Icom IC-F43TR User manual
SERVICE
MANUAL
UHF TRUNKED RADIO
F43TR
INTRODUCTION
DANGER
ORDERING PARTS
REPAIR NOTES
This service manual describes the latest service information
for the IC-F43TR UHF TRUNKED RADIO at the time of pub-
lication.
NEVER connect the transceiver to an AC outlet or to a DC
power supply that uses more than 8 V. Such a connection
could cause a fire or electric hazard.
DO NOT expose the transceiver to rain, snow or any liquids.
DO NOT reverse the polarities of the power supply when
connecting the transceiver.
DO NOT apply an RF signal of more than 20 dBm (100mW)
to the antenna connector. This could damage the trans-
ceiver's front end.
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>
5030002610 LCD FX-2721 LCD IC-F43TR Main unit 5 pieces
8810009220 Screw BO 2x8 ZK IC-F43TR Chassis 10 pieces
Addresses are provided on the inside back cover for your
convenience.
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 insulated turning 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 30 dB to 40 dB attenuator between the transceiver and a deviation meter or spectrum analyzer when
using such test equipment.
8. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver.
To upgrade quality, all electrical or mechanical parts and
internal circuits are subject to change without notice or
obligation.
MODEL VERSION FREQUENCY
IC-F43TR
10 KEY
4 KEY
400–470 MHz
10 KEY
4 KEY
450–512 MHz
SYMBOL
TRU–02
TRU–82
SRU–02
SRU–82
TRU–03
TRU–83
SRU–03
SRU–83
Icom, Icom Inc. and are registered trademarks of Icom Incorporated (Japan) in the United States, the United Kingdom,
Germany, France, Spain, Russia and/or other countries.
TABLE OF CONTENTS
SECTION 1 SPECIFICATIONS
SECTION 2 INSIDE VIEWS
SECTION 3 DISASSEMBLY INSTRUCTIONS
SECTION 4 CIRCUIT DESCRIPITON
4-1 RECEIVER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
4-2 TRANSMITTER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-2
4-3 PLL CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
4-4 POWER SUPPLY CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-4
4-5 OTHER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
4-6 PORT ALLOCATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
SECTION 5 ADJUSTMENT PROCEDURES
5-1 PREPARATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
5-2 SOFTWARE ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4
SECTION 6 PARTS LIST
SECTION 7 MECHANICAL PARTS AND DISASSEMBLY
SECTION 8 SEMI-CONDUCTOR INFORMATION
SECTION 9 BOARD LAYOUTS
9-1 MAIN UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-1
9-2 PA UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3
9-3 ANT UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3
9-4 FUSE UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3
SECTION 10 BLOCK DIAGRAM
SECTION 11 VOLTAGE DIAGRAM
11-1 MAIN UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-1
11-2 PA / ANT / FUSE UNITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11-3
1 - 1
SECTION 1 SPECIFICATIONS
‘‘GENERAL
• Frequency coverage : 400.000–470.000 MHz [H]
450.000–512.000 MHz [L]
• Mode : FM
• Type of emission : 16K0F3E (25.0 kHz) WIDE
11K0F3E (12.5 kHz) NARROW
• Number of conventional channels : 250 ch
• Antenna connector : 50 Ω
• Operating temperature range : –30˚C to +60˚C (–22˚F to +140˚F)
• Power supply requirement : 7.2 V DC nominal (negative ground)
• Current drain (at 7.2 V DC) :
• Dimensions (projections not included): 53.0(W)×120.0(H)×32.5(D) mm / 23⁄32(W) ✕323⁄32(H) ✕19⁄32(D) in
•Weight (Including BP-232) : Approximately 320 g (119/32 oz)
‘‘TRANSMITTER
•Output power (at 7.2 V DC) : High: 4 W, Low: 1 W
•Modulation : Variable reactance frequency modulation
•Maximum permissible deviation : ±5.0 kHz (Wide), ±2.5 kHz (Narrow)
•Frequency error : ±2.5 ppm
•Spurious emissions : 70 dB (typical)
•Adjacent channel power : 70 dB min. (Wide), 60 dB min. (Narrow)
•Audio harmonic distortion : 3% typical (AF 1kHz, 40% deviation)
•Hum and Noise : 40 dB min (46 dB typical) for Wide
34 dB min (40 dB typical) for Narrow
•Limiting charact of modulator : 60–100 % of maximum deviation
•Microphone impedance : 2.2 kΩ
‘‘RECEIVER
•Receive system : Double conversion superheterodyne system
•Intermediate frequencies : 1st: 46.35 MHz, 2nd: 450 kHz
•Sensitivity : 0.25 µV (–119 dBm) typical at 12 dB SINAD
•Adjacent channel selectivity : 70 dB min (75 dB typical) for Wide
60 dB min (65 dB typical) for Narrow
•Spurious response : 70 dB
•Intermodulation rejection ratio : 70 dB min (74 dB typical)
•Hum and Noise : 40 dB min (45 dB typical) for Wide
34 dB min (40 dB typical) for Narrow
•Audio output power : 0.5 W typical at 5% distortion with an 8 Ωload
•Squelch sensitivity (at threshold) : 0.25 µV typical
•Output impedance (Audio) : 8 Ω
Specifications are measured in accordance with EIA-152-C/204D, TIA-603.
