Icom IC-2800 User manual
A-5570MI-S
© 1999 by Icom Inc.
6-9-16, Kamihigashi, Hirano-ku, Osaka 547-0002, Japan
Count on us!
DUAL BAND FM TRANSCEIVER
iC-2800h
iC-2800h
Downloaded by
Amateur Radio Directory
INTRODUCTION
This service manual describes the latest service information for
the IC-2800H FM TRANSCEIVER at the time of publication.
To upgrade quality, all electrical or mechanical parts and inter-
nal circuits are subject to change without notice or obligation.
DANGER
NEVER connect the transceiver to an AC outlet or to a DC
power supply that uses more than 16 V. Such a connection
could cause a fire hazard and/or electric shock.
DO NOT expose the transceiver to rain, snow or any liq-
uids.
DO NOT reverse the polarities of the power supply when
connecting the transceiver.
DO NOT apply an RF signal of more than 20 dBm (100
mW) to the antenna connector. This could damage the
transceiver’s front end.
ORDERING PARTS
Be sure to include the following four points when ordering
replacement parts:
1. 10-digit order numbers
2. Component part number and name
3. Equipment model name and unit name
4. Quantity required
<SAMPLE ORDER>
1110002750 S.IC TA75S01F IC-2800H MAIN UNIT 1 piece
8810008450 Screw M4 ×8 ZK IC-2800H CHASSIS 6 pieces
Addresses are provided on the inside back cover for your
convenience.
REPAIR NOTES
1. Make sure a problem is internal before disassembling the
transceiver.
2. DO NOT open the transceiver until the transceiver is
disconnected from its power source.
3. DO NOT force any of the variable components.
Turn them slowly and smoothly.
4. DO NOT short any circuits or electronic parts. An insu-
lated tuning tool MUST be used for all adjustments.
5. DO NOT keep power ON for a long time when the
transceiver is defective.
6. DO NOT transmit power into a signal generator or a
sweep generator.
7. ALWAYS connect a 50 dB or 60 dB attenuator between
the transceiver and a deviation meter or spectrum
analyser when using such test equipment.
8. READ the instructions of test equipment thoroughly
before connecting equipment to the transceiver.
MODEL VERSION SYMBOL
Europe
Italy
U.S.A.
S. E. Asia
IC-2800H USA
SEA
EUR
ITA
CSAC. S. America
6-9-16, Kamihigashi, Hirano-ku, Osaka 547-0002, Japan
Phone : 06 6793 5302
Fax : 06 6793 0013
Communication Equipment
Himmelgeister Str. 100, D-40225 Düsseldorf, Germany
Phone:0211 346047 Fax : 0211 333639
URL : http://www.icomeurope.com
Unit 9, Sea St., Herne Bay, Kent, CT6 8LD, U.K.
Phone:01227 741741 Fax : 01227 741742
URL : http://www.icomuk.co.uk
Zac de la Plaine, Rue Brindejonc des Moulinais
BP 5804, 31505 Toulouse Cedex, France
Phone:561 36 03 03 Fax : 561 36 03 00
URL : http://www.icom-france.com
<
Corporate Headquarters
>
2380 116th Avenue N.E., Bellevue, WA 98004, U.S.A.
Phone : (425)454-8155 Fax : (425)454-1509
URL : http://www.icomamerica.com
<
Customer Service
>
Phone : (425)454-7619
A.C.N.006 092 575
290-294 Albert Street, Brunswick, Victoria, 3056, Australia
Phone:03 9387 0666 Fax : 03 9387 0022
URL : http://www.icom.net.au
6F No.68, Sec. 1 Cheng-Teh Road, Taipei, Taiwan R.O.C.
Phone: (02) 2559 1899 Fax :(02) 2559 1874
A Division of Icom America Inc.
3071 #5 Road, Unit 9, Richmond, B.C., V6X 2T4, Canada
Phone : (604)273-7400 Fax : (604)273-1900
Crta. de Gracia a Manresa Km.14,750
08190 Sant Cugat del Valles Barcelona, SPAIN
Phone : (93)590 26 70 Fax : (93)589 04 46
URL : http://www.icomspain.com
TABLE OF CONTENTS
SECTION 1 SPECIFICATIONS
SECTION 2 INSIDE VIEWS
SECTION 3 DISASSEMBLY INSTRUCTIONS
SECTION 4 CIRCUIT DESCRIPTION
4 - 1 RECEIVER CIRCUITS ................................................................................................... 4 – 1
4 - 2 TRANSMITTER CIRCUITS ........................................................................................... 4 – 3
4 - 3 PLL CIRCUIT.................................................................................................................. 4 – 4
4 - 4 POWER SUPPLY CIRCUITS ........................................................................................ 4 – 5
4 - 5 CPU PORT ALLOCATIONS ........................................................................................... 4 – 5
SECTION 5 ADJUSTMENT PROCEDURES
5 - 1 PREPARATION............................................................................................................... 5 – 1
5 - 2 PLL AND TRANSMITTER ADJUSTMENTS ................................................................... 5 – 2
5 - 3 RECEIVER ADJUSTMENT ............................................................................................ 5 – 4
SECTION 6 PARTS LIST
SECTION 7 MECHANICAL PARTS AND DISASSEMBLY
SECTION 8 SEMI-CONDUCTOR INFORMATION
SECTION 9 BOARD LAYOUTS
9 - 1 CONTROL UNIT............................................................................................................. 9 – 1
9 - 2 MAIN UNIT...................................................................................................................... 9 – 3
SECTION 10 BLOCK DIAGRAM
SECTION 11 VOLTAGE DIAGRAM
11 - 1 CONTROL UNIT.............................................................................................................11 – 1
11 - 2 MAIN UNIT.....................................................................................................................11 – 2
MGENERAL
• Frequency range :
*1Guaranteed 144.000 – 148.000 MHz only
*2Guaranteed 430.000 – 440.000 MHz only; *3Guaranteed 440.000 – 450.000 MHz only
• Mode : FM, AM (118.0 – 135.995; Rx only)
• Nomber of memory channel : 232 (incl. 6 pairs of scan edges, 10 log, 10 repeater and 2 call channels)
• Usable temperature range : –10˚C to +60˚C; +14˚F to +140˚F
• Frequency resolution : 5, 10, 12.5, 15, 20, 25, 30 and 50 kHz
• Frequency stability : ±10 ppm (–10˚C to +60˚C; +14˚F to +140˚F)
• Power supply requirement : 13.8 V DC ±15 % (negative ground)
• Current drain (at 13.8 V DC) : Receive Standby (squelched) 1.2 A
Max. audio 1.5 A
Transmit at VHF 50 W/UHF 35 W 12.0 A/11.0 A
at 25 W/25 W (TPE version)8.0 A
• Antenna connector : SO-239 (50 Ω)
• DATA connector : Mini DIN 6 pin
• External VIDEO input : PHONO [RCA (75 Ω)]
• Dimensions : Controller 140(W)×70(H)×34(D) mm; 51⁄2(W)×23⁄4(H)×111⁄32(D) inch
(projections not included) Main unit 140(W)×40(H)×165.8(D) mm; 51⁄2(W)×19⁄16(H)×617⁄32(D) inch
• Weight : Controller 290 g; 10.2 oz
Main unit 1.15 kg; 2 lb 9 oz
MTRANSMITTER
• Output power : High VHF 50 W/UHF 35 W
Mid-H approx. 20 W
Mid-L approx. 10 W
Low approx. 5 W
• Modulation system : Variable reactance frequency
• Maximum frequency deviation: ±5.0/±2.5* kHz *[EUR] and [ITA] versions only
• Spurious emissions : Less than –60 dB
• Microphone connector : 8-pin modular (600 Ω)
MRECEIVER
• Receive system : Double-conversion superheterodyne
• Intermediate frequency : VHF 1st IF 15.65 MHz 2nd IF 450 kHz
UHF 1st IF 46.05 MHz 2nd IF 450 kHz
• Sensitivity (at 12 dB SINAD) : Less than 0.18 µV
• Squelch sensitivity (threshold) : Less than 0.13 µV
• Selectivity (wide/narrow) : More than 12/6* kHz at –6 dB
Less than 28/18* kHz at –60 dB
*[EUR] and [ITA] versions only
• Spurious and image rejection : More than 60 dB
• Intermodulation rejection ratio : More than 60 dB
• Audio output power (at 13.8 V) : More than 2.4 W at 10% distortion with an 8Ωload
• External SP1 connector : 2-conductor 3.5(d) mm (1⁄8")/8 Ω
• External SP2 connector : 3-conductor 3.5(d) mm (1⁄8")/8 Ω
1 - 1
SECTION 1 SPECIFICATIONS
144 MHz band 440 MHz band
144.000 – 146.000 430.000 – 440.000
Rx: 136.000 – 174.000*1Rx: 400.000 – 530.000*2
Tx: 144.000 – 148.000*1Tx: 430.000 – 440.000*2
Rx: 118.000 – 174.000*1430.000 – 450.000*3
Tx: 144.000 – 148.000*1
Rx: 136.000 – 174.000*1430.000 – 440.000
Tx: 144.000 – 148.000*1
Rx: 118.000 – 174.000*1Rx: 400.000 – 530.000*2
Tx: 144.000 – 148.000*1Tx: 430.000 – 440.000*2
All stated specifications are subject to change without notice or obligation.
