71V
Narrow:0.0V
5.0V
<7.2V>
{7.34V}
1.27V
1.27V
4.21V
(4.26V)
4.19V
(0.0V)
1.25V
5.0V
5.07V
(5.11V)
5.0V
(5.0V)
1.24V
4.21V
(4.26V)
1.24V
0.0V
(4.21V)
2.48V
4.9V
(4.94V)
0.0V
(4.95V)
5.0V
5.0V
(3.75V)
0.0V
(4.21V)
2.49V
2.94V
1.56V
5.0V
(0.0V)
1.57V
7.52V
5.0V
LED On:4.27V
LED Off:4.63V
0.0V
(0.0V)
2.44V
5.0V
(5.0V)
1.56V
LED On:2.77V
LED Off:0.0V
1.59V
0.0V 1.57V
4.99V
(4.99V)
4.84V
(4.84V)
3.23V
(3.23V)
0.0V
(0.0V)
1.55V
1.02V
4.99V
7.5V
(7.27V)
2.92V
SQL Open:0.59V SQL Close:0.9V
SQL Open:3.43V
SQL Close:0.04V
5.0V
(4.86V)
4.92V
2.1V
4.73V
(4.2V)
5.0V
(4.95V)
SQL Open:
0.6V
SQL Close:
5.0V
5.0V
(4.22V)
0.0V
(4.84V)
SQL Open:5.0V
SQL Close:5.0V
SQL Open:5.0V
SQL Close:0.0V
SQL Open:6.83V
SQL Close:
7.5V
SQL Open:0.7V
SQL Close:0.0V
0.0V
7.5V <7.33V> {7.43V}
SQL Open:0.26V SQL Close:7.5V
0.0V <5.07V>
{5.06V}
5.0V
(5.0V)
0.0V
(0.0V)
0.0V
(2.27V)
SQL Open:7.5V
SQL Close:0.21V
5.0V (0.0V)
5.0V
5.0V
(5.0V)
4.97V
(5.0V)
0.0V
7.5V
(6.64V)
7.5V
(7.31V)
5.0V
(0.0V)
5.0V
6.96V
(6.75V)
5.0V
(5.0V)
(5.0V)
(2.30V)
(2.29V)
5.0V
(4.42V)
(2.27V)
(2.31V)
(2.27V)
(2.26V)
SQL Open:7.5V
SQL Close:7.5V
7.5V
(7.38V)
5.0V
(5.0V)
0.0V
(5.0V)
(2.29V)
(2.31V)
(0.0V)
4.99V
(7.35V)
(2.24V)
(2.31V)
0.0V
(1.68V)
(2.31V)
5.0V
(5.0V)
0.0V
(5.0V)
4.43V
(4.46V)
5.06V
(5.09V)
RX : XX
TX : XX
TX HIGH :
TX LOW : {XX}
1
2
3
4
5
6
7
8
Q1037
SQL Open
4.98V
9
4.72V
10
3.81V
11
5.02V
12
4.64V
13
4.64V
14
0.81V
15
0.66V
16
1.11V
5.00V
4.14V
0.55V
0.34V
1.67V
0.00V
0.97V
1
2
3
4
5
6
7
8
9
10
11
Q1005
SQL Close SQL Open TX High
------5.00V
5.00V
5.0V
4.77V
4.77V
4.78V
2.53V
2.53V
2.11V
0.0V
0.0V
0.0V
4.77V
4.77V
4.77V
2.41V
2.41V
4.42V
----------
17
MAIN Unit
Parts Layout
A
B
D
C
E
F
1
2
3
Side A
LC75834W
(Q1054)
NJM2070M
(Q1039)
FMW1 (W1)
(Q1032)
CPH6102 (AB)
(Q1051)
2SC4154E (LE)
(Q1025, 1038
1050, 1061)
RT1N441U (N3)
(Q1042, 1053)
NJM12903R
(Q1049)
NJM2902V
(Q1017, 1030)
IMZ2 (Z2)
(Q1057)
RT1P441U (P3)
(Q1060)
2SA1586Y (SY)
(Q1011, 1043)
PDTC114TE (24)
(Q1058)
MC2850 (A7)
(D1030)
12-22SURSYGC/S530-A2/TR8
(D1026)
FA1101F (VX-180)
(D1035, 1038)
19
MAIN Unit
b
a
d
c
f
e
1
2
3
Side B
M37516E6HP
(Q1014)
MB15A02PFV1
(Q1005)
20
TA31136FN
(Q1037)
BR93LC66FV
(Q1010)
M62364FP
(Q1052)
2SK2974
(Q1024)
TK11250BMCL
(Q1040)
2SK2596 (BX)
(Q1016)
RT1N441U (N3)
(Q1034, 1045
1063)
SGM2016AM (MA)
(Q1026)
RT1P441U (P3)
(Q1013, 1020
1059)
FMW1 (W1)
(Q1027, 1028)
2SA1586Y (SY)
(Q1056, 1062)
CPH6102 (AB)
(Q1029, 1031)
DTB123EK (F12)
(Q1036)
2SC4154E (LE)
(Q1008, 1055)
2SC5005 (73)
(Q1007)
2SC5006 (24)
(Q1012)
2SC4215Y (QY)
(Q1033)
2SC5227 (LN)
(Q1015)
S-80735SN (DZ)
(Q1041)
DAN235E (M)
(D1014)
MC2850 (A7)
(D1015, 1033
1034, 1036)
Circuit Diagram
MAIN Unit (Lot. 3~)
21
MAIN Unit (Lot. 3~)
Parts Layout
A
B
D
C
E
F
1
2
3
Side A
VX-160V/-180V Service Manual
LC75834W
(Q1054)
NJM2070M
(Q1039)
FMW1 (W1)
(Q1032)
CPH6102 (AB)
(Q1051)
2SC4154E (LE)
(Q1025, 1038
1050, 1061)
RT1N441U (N3)
(Q1042, 1053)
NJM12903R
(Q1049)
NJM2902V
(Q1017, 1030)
IMZ2 (Z2)
(Q1057)
RT1P441U (P3)
(Q1060)
2SA1586Y (SY)
(Q1011, 1043)
PDTC114TE (24)
(Q1058)
MC2850 (A7)
(D1030)
12-22SURSYGC/S530-A2/TR8
(D1026)
FA1101F (VX-180)
(D1035, 1038)
23
MAIN Unit (Lot. 3~)
b
a
d
c
f
e
1
2
3
Side B
M37516E6HP
(Q1014)
MB15A02PFV1
(Q1005)
24
TA31136FN
(Q1037)
BR93LC66FV
(Q1010)
M62364FP
(Q1052)
2SK2974
(Q1024)
TK11250BMCL
(Q1040)
2SK2596 (BX)
(Q1016)
RT1N441U (N3)
(Q1034, 1045
1063)
SGM2016AM (MA)
(Q1026)
RT1P441U (P3)
(Q1013, 1020
1059)
FMW1 (W1)
(Q1027, 1028)
2SA1586Y (SY)
(Q1056, 1062)
CPH6102 (AB)
(Q1029, 1031)
DTB123EK (F12)
(Q1036)
2SC4154E (LE)
(Q1008, 1055)
2SC5005 (73)
(Q1007)
2SC5006 (24)
(Q1012)
2SC4215Y (QY)
(Q1033)
2SC5227 (LN)
(Q1015)
S-80735SN (DZ)
(Q1041)
DAN235E (M)
(D1014)
MC2850 (A7)
(D1015, 1033
1034, 1036)
VX-160V/-180V Service Manual
Circuit Diagram
MAIN Unit (Lot. 18~)
25
MAIN Unit (Lot. 18~)
Parts Layout
A
B
D
C
E
F
1
2
3
Side A
VX-160V/-180V Service Manual
LC75834W
(Q1054)
NJM2070M
(Q1039)
FMW1 (W1)
(Q1032)
CPH6102 (AB)
(Q1051)
2SC4154E (LE)
(Q1025, 1038
1050, 1061)
RT1N441U (N3)
(Q1042, 1053)
NJM12903R
(Q1049)
NJM2902V
(Q1017, 1030)
IMZ2 (Z2)
(Q1057)
RT1P441U (P3)
(Q1060)
2SA1586Y (SY)
(Q1011, 1043)
PDTC114TE (24)
(Q1058)
MC2850 (A7)
(D1030)
12-22SURSYGC/S530-A2/TR8
(D1026)
FA1101F (VX-180)
(D1035, 1038)
27
MAIN Unit (Lot. 18~)
b
a
d
c
f
e
1
2
3
Side B
M37516E6HP
(Q1014)
MB15A02PFV1
(Q1005)
28
TA31136FN
(Q1037)
BR93LC66FV
(Q1010)
M62364FP
(Q1052)
2SK2974
(Q1024)
TK11250BMCL
(Q1040)
2SK2596 (BX)
(Q1016)
RT1N441U (N3)
(Q1034, 1045
1063)
SGM2016AM (MA)
(Q1026)
RT1P441U (P3)
(Q1013, 1020
1059)
FMW1 (W1)
(Q1027, 1028)
2SA1586Y (SY)
(Q1056, 1062)
CPH6102 (AB)
(Q1029, 1031)
DTB123EK (F12)
(Q1036)
2SC4154E (LE)
(Q1008, 1055)
2SC5005 (73)
(Q1007)
2SC5006 (24)
(Q1012)
2SC4215Y (QY)
(Q1033)
2SC5227 (LN)
(Q1015)
S-80735SN (DZ)
(Q1041)
DAN235E (M)
(D1014)
MC2850 (A7)
(D1015, 1033
1034, 1036)
VX-160V/-180V Service Manual
MAIN Unit
Parts List
REF.