All stated specifications are subject to change without notice or obligation.
RECEIVING TRANSMITTING
Stand-by
85 mA
Max. audio
300 mA
High (4 W)
1.7 A
Low (1 W)
0.8 A
SECTION 2 INSIDE VIEWS
•MAIN UNIT
2 - 1
•PA UNIT
Mute switch
(D29: MA2S111)
PLL IC
(IC21: LMX2352TM)
Base band IC
(IC14: AK2346)
EEPROM
(IC10: 24LC64T)
CPU
(IC22: HD64F2238BTF13)
R5 Regulator
(Q25: 2SA1577)
IF IC
(IC9: TA31136FN)
AF amplifier
(IC15: TA7568F)
APC amplifier
(IC16: TA75S01F) IF amplifier
(Q7: 2SC4215) TX/RX switch
(D16,D17: MA77)
+5 Regulator
(IC17: NJM2870)
T5 Regulator
(Q24: 2SA1577)
D/A converter
(IC12: M62364FP)
VCO circuit
TOP VIEW BOTTOM VIEW
S5 Regulator
Q26: 2SB1132
Q27: XP6501
Power amplifier
(Q701: RD07MVS1)
Antenna switch
(D701: 1SV307)
TOP VIEW BOTTOM VIEW
SECTION 3 DISASSEMBLY INSTRUCTIONS
3 - 1
Chassis unit E
A
B
C
D
F
Shield cover
Main unit
K
K
J
J
L
J
I
GH
Chassis unit
M
N
N
•REMOVING THE CHASSIS UNIT
1Unscrew 1 nut A, and remove 2 knobs B,c.
2Unscrew 2 screws D.
3Unscrew 2 screws E.
4Ta ke off the chassis unit in the direction of the arrow.
5Unplug the connector Ffrom the chassis unit.
•REMOVING THE PA UNIT
1Unscrew 3 screws M.
2Unsolder 4 points N, and take off the PA unit in the direc-
tion of the arrow.
•REMOVING THE MAIN UNIT
1Unscrew 2 nuts G, and remove the top plate H.
2Remove the side plate I.
3Unscrew 6 screws J.
4Unsolder 8 points K, and remove the shield cover.
5Unsolder 2 points L, and take off the main unit in the
direction of the arrow.
4 - 1
SECTION 4 CIRCUIT DESCRIPTION
4-1 RECEIVER CIRCUITS
4-1-1 ANTENNA SWITCHING CIRCUIT (PA UNIT)
The antenna switching circuit functions as a low-pass filter
while receiving and a resonator circuit while transmitting.
This circuit does not allow transmit signals to enter the
receiver circuits.
Received signals enter the antenna connector (CHASSIS;
J1) and pass through the low-pass filter (ANT unit). The fil-
tered signals are passed through the λ⁄4type antenna
switching circuit (D701, D704, L712) and then applied to the
RF circuit.
4-1-2 RF CIRCUIT (MAIN UNIT)
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 two-stage tunable bandpass filters (D19, D20, D24, D25,
L7, L8, C27, C369). The filtered signals are amplified at the
RF amplifier (Q5) and then passed through the another two-
stage tunable bandpass filters (D14, D15, C39, C45) to sup-
press unwanted signals. The filtered signals are applied to
the 1st mixer circuit.
D14, D15, D19, D20, D24, D25 employ varactor diodes, that
are controlled by the CPU via the D/A converter (IC12), to
track the bandpass filter. These varactor diodes tune the
center frequency of an RF pass band for wide bandwidth
receiving and good image response rejection.
4-1-3 1ST MIXER AND 1ST IF CIRCUITS
(MAIN UNIT)
The 1st mixer circuit converts the received signal into fixed
frequency of the 1st IF signal with the PLL output frequency.
By changing the PLL frequency, only the desired frequency
passes through a crystal filter at the next stage of the 1st
mixer.