Version
EUR
ITA
USA
SEA
CSA
Downloaded by
Amateur Radio Directory
Downloaded by
Amateur Radio Directory
2 - 1
SECTION 2 INSIDE VIEWS
• CONTROL UNIT
• MAIN UNIT
* : Located underside of this point
* : Located underside of this point
Q15
Q19
Q20
Q14
V-VCO circuit
Main CPU
(IC19: HD6433876N)
EEPROM*
(IC17: X25320SI)
PLL IC*
IC2 M64076AGP
U-VCO circuit
UHF FM IF IC*
(IC8:TA31136FN)
MIC amplifier*
(Q88: 2SC4081)
PLL reference oscillator
(X1: CR-549 15.2 MHz)
UHF antenna
switch
(D27*, D37,
D39, D72)
UHF 1st mixer
(Q42, Q43, D32)
VHF antenna
switching
(D9*, D16, D18)
VHF power module*
(IC1: M67746)
VHF APC DET*
(D7, D8: RB706F)
VHF RF amplifier
(Q16: 3SK166)
High/Low control IC
(IC5:TA75S01F)
VHF 1st mixer
(Q15: 3SK166)
AF amplifier
(IC12: LA4445)
VHF FM IF IC*
(IC28:TA31136FN)
UHF power module*
(IC4: SC-1318)
UHF APC DET*
(D25, D26: RB706F)
SUB CPU
(IC10: HD6433032SK)
T-data buffer amplifier*
(Q12: 2SC4081)
R-data buffer amplifier*
(Q13: 2SA1576)
CPU reset IC*
(IC11: S-80945ANMP-DD9)
LCD controller
(IC8: SED1354F0A)
CFL drive
(Q14, Q15, Q19*, Q20*)
3 - 1
SECTION 3 DISASSEMBLY INSTRUCTIONS
• Removing the MAIN unit
qUnscrew 1 screw, A, and remove the cover.
wUnplug J4 to separate the fan motor from the MAIN unit.
eRemove 2 main shield, B, and TR-A clip, Cin the direc-
tion of the arrow.
• Removing the CONTROL unit
qUnscrew 4 screws, A, and remove the cover.
wUnplug J5 to separate the speaker and front panel.
eRemove rear panel in the deirection of the arrow.
rRemove 6 knobs, B.
tUnscrew 5 screws, C, and remove the CONTROL unit in
the direction of the arrow.
yUnscrew 2 screws, D, when remove the LCD.
rUnsolder 3 points, D, and unscrew 11 nut, E.
tRemove the MAIN unit in the direction of the arrow.
A
B
B
C
Cover
J4
E
E
E
E
MAIN UNIT
Chassis
D
ARear panel
J5
Front panel
A
CONTROL
UNIT
D
D
B
B
LCD
CC
Downloaded by
Amateur Radio Directory
4 - 1
SECTION 4 CIRCUIT DESCRIPTION
4-1 RECEIVER CIRCUITS
4-1-1 DUPLEXER CIRCUIT
The transceiver has a duplexer (low-pass and high-pass fil-
ters) on the first stage from the antenna connector to sepa-
rate the signals into VHF and UHF signals. The low-pass fil-
ter (L15, L16, L78, C70–C72) is for VHF signals and the high-
pass filter (L44, L45, L82, C189, C190, C493) is for UHF sig-
nals. The separated signals are applied to each RF circuit.
4-1-2 VHF ANTENNA SWITCHING CIRCUIT
The antenna switching circuit functions as a low-pass filter
while receiving. However, its impedance becomes very high
while transmitting by turning ON diode (D18). Thus transmit
signals are blocked from entering the receiver circuits. The
antenna switching circuit employs a 1/4λtype diode switch-
ing system. The passed signals are then applied to the VHF
RF amplifier circuit.
4-1-3 VHF SQUELCH ATTENUATOR CIRCUIT
The attenuator circuit attenuates the signal strength to a
maximum of 10 dB to protect the RF amplifier from distortion
when excessively strong signals are received.
The current flow of the antenna switching circuit (D18) is con-
trolled by the [SQL] control via Q33. When the [SQL] control
is rotated clockwise deeper than 12 o’clock, the current of
D18 is increased. In this case, D18 acts as an attenuator.
4-1-4 VHF RF CIRCUIT
The RF circuit amplifies signals within the range of frequen-
cy coverage and filters out-of-band signals.
The signals from the antenna switching circuit pass through
the tunable bandpass filter (D15, L25, L26, C115–C117). The
filtered signals are amplified at the VHF RF amplifier (Q16)
and are then enter another 3-stage tunable bandpass filter
(D11–D14, L20–L21, C94, C96–C105) to suppress unwant-
ed signals. and improve the selectivity. The filtered signals
are applied to the VHF 1st mixer circuit (Q15).
The tunable bandpass filters (D11–D13, D15) employ varac-
tor diodes to tune the center frequency of the RF passband
for wide bandwidth receiving and good image response
rejection. The PLL lock voltage is used for control voltage of
these varactor diodes. The PLL lock voltage is amplified at
the DC-amplifier (Q18) and then applied to the CPU (IC19,
pin 99). The CPU outputs the control signal to the varactor
diodes via the D/A converter (IC3).
4-1-5 VHF 1ST MIXER CIRCUIT
The 1st mixer circuit converts the received signal to a fixed
frequency of the 1st IF signal with a 1st LO (V-VCO output)
frequency.
The signals from the VHF RF circuit are mixed with the 1st
LO signal at the 1st mixer circuit (Q15) to produce a 15.65
MHz 1st IF signal.
4-1-6 VHF 1ST IF CIRCUIT
By changing the PLL frequency, only the desired frequency
will pass through a pair of crystal filters at the next stage of
the mixer.
The 1st IF signal from the VHF 1st mixer circuit is applied to
a pair of crystal filters (FI1) to suppress out-of-band signals
via a matching circuit (R61, C88). The filtered signal is ampli-
fied at the IF amplifier (Q40) and is then applied to the VHF
2nd mixer circuit (IC28).
4-1-7 VHF 2ND IF AND DEMODULATOR CIRCUITS
The 2nd mixer circuit converts the 1st IF signal to a 2nd IF
signal. A double superheterodyne system (which converts
receive signals twice) improves the image rejection ratio and
obtains stable receiver gain.
The FM IF IC (IC28) contains the 2nd local oscillator, 2nd
mixer, limiter amplifier, quadrature detector, and noise detec-
tor circuits, etc.
• VHF 2nd IF AND DEMODULATOR CIRCUITS
Mixer
16
Limiter
amp.
2nd IF filter
450 kHz
PLL IC
IC2
X1
15.2 MHz
X2
(15.2 MHz)
RSSI
IC28
TA31136F
14 1st IF (15.65 MHz) from Q40
"VSQL" signal to the CPU pin 97
11109
875 3
AF signal
VR8V
Squelch level
adjustment R196 21
19
Active
filter
FI4
(FI5)
Noise
detector
FM
detector
4 - 2
The 1st IF signal from the 2nd IF amplifier is applied to the
2nd mixer section of IC28 (pin 16), and is mixed with a 15.2
MHz 2nd LO signal generated by the reference oscillator cir-
cuit (X1, IC2) to produce a 450 kHz VHF 2nd IF signal.