DESCRIPTION
VALUE
V/W
TOL.
MFR’S DESIG
VXSTD P/N
VERS.
LOT. SIDE LAY ADR
*** MAIN UNIT ***
C 1001
C 1002
C 1003
C 1004
C 1005
C 1006
C 1007
C 1008
C 1009
C 1010
C 1011
C 1012
C 1013
C 1015
C 1016
C 1017
C 1018
C 1019
C 1020
C 1021
C 1022
C 1023
C 1024
C 1025
C 1026
C 1027
C 1028
C 1029
C 1030
C 1031
C 1032
C 1033
C 1034
C 1035
C 1036
C 1037
C 1038
C 1039
C 1040
C 1041
C 1042
C 1043
C 1044
C 1045
C 1046
C 1047
C 1048
C 1049
C 1051
C 1052
C 1053
C 1054
C 1055
C 1056
C 1057
C 1058
C 1059
C 1060
C 1061
C 1062
C 1063
C 1064
PCB with Components
PCB with Components
Printed Circuit Board
Printed Circuit Board
Printed Circuit Board
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
100pF
0.1uF
0.001uF
8pF
8pF
0.001uF
0.1uF
22pF
0.1uF
5pF
0.1uF
150pF
0.001uF
0.01uF
0.001uF
0.001uF
4.7uF
0.0033uF
1uF
22pF
0.1uF
0.1uF
27pF
2pF
120pF
0.001uF
0.001uF
6pF
22pF
470pF
0.001uF
18pF
3pF
0.001uF
1uF
680pF
2.2uF
10uF
0.0047uF
4.7uF
0.001uF
0.1uF
27pF
100pF
15pF
100pF
18pF
0.001uF
10uF
100pF
0.001uF
10uF
12pF
0.047uF
0.001uF
5pF
0.1uF
10pF
22pF
0.001uF
0.001uF
15pF
50V
16V
50V
50V
50V
50V
35V
50V
16V
50V
35V
50V
50V
25V
50V
50V
6.3V
50V
16V
50V
35V
16V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
16V
25V
6.3V
6.3V
50V
6.3V
50V
16V
50V
50V
50V
50V
50V
50V
6.3V
50V
50V
6.3V
50V
16V
50V
50V
16V
50V
50V
50V
50V
50V
CH
B
B
CH
CH
B
CH
B
CH
CH
B
B
B
B
B
CH
B
CH
CK
CH
B
B
CH
CH
CH
B
CH
CJ
B
CH
B
B
B
CH
CH
CH
CH
CH
B
CH
B
CH
B
B
CH
B
CH
CH
B
B
CH
GRM39CH101J50PT
GRM39B104K16PT
GRM39B102K50PT
GRM39CH080D50PT
GRM39CH080D50PT
GRM39B102K50PT
TESVA1V104M1-8R
GRM39CH220J50PT
GRM39B104K16PT
GRM39CH050C50PT
TESVA1V104M1-8R
GRM39CH151J50PT
GRM39B102K50PT
GRM39B103K25PT
GRM39B102K50PT
GRM39B102K50PT
TEMSVA0J475M-8R
GRM39B332K50PT
TESVA1C105M1-8R
GRM36CH220J50PT
TESVA1V104M1-8R
GRM39B104K16PT
GRM39CH270J50PT
GRM39CK020C50PT
GRM39CH121J50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39CH060D50PT
GRM39CH220J50PT
GRM39CH471J50PT
GRM39B102K50PT
GRM39CH180J50PT
GRM39CJ030C50PT
GRM39B102K50PT
TESVA1C105M1-8R
GRM39CH681J25PT
TESVA0J225M1-8R
TEMSVA0J106M-8R
GRM39B472K50PT
TEMSVA0J475M-8R
GRM39B102K50PT
GRM39B104K16PT
GRM39CH270J50PT
GRM39CH101J50PT
GRM39CH150J50PT
GRM39CH101J50PT
GRM39CH180J50PT
GRM39B102K50PT
TEMSVA0J106M-8R
GRM39CH101J50PT
GRM39B102K50PT
TEMSVA0J106M-8R
GRM39CH120J50PT
GRM39B473K16PT
GRM39B102K50PT
GRM39CH050C50PT
GRM39B104K16PT
GRM39CH100D50PT
GRM39CH220J50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39CH150J50PT
CB1390001 VX-160
CB1390002 VX-180
FR006370E
FR006370G
FR006370H
K22174235
K22124805
K22174821
K22174209
K22174209
K22174821
K78160025
K22174219
K22124805
K22174206
K78160025
K22174239
K22174821
K22144803
K22174821
K22174821
K78080017
K22174831
K78120009
K22178220
K78160025
K22124805
K22174221
K22174203
K22174237
K22174821
K22174821
K22174207
K22174219
K22174249
K22174821
K22174217
K22174204
K22174821
K78120009
K22144203
K78080009
K78080027
K22174833
K78080017
K22174821
K22124805
K22174221
K22174235
K22174215
K22174235
K22174217
K22174821
K78080027
K22174235
K22174821
K78080027
K22174213
K22124804
K22174821
K22174206
K22124805
K22174211
K22174219
K22174821
K22174821
K22174215
131811111111111111111111111111111111111111111111111111111111111111-
B
B
B
B
B
B
B
B
B
B
B
A
B
B
B
B
B
A
B
B
B
B
B
B
B
B
B
B
B
A
B
B
B
B
B
A
B
B
B
B
A
B
B
B
B
B
B
B
A
B
B
B
B
B
B
B
B
B
A
A
B
B
b2
b2
b2
a1
a1
b1
c2
a1
e2
a1
c2
A1
b2
e2
a1
b2
c2
B1
d2
c2
d2
d1
a1
c2
e2
c2
c2
d2
a1
A1
b2
c2
c2
b1
e2
A2
b2
d2
e2
b2
A1
d1
a2
d1
a2
d1
c1
d1
A1
d1
c1
b2
c1
e2
b2
c2
d1
a2
A1
A1
b2
c2
29
MAIN Unit
REF.