The RF signals from the bandpass filter are mixed with the
1st LO signals, where come from the RX VCO circuit via the
low-pass filter (L46, C396, C397), at the 1st mixer circuit
(Q6) to produce a 46.35 MHz 1st IF signal. The 1st IF signal
is passed through a monolithic filter (FI1) in order to obtain
selection capability and to pass only the desired signals. The
filtered signal is applied to the 2nd IF circuit after being
amplified at the 1st IF amplifier (Q7).
4-1-4 2ND IF AND DEMODULATOR CIRCUITS
(MAIN UNIT)
The 2nd mixer circuit converts the 1st IF signal into a 2nd IF
signal. The double-conversion superheterodyne system
(which convert receive signals twice) improves the image
rejection ratio and obtains stable receiver gain.
The 1st IF signal from the IF amplifier (Q7) is applied to the
2nd mixer section of the FM IF IC (IC9, pin 16), and is mixed
with the 2nd LO signal to be converted into a 450 kHz 2nd
IF signal.
The FM IF IC (IC9) contains the 2nd mixer, 2nd local oscil-
lator, limiter amplifier, quadrature detector, active filter and
noise amplifier circuits. A 2nd LO signal (45.9 MHz) is pro-
duced at the PLL circuit by tripling it’s reference frequency
(15.3 MHz).
The 2nd IF signal from the 2nd mixer (IC9, pin 3) passes
through the ceramic filter (FI2) to remove unwanted hetero-
dyned frequencies. It is then amplified at the limiter amplifi-
er section (IC9, pin 5) and applied to the quadrature detec-
tor section (IC9, pins 10, 11) to demodulate the 2nd IF sig-
nal into AF signals.
The demodulated AF signals are output from pin 9 (IC9) and
applied to the AF circuit via the receiver mute circuit.
Mixer
16
Limiter
amp.
2nd IF filter
450 kHz X2
15.3 MHz
45.9 MHz
IC9 TA31136FN
12 1st IF from the IF amplifier (Q7)
"RSSI" signal to the CPU ( IC22, pin 50)
11109
87 5
AF signal "DET"
"SQC" signal from the
D/A converter IC
(IC12, pin 2)
R5V
X1
2
Active
filter
Noise
detector
FM
detector
13
"NOIS" signal to the CPU (IC22, pin 75)
RSSI
Noise
amp.
Noise
comparator
×3
Q22
FI2
3
• 2ND IF DEMODULATOR CIRCUITS
4 - 2
4-1-5 AF AMPLIFIER CIRCUIT (MAIN UNIT)
The AF amplifier circuit amplifies the demodulated AF sig-
nals to drive a speaker. This transceiver employs the base
band IC which is composed of pre-amplifier, expander,
scrambler, MSK de-modulator, etc. at the AF amplifier sec-
tion.
The AF signals from the FM IF IC (IC9, pin 9) are amplified
at the AF amplifier section of the base band IC (IC14, pin 23)
and are then applied to the low-pass filter section of it.
The filtered signals passes through the high-pass filter to
suppress unwanted harmonic components. The signals
pass through (or bypass) scrambler and expander sections.
The signals are amplified at the amplifier section of the base
band IC (IC14).
The amplified signals pass through the AF volume (R315),
and are then applied to the AF power amplifier (IC15) to
drive the speaker.
4-1-6 RECEIVE MUTE CIRCUITS (MAIN UNIT)
• NOISE SQUELCH
A squelch circuit cuts out AF signals when no RF signals are
received. By detecting noise components in the AF signals,
the squelch circuit switches the AF mute switch.
Some noise components in the AF signals from the FM IF IC
(IC9, pin 9) are passed through the D/A converter (IC12, pin
1). The signals are applied to the active filter section in the
FM IF IC (IC9, pin 8). The active filter section filters and
amplifies noise components. The amplified signals are con-
verted into the pulse-type signals at the noise detector sec-
tion. The detected signals output from pin 13 (NOIS) via the
noise comparator section.
The “NOIS” signal from the FM IF IC is applied to the CPU
(IC22, pin 75). Then the CPU analyzes the noise condition
and outputs the AF mute signal as “AFON” from the pin 70
to the AF power controller (Q41, Q42).
•CTCSS AND DTCS
The tone squelch circuit detects AF signals and opens the
squelch only when receiving a signal containing a matching
subaudible tone (CTCSS or DTCS). 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 “DET”AF signals from the FM IF IC (IC9, pin
9) passes through the low-pass filter (IC19, pin 5) to remove
AF (voice) signals, and are then applied to the amplifier
(IC19, pin 3). The amplified signals are applied to the
CTCSS or DTCS decoder inside of the CPU (IC22, pin 46)
via the “CDEC”line. The CPU outputs AF mute control sig-
nal and AF power supply circuits (Q41, Q42) control signals
via the “AFON”line.