The 2nd IF signal from the 2nd mixer passes through the 2nd
IF filter (FI4) (during wide channel spacing selection, or pass-
es through FI5 during narrow channel spacing selection;
[EUR], [ITA] versions only), where unwanted signals are
suppressed. It is then amplified at the limiter amplifier section
(IC28, pin 5) and applied to the FM detector section (X2,
IC28, pins 10, 11) for demodulation the 2nd IF signal into AF
signals.
The FM detector circuit employs a quadrature detection
method (liner phase detection), which uses a ceramic dis-
criminator (X2) for phase delay to obtain a non-adjusting cir-
cuit. The detected signal from IC28 (pin 9) is applied to the
AF circuit.
4-1-8 VHF AF AMPLIFIER CIRCUIT
TheAF amplifier circuit amplifies the detected signals to drive
a speaker. The AF circuit includes an AF mute circuit for the
squelch.
AF signals from FM IF IC (IC28, pin 9) pass through the AF
selector (IC21, pins 9, 8), and are then applied to the low-
pass (Q83, R370–R373, C406–C409) and high-pass (Q84,
R375–R379, C415–C418) filters. The filtered signals are
level adjusted at the volume control IC (IC10), and are ampli-
fied at the AF power amplifier (IC12, pin 2) passing through
the V-AF mute switch (Q70).
The output signal from IC12 (pin 11) drives the external or
internal speaker.
4-1-9 VHF SQUELCH CIRCUIT
• NOISE SQUELCH
A noise squelch circuit cuts out AF signals when no RF sig-
nals are received. By detecting noise components in the AF
signals, the squelch circuit switches the AF mute switch.
Some of the noise components in theAF signals from the FM
IF IC (IC28, pin 9) are passed through the active filter section
(IC28, pin 8, 7), and then applied to the noise detector sec-
tion (IC28). The variable resister (R196) adjusts the input
level of the active filter, and the level is used for squelch
threshold reference. The detected noise signals are applied
to the CPU (IC19 pin 97) via the “VSQL” line.
The [SQL] (CONTROL unit; R154) controls the input level of
the sub-CPU (CONTROL unit; IC10, pin 59) in DC voltage.
The sub-CPU reads the angle of the [SQL] rotation, then
send the squelch data to the CPU incorporated in the RDATA
line. Then the CPU controls V-AF mute switch (Q70) via the
“VAMUTE” line.
Even when the squelch is closed, the V-AF mute switch
(Q70) opens at the moment of emitting beep tone.
• TONE SQUELCH
The tone squelch circuit detects AF signals and opens the
squelch only when receiving a signal containing a matching
subaudible tone (CTCSS). When tone squelch is in use, and
a signal with a mismatched or no subaudible tone is
received, the tone squelch circuit mutes the AF signals even
when noise squelch is open.
A portion of the AF signals from the FM IF IC (IC28, pin 9)
passes through the active filter (IC20) to remove AF (voice)
signals via the AF selector (IC29, pins 5, 4), and is then
applied to the CTCSS decoder inside the CPU (IC19, pin 1)
via the “TONEIN” line to control the AF mute switch.
Q83, Q84
Q85, Q86
IC8
IC28 VDET
UDET
VAF
UAF
Common
MUTE
UMUTE
IC21
98
6
43
12
87
211
57
5
SP
• AF amplifier circuit
VHF FM
Detector
UHF FM
Detector
VDMUTE
UAMUTE
VAMUTE
UDMUTE
VMUTE
AF power
Amplifier
Volume
controller
AF selector
IC10 IC12
Q70
IC11, Q69
Q71
J1
BPF
BPF J2
4 - 3
4-1-10 UHF RF CIRCUIT
The UHF RF signals are passed through part of a duplexer
(high-pass filter; L44, L45, L82, C189, C190, C493). The sig-
nals are then passed through the low-pass filter (L42, L43,
C187, C463), antenna switching circuit (D37, D39, D72), and
then amplified at the RF amplifier (Q44). A bandpass filter
(FI3) is used at the next stage of the RF amplifier. The RF
switch (D35, D33) turns on the UHF RF circuit when UHF sig-
nals are received.
4-1-11 UHF 1ST MIXER AND 1ST IF CIRCUITS
The filtered signals from the bandpass filter (FI3) are applied
to the 1st mixer circuit (Q43). The applied signals are mixed
with a 1st LO signal which comes from the U-VCO circuit
(Q20, Q21) to produce a 46.05 MHz 1st IF signal.
The 1st IF signal passes through the 1st IF filter (FI2) to sup-
press out-of-band signals via a matching circuit (R149,
C226). The filtered signal is amplified at the 1st IF amplifier
(Q41) and is then applied to the 2nd mixer circuit (IC8).
4-1-12 UHF 2ND IF AND DEMODULATOR CIRCUITS
The 1st IF signal from the IF amplifier is applied to the 2nd
mixer section of the FM IF IC (IC8, pin 16). The signal is
mixed for producing a 450 kHz 2nd IF signal with a 45.6 MHz
2nd LO signal whitch generated by the tripler circuit (L68,
L69, C208–C212) using the PLL reference frequency.
The 2nd IF signal from IC8 (pin 3) is passed through the 2nd
IF filter (FI6), and is then applied to the limiter amplifier sec-
tion in IC8 (pin 5). The signal is applied to the FM detector
section in IC8 to demodulate into AF signals.
4-1-13 UHF AF AMPLIFIER CIRCUIT
AF signals from IC8 (pin 9) pass through the AF selector
(IC21, pins 3, 4), low-pass filter (Q85, R381–R384,
C415–C418) and high-pass filter (Q86, R386–R390,
C419–C421).
The filtered signals pass through the volume control IC
(IC10). And the level adjusted signals are applied to the AF
power amplifier (IC12, pin 5) via the U-AF mute switch (Q71).
The output signal from IC12 (pin 7) drives the external speak-
er (connected at J2), or it is fed back to the input line of the
AF power amplifier (IC12, pin 2: VHF AF line).
4-1-14 UHF SQUELCH CIRCUIT
A portion of the AF signals from the FM IF IC (IC8, pin 9) are
applied to the active filter section (IC8, pin 8, 7). The active
filter section amplifies and filters noise components. The fil-
ered signals are applied to the noise detector section. The
variable resister (R229) adjusts the input level of the active
filter, and the level is used for squelch threshold reference.
The detected noise signals are output from pin 14 as the
“USQL” signal, and are then applied to the CPU (IC19, pin
95).
The [SQL] (CONTROL unit; R148) controls the input level of
the sub-CPU (CONTROL unit; IC10, pin 61) in DC voltage.
The sub-CPU reads the angle of the [SQL] rotation, then
send the squelch data to the CPU incorporated in the RDATA
line. Then the CPU controls U-AF mute switch (Q71) via the
“UAMUTE” line.
4-2 TRANSMITTER CIRCUITS
4-2-1 MICROPHONE AMPLIFIER CIRCUIT
The microphone amplifier circuit amplifies audio signals from
the microphone to a level needed at the modulation circuit.
The microphone amplifier circuit is commonly used for both
the VHF and UHF bands.
The AF signals from the microphone pass through the MIC
sensitivity control circuit (IC25, D66) and MIC mute switch
(IC26), and are then amplified at the microphone amplifier
(Q88). The amplified signals are applied to the IDC limiter
amplifier (IC23b, pin 6). The output signals from the IDC lim-
iter amplifier (IC23b, pin 7) are passed through the splatter
filter (IC23a, pin 3, 1) and then applied to each VCO circuit
via the deviation adjustment pot.
4-2-2 VHF MODULATION CIRCUIT
The modulation circuit modulates the VCO oscillating signal
(RF signal) using the microphone audio signals.
The audio signals (MOD) from the splatter filter (IC23a)
change the reactance of D3 to modulate the oscillated signal
at the V-VCO circuit (Q4, Q5) after passing through the fre-
quency deviation control (R2). The modulated signals are
amplified at the buffer amplifiers (Q6, Q7), and are then
applied to the drive amplifier circuit via the T/R switching cir-
cuit (D4).
4-2-3 VHF DRIVE AMPLIFIER CIRCUIT
The drive amplifier circuit amplifies the VCO oscillating signal
to a level needed at the power amplifier.