C 1065
C 1066
C 1067
C 1068
C 1070
C 1071
C 1072
C 1073
C 1074
C 1075
C 1076
C 1077
C 1078
C 1079
C 1080
C 1081
C 1082
C 1083
C 1084
C 1085
C 1086
C 1087
C 1088
C 1089
C 1090
C 1091
C 1092
C 1093
C 1094
C 1095
C 1097
C 1098
C 1099
C 1100
C 1102
C 1105
C 1106
C 1107
C 1108
C 1109
C 1110
C 1111
C 1112
C 1113
C 1114
C 1115
C 1116
C 1117
C 1118
C 1119
C 1120
C 1121
C 1122
C 1123
C 1124
C 1125
C 1125
C 1126
C 1127
C 1128
C 1129
C 1130
C 1131
C 1132
C 1133
C 1134
C 1135
C 1136
30
DESCRIPTION
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
VALUE
15pF
0.0033uF
0.1uF
27pF
0.1uF
0.1uF
0.0047uF
0.001uF
0.001uF
330pF
15pF
0.033uF
0.001uF
470pF
0.022uF
0.001uF
0.01uF
47pF
27pF
33pF
15pF
0.001uF
0.001uF
10pF
10pF
56pF
10pF
22pF
47pF
15pF
27pF
0.001uF
10uF
150pF
0.001uF
15pF
47pF
0.001uF
0.01uF
47pF
5pF
0.001uF
0.001uF
0.001uF
0.001uF
0.001uF
10uF
4.7uF
0.0047uF
0.001uF
0.01uF
0.047uF
0.047uF
0.001uF
0.1uF
0.01uF
0.022uF
0.01uF
1uF
0.001uF
4.7uF
0.1uF
56pF
0.1uF
0.01uF
27pF
470pF
470pF
V/W
50V
50V
16V
50V
16V
16V
50V
50V
50V
50V
50V
16V
50V
50V
25V
50V
25V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
50V
16V
50V
50V
50V
50V
50V
25V
50V
50V
50V
50V
50V
50V
50V
6.3V
6.3V
50V
50V
25V
16V
16V
50V
16V
25V
25V
25V
16V
50V
6.3V
16V
50V
16V
25V
50V
50V
50V
TOL.
CH
B
B
CH
B
B
B
B
B
B
CH
R
B
CH
B
B
B
CH
CH
CH
CH
B
B
CH
CH
CH
CH
CH
CH
CH
CH
B
CH
B
CH
CH
B
B
CH
CH
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
CH
B
B
CH
CH
CH
MFR’S DESIG
GRM39CH150J50PT
GRM39B332K50PT
GRM39B104K16PT
GRM39CH270J50PT
GRM39B104K16PT
GRM39B104K16PT
GRM39B472K50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39B331K50PT
GRM39CH150J50PT
GRM39R333K16PT
GRM39B102K50PT
GRM39CH471J50PT
GRM39B223K25PT
GRM39B102K50PT
GRM39B103K25PT
GRM39CH470J50PT
GRM39CH270J50PT
GRM39CH330J50PT
GRM39CH150J50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39CH100D50PT
GRM39CH100D50PT
GRM39CH560J50PT
GRM39CH100D50PT
GRM39CH220J50PT
GRM39CH470J50PT
GRM39CH150J50PT
GRM39CH270J50PT
GRM39B102K50PT
TEMSVB21C106M-8R
GRM39CH151J50PT
GRM39B102K50PT
GRM39CH150J50PT
GRM39CH470J50PT
GRM39B102K50PT
GRM39B103K25PT
GRM39CH470J50PT
GRM39CH050C50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39B102K50PT
TEMSVA0J106M-8R
TEMSVA0J475M-8R
GRM39B472K50PT
GRM39B102K50PT
GRM39B103K25PT
GRM39B473K16PT
GRM39B473K16PT
GRM39B102K50PT
GRM39B104K16PT
GRM39B103K25PT
GRM39B223K25PT
GRM39B103K25PT
TESVA1C105M1-8R
GRM39B102K50PT
TEMSVA0J475M-8R
GRM39B104K16PT
GRM39CH560J50PT
GRM39B104K16PT
GRM39B103K25PT
GRM39CH270J50PT
GRM39CH471J50PT
GRM39CH471J50PT
VXSTD P/N
K22174215
K22174831
K22124805
K22174221
K22124805
K22124805
K22174833
K22174821
K22174821
K22174820
K22174215
K22124801
K22174821
K22174249
K22144807
K22174821
K22144803
K22174227
K22174221
K22174223
K22174215
K22174821
K22174821
K22174211
K22174211
K22174229
K22174211
K22174219
K22174227
K22174215
K22174221
K22174821
K78120025
K22174239
K22174821
K22174215
K22174227
K22174821
K22144803
K22174227
K22174206
K22174821
K22174821
K22174821
K22174821
K22174821
K78080027
K78080017
K22174833
K22174821
K22144803
K22124804
K22124804
K22174821
K22124805
K22144803
K22144807
K22144803
K78120009
K22174821
K78080017
K22124805
K22174229
K22124805
K22144803
K22174221
K22174249
K22174249
VERS.
LOT. SIDE LAY ADR
111111111111111111111111111111111111111111111111111111111811111111111-
B
A
B
B
B
B
A
B
B
B
B
A
B
A
A
B
A
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
A
B
A
B
B
B
A
B
B
A
A
B
B
B
B
A
A
B
A
B
B
B
A
A
A
B
A
B
B
A
B
B
B
B
B
B
a2
A2
d1
a2
e2
e2
A2
a2
a2
d1
d1
B1
a2
B1
B1
c1
B1
c1
a3
c1
a3
a2
c1
b3
e1
c1
e1
b1
b1
b3
b2
b1
E1
b2
E1
b2
b1
a2
E2
a1
a1
E1
E2
b3
a1
b2
e3
C1
A2
d2
A3
d2
e2
e2
A3
A2
A2
d2
A2
e2
e2
A3
d2
d3
e2
b1
d2
d3
MAIN Unit
REF.