4-2 TRANSMITTER CIRCUITS
4-2-1 MICROPHONE AMPLIFIER CIRCUIT
(MAIN UNIT)
The microphone amplifier circuit amplifies audio signals
within +6 dB/octave pre-emphasis characteristics from the
microphone to a level needed for the modulation circuit.
This transceiver employs the base band IC which is com-
posed of microphone amplifier, compressor, scrambler, lim-
iter, splatter filter, MSK modulator, etc. at the microphone
amplifier section.
The AF signals (MIC) from the microphone (MC1) are
applied to the amplifier (IC23, pins 6, 7). The amplified sig-
nals are applied to the microphone amplifier section of the
base band IC (IC14, pins 3, 4). The amplified signals are
passed through or bypass the compressor, scrambler sec-
tions of IC14, and are then passed through the high-pass,
limiter amplifier, splatter filter sections of IC14.
The filtered AF signals are applied to the FM/PM switch
(IC13, pin 6), and pass through the low-pass filter (IC6, pin
2).
The filtered signals are applied to the D/A converter (IC12,
pin 4). The output signals from the D/A converter (IC12, pin
3) are applied to the modulation circuit (D12).
Base band IC
(IC14)
"DET" AF signal
from FM IF IC (IC9, pin 9) 23 20 LPF
AF
volume
AF
AMP
IC15
Speaker
IC23
IC23
IC13
IC6 IC12 D12
Microphone
AMP
3
7
4
FM/PM switch
D/A converter FM mod.
LPF
"CTCSS/DTCS" signal from
D/A conveter IC (IC12, pin 11)
"TONE" signal from CPU via low-pass
filter (IC22, pin 43)
to TX VCO circuit
(Q16, D13)
3
•AF AND MIC AMPLIFIER CIRCUIT
4 - 3
4-2-2 MODULATION CIRCUIT (MAIN UNIT)
The modulation circuit modulates the VCO oscillating signal
(RF signal) using the microphone audio signals.
The AF signals from the D/A converter (IC12, pin 3) change
the reactance of varactor diode (D12) to modulate the oscil-
lated signal at the TX VCO circuit (Q16, D10). The modulat-
ed VCO signal is amplified at the buffer amplifiers (Q15,
Q29) and is then applied to the drive amplifier circuit via the
T/R switch (D16).
The CTCSS/DTCS signals (“CENC0”, “CENC1”, ”CENC2”
from the CPU (IC22, pins 13, 15, 16) pass through the low-
pass filter (IC6, pins 12, 14), and are then applied to the D/A
converter via the “TONC”line (IC12, pin 12). The output sig-
nal from the D/A converter (IC12, pin 11) are mixed with
“MOD”signal at the low-pass filter (IC6), and are then
applied to the D/A converter again (IC12, pin 4).
4-2-3 DRIVE/POWER AMPLIFIER CIRCUITS
(PA UNIT)
The drive/power amplifier circuits amplify the VCO oscillat-
ing signal to an output power level.
The signal from the VCO circuit passes through the T/R
switch (MAIN unit; D16), and is amplified at the YGR (Q703,
Q704), drive (Q702), power (Q701) amplifiers to obtain 4 W
of RF power (at 7.2 V DC).
The amplified signal is passed through the low-pass filter
(L704, C711, C712, C713, C755), power detector (D702,
D703), antenna switching circuit (D701) and other low-pass
filters (PA unit; L709, C744, C745), (ANT unit; L801, L802,
C802, C803, C804, C805), and is then applied to the anten-
na connector (CHASSIS unit; J1).
The bias current of the drive (Q702) and power (Q701)
amplifiers are controlled by the APC circuit.
4-2-4 APC CIRCUIT (PA AND MAIN UNITS)
The APC circuit protects the drive and power amplifiers from
excessive current drive, and selects output power of HIGH
or LOW.
The power detector circuit (PA unit; D702, D703) detects the
transmit power output level and converts it into DC voltage.
The output 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 the differential amplifier
(MAIN unit; IC16; pin 3), and the “T2”signal from the D/A
converter (MAIN unit; IC12, pin 23), controlled by the CPU
(MAIN unit; IC22), is applied to the other input for reference.