The RF signals from the buffer amplifier (Q7) pass through
the low-pass filter (L5, C35, C36), T/R switch (D4) and atten-
uator (R33–R35). The Tx signal from the attenuator is ampli-
fied at the pre-drive (Q11) and drive (Q12, D5, D6) amplifiers
to obtain an approximate 400 mW signal level. The amplified
signal is then applied to the RF power amplifier (IC1).
4-2-4 VHF POWER AMPLIFIER CIRCUIT
The power amplifier circuit amplifies the driver signal to an
output power level.
IC1 is a power module which has amplification output capa-
bilities of about 70 W. The RF signal from the drive amplifier
(Q12) is applied to IC1 (pin 1).
The amplified signals from the power amplifier (IC1, pin 4)
pass through the APC detector (D7, D8), antenna switching
circuit (D9) and low-pass filter (L15, L16, L78, C70–C72),
and is then applied to the antenna connector.
Collector voltage for the driver (Q12) and control voltage for
the power amplifier (IC1, pin 2) are controlled by theAPC cir-
cuit to protect the power module from a mismatched condi-
tion as well as to stabilize the output power.
4 - 4
4-2-5 VHF APC CIRCUIT
The APC circuit protects the power amplifier from a mis-
matched output load and stabilizes transmit output power.
The APC detector circuit (L12, D7, D8) detects forward sig-
nals and refrection signals at D7 and D8 respectively. The
combined voltage is at a minimum level when the antenna
impedance is matched at 50 Ωand is increased when it is
mismatched.
The detected voltage is applied to theAPC amplifier (IC5, pin
3) and compared with a reference voltage which is supplied
from the CPU (IC19, pin 68–pin 75) as a D/A control signal.
When antenna impedance is mismatched, the detected volt-
age exceeds the reference voltage. The output voltage of the
APC amplifier (IC5, pin 4) controls the bias voltage of the
power module (IC1) and drive amplifeir (Q12) to reduce the
output power via the APC controller (Q30, Q31).
4-2-6 UHF MODULATION CIRCUIT
Audio signals from the splatter filter (IC23a) pass through the
frequency deviation control (R78), and are then applied to
the modulation circuit (D20) to change the reactance of D20
and modulate the oscillated signal at the U-VCO circuit (Q20,
Q21). The VCO output is amplified at the buffer amplifiers
(Q22, Q24), and is then applied to the T/R switching circuit
(D23) via the low-pass filter (L33, C153, C154).
4-2-7 UHF DRIVE AMPLIFIER CIRCUIT
The VCO signals from the T/R switch (D23) are amplified at
the buffer-amplifier (Q27), pre-drive amplifier (Q28) and drive
(Q29, D24) amplifier to obtain an approximate 400 mW sig-
nal level. The amplified signal is then applied to the RF power
amplifier (IC4).
4-2-8 UHF POWER AMPLIFIER CIRCUIT
IC4 is a power module which has amplification output capa-
bilities of about 50 W.
The RF signal from the drive amplifier (Q29) is applied to IC4
(pin 5). The amplified signal from the power amplifier (IC4,
pin 1) is passed through the antenna switching circuit (D27)
and is then applied to the antenna connector via a bandpass
filter (L42–L45, L82, C186–C190, C467, C493).
4-2-9 UHF APC CIRCUIT
The APC detector circuit (D25 and D26) detects forward sig-
nals and refrection signals respectively. The combined volt-
age is at a minimum level when the antenna is matched at 50
Ωand increases when it is mismatched.
The combined voltage is applied to the APC amplifier (IC5,
pin 3), and the power setting voltage from the CPU (IC19, pin
68–pin 75) as a D/Acontrol signal is applied to the other input
(IC5, pin 1) for the reference.
The output voltage from IC5 (pin 4) is applied to the APC
control circuit (Q30, Q31) to control the bias voltage of the PA
module (IC4) and drive amplifier (Q29).
4-3 PLL CIRCUITS
4-3-1 GENERAL
A PLL circuit provides stable oscillation of the transmit fre-
quency and the receive local frequency. The PLLcircuit com-
pares the phase of the divided VCO frequency to the refer-
ence frequency. The PLL output frequency is controlled by a
crystal oscillator and the divided ratio of the programmable
divider. IC2 is a dual PLL IC which controls both VCO circuits
for VHF and UHF.
4-3-2 VHF LOOP
The generated signal at the V-VCO (Q4, Q5, D3) enters the
PLL IC (IC2, pin 6) via buffer-amplifiers (Q6, Q8) and is divid-
ed at the programmable divider section and is then applied to
the phase detector section.
The phase detector compares the input signal with a refer-
ence frequency, and then outputs the out-of-phase signal
(pulse-type signal) from pin 8.
The pulse-type signal is converted into DC voltage (lock volt-
age) at the loop filter (Q99, Q100, R531, C476–C478), and
then applied to the V-VCO to stabilize the oscillated frequen-
cy.
• VHF APC circuit
D7 D8
L12
HV
VTX
APC
Q30
APC control
Q32
Q31
D9
Power
module
Drive
APC amplifier
to antenna
antenna
switch
APC
detector
POWC
Q12Q11 IC1
IC5
Pre-drive
RF signal
from PLL circuit
4 - 5
4-3-3 UHF LOOP
The generated signal at the U-VCO (Q20, Q21, D20, D21)
enters the PLL IC (IC2, pin 15) via buffer-amplifiers (Q22,
Q23) and is divided at the programmable divider section and
is then applied to the phase detector section.
The phase detector compares the input signal with a refer-
ence frequency, and then outputs the out-of-phase signal
(pulse-type signal) from pin 13.
The pulse-type signal is converted into DC voltage (lock volt-
age) at the loop filter (Q101, Q102, R538, C481, C483), and
then applied to the U-VCO to stabilize the oscillated frequen-
cy.
4-4 POWER SUPPLY CIRCUITS
• VOLTAGE LINE
Description
The 13.8V external DC power from the power
connector.
The same voltage as the HV line which is con-
trolled by the power switching circuit (Q74, Q75).
When the [POWER] switch is pushed, the CPU
outputs the “PCTRL” control signal to the power
switching circuit to turn the circuit ON.
Common 5 V for the CPU converted from the HV
line by the C5V regulator circuit (IC15). The cir-
cuit outputs the voltage regardless of the power
ON/OFF condition.
Common 5 V produced from the C5V at the
PLL5V regulator circuit (Q13, Q14) using control
signal from 8V line.
Common 8 V converted from the 13.8V line by
the 8V regulator circuit (IC14).
VHF transmit 8 V converted from the 8V line at
the VT8V regulator circuit (Q9, Q10).
UHF transmit 8V converted from the 8V line at
the UT8V regulator circuit (Q25, Q26).
Receive VR8V produced from the 8V line at the
V-BIAS selector (Q34, Q35).
Receive 4R8V produced from the 8V line at the
U-BIAS selector (Q34, Q36).
Receive UR8V produced from the 4R8V line at
the UR8V switching circuit (D28, D29).
Line
HV
13.8V
C5V
PLL5V
8V
VT8V
UT8V
VR8V
4R8V
UR8V
to the FM IF IC (IC28)
6
15
13
19
8
to VHF transmitter circuit
to VHF 1st mixer circuit
D4
• PLL circuit
Loop
filter
Loop
filter
Buffer
Q101, Q102
Q99, Q100 Q6 Buffer
Q7
Buffer
Q8
Q4, Q5, D3
BPF
1
to the FM IF IC (IC8)
to UHF transmitter circuit
to UHF 1st mixer circuit
D23
D22
V-VCO
U-VCO
X1
15.2 MHz
15.2 MHz
45.6 MHz
Shift register/
data latch
PLL IC (IC2)
Prescaler
Phase
detector Programmable
counter
Prescaler
Phase
detector Programmable
counter
Programmable
divider
Buffer
Q22 Buffer
Q24
Buffer
Q23
Q20, Q21
D20, D21
2 DATA
3 CK
4 PLSTB
Tripler
4-5 PORT ALLOCATIONS
4-5-1 CPU (MAIN UNIT; IC19)
4-5-2 SUB-CPU (CONTROL UNIT; IC10)
Outputs reset signal for the LCD con-
troller (IC8).
Input port for serial signal from the
main-CPU (MAIN unit; IC19)
Output port for serial signal to the
main-CPU (MAIN unit; IC19)
Squelch/volume setting level input
ports for VHF band.
Squelch/volume setting level input
ports for UHF band.