C 1137
C 1138
C 1139
C 1140
C 1141
C 1141
C 1142
C 1143
C 1144
C 1144
C 1145
C 1145
C 1146
C 1147
C 1148
C 1149
C 1150
C 1151
C 1152
C 1153
C 1154
C 1155
C 1156
C 1157
C 1157
C 1158
C 1159
C 1160
C 1160
C 1161
C 1163
C 1164
C 1165
C 1166
C 1167
C 1168
C 1169
C 1170
C 1173
C 1175
C 1176
C 1177
C 1180
C 1184
C 1187
C 1188
C 1191
C 1193
C 1196
C 1197
C 1198
C 1199
C 1200
C 1201
C 1202
C 1204
C 1205
C 1206
C 1207
C 1208
C 1209
C 1210
C 1211
C 1212
C 1213
C 1222
C 1223
C 1224
DESCRIPTION
VALUE
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
AL.ELECTRO.CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
0.01uF
10uF
0.01uF
2.2uF
0.001uF
100pF
0.1uF
0.001uF
0.022uF
0.1uF
0.022uF
0.1uF
0.0033uF
4.7uF
0.1uF
0.1uF
220uF
220pF
1uF
0.1uF
0.01uF
0.01uF
0.0022uF
0.0047uF
0.0033uF
0.01uF
10uF
0.01uF
0.022uF
0.001uF
0.1uF
0.01uF
0.01uF
0.1uF
0.0047uF
22pF
0.1uF
0.1uF
7pF
68pF
2.2uF
0.1uF
0.1uF
0.001uF
33pF
0.001uF
0.001uF
0.01uF
0.001uF
0.001uF
4.7uF
0.1uF
0.1uF
0.1uF
680pF
4.7uF
22pF
0.01uF
0.01uF
0.001uF
12pF
0.001uF
220pF
220pF
220pF
0.01uF
0.01uF
0.0022uF
V/W
25V
6.3V
25V
10V
50V
50V
16V
50V
25V
16V
25V
16V
50V
16V
16V
16V
10V
50V
16V
16V
25V
25V
50V
50V
50V
25V
6.3V
25V
25V
50V
16V
25V
25V
16V
50V
50V
16V
16V
50V
50V
6.3V
16V
16V
50V
50V
50V
50V
25V
50V
50V
6.3V
16V
16V
16V
50V
6.3V
50V
25V
25V
50V
50V
50V
50V
50V
50V
25V
25V
50V
TOL.
B
B
B
B
CH
B
B
B
B
B
B
B
B
B
CH
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
CH
B
B
CH
CH
B
B
B
CH
B
B
B
B
B
B
B
B
B
CH
B
B
B
CH
B
CH
CH
CH
B
B
B
MFR’S DESIG
GRM39B103K25PT
TEMSVA0J106M-8R
GRM39B103K25PT
GRM42-6B225K10PT
GRM39B102K50PT
GRM39CH101J50PT
GRM39B104K16PT
GRM39B102K50PT
GRM39B223K25PT
GRM39B104K16PT
GRM39B223K25PT
GRM39B104K16PT
GRM39B332K50PT
TEMSVA1C475M-8R
GRM39B104K16PT
GRM39B104K16PT
SMG1AVB221M 220UF
GRM39CH221J50PT
TESVA1C105M1-8R
GRM39B104K16PT
GRM39B103K25PT
GRM39B103K25PT
GRM39B222K50PT
GRM39B472K50PT
GRM39B332K50PT
GRM39B103K25PT
TEMSVA0J106M-8R
GRM39B103K25PT
GRM39B223K25PT
GRM39B102K50PT
GRM39B104K16PT
GRM39B103K25PT
GRM39B103K25PT
GRM39B104K16PT
GRM39B472K50PT
GRM39CH220J50PT
GRM39B104K16PT
GRM39B104K16PT
GRM39CH070D50PT
GRM39CH680J50PT
TESVA0J225M1-8R
GRM39B104K16PT
GRM39B104K16PT
GRM39B102K50PT
GRM39CH330J50PT
GRM39B102K50PT
GRM39B102K50PT
GRM39B103K25PT
GRM39B102K50PT
GRM39B102K50PT
TEMSVA0J475M-8R
GRM39B104K16PT
GRM39B104K16PT
GRM39B104K16PT
GRM39B681M50PT
TEMSVA0J475M-8R
GRM39CH220J50PT
GRM39B103K25PT
GRM39B103K25PT
GRM39B102K50PT
GRM39CH120J50PT
GRM39B102K50PT
GRM39CH221J50PT
GRM39CH221J50PT
GRM39CH221J50PT
GRM39B103K25PT
GRM39B103K25PT
GRM39B222K50PT
VXSTD P/N
K22144803
K78080027
K22144803
K22101801
K22174821
K22174235
K22124805
K22174821
K22144807
K22124805
K22144807
K22124805
K22174831
K78120031
K22124805
K22124805
K40109027
K22174243
K78120009
K22124805
K22144803
K22144803
K22174822
K22174833
K22174831
K22144803
K78080027
K22144803
K22144807
K22174821
K22124805
K22144803
K22144803
K22124805
K22174833
K22174219
K22124805
K22124805
K22174208
K22174231
K78080009
K22124805
K22124805
K22174821
K22174223
K22174821
K22174821
K22144803
K22174821
K22174821
K78080017
K22124805
K22124805
K22124805
K22174807
K78080017
K22174219
K22144803
K22144803
K22174821
K22174213
K22174821
K22174243
K22174243
K22174243
K22144803
K22144803
K22174822
VERS.
VX-180
VX-180
VX-180
VX-180
VX-180
VX-180
LOT. SIDE LAY ADR
11118118111181181111111111111811118111111111111111111111111111111111111111-
B
A
B
B
A
A
A
B
B
B
A
A
A
B
B
A
B
A
A
A
B
A
A
A
A
A
B
A
A
B
B
A
A
A
B
B
A
A
B
B
A
A
B
B
B
A
A
A
A
B
B
B
A
A
A
B
B
B
B
B
B
A
A
A
A
A
A
A
d3
E2
d2
e1
A2
A2
E2
f2
e2
e2
A2
A2
A2
f2
d2
F2
a2
F2
B2
B1
d3
B2
B2
A2
A2
B2
d2
A2
A2
c1
d2
B2
E3
D1
d2
c2
A2
A2
b2
d2
D1
A2
c2
c2
b1
E2
E2
D1
E1
d1
d1
d1
C1
C1
C1
d1
d2
d1
e2
c3
c2
D3
D3
D2
D2
A2
A2
A2
31
MAIN Unit
REF.
C 1226
C 1227
C 1228
C 1229
C 1230
C 1231
C 1232
C 1235
C 1235
C 1236
C 1237
C 1238
CD1001
CF1001
CF1002
D 1002
D 1003
D 1004
D 1005
D 1006
D 1008
D 1010
D 1011
D 1012
D 1013
D 1014
D 1015
D 1016
D 1017
D 1018
D 1019
D 1020
D 1021
D 1022
D 1023
D 1024
D 1025
D 1026
D 1028
D 1030
D 1031
D 1032
D 1034
D 1035
D 1036
D 1037
D 1038
D 1040
D 1041
D 1041
D 1042
D 1042
DS1001
J 1001
J 1003
J 1004
J 1005
L 1001
L 1002
L 1003
L 1003
L 1004
L 1007
L 1008
L 1009
L 1010
L 1011
L 1012
32
DESCRIPTION
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP TA.CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CHIP CAP.
CERAMIC DISC
CERAMIC FILTER
CERAMIC FILTER
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
LED
DIODE
DIODE
DIODE
DIODE
DIODE
LED
DIODE
DIODE
LED
DIODE
DIODE
DIODE
DIODE
DIODE
LCD
SPRING CONECTOR
CONNECTOR
SHIELD FINGER
SHIELD FINGER
COIL
COIL
M.RFC
M.RFC
COIL
COIL
COIL
M.RFC
COIL
COIL
M.RFC
VALUE
0.1uF
0.001uF
10uF
0.1uF
0.1uF
0.1uF
0.1uF
330pF
330pF
0.1uF
180pF
0.1uF
0.056uH
0.056uH
0.1uH
0.1uH
V/W
16V
50V
6.3V
16V
16V
16V
35V
50V
50V
16V
50V
16V
TOL.