When antenna impedance is mismatched, the detected volt-
age exceeds the power setting voltage. Then the output volt-
age of the differential amplifier (MAIN unit; IC16, pin 4) con-
trols the input current of the drive (PA unit; Q702) and power
(PA unit; Q701) amplifiers to reduce the output power.
4-3 PLL CIRCUITS
4-3-1 PLL CIRCUIT (MAIN UNIT)
A PLL circuit provides stable oscillation of the transmit fre-
quency and receive 1st LO frequency. The PLL output com-
pares the phase of the divided VCO frequency to the refer-
ence frequency. The PLL output frequency is controlled by
the divided ratio (N-data) of a programmable divider.
The PLL circuit contains the TX/RX VCO circuits (Q16, Q17,
D9-D13). The oscillated signal is amplified at the buffer
amplifiers (Q14, Q15) and then applied to the PLL IC (IC21,
pin 6) after being passed through the low-pass filter (L32,
C206, C208).
Power
amp.
APC
amp.
Driver
amp.
+
–
YGR
amp.
VCC
to ANT unit
PA unit
T2
TMUT
D29
RF signal
from PLL circuit
T5V
APC control circuit
D703
D702
YGR
amp.
ANT
SW LPF
LPF
Q702
Q704
IC16
Q703 Q701
D701
•APC CIRCUIT
4 - 4
The PLL IC contains a prescaler, programmable counter,
programmable divider and phase detector, etc. The entered
signal is divided at the prescaler and programmable counter
section by the N-data ratio from the CPU. The divided signal
is detected on phase at the phase detector using the refer-
ence frequency.
If the oscillated signal drifts, its phase changes from that of
the reference frequency, causing a lock voltage change to
compensate for the drift in the oscillated frequency.
4-3-2 VCO CIRCUIT (MAIN UNIT)
The VCO circuit contains a separate RX VCO (Q17, D9) and
TX VCO (Q16, D10, D13). The oscillated signal is amplified
at the buffer amplifiers (Q15, Q29) and is then applied to the
T/R switch (D16, D17). Then the receive 1st LO (Rx) signal
is applied to the 1st mixer (Q6) and the transmit (Tx) signal
to the YGR amplifier circuit (PA unit; Q704).
A portion of the signal from the buffer amplifier (Q15) is feed
back to the PLL IC (IC21, pin 6) via the buffer amplifier (Q14)
as the comparison signal.
LINE
VCC
+5V
S5V
R5V
T5V
DESCRIPTION
The voltage from the connected battery pack.
Common 5 V converted from the VCC line at the
+5 regulator circuit (IC7). The output voltage is
supplied to buffer amplifiers (Q21), PLL IC
(IC21),etc.
Common 5 V converted from the VCC line at the
S5 regulator circuit (Q26–Q28). The output volt-
age is supplied to the ripple filter (Q20), etc.
Receive 5 V converted from the S5V line at the
R5 regulator circuit (Q25). The output voltage is
supplied to the tripler (Q22), FM IF IC (IC9), IF
amplifier (Q7), 1st mixer (Q6), RF amplifier (Q5),
etc.
Transmit 5 V converted from the S5V line at the
T5 regulator circuit (Q24). The output voltage is
supplied to the APC amplifier (IC16), PA unit etc.
Shift register
Prescaler
Phase
detector
Loop
filter
Programmable
counter
Programmable
divider
X2
15.3 MHz
10
Buffer
Q15
Buffer
Q21
Buffer
Q29
Buffer
Q14
14
15
16
SCK
SO
PLST
to transmitter circuit
to 1st mixer circuit
D16
D17
46
Q16, D13
TX VCO
Q17, D11
RX VCO
IC21 LMX2352
3
45.9 MHz 2nd LO
signal to the FM IF IC
(IC9, pin 2) Tripler
Q22
"LVIN" signal to the CPU
(IC22, pin 49)
LPF
•PLL CIRCUIT
4-4 POWER SUPPLY CIRCUIT
4-4-1 MAIN UNIT VOLTAGE LINE
4 - 5
4-5 OTHER CIRCUITS
4-5-1 COMPOUNDER CIRCUIT (MAIN UNIT)
IC-F43TR have compounder circuit which can improve S/N
ratio and become wide dynamic range to suppress the
transmitting signal and to extend receiving signal. The circuit
is composed of the base band IC (IC14).
(1) IN CASE OF TRANSMITTING
The audio signals from the microphone are applied to the
base band IC (IC14, pin 3) via microphone amplifier (IC23).