Input ports for the up/down signals
from the VHF main dial.
Input ports for the up/down signals
from the VHF main dial.
Outputs brightness control signal for
the display backlight.
Outputs control signal for the contrast
of display.
5
10
11
59, 60
61, 62
73, 74
75, 76
77
79
LRES
TXD
RXD
VSQLV,
VVOLV
USQLV,
UVOLV
VDLA,
VDLB
VDLA,
VDLB
BRITV
CONTV
4 - 6
Input port for the decoded CTCSS sig-
nals.
Input ports for the CPU system clock
oscillator (X4: 10.000 MHz).
Input port for the reset signal.
I/O port for the cloning signal.
Outputs strobe signals for the PLL IC
(IC2).
Outputs strobe signals for the D/Acon-
vertor (IC3).
Outputs serial clock signal for the PLL
IC (IC2) and D/A convertor (IC3).
Outputs serial data signals for the PLL
IC (IC2) and D/A convertor (IC3).
Input port for serial signal from the
sub-CPU (CONTROL unit; IC10)
Output port for serial signal to the sub-
CPU (CONTROL unit; IC10)
Outputs clock signal for the EEPROM
IC (IC17).
Input port for serial signal from the
EEPROM IC (IC17).
Outputs data signal for the EEPROM
IC (IC17).
Outputs chip select signal for the EEP-
ROM IC (IC17).
Input port for microphone serial signal
via the MDATA controller (IC24).
Input port to detect remote microphon
connection.
Low : HM-90/98 is connected.
Outputs 1750 Hz Europe tone signal.
Outputs power switching circuit (Q74,
Q75) control signal.
High : While turning power ON.
Outputs serial clock signal for the elec-
tronic volume IC (IC10).
Outputs data signal for the electronic
volume IC (IC10).
Input port for packet PTT signal.
High : Packet PTT switch is ON.
Input port for the PTT switch.
High : While PTT switch is pushed.
PLL unlock signal input port for VHF
band.
High : PLL unlock on VHF band.
PLL unlock signal input port for UHF
band.
High : PLL unlock on UHF band.
Outputs control signal for the V-BIAS
selector (Q34, Q35).
High : While receiving on VHF band.
Output control signal for the U-BIAS
selector (Q34, Q36).
High : While receiving on UHF band.
Outputs Rx/Tx pass-bandwidth control
signal.
High : While narrow bandwidth is
selected. ([EUR], [ITA] only)
1
7, 8
9
11
12
13
14
15
16
17
19
20
21
22
23
24
25
26
34
35
44
45
46
47
52
54
59
TONEIN
OSC1,
OSC2
RES
CLONEC
PLSTB
STB
CK
DATA
RXD
TXD
ESCK
ESI
ESO
ECS
MICIN
EXTMIC
ETONE
PCTRL
VCK
VDATA
PTTP1
PTTM1
VUNLK
UUNLK
1RX
4RX
W/N
Pin Port Description
number name
Outputs transmit signal for VHF band.
High : While transmitting on VHF
band.
Outputs transmit signal for UHF band.
High : While transmitting on UHF
band.
Outputs MIC mute control signal.
Low : While DTMF signals are out-
put, etc.
Output ports for output power control
signal.
Outputs cooling fan control signal.
High : While transmitting or after
transmission for 2 minute.
Outputs mute control signal for UHF
AF signals.
High : While UHF squelch is activate.
Outputs mute control signal for VHF
AF signals.
High : While VHF squelch is activate.
Outputs mute control signal for UHF
demodulated signals.
High : While UHF demodulated sig-
nals are muted.
Outputs mute control signal for VHF
demodulated signals.
High : While VHF demodulated sig-
nals are muted.
Input port for detection signal from the
DTMF unit.
Low : While DTMF unit is connected.
Input ports for the decoded DTMF sig-
nal from the DTMF unit.
Outputs CTCSS signals.
Outputs DTMF signals.
60
61
64
68–75
78
79
80
81
82
83
85–85
90
91
VTX
UTX
MMUTE
POWC0–
POWC7
FUNK
UAMUTE
VAMUTE
UDMUTE
VDMUTE
OPD
Q1–Q4
CTCSS
DTMF
Pin Port Description
number name
Pin Port Description
number name
5 - 1
SECTION 5 ADJUSTMENT PROCEDURES
5-1 PREPARATION
All adjustments in this section must be performed on wide bandwidth condition unless specified otherwise.
(Narrow bandwidth is selectable for Europe and Italy vertions only.)
‘‘REQUIRED TEST EQUIPMENT
‘‘CONNECTION
EQUIPMENT
DC power supply
RF power meter
(terminated type)
Frequency counter
FM deviation meter
DC voltmeter
GRADE AND RANGE
Output voltage : 13.8 V DC
Current capacity : 20 A or more
Measuring range : 1–80 W
Frequency range : 100–600 MHz
Impedance : 50 Ω
SWR : Less than 1.2 : 1
Frequency range : 0.1–600 MHz
Frequency accuracy: ±1 ppm or better
Sensitivity : 100 mV or better
Frequency range : 30–600 MHz
Measuring range : 0 to ±10 kHz
Input impedance : 50 kΩ/V DC or better
EQUIPMENT
Audio generator
Standard signal
generator (SSG)
Oscilloscope
AC millivoltmeter
External speaker
Attenuator
GRADE AND RANGE
Frequency range : 300–3000 Hz
Measuring range : 1–500 mV
Frequency range : 0.1–600 MHz
Output level : 0.1 µV–32 mV
(–127 to –17 dBm)
Frequency range : DC–20 MHz
Measuring range : 0.01–20 V
Measuring range : 10 mV–10 V
Input impedance : 8 Ω
Capacity : 4 W or more
Power attenuation : 50 or 60 dB
Capacity : 100 W or more
+
.
pin 6 (MIC)
pin 4 (PTT)
pin 7 (GND)
pin 5 (MICE)
to the antenna connector
to the microphone connector
STANDARD SIGNAL GENERATOR
0.1–600 MHz
–127 to –17 dBm (0.1 µV to 32 mV)
RF POWER METER
50 Ω, 1–80 W
AUDIO GENERATOR
300 Hz to 3 kHz
FM DEVIATION
METER ATTENUATOR
50 dB or 60 dB POWER SUPPLY
13.8V, 20 A or more
CAUTION!
DO NOT transmit
while an SSG is
connected to the
antennaconnector.
Controller unit
5 - 2
5-2 PLL AND TRANSMITTER ADJUSTMENTS
PLL LOCK
VOLTAGE
PLL
REFERENCE
FREQUENCY
UHF
OUTPUT
POWER
VHF
OUTPUT
POWER
FREQUENCY
DEVIATION
ADJUSTMENT
ADJUSTMENT ADJUSTMENT CONDITION MEASUREMENT VALUE POINT
UNIT LOCATION UNIT ADJUST
1
1
1
2
3
4
1
2
3
4
1
2
3
• VHF displayed freq. :
145.000 MHz
• Receiving
• UHF displayed freq. :
450.000 MHz [USA]
440.000 MHz other
• Output power : Low
• Transmitting
• UHF displayed freq. :
445.000 MHz [USA]
435.000 MHz other
• Output power : High
• Transmitting
• Output power : Low
• Transmitting
• Output power : Mid-L
• Transmitting
• Output power : Mid-H
• Transmitting
• VHF displayed freq. :
145.000 MHz [EUR]
146.000 MHz other
• Output power : High
• Transmitting
• Output power : Low
• Transmitting
• Output power : Mid-L
• Transmitting
• Output power : Mid-H
• Transmitting
• UHF displayed freq. :
445.000 MHz [USA]
435.000 MHz other
• Output power : Low
• Connect an audio generator to
the [MIC] connector and set as:
1 kHz/ 80 mV [USA]
1 kHz/ 20 mV other
• TONE : OFF
• Set an FM deviation meter as:
HPF : 50 Hz
LPF : 20 kHz
De-emphasis: OFF
Detector : (P–P)/2
• Transmitting
• VHF displayed freq. :
145.000 MHz [EUR]
146.000 MHz other
• Output power : Low
• Transmitting
• IF bandwidth : Narrow
[EUR, ITA] only
• Transmitting
MAIN
Rear
panel
Rear
panel
Rear
panel
Rear
panel
Connect a digital
multi-meter or oscil-
loscope to the
check point CP-LV.