B
B
B
B
B
CH
B
B
CH
B
2%
MFR’S DESIG
VXSTD P/N
GRM39B104K16PT
GRM39B102K50PT
TEMSVA0J106M-8R
GRM39B104K16PT
GRM39B104K16PT
GRM39B104K16PT
TESVA1V104M1-8R
GRM39CH331J50PT
GRM39B331K50PT
GRM39B104K16PT
GRM39CH181J50PT
GRM39B104K16PT
CDBC450CX24-TC
ALFYM450G=K
ALFYM450F=K
HSU277TRF
RLS135 TE-11
HVC350B-TRF
1SV229 TPH3
HSU277TRF
HSU277TRF
1SS355 TE-17
HVC358B(TAPE)
HVC358B(TAPE)
HVC358B(TAPE)
HVC358B(TAPE)
MC2850-T11-1
DAN235E TL
HVC358B(TAPE)
HVC358B(TAPE)
HVC358B(TAPE)
HVC358B(TAPE)
1SS355 TE-17
1SS355 TE-17
1SS355 TE-17
1SS355 TE-17
HVC358B(TAPE)
12-22SURSYGC/S530-A2/TR8
1SS355 TE-17
MC2850-T11-1
MC2850-T11-1
MC2850-T11-1
MC2850-T11-1
FA1101F-TR
1SS355 TE-17
HVC358B(TAPE)
FA1101F-TR
1SS355 TE-17
1SS355 TE-17
1SS400 TE61
HVU355TRF
HVC355B(TAPE)
HT-3633-TFZWH
MS0062-10
HSJ1594-010055
3525 3100103
3525 3100103
E2 0.5-2.0-6T-R
E2 0.5-2.0-6T-R
C2012C-56NK
C2012C-56NG
E2 0.35-1.6-7T-L
E2 0.3-1.7-8T-L
E2 0.3-1.7-8T-L
HK1608 R10J-T
E2 0.3-1.7-7T-R
E2 0.3-1.7-7T-R
HK1608 R10J-T
K22124805
K22174821
K78080027
K22124805
K22124805
K22124805
K78160025
K22174253
K22174820
K22124805
K22174241
K22124805
H7901340
H3900534
H3900531
G2070118
G2070128
G2070596
G2070256
G2070118
G2070118
G2070470
G2070590
G2070590
G2070590
G2070590
G2070704
G2070612
G2070590
G2070590
G2070590
G2070590
G2070470
G2070470
G2070470
G2070470
G2070590
G2070810
G2070470
G2070704
G2070704
G2070704
G2070704
G2070842
G2070470
G2070590
G2070842
G2070470
G2070470
G2070634
G2070410
G2070588
G6090139
S5000227
P1090896
S5000226
S5000226
L0022488
L0022488
L1690673
L1690773
L0022390
L0022376
L0022376
L1690528
L0022372
L0022372
L1690528
VERS.
VX-180
VX-180
VX-180
VX-180
LOT. SIDE LAY ADR
1111111131181811111111111111111111111111111111111113131111111131111111-
B
A
A
B
B
A
B
B
B
A
A
A
B
A
A
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
A
B
A
B
B
B
A
B
B
A
B
B
B
B
B
A
B
B
A
A
B
B
B
B
B
B
B
B
B
B
B
e2
E1
E2
e2
e2
A2
d3
c1
c1
B1
A2
A2
d2
C3
C2
b1
a1
d2
c2
a1
a2
b1
a2
a2
a2
a2
f1
c2
a3
a3
b3
b3
e1
e1
e1
e1
b3
F1
e2
A2
c3
c3
c2
C3
e2
b2
C1
c1
a2
a2
b2
b2
C2
a1
b3
D2
D2
a1
a1
b2
b2
b2
a1
a1
c1
a2
a2
c2
MAIN Unit
REF.
L 1013
L 1014
L 1015
L 1016
L 1017
L 1018
L 1020
L 1021
L 1022
L 1023
L 1024
L 1025
L 1026
L 1027
L 1029
L 1030
L 1032
L 1033
L 1034
MC1001
Q 1002
Q 1005
Q 1007
Q 1008
Q 1010
Q 1011
Q 1012
Q 1013
Q 1014
Q 1015
Q 1016
Q 1017
Q 1020
Q 1024
Q 1025
Q 1026
Q 1027
Q 1028
Q 1029
Q 1030
Q 1031
Q 1032
Q 1033
Q 1034
Q 1036
Q 1037
Q 1038
Q 1039
Q 1040
Q 1041
Q 1042
Q 1043
Q 1045
Q 1049
Q 1050
Q 1051
Q 1052
Q 1053
Q 1054
Q 1055
Q 1056
Q 1057
Q 1058
Q 1059
Q 1060
Q 1061
Q 1062
Q 1063
DESCRIPTION
M.RFC
M.RFC
M.RFC
M.RFC
COIL
COIL
M.RFC
COIL
COIL
M.RFC
COIL
COIL
M.RFC
M.RFC
M.RFC
M.RFC
M.RFC
M.RFC
M.RFC
MIC. ELEMENT
TRANSISTOR
IC
TRANSISTOR
TRANSISTOR
IC
TRANSISTOR
TRANSISTOR
TRANSISTOR
IC
TRANSISTOR
FET
IC
TRANSISTOR
FET
TRANSISTOR
FET
TRANSISTOR
TRANSISTOR
TRANSISTOR
IC
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
IC
TRANSISTOR
IC
IC
IC
TRANSISTOR
TRANSISTOR
TRANSISTOR
IC
TRANSISTOR
TRANSISTOR
IC
TRANSISTOR
IC
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
VALUE
0.047uH
0.1uH
0.056uH
0.047uH
0.022uH
0.082uH
0.82uH
0.82uH
0.82uH
3.3uH
0.022uH
0.082uH
0.068uH
V/W
TOL.
MFR’S DESIG
HK1608 47NJ-T
HK1608 R10J-T
HK1608 56NJ-T
HK1608 47NJ-T
E2 0.3-1.7-7T-R
E2 0.35-1.6-7T-L
HK2125 22NK-T
E2 0.3-1.7-7T-R
E2 0.45-1.4-4T-L
HK1608 82NJ-T
E2 0.5-1.4-2.5T-L
E2 0.5-2.0-5T-R
LK1608 R82K-T
LK2125 R82K-T
LK1608 R82K-T
LK1608 3R3K-T
HK1608 22NJ-T
HK1608 82NJ-T
LK1608 68NM-T
EM-100PT
2SC5231C8-TL
MB15A02PFV1-G-BND-EF
2SC5005-T1
2SC4154-T11-1E
BR93LC66FV-E2
2SA1586Y TE85R
2SC5006-T1
RT1P441U-T11-1
M37516M6-121HP
2SC5227-4-TB
2SK2596BXTL
NJM2902V-TE1
RT1P441U-T11-1
2SK2974-T11
2SC4154-T11-1E
SGM2016AM-T7
FMW1 T98
FMW1 T98
CPH6102-TL
NJM2902V-TE1
CPH6102-TL
FMW1 T98
2SC4215Y TE85R
RT1N441U-T11-1
DTB123EK T146
TA31136FN(EL)
2SC4154-T11-1E
NJM2070M(TE2)
TK11250BMCL
S-80735SN-DZ-T1
RT1N441U-T11-1
2SA1586Y TE85R
RT1N441U-T11-1
NJM12903R(TE1)
2SC4154-T11-1E
CPH6102-TL
M62364FP 600D
RT1N441U-T11-1
LC75834W
2SC4154-T11-1E
2SA1586Y TE85R
IMZ2A T108
DTC124TE TL
RT1P441U-T11-1
RT1P441U-T11-1
2SC4154-T11-1E
2SA1586Y TE85R
RT1N441U-T11-1
VXSTD P/N
VERS.