The signals are amplified at the amplifier section, and are
then applied to the compressor circuit to compress the audio
signals. The signals pass through (or bypass) scrambler
section, and are then amplified at limiter amplifier section
after being passed through the high-pass filter. The ampli-
fied signals pass through the low-pass filter section, and are
then applied to the modulation circuit (D12) via the FM/PM
switch (IC13), low-pass filter (IC6) and D/A converter (IC12).
(2) IN CASE OF RECEIVING
The demodulated AF signals from the IF IC are applied to
the amplifier section of base band IC (IC14, pin 23), and
then pass through the low-pass and high-pass filter section
to suppress unwanted signals. The filtered signals pass
through (or bypass) scrambler section, and are then applied
to the expander circuit to expand AF signals. The signals are
applied to the base band IC’s amplifier section (IC14, pins
19, 20), and are then applied to the AF amplifier circuit.
Scrambler/
De-scrambler
TX/RX
HPF
Pre-
emphasis Limiter Splatter VR2
Expander VR4
RXA2
SMF
De-
emphasis
Com-
pressor
VR1
(HPF)
RX
LPF
VR3
(HPF)
4
TXINO
7 MOD
18
19
20 SIGNAL
3TXIN
22RXINO
23RXIN
21SDEC
10
14MDIR
9
MTDT
MTCK
13MSCK
11MDIO
12MRDF
MSK
Modulator
MSK
Demodulator
MSK
BPF
Control
Register
TXA1
RXA1
•BASE BAND IC BLOCK DIAGRAM
4-6 PORT ALLOCATIONS
4-6-1 D/A CONVERTOR IC (IC12)
10
14
15
22
23
BAL
TLVA
RLVA
T1
T2
Outputs the modulation balance level
control signal. The signal is applied to
the buffer amplifier (IC24, pin 1).
Outputs the TX VCO lock voltage con-
trol signal.
Outputs the RX VCO lock voltage con-
trol signal.
Outputs the bandpass filter tuning sig-
nal. The output signal is applied to the
bandpass filters (D19, D20, D24,
D25).
•Outputs the bandpass filter tuning
signal. The output signal is applied to
the bandpass filters (D14, D15).
•Outputs the TX power control signal.
The output signal is applied to the
APC amplifier (IC16, pin 1).
Pin Port Description
number name
4 - 6
4-6-2 CPU (MAIN unit; IC22)
Input port for the noise signal from the
FM IF IC (IC9, pin 13).
Outputs serial data to the PLL IC
(IC21, pin 15) and D/A convertor
(IC12, pin 8).
Outputs serial clock signal to the PLL
IC (IC21 pin 14), D/A convertor (IC12,
pin 7), etc.
Input port for the cloning data signal.
Outputs the cloning data signal.
I/O port for data signals from/to the
EEPROM (IC10, pin 5).
Outputs clock signal to the EEPROM
(IC10, pin 6).
Outputs the S5 regulator (Q26–Q28)
control signal.
Low: While the S5 regulator outputs
5 V voltage.
Outputs the T5 regulator (Q24) control
signal.
Low: While transmitting.
Outputs the R5 regulator (Q25) control
signal.
Low: While receiving.
Outputs the transmitting mute switch
control signal to the mute switch
(D29).
High: While muting.
Input port for the PLL unlock signal.
Low: The PLL circuit is unlocked.
NOIS
SO
SCK
CLI
CLO
ESDA
ESCL
S5C
T5C
R5C
TMUT
ULCK
75
76
78
79
80
82
85
86
86
87
88
90
13, 15,
16
29
30
34
35
36
37
38
39
40
41
43
44
45
46
48
49
50
51
69
70
74
CENC0–
CENC2
REF
PLST
PMFM
MDIO
MSCK
MDIR
MTCK
MTDT
MRDF
DAST
SENC
BEEP
SDEC
CDEC
BATV
LVIN
RSSI
TEMP
CSFT
AF
PTT
Output the CTCSS/DTCS signals.
Outputs the reference oscillator cor-
recting voltage. The voltage is applied
to the buffer amplifier (IC24, pin3).
Outputs strobe signals to the PLL IC
(IC21, pin 16).
Outputs the FM/PM modulation
switching signal to the FM/PM switch
(IC13, pin 5).
High: PM is selected.
I/O port for the serial data signals
from/to the base band IC (IC14, pin
11).
Outputs clock signal to the base band
IC (IC14, pin 13).
Outputs serial data control signal to
the base band IC (IC14, pin 14).
Input port for the transmitting MSK
clock signal from the base band IC
(IC14, pin 9).
Outputs MSK data for transmitting to
the base band IC (IC14, pin 10).
Input port for the receiving MSK detec-
tion signal from the base band IC
(IC14, pin 12).