Loosely couple the
frequency counter
to the antenna con-
nector.
Connect an RF
power meter to the
antenna connector.
Connect an RF
power meter to the
antenna connector.
Connect an FM
deviation meter to
the antenna con-
nector through an
attenuator.
1.65 V
450.0000 MHz [USA]
440.0000 MHz other
35 W
2–7 W
8–15 W
16–24 W
50 W
2–7 W
8–15 W
16–24 W
±4.8 kHz
±4.8 kHz
±2.0–±2.8 kHz
MAIN
MAIN
MAIN
MAIN
MAIN
L2
C84
R121
Verify
R119
Verify
R78
R2
Verify
5 - 3
DC power supply
13.8 V / 20 A
R119
UHF output power
adjustment
CP-LV
PLL lock voltage
check point
L2
PLL lock voltage
adjustment
R2
VHF deviation
adjustment
R119
VHF output power
adjustment
C84
Reference frequency
adjustment
R78
UHF deviation
adjustment
Controller
*This output level of a standard signal generator (SSG) is indicated as SSG’s open circuit.
5-3 RECEIVER ADJUSTMENTS
The receiver adjustments must be performed after PLL ADJUSTMENTS.
5 - 4
SENSITIVITY
S-METER
1
2
3
1
2
3
4
5
6
7
• Turn into sensitivity setting mode.
• Select an adjustment channel by pushing 1st or 2nd
switch from the top on the left side.
• Connect an SSG to the antenna connector and set as:
Frequency : Same as displayed
Level : 3.2 µV* (–97 dBm)
Deviation : ±3.5 kHz
Modulation : 1 kHz
• Receiving
• Same adjustments as step 2 for another 4 channels.
• Turn into S-meter setting mode.
• Select an adjustment channel by pushing 1st or 2nd
switch from the top on the left side.
• Displayed frequency : 127.200 MHz
• Mode : AM
• Connect an SSG to the antenna connector and set as:
Level : 1.6 µV* (–103 dBm)
Modulation : 1 kHz / 30 %
• Receiving
• Displayed frequency : 145.200 MHz
• Mode : FM
• Set an SSG as:
Level : 1.0 µV* (–107 dBm)
Deviation : ±3.5 kHz
Modulation : 1 kHz
• Receiving
• Displayed frequency : 360.200 MHz
• Mode : AM
• Set an SSG as:
Level : 1.6 µV* (–103 dBm)
Modulation : 1 kHz / 30 %
• Receiving
• Displayed frequency : 360.200 MHz
• Mode : FM
• Set an SSG as:
Level : 1.0 µV* (–107 dBm)
Deviation : ±3.5 kHz
Modulation : 1 kHz
• Receiving
• Displayed frequency : 445.200 MHz [USA]
435.200 MHz other
• Mode : FM
• Receiving
• Displayed frequency : 900.200 MHz
• Set an SSG as:
Level : 6.3 µV* (–91 dBm)
Deviation : ±3.5 kHz
Modulation : 1 kHz
• Mode : FM
• Receiving
• Connect a JIG1 to the [MIC] connector, then turn
power ON.
• Push upper switch on the right side to store sam-
pling data into memory.
• Push upper switch on the right side to store sam-
pling data into memory at each adjustment.
• Verify the display color will change after adjust-
ment the last channel, then turn power OFF and
disconnect a JIG1 from the [MIC] connector.
• Connect a JIG2 to the [MIC] connector, then turn
power ON.
• Verify that S-meter shows S3 (2 dots), then push
upper switch on the right side to store sampling
data into memory.
• Verify that S-meter shows S3 (2 dots), then push
upper switch on the right side to store sampling
data into memory.
• Verify the display color will change after adjust-
ment the last channel, then turn power OFF and
disconnect a JIG2 from the [MIC] connector.
ADJUSTMENT ADJUSTMENT CONDITION OPERATION
5 - 5
DC power supply
13.8 V / 20 A
Controller
R229
UHF squelch
adjustment
R196
VHF squelch
adjustment
2.2 kΩ
JIG1
JIG CONNECTOR
12345678
12345678
4.7 kΩ
JIG2
to the microphone connector
or
(Sensitivity)
(S-meter)
RECEIVER ADJUSTMENTS (continued)
SQUELCH
(UHF)
(VHF)
ADJUSTMENT
ADJUSTMENT ADJUSTMENT CONDITION MEASUREMENT VALUE POINT
UNIT LOCATION UNIT ADJUST
1
2
• UHF displayed freq. :
445.000 MHz [USA]
435.000 MHz other
• Set the squelch level to 22 %
using the HM-98 microphone.
• R229 : Max clockwise
• set an SSG as:
Level :
14 µV* (–85 dBm)
• Receiving
• VHF displayed freq. :
145.000 MHz [EUR]
146.000 MHz other
• Set the squelch level to 22 %
using the HM-98 microphone.
• R196 : Max clockwise
• set an SSG as:
Level :
14 µV* (–85 dBm)
• Receiving
Speaker
At the point where the
signal just appears. MAIN R229
R196
*This output level of the standard signal generator (SSG) is indicated as SSG’s open circuit.
IC1 1130009250 S.IC MN83951
IC2 1130008560 S.IC TC75S51F (TE85L)
IC3 1180001830 S.IC M5291FP
IC6 1120002580 S.IC M52338FP
IC7 1130007420 S.IC TC7W14FU (TE12L)
IC8 1190000950 S.IC SED1354F0A (QFP15-128PIN)
IC9 1130009360 S.IC LH61665AS-60A
IC10 1140007930 S.IC HD6433032SK21F
IC11 1110004910 S.IC S-80945ANMP-DD9-T2
IC14 1180000420 S.IC TA78L05F (TE12R)
IC15 1180001850 S.IC TA79L15F (TE12L)
IC16 1120002600 S.IC M52045FP [EUR], [ITA]
1120002590 S.IC M52042FP other
IC17 1180000420 S.IC TA78L05F (TE12R)
IC19 1130007110 S.IC TC7W04FU (TE12L)
IC20 1130006550 S.IC TC7S08FU (TE85R)
IC21 1120002610 S.IC TC74AC244F (EL)
IC22 1180000420 S.IC TA78L05F (TE12R)
IC23 1180000420 S.IC TA78L05F (TE12R)
Q1 1530002060 S.TRANSISTOR 2SC4081 T107 R
Q2 1510000510 S.TRANSISTOR 2SA1576A T106R
Q3 1510000510 S.TRANSISTOR 2SA1576A T106R
Q4 1530002060 S.TRANSISTOR 2SC4081 T107 R
Q5 1530002060 S.TRANSISTOR 2SC4081 T107 R
Q6 1510000510 S.TRANSISTOR 2SA1576A T106R
Q7 1510000510 S.TRANSISTOR 2SA1576A T106R
Q8 1530002060 S.TRANSISTOR 2SC4081 T107 R
Q11 1530002060 S.TRANSISTOR 2SC4081 T107 R
Q12 1530002060 S.TRANSISTOR 2SC4081 T107 R
Q13 1510000510 S.TRANSISTOR 2SA1576A T106R
Q14 1530003300 S.TRANSISTOR 2SC3647S-TD
Q15 1530003300 S.TRANSISTOR 2SC3647S-TD
Q16 1510000580 S.TRANSISTOR 2SA1362-GR (TE85R)
Q17 1590000430 S.TRANSISTOR DTC144EUA T106
Q18 1520000460 S.TRANSISTOR 2SB1132 T100 R
Q19 1590000430 S.TRANSISTOR DTC144EUA T106
Q20 1510000580 S.TRANSISTOR 2SA1362-GR (TE85R)
Q21 1520000200 S.TRANSISTOR 2SB798-T2 DK
D1 1750000550 S.DIODE 1SS355 TE-17
D2 1720000690 S.VARICAP 1SV282 (TPH2)
D3 1790001470 S.DIODE SB10-05PCP-TD
D9 1750000550 S.DIODE 1SS355 TE-17
D10 1730002260 S.ZENER MA8030-H (TX)
D11 1730002260 S.ZENER MA8030-H (TX)
D12 1790001040 S.ZENER MA8033-L (TX)
D13 1790001010 S.ZENER MA8043-L (TX)
D14 1730002340 S.ZENER MA8047-M (TX)
X1 6050010610 S.XTAL CR-641 (4.433619 MHz)
[EUR], [ITA]
6050010620 S.XTAL CR-640 (3.579545 MHz) other
X2 6050009860 S.XTAL CR-566 (12.288 MHz)
X3 6060000730 S.CERAMIC CSTCV26.25MXJ040
L1 6200005010 S.COIL NL 252018T-100J
L2 6200005010 S.COIL NL 252018T-100J
L3 6200005010 S.COIL NL 252018T-100J
L4 6200005010 S.COIL NL 252018T-100J
L5 6200005010 S.COIL NL 252018T-100J
L7 6200005010 S.COIL NL 252018T-100J
L8 6200003710 S.COIL NL 252018T-2R7J
L9 6200005010 S.COIL NL 252018T-100J
L10 6200005010 S.COIL NL 252018T-100J
L11 6200008880 S.COIL SLF7032T-681MR16-2
L13 6200005010 S.COIL NL 252018T-100J
L14 6200005010 S.COIL NL 252018T-100J
L15 6200005010 S.COIL NL 252018T-100J
L16 6200005010 S.COIL NL 252018T-100J
L18 6200008810 S.COIL SLF6028T-101MR42
L19 6190001360 S.COIL 678XN-1369
R1 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R2 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R3 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R4 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R5 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R6 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R7 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R8 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R9 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R10 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R11 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R12 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R13 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R14 7030003610 S.RESISTOR ERJ3GEYJ 273 V (27 kΩ)
R15 7030003760 S.RESISTOR ERJ3GEYJ 474 V (470 kΩ)
R16 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R17 7030003660 S.RESISTOR ERJ3GEYJ 683 V (68 kΩ)
R18 7030003800 S.RESISTOR ERJ3GEYJ 105 V (1 MΩ)
R20 7030003660 S.RESISTOR ERJ3GEYJ 683 V (68 kΩ)
R21 7030003600 S.RESISTOR ERJ3GEYJ 223 V (22 kΩ)
R22 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R23 7030003480 S.RESISTOR ERJ3GEYJ 222 V (2.2 kΩ)
R24 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R25 7030003610 S.RESISTOR ERJ3GEYJ 273 V (27 kΩ)
R26 7310003600 S.TRIMMER EVM-1XSX50 B54 (503)
R27 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R28 7030000020 S.RESISTOR MCR10EZHJ 1 Ω(010)
R29 7030003620 S.RESISTOR ERJ3GEYJ 333 V (33 kΩ)
R30 7030003760 S.RESISTOR ERJ3GEYJ 474 V (470 kΩ)
R31 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R32 7030003600 S.RESISTOR ERJ3GEYJ 223 V (22 kΩ)
R33 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R34 7030003600 S.RESISTOR ERJ3GEYJ 223 V (22 kΩ)
R35 7030003670 S.RESISTOR ERJ3GEYJ 823 V (82 kΩ)
R37 7030003740 S.RESISTOR ERJ3GEYJ 334 V (330 kΩ)
R38 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R39 7030003600 S.RESISTOR ERJ3GEYJ 223 V (22 kΩ)
R40 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R41 7030003600 S.RESISTOR ERJ3GEYJ 223 V (22 kΩ)
R42 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R44 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R51 7030003800 S.RESISTOR ERJ3GEYJ 105 V (1 MΩ)
R58 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R59 7030003400 S.RESISTOR ERJ3GEYJ 471 V (470 Ω)
[EUR], [ITA]
7030003410 S.RESISTOR ERJ3GEYJ 561 V (560 Ω) other
R60 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R61 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R62 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R63 7030003660 S.RESISTOR ERJ3GEYJ 683 V (68 kΩ)
R65 7030003620 S.RESISTOR ERJ3GEYJ 333 V (33 kΩ)
R84 7030003490 S.RESISTOR ERJ3GEYJ 272 V (2.7 kΩ)
R86 7030003670 S.RESISTOR ERJ3GEYJ 823 V (82 kΩ)
R87 7030003620 S.RESISTOR ERJ3GEYJ 333 V (33 kΩ)
R89 7030003660 S.RESISTOR ERJ3GEYJ 683 V (68 kΩ)
R100 7030003700 S.RESISTOR ERJ3GEYJ 154 V (150 kΩ)
R106 7030003410 S.RESISTOR ERJ3GEYJ 561 V (560 Ω)
R107 7030003420 S.RESISTOR ERJ3GEYJ 681 V (680 Ω)
R108 7030003530 S.RESISTOR ERJ3GEYJ 562 V (5.6 kΩ)
R109 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R110 7030003340 S.RESISTOR ERJ3GEYJ 151 V (150 Ω)
R112 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R113 7030003480 S.RESISTOR ERJ3GEYJ 222 V (2.2 kΩ)