L1690524
L1690528
L1690525
L1690524
L0022372
L0022390
L1690381
L0022372
L0022391
L1690527
L0022613
L0022487
L1690417
L1690318
L1690417
L1690686
L1690520
L1690527
L1690406
M3290029
G3352318H
G1092541
G3350058
G3341548E
G1092853
G3115867Y
G3350068
G3070248
G1093530
G3352278D
G3825967
G1091679
G3070248
G3829747
G3341548E
G4070012
G3070009
G3070009
G3070223
G1091679
G3070223
G3070009
G3342157Y
G3070247
G3070022
G1091605
G3341548E
G1092944
G1092952
G1091876
G3070247
G3115867Y
G3070247
G1093336
G3341548E
G3070223
G1093033
G3070247
G1093288 VX-180
G3341548E
G3115867Y
G3070060
G3070128 VX-180
G3070248
G3070248
G3341548E VX-180
G3115867Y
G3070247
LOT. SIDE LAY ADR
11111111111111111111111111111111111111111111111111111111111111111111-
B
B
B
B
B
A
B
B
A
B
B
B
B
B
B
B
B
B
B
A
B
B
B
B
B
A
B
B
B
B
B
A
B
B
A
B
B
B
B
A
B
A
B
B
B
B
A
A
B
B
A
A
B
A
A
A
B
A
A
B
B
A
A
B
A
A
B
B
a2
a2
c1
c1
a3
D1
b1
b3
E1
b2
b1
b1
b2
a1
c2
b2
b1
c1
c1
D1
c2
d1
c2
b2
e2
A1
a2
f1
e1
c1
c1
A1
e1
b1
F1
b2
e3
f3
e3
A2
f2
E2
c2
e2
e3
d2
E2
E2
f2
e2
A2
A2
d2
A2
A3
E2
e3
C1
C2
e2
d1
E1
C1
b2
E2
C1
c1
c1
33
MAIN Unit
REF.
R 1001
R 1002
R 1003
R 1004
R 1005
R 1006
R 1007
R 1008
R 1009
R 1011
R 1012
R 1013
R 1014
R 1015
R 1016
R 1017
R 1019
R 1020
R 1021
R 1023
R 1024
R 1025
R 1026
R 1027
R 1028
R 1029
R 1030
R 1031
R 1032
R 1033
R 1034
R 1035
R 1036
R 1037
R 1038
R 1039
R 1040
R 1041
R 1042
R 1043
R 1044
R 1045
R 1047
R 1048
R 1049
R 1050
R 1051
R 1052
R 1053
R 1054
R 1055
R 1056
R 1057
R 1058
R 1059
R 1061
R 1062
R 1063
R 1064
R 1065
R 1066
R 1067
R 1068
R 1069
R 1070
R 1071
R 1072
R 1073
34
DESCRIPTION
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
VALUE
0
10k
56k
3.3k
10k
47k
3.3k
82k
100k
1.2k
68k
100k
820
0
33k
2.2k
100k
47k
100k
0
0
100k
68k
100k
0
47k
220
0
27k
4.7k
1k
39k
2.2k
2.2k
2.2k
10k
39k
100k
68k
1.2M
0
0
100k
1.8M
1.8k
47k
10k
220k
10k
5.6k
47k
10k
82k
39k
22k
10k
100k
3.9k
330k
82k
27k
2.2k
1k
0
470
1.5M
47k
100
V/W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
TOL.
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
1%
1%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
1%
1%
5%
5%
5%
5%
5%
5%
5%
5%
MFR’S DESIG
RMC1/16 000JATP
RMC1/16 103JATP
RMC1/16 563JATP
RMC1/16 332JATP
RMC1/16 103JATP
RMC1/16 473JATP
RMC1/16 332JATP
RMC1/16 823JATP
RMC1/16 104JATP
RMC1/16 122JATP
RMC1/16 683JATP
RMC1/16 104JATP
RMC1/16 821JATP
RMC1/16 000JATP
RMC1/16 333JATP
RMC1/16 222JATP
RMC1/16 104JATP
RMC1/16 473JATP
RMC1/16 104JATP
RMC1/16 000JATP
RMC1/16 000JATP
RMC1/16 104JATP
RMC1/16 683JATP
RMC1/16 104JATP
RMC1/16 000JATP
RMC1/16 473JATP
RMC1/16 221JATP
RMC1/16 000JATP
RMC1/16 273JATP
RMC1/16 472JATP
RMC1/16 102JATP
RMC1/16 393JATP
RMC1/16 222JATP
RMC1/16 222JATP
RMC1/16 222JATP
RMC1/16 103JATP
RMC1/16 393JATP
RMC1/16 104JATP
RMC1/16 683JATP
RMC1/16 125JATP
RMC1/16 000JATP
RMC1/16 000JATP
RMC1/16 104JATP
RMC1/16 185JATP
RMC1/16 182JATP
RMC1/16 473JATP
RMC1/16 103FTP
RMC1/16 224FTP
RMC1/16 103JATP
RMC1/16 562JATP
RMC1/16 473JATP
RMC1/16 103JATP
RMC1/16 823JATP
RMC1/16 393JATP
RMC1/16 223JATP
RMC1/16 103JATP
RMC1/16 104JATP
RMC1/16 392JATP
RMC1/16 334FTP
RMC1/16 823FTP
RMC1/16 273JATP
RMC1/16 222JATP
RMC1/16 102JATP
RMC1/16 000JATP
RMC1/16 471JATP
RMC1/16 155JATP
RMC1/16 473JATP
RMC1/16 101JATP
VXSTD P/N
J24185000
J24185103
J24185563
J24185332
J24185103
J24185473
J24185332
J24185823
J24185104
J24185122
J24185683
J24185104
J24185821
J24185000
J24185333
J24185222
J24185104
J24185473
J24185104
J24185000
J24185000
J24185104
J24185683
J24185104
J24185000
J24185473
J24185221
J24185000
J24185273
J24185472
J24185102
J24185393
J24185222
J24185222
J24185222
J24185103
J24185393
J24185104
J24185683
J24185125
J24185000
J24185000
J24185104
J24185185
J24185182
J24185473
J24183103
J24183224
J24185103
J24185562
J24185473
J24185103
J24185823
J24185393
J24185223
J24185103
J24185104
J24185392
J24183334
J24183823
J24185273
J24185222
J24185102
J24185000
J24185471
J24185155
J24185473
J24185101
VERS.
LOT. SIDE LAY ADR
11111111111111111111111111111111111111113111111111111111111111131111-
B
B
B
B
B
B
B
A
B
B
A
B
B
B
B
B
B
A
B
B
B
A
B
A
A
B
B
B
A
B
A
A
B
B
B
B
A
B
B
A
B
B
B
A
A
A
A
A
B
A
A
B
B
B
B
B
B
B
B
B
A
A
B
B
B
A
B
B
b2
d2
d2
c2
c1
b1
d2
A1
d3
d2
A1
d3
c2
c2
c2
d2
c2
A1
d2
d2
d2
A1
e2
A1
A2
c1
c1
e2
A1
b2
C1
A1
d1
d1
d1
e2
A1
a2
e2
A1
e3
c2
a2
A2
A1
A1
A1
A1
e2
A2
A1
e1
e1
e1
e1
f2
a2
c2
e2
e1
A1
A1
a2
d1
f1
B1
c1
f1
MAIN Unit
REF.