Outputs strobe signals to the D/A con-
vertor (IC12, pin 6).
Output single tone encoder signal.
Outputs beep audio signals.
Input port for single tone decode signal
from the base band IC (IC14, pin 21).
Input port for CTCSS/DTCS signal
from the amplifier (IC19, pin 1).
Input port for the detect signal for con-
necting battery pack’s voltage.
Input port for the PLL lock voltage
.
Input port for the S-meter signal from
the FM IF IC (IC9, pin 12).
Input port for the transceiver’s internal
temperature detecting signal.
Outputs shift signal for reference oscil-
lator’s frequency.
Outputs audio control signal.
Low: Outputs audio signals from
speaker.
Input port for the PTT switch detection
signal.
Low: While the PTT switch is
pushed.
Pin Port Description
number name
Pin Port Description
number name
5 - 1
SECTION 5 ADJUSTMENT PROCEDURES
5-1 PREPARATION
When adjusting IC-F43TR, the optional CS-F43TR ADJ ADJUSTMENT SOFTWARE (Rev. 1.0 or later), OPC-478 CLONING CABLE and
a JIG CABLE (see illustration at page 5-3) are required.
■REQUIRED TEST EQUIPMENT
■SYSTEM REQUIREMENTS
•Microsoft®Windows®95 or Windows 98®
•RS-232C serial port (D-sub 9 pin)
■ADJUSTMENT SOFTWARE INSTALLATION
qBoot up Windows.
- Quit all applications when Windows is running.
wInsert the cloning software CD into the appropriate CD
drive.
eSelect ‘Run’from the [Start] menu.
rType the setup program name using the full path name,
then push [Enter] key.
(For example; D:\Setup.exe)
tFollow the prompts.
yProgram group ‘CS-F43TR ADJ’appears in the
‘Programs’folder of the [Start] menu.
■BEFORE STARTING SOFTWARE ADJUSTMENT
Program the adjustment frequencies, listed in page 5-2, into
the transceiver using with the CS-F43TR before starting the
software adjustment. Otherwise, the transceiver can not
start software adjustment.
CAUTION!: BACK UP the originally programmed memory
data in the transceiver before programming
the adjustment frequencies.
When program the adjustment frequencies
into the transceiver, the transceiver’s memory
data will be overwritten and lose original mem-
ory data at the same time.
■STARTING SOFTWARE ADJUSTMENT
qConnect IC-F43TR and PC with the OPC-478 and JIG
CABLE.
wTurn the transceiver power ON.
eBoot up Windows, and click the program group ‘CS-
F43TR ADJ’in the ‘Programs’folder of the [Start] menu,
then CS-F43TR ADJ’s window appears.
rClick ‘Connect’on the CS-F43TR’s window, then appears
IC-F43TR’s up-to-date condition.
tSet or modify adjustment data as desired.
Microsoft and Windows are registered trademarks of
Microsoft Corporation in the U.S.A. and other countries.
EQUIPMENT
DC power supply
FM deviation meter
Frequency counter
Digital multimeter
RF power meter
(terminated type)
GRADE AND RANGE
Output voltage : 7.5 V DC
Current capacity : 5 A or more
Frequency range : DC–800 MHz
Measuring range : 0 to ±10 kHz
Frequency range : 0.1–800 MHz
Frequency accuracy : ±1 ppm or better
Sensitivity : 100 mV or better
Input impedance : 10 MΩ/V DC or better
Measuring range : 1–10 W
Frequency range : 100–800 MHz
Impedance : 50 Ω
SWR : Less than 1.2 : 1
EQUIPMENT
Audio generator
Attenuator
Standard signal
generator (SSG)
DC voltmeter
Oscilloscope
AC millivoltmeter
GRADE AND RANGE
Frequency range : 300–3000 Hz
Output level : 1–500 mV
Power attenuation : 40 or 50 dB
Capacity : 10 W or more
Frequency range : 100–800 MHz
Output level : 0.1 µV–32 mV
(–127 to –17 dBm)
Input impedance : 50 kΩ/V DC or better
Frequency range : DC–20 MHz