R114 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R115 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R116 7030003540 S.RESISTOR ERJ3GEYJ 682 V (6.8 kΩ)
R117 7030003480 S.RESISTOR ERJ3GEYJ 222 V (2.2 kΩ)
R118 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R119 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R120 7030003540 S.RESISTOR ERJ3GEYJ 682 V (6.8 kΩ)
R121 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R122 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R123 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R124 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R125 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R126 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
S.=Surface mount
6 - 1
SECTION 6 PARTS LIST
REF ORDER DESCRIPTION
NO. NO.
[CONTROL UNIT] REF ORDER DESCRIPTION
NO. NO.
[CONTROL UNIT]
R240 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R241 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R242 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R243 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R244 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R245 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R246 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R247 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R248 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R249 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R250 7030003800 S.RESISTOR ERJ3GEYJ 105 V (1 MΩ)
R254 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R255 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R256 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R257 7030003630 S.RESISTOR ERJ3GEYJ 393 V (39 kΩ)
R258 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R259 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R260 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R261 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R262 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R263 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R264 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R265 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R266 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R267 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R268 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R269 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R270 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R271 7030003290 S.RESISTOR ERJ3GEYJ 560 V (56 Ω)
R272 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R273 7030003490 S.RESISTOR ERJ3GEYJ 272 V (2.7 kΩ)
R274 7030001200 S.RESISTOR MCR50JZHJ 390 Ω(391)
R275 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R276 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R277 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R278 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R279 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R280 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R281 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R282 7030003490 S.RESISTOR ERJ3GEYJ 272 V (2.7 kΩ)
R283 7030003510 S.RESISTOR ERJ3GEYJ 392 V (3.9 kΩ)
[EUR], [ITA]
7030003550 S.RESISTOR ERJ3GEYJ 822 V (8.2 kΩ) other
R284 7030003320 S.RESISTOR ERJ3GEYJ 101 V (100 Ω)
R285 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R286 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R287 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R288 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R289 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R290 7030003460 S.RESISTOR ERJ3GEYJ 152 V (1.5 kΩ)
R291 7030003240 S.RESISTOR ERJ3GEYJ 220 V (22 Ω)
R292 7030005430 S.RESISTOR ERJ3GEYJ 3R3 V (3.3 Ω)
R293 7030000100 S.RESISTOR MCR10EZHJ 4.7 Ω(4R7)
R294 7030003490 S.RESISTOR ERJ3GEYJ 272 V (2.7 kΩ)
R295 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R296 7030003480 S.RESISTOR ERJ3GEYJ 222 V (2.2 kΩ)
R297 7030003420 S.RESISTOR ERJ3GEYJ 681 V (680 Ω)
R298 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R299 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R300 7030003460 S.RESISTOR ERJ3GEYJ 152 V (1.5 kΩ)
R301 7030000130 S.RESISTOR MCR10EZHJ 8.2 Ω(8R2)
R302 7030000130 S.RESISTOR MCR10EZHJ 8.2 Ω(8R2)
C1 4510006650 S.ELECTROLYTIC ECEV 1EA 100SR
C2 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C3 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C4 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C5 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C6 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C7 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C8 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C9 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C10 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C11 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C12 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C13 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C14 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C15 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C16 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C17 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C18 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
[CONTROL UNIT]
R127 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R128 7030003400 S.RESISTOR ERJ3GEYJ 471 V (470 Ω)
R129 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R130 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R131 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R132 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R133 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R134 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R135 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R136 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R137 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R140 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R141 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R142 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R143 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R145 7210003020 VARIABLE EVU-F2KFK1 B14 (10KB)
R146 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R148 7210003020 VARIABLE EVU-F2KFK1 B14 (10KB)
R149 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R151 7210003020 VARIABLE EVU-F2KFK1 B14 (10KB)
R152 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R154 7210003020 VARIABLE EVU-F2KFK1 B14 (10KB)
R155 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R157 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R158 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R159 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R160 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R161 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R162 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 kΩ)
R163 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R164 7030003340 S.RESISTOR ERJ3GEYJ 151 V (150 Ω)
R165 7030003550 S.RESISTOR ERJ3GEYJ 822 V (8.2 kΩ)
R167 7030003650 S.RESISTOR ERJ3GEYJ 563 V (56 kΩ)
R168 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R169 7030003660 S.RESISTOR ERJ3GEYJ 683 V (68 kΩ)
R170 7030003630 S.RESISTOR ERJ3GEYJ 393 V (39 kΩ)
R173 7030003400 S.RESISTOR ERJ3GEYJ 471 V (470 Ω)
R174 7030003500 S.RESISTOR ERJ3GEYJ 332 V (3.3 kΩ)
R175 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R176 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 kΩ)
R177 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R178 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R179 7030003640 S.RESISTOR ERJ3GEYJ 473 V (47 kΩ)
R180 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R181 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R182 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R183 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R184 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R185 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R186 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R187 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R188 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R189 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R190 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R191 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R192 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R193 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R194 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R195 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R196 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R197 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R198 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R199 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R200 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R201 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R202 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R203 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R204 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R205 7030003720 S.RESISTOR ERJ3GEYJ 224 V (220 kΩ)
R206 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R208 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R215 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R217 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R220 7030003580 S.RESISTOR ERJ3GEYJ 153 V (15 kΩ)
R231 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R232 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R233 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 kΩ)
R235 7030003390 S.RESISTOR ERJ3GEYJ 391 V (390 Ω)
R236 7030003390 S.RESISTOR ERJ3GEYJ 391 V (390 Ω)
R237 7030003390 S.RESISTOR ERJ3GEYJ 391 V (390 Ω)
R238 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
R239 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 kΩ)
6 - 2
S.=Surface mount
REF ORDER DESCRIPTION
NO. NO.