R 1074
R 1075
R 1076
R 1077
R 1078
R 1079
R 1080
R 1081
R 1082
R 1083
R 1084
R 1085
R 1086
R 1087
R 1089
R 1090
R 1091
R 1093
R 1094
R 1095
R 1098
R 1099
R 1100
R 1103
R 1104
R 1105
R 1106
R 1107
R 1108
R 1109
R 1110
R 1111
R 1112
R 1113
R 1114
R 1115
R 1116
R 1117
R 1118
R 1119
R 1121
R 1123
R 1124
R 1125
R 1126
R 1127
R 1128
R 1129
R 1130
R 1132
R 1133
R 1134
R 1135
R 1136
R 1137
R 1138
R 1139
R 1140
R 1141
R 1142
R 1143
R 1145
R 1146
R 1147
R 1147
R 1148
R 1149
R 1150
DESCRIPTION
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
VALUE
100
2.2k
220k
15k
15
10k
100k
100k
100k
10k
100k
100k
100k
12k
100
5.6k
100k
22
2.2k
2.2k
100k
1k
330
1k
470
1k
1k
220
0.33
22
470
10k
10k
27k
27k
0.33
3.3k
3.3k
0
3.3k
3.3k
330
0
0.33
22
68
47k
330
10k
1k
470
47k
47k
10k
470k
100k
47k
100
470
3.3k
47k
2.2k
12k
100k
56k
47k
18k
150k
V/W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/2W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1W
1/8W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/8W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/8W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/10W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
TOL.
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
10%
5%
5%
5%
5%
5%
5%
10%
5%
5%
5%
5%
5%
5%
5%
10%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MFR’S DESIG
RMC1/16 101JATP
RMC1/16 222JATP
RMC1/16 224JATP
RMC1/16 153JATP
RMC1/16 150JATP
RMC1/16 103JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 103JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 123JATP
RMC1/16 101JATP
RMC1/16 562JATP
RMC1/16 104JATP
RMC1/2 220JCTP
RMC1/16 222JATP
RMC1/16 222JATP
RMC1/16 104JATP
RMC1/16 102JATP
RMC1/16 331JATP
RMC1/16 102JATP
RMC1/16 471JATP
RMC1/16 102JATP
RMC1/16 102JATP
RMC1 221JTE
RMC1/8 R33KTP
RMC1/16 220JATP
RMC1/16 471JATP
RMC1/16 103JATP
RMC1/16 103JATP
RMC1/16 273JATP
RMC1/16 273JATP
RMC1/8 R33KTP
RMC1/16 332JATP
RMC1/16 332JATP
RMC1/16 000JATP
RMC1/16 332JATP
RMC1/16 332JATP
RMC1/16 331JATP
RMC1/16 000JATP
RMC1/8 R33KTP
RMC1/16 220JATP
RMC1/16 680JATP
RMC1/16 473JATP
RMC1/16 331JATP
RMC1/16 103JATP
RMC1/16 102JATP
RMC1/16 471JATP
RMC1/16 473JATP
RMC1/16 473JATP
RMC1/16 103JATP
RMC1/16 474JATP
RMC1/16 104JATP
RMC1/16 473JATP
RMC1/16 101JATP
RMC1/10T 471J
RMC1/16 332JATP
RMC1/16 473JATP
RMC1/16 222JATP
RMC1/16 123JATP
RMC1/16 104JATP
RMC1/16 563JATP
RMC1/16 473JATP
RMC1/16 183JATP
RMC1/16 154JATP
VXSTD P/N
J24185101
J24185222
J24185224
J24185153
J24185150
J24185103
J24185104
J24185104
J24185104
J24185103
J24185104
J24185104
J24185104
J24185123
J24185101
J24185562
J24185104
J24275220
J24185222
J24185222
J24185104
J24185102
J24185331
J24185102
J24185471
J24185102
J24185102
J24305221
J24219001
J24185220
J24185471
J24185103
J24185103
J24185273
J24185273
J24219001
J24185332
J24185332
J24185000
J24185332
J24185332
J24185331
J24185000
J24219001
J24185220
J24185680
J24185473
J24185331
J24185103
J24185102
J24185471
J24185473
J24185473
J24185103
J24185474
J24185104
J24185473
J24185101
J24205471
J24185332
J24185473
J24185222
J24185123
J24185104
J24185563
J24185473
J24185183
J24185154
VERS.
LOT. SIDE LAY ADR
1118111111111111111111111111111111111111111111111111111111111111118111-
B
B
B
B
B
A
B
A
A
A
B
A
A
B
B
B
B
A
B
B
B
B
A
B
A
A
B
A
A
B
B
B
B
A
A
A
B
B
A
B
B
A
B
A
B
B
B
A
A
B
A
B
A
A
B
A
A
A
A
B
B
A
B
A
A
A
A
B
a2
a2
e2
d1
d1
B1
a2
A2
A2
B1
a3
A2
A2
c1
c1
c1
a2
D1
f2
f2
b3
b1
F1
b2
F1
F2
b2
E1
E1
a2
b2
e3
e3
E1
E1
E1
e3
e3
E1
e3
f2
E2
c2
E1
b3
b1
c2
E1
E1
c2
C1
e2
A1
A1
e2
A3
E2
F2
E2
d2
e2
A3
c3
A2
A2
A2
A2
d2
35
MAIN Unit
REF.
R 1151
R 1152
R 1153
R 1154
R 1155
R 1156
R 1157
R 1158
R 1159
R 1159
R 1160
R 1161
R 1161
R 1162
R 1164
R 1164
R 1165
R 1165
R 1166
R 1167
R 1168
R 1169
R 1170
R 1171
R 1172
R 1173
R 1173
R 1174
R 1175
R 1176
R 1177
R 1181
R 1182
R 1186
R 1187
R 1188
R 1189
R 1190
R 1190
R 1191
R 1192
R 1192
R 1194
R 1196
R 1196
R 1197
R 1198
R 1200
R 1202
R 1203
R 1204
R 1205
R 1206
R 1207
R 1208
R 1209
R 1210
R 1212
R 1214
R 1215
R 1216
R 1217
R 1218
R 1219
R 1220
R 1221
R 1222
R 1223
36
DESCRIPTION
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
VALUE
2.7k
12k
2.2k
2.2k
4.7k
1.8k
12k
12k
120k
82k
47k
100k
15k
1k
47k
6.8k
150k
180k
2.2
12k
470k
33k
68k
2.2k
22k
100k
82k
2.2k
12k
10k
100k
0
47k
100
8.2k
3.3k
22k
470
560
100k
120k
100k
47k
4.7k
33k
220k
0
5.6k
47k
12k
12k
0
220
47k
0
3.3k
2.2k
100k
33
100k
47k
22k
10k
3.3k
8.2k
68
12k
390
V/W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
TOL.