[CONTROL UNIT]
REF ORDER DESCRIPTION
NO. NO.
REF ORDER DESCRIPTION
NO. NO.
C121 4310001070 MYLAR 100 SMC 333K
C122 4030014540 S.CERAMIC GHM1038 SL 330J 3KV
C123 4510006970 S.ELECTROLYTIC ECEV1CA330WR
C124 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C125 4510006230 S.ELECTROLYTIC ECEV1EA470UP
C126 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C127 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C128 4510006970 S.ELECTROLYTIC ECEV1CA330WR
C129 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C130 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C131 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C132 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C133 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C134 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C135 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C136 4030007150 S.CERAMIC C1608 CH 1H 151J-T-A
C137 4030007150 S.CERAMIC C1608 CH 1H 151J-T-A
C138 4030007150 S.CERAMIC C1608 CH 1H 151J-T-A
C141 4030012600 S.CERAMIC C2012 JB 1A 105M-T-A
C142 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C143 4030007020 S.CERAMIC C1608 CH 1H 120J-T-A
C144 4030007020 S.CERAMIC C1608 CH 1H 120J-T-A
C145 4030006940 S.CERAMIC C1608 CH 1H 030C-T-A
C146 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C147 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C148 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C149 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C150 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C151 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C152 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C153 4030007020 S.CERAMIC C1608 CH 1H 120J-T-A
[EUR], [ITA]
4030007040 S.CERAMIC C1608 CH 1H 180J-T-A other
C154 4030007130 S.CERAMIC C1608 CH 1H 101J-T-A
[EUR], [ITA]
4030007160 S.CERAMIC C1608 CH 1H 181J-T-A other
C155 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C156 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C157 4030009660 S.CERAMIC C1608 JF 1C 224Z-T-A
C158 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C159 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C160 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C164 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C165 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C166 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C167 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C168 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C169 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C172 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C173 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C174 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C175 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C176 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C177 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C178 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C179 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C181 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C183 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C184 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C185 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C186 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C187 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C188 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C189 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C190 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C191 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C192 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C193 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C194 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C195 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C196 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C197 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C199 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C200 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C201 4030009590 S.CERAMIC C2012 JF 1C 225Z-T-A
J1 6510017980 S.CONNECTOR IL-FPR-24S-HF-E3000
J2 6510021420 CONNECTOR 52018-6645
J3 6510003400 CONNECTOR B04B-EH-S
J4 6450001990 CONNECTOR JPJ2545-01-540
J5 6510014960 S.CONNECTOR B2B-ZR-SM3-TF
S.=Surface mount
C19 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C20 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C21 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C22 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C23 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C24 4030007140 S.CERAMIC C1608 CH 1H 121J-T-A
C25 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C26 4030010040 S.CERAMIC C1608 JB 1H 561K-T-A
C27 4030011600 S.CERAMIC C1608 JB 1C 104KT-N
C28 4030011600 S.CERAMIC C1608 JB 1C 104KT-N
C29 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C30 4030007080 S.CERAMIC C1608 CH 1H 390J-T-A
C31 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C33 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C34 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C35 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C36 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C37 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C38 4510006230 S.ELECTROLYTIC ECEV1EA470UP
C39 4510006970 S.ELECTROLYTIC ECEV1CA330WR
C40 4030008680 S.CERAMIC C2012 JF 1C 105Z-T-A
C41 4030008680 S.CERAMIC C2012 JF 1C 105Z-T-A
C44 4510004650 S.ELECTROLYTIC ECEV1EA4R7SR
C45 4030012660 S.CERAMIC C1608 JB 1C 683K-T-N
[EUR], [ITA]
4030006900 S.CERAMIC C1608 JB 1E 103K-T-A other
C52 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C53 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C54 4510004650 S.ELECTROLYTIC ECEV1EA4R7SR
C55 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C56 4030011280 S.CERAMIC C1608 CH 1H 271J-T-A
C57 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C58 4030011600 S.CERAMIC C1608 JB 1C 104KT-N
C59 4030006850 S.CERAMIC C1608 JB 1H 471K-T-A
C67 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C70 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C71 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C72 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C73 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C74 4510006650 S.ELECTROLYTIC ECEV 1EA 100SR
C75 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C76 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C77 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C78 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C79 4030007170 S.CERAMIC C1608 CH 1H 221J-T-A
C80 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C81 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C82 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C83 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C84 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C85 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C86 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C87 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C89 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C90 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C91 4030008630 S.CERAMIC C1608 JF 1C 104Z-T-A
C92 4030006850 S.CERAMIC C1608 JB 1H 471K-T-A
C94 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C95 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C96 4030006880 S.CERAMIC C1608 JB 1H 472K-T-A
C97 4030006880 S.CERAMIC C1608 JB 1H 472K-T-A
C98 4030006880 S.CERAMIC C1608 JB 1H 472K-T-A
C99 4030006880 S.CERAMIC C1608 JB 1H 472K-T-A
C101 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C102 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C103 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C104 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C105 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C107 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C108 4030006880 S.CERAMIC C1608 JB 1H 472K-T-A
C109 4030006880 S.CERAMIC C1608 JB 1H 472K-T-A
C110 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C111 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C112 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C113 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C114 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C115 4510004630 S.ELECTROLYTIC ECEV1CA100SR
C116 4030006860 S.CERAMIC C1608 JB 1H 102K-T-A
C117 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C118 4030007090 S.CERAMIC C1608 CH 1H 470J-T-A
C119 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
C120 4030006900 S.CERAMIC C1608 JB 1E 103K-T-A
6 - 3
REF ORDER DESCRIPTION
NO. NO.
[CONTROL UNIT] [CONTROL UNIT]
This manual suits for next models
1
Table of contents
Other Icom Transceiver manuals
Popular Transceiver manuals by other brands
Alinco
Alinco DJ-AXD4 user manual
Sitex
Sitex Metadata MDA-5 Installation & operation manual
BLACKHAWK!
BLACKHAWK! USB510W quick start guide
Pocket Wizard
Pocket Wizard MiniTT1 Guide rapide
Uni-Com
Uni-Com Mini UTP Transceiver ETP-20028T installation manual
Delta
Delta 1x9 Bi-Directional Transceiver Module... Specification sheet