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
1%
5%
5%
5%
1%
5%
5%
5%
5%
1%
5%
5%
5%
5%
5%
5%
5%
1%
1%
1%
1%
1%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MFR’S DESIG
RMC1/16 272JATP
RMC1/16 123JATP
RMC1/16 222JATP
RMC1/16 222JATP
RMC1/16 472JATP
RMC1/16 182JATP
RMC1/16 123JATP
RMC1/16 123JATP
RMC1/16 124JATP
RMC1/16 823JATP
RMC1/16 473JATP
RMC1/16 104JATP
RMC1/16 153JATP
RMC1/16 102JATP
RMC1/16 473JATP
RMC1/16 682JATP
RMC1/16 154JATP
RMC1/16 184JATP
RMC1/16 2R2JATP
RMC1/16 123JATP
RMC1/16 474FTP
RMC1/16 333JATP
RMC1/16 683JATP
RMC1/16 222JATP
RMC1/16 223FTP
RMC1/16 104JATP
RMC1/16 823JATP
RMC1/16 222JATP
RMC1/16 123JATP
RMC1/16 103FTP
RMC1/16 104JATP
RMC1/16 000JATP
RMC1/16 473JATP
RMC1/16 101JATP
RMC1/16 822JATP
RMC1/16 332JATP
RMC1/16 223JATP
RMC1/16 471FTP
RMC1/16 561FTP
RMC1/16 104FTP
RMC1/16 124FTP
RMC1/16 104FTP
RMC1/16 473JATP
RMC1/16 472JATP
RMC1/16 333JATP
RMC1/16 224JATP
RMC1/16 000JATP
RMC1/16 562JATP
RMC1/16 473JATP
RMC1/16 123JATP
RMC1/16 123JATP
RMC1/16 000JATP
RMC1/16 221JATP
RMC1/16 473JATP
RMC1/16 000JATP
RMC1/16 332JATP
RMC1/16 222JATP
RMC1/16 104JATP
RMC1/16 330JATP
RMC1/16 104JATP
RMC1/16 473JATP
RMC1/16 223JATP
RMC1/16 103JATP
RMC1/16 332JATP
RMC1/16 822JATP
RMC1/16 680JATP
RMC1/16 123JATP
RMC1/16 391JATP
VXSTD P/N
J24185272
J24185123
J24185222
J24185222
J24185472
J24185182
J24185123
J24185123
J24185124
J24185823
J24185473
J24185104
J24185153
J24185102
J24185473
J24185682
J24185154
J24185184
J24185229
J24185123
J24183474
J24185333
J24185683
J24185222
J24183223
J24185104
J24185823
J24185222
J24185123
J24183103
J24185104
J24185000
J24185473
J24185101
J24185822
J24185332
J24185223
J24183471
J24183561
J24183104
J24183124
J24183104
J24185473
J24185472
J24185333
J24185224
J24185000
J24185562
J24185473
J24185123
J24185123
J24185000
J24185221
J24185473
J24185000
J24185332
J24185222
J24185104
J24185330
J24185104
J24185473
J24185223
J24185103
J24185332
J24185822
J24185680
J24185123
J24185391
VERS.
VX-180
VX-180
VX-180
VX-180
VX-180
LOT. SIDE LAY ADR
1111111111811181118118111111111811111111111181118111811111111111111111111111-
B
B
B
B
B
B
B
B
A
A
A
B
B
A
B
B
A
A
A
B
A
A
A
A
A
A
A
B
B
A
A
B
A
B
B
B
A
A
A
A
A
A
B
A
A
A
B
A
A
B
B
B
B
A
A
B
B
B
B
B
B
B
B
B
B
B
A
A
d2
c2
d2
d2
d2
d3
c2
c2
A2
A2
A3
e2
e2
F2
e2
e2
A2
A2
F2
c3
A2
B3
B2
B1
B2
B2
B2
c1
c3
B2
B2
e2
A1
c2
c2
c2
A1
A2
A2
A2
A2
A2
f1
A2
A2
A2
b2
B1
E2
c3
d3
c1
c1
C1
D2
d1
d1
d2
d1
c1
d1
d1
d1
e2
e2
b1
E1
C3
MAIN Unit
REF.
R 1224
R 1225
R 1226
R 1227
R 1228
R 1229
R 1230
R 1231
R 1232
R 1233
R 1234
R 1235
R 1236
R 1237
R 1238
R 1239
R 1240
R 1241
R 1242
R 1243
R 1244
R 1245
R 1246
R 1247
R 1249
R 1250
R 1251
R 1252
R 1253
R 1256
R 1258
R 1260
R 1261
R 1262
R 1263
S 1001
S 1002
S 1003
TH1004
VR1006
X 1001
X 1001
X 1002
XF1002
DESCRIPTION
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
CHIP RES.
ROTARY SWITCH
TACT SWITCH
TACT SWITCH
THERMISTOR
POT.
XTAL SX-2112
XTAL SX-2112
XTAL SX-1319
XTAL FILTER
INTER CONNECTOR
LCD HOLDER
LIGHT GUIDE
LIGHT GUIDE
TERMINAL HOLDER
TERMINAL PLATE
HOLDER RUBBER
REFLECTOR SHEET
VALUE
10k
10k
22k
39k
82k
100k
100k
100k
100k
6.8k
10k
3.3k
2.2M
1k
1k
1k
1k
33
0
0
0
0
0
0
10k
4.7k
22k
22k
390
22k
0
820k
0
100k
0
14.6MHz
14.6MHz
3.6864MHz
V/W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/10W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
1/16W
TOL.
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
5%
MFR’S DESIG
RMC1/16 103JATP
RMC1/16 103JATP
RMC1/16 223JATP
RMC1/16 393JATP
RMC1/16 823JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 104JATP
RMC1/16 682JATP
RMC1/16 103JATP
RMC1/16 332JATP
RMC1/16 225JATP
RMC1/16 102JATP
RMC1/16 102JATP
RMC1/16 102JATP
RMC1/16 102JATP
RMC1/16 330JATP
RMC1/16 000JATP
RMC1/16 000JATP
RMC1/16 000JATP
RMC1/16 000JATP
RMC1/16 000JATP
RMC1/10T 000J
RMC1/16 103JATP
RMC1/16 472JATP
RMC1/16 223JATP
RMC1/16 223JATP
RMC1/16 391JATP
RMC1/16 223JATP
RMC1/16 000JATP
RMC1/16 824JATP
RMC1/16 000JATP
RMC1/16 104JATP
RMC1/16 000JATP
EC10SP16-85A0
SKHLLD
SKHLLD
TBPS1R103K440H5Q
RK0971111 20KA/SW
14.6MHZ
14.6MHZ
3.6864MHZ
HDF0042 44.25MHZ
(LCD)
(LCD)
(+)
(MIC)
VXSTD P/N
J24185103
J24185103
J24185223
J24185393
J24185823
J24185104
J24185104
J24185104
J24185104
J24185682
J24185103
J24185332
J24185225
J24185102
J24185102
J24185102
J24185102
J24185330
J24185000
J24185000
J24185000
J24185000
J24185000
J24205000
J24185103
J24185472
J24185223
J24185223
J24185391
J24185223
J24185000
J24185824
J24185000
J24185104
J24185000
Q9000764
N5090066
N5090066
G9090067
J60800256
H0103237
H0103260
H0103214
H1102346
RA0294800
RA0294400
RA0294500
RA029450A
RA010340A
RA0351700
RA0110200
RA033490A
VERS.
VX-180
VX-180
VX-180
VX-180
VX-180
VX-180
LOT. SIDE LAY ADR
1111111111111111111111111111111111818111111311111101111-
A
B
B
B
B
B
B
B
B
B
B
A
A
B
B
B
B
B
A
A
A
A
A
A
A
A
A
A
A
A
A
A
B
A
A
B
B
B
B
B
B
B
B
B
A2
f2
f1
f1
f1
d1
e1
e1
e1
e1
e2
B1
B2
e1
e1
e1
e1
d1
D3
D3
D2
D2
D3
E1
A2
A3
A1
A1
C1
E2
B2
A2
e2
A2
A2
a2
b1
c1
d1
a3
d2
d2
e1
b2
37
MAIN Unit
Note:
38
Copyright 2002
VERTEX STANDARD CO., LTD.
All rights reserved
No portion of this manual
may be reproduced without
the permission of
VERTEX STANDARD CO., LTD.
Printed in Japan.
17
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