Measuring range : 0.01–20 V
Measuring range : 10 mV–10 V
CH FREQUENCY ADJUSTMENT ITEM CH FREQUENCY ADJUSTMENT ITEM
LOW BAND HIGH BAND LOW BAND HIGH BAND
5 - 2
485.000 MHz
520.000 MHz
450.000 MHz
450.000 MHz
485.000 MHz
485.000 MHz
CS-F43TR ADJ Rev.1.0
File
COM 1: OPEN
Option
Connect Reload (F5) Disp para
[A / D]
VIN : 199 : C7h : 7.80 V
TEMPS : 183 : B7h : 29.00 'C
LVIN : 50 : 32h : 0.96 V
SD : 38 : 26h : 0.75 V
[D / A]
BPF T1 : 71 : 47h : 1.39 V
T2/POW : 20 : 14h : 0.39 V
TX LVA : 124 : 7Ch : 2.43 V
RX LVA : 128 : 80h : 2.51 V
REF : 117 : 75h : 2.29 V
MOD BAL : 156 : 9Ch : 61.18 %
Dev : 143 : 8Fh : 2.80 V
CTCSS : 44 : 2Ch : 0.86 V
SQL Lev : 120 : 78h : 47.06 %
CH No. : 01 RX Freq = 400.000000, TX = < RF Power: High Mode: Wide
Power (Hi) : 170 [ # # # # # # # # # # # # –––––––]
Power (Low) : 79 [ # # # # # # –––––––––––––]
BAL : 156 [ # # # # # # # # # # # ––––––––]
MOD N : 97 [ # # # # # # # # –––––––––––]
MOD Ratio : 125 [ # # # # # # # # # # –––––––––]
CTCS/DTCS : 87 [ # # # # # # # ––––––––––––]
SQL : 120 [ # # # # # # # # –––––––––––]
REF : 138 [ # # # # # # # # # # –––––––––]
BPF ALL : [Enter] to sweep
BPF T1 : 71 [ # # # # # # –––––––––––––] [Enter] to sweep
BPF T2 : 20 [ # # –––––––––––––––––] [Enter] to sweep
RX LVA : 128 [ # # # # # # # # # # –––––––––] [Enter] to sweep
TX LVA : 124 [ # # # # # # # # # # –––––––––] [Enter] to sweep
LV (RX LVA) : 51 [ # # # # –––––––––––––––] [1.00 V]
LV (TX LVA) : 51 [ # # # # –––––––––––––––] [1.00 V]
RSSI : [Enter] to start
CAL : [Enter] to start
: Transceiver's connection state
: Reload adjustment data
: Receive sensitivity measurement
: Connected DC voltage measurement
: PLL lock voltage measurement
: Operating channel select
: RF output power
: FM deviation balance (Narrow)
: FM deviation (Narrow)
: FM deviation (Wide)
: CTCSS/DTCS deviation
NOTE:
1
5
4
6
10
11
16
15
18
17
12
9
1
2
3
4
5
6
7
8
12
13
: Squelch level
: Reference frequency
: Receive sensitivity (automatically)
: PLL lock voltage for RX (automatically)
: PLL lock voltage for TX (automatically)
: PLL lock voltage for RX (manually)
: PLL lock voltage for TX (manually)
: S-meter adjustment
: CAL adjustment
: Adjustment items
9
10
11
14
15
16
17
18
19
20
21
The above values for settings are example only.
Each transceiver has its own specific values for each setting.
3
2
8
7
13
19
14
21
20
•SCREEN DISPLAY EXAMPLE
1
2
3
4
400.000 MHz
400.000 MHz
435.000 MHz
435.000 MHz
TX power : Hi
Band width : Wide
TX power : Low
Band width : Wide
TX power : Low
Band width : Narrow
TX power : Low
Band width : Wide
•ADJUSTMENT FREQUENCY LIST
5
6
435.000 MHz
470.000 MHz
TX power : Low
CTCSS : 151.4 Hz
DTCS code : 007
Band width : Wide
TX power : Low
Band width : Wide
5 - 3
OPC-478
JIG cable
To IC-F43TR [SP] jack
3-conductor 3.5(d) mm plug
( + SP)
( + CLONE)
( –GND)
( –SPE)
FM
deviation meter
SINAD meter
Speaker (8 Ω)
Audio generator
AC millivoltmeter
to the antenna connector
Attenuator
40 dB or 50 dB
RF power meter
0.1–10 W/50 Ω
Frequency
counter
Standard signal generator
0.1 µV to 32 mV
(–127 dBm to –17 dBm)
CAUTION!
DO NOT transmit while
to SSG is connected to
the antenna connector
OPC-478
to RS-232C port
To [SP]
º
IC-F43TR
To [MIC]
(10-keypad version)
Personal
computer
JIG cable
•CONNECTION
•JIG CABLE
5 - 4
5-2 SOFTWARE ADJUSTMENT (TRANSMITTING)
Select an operation using [↑] / [↓] keys, then set specified value using [←] / [→] keys on the connected computer keyboard.
1
2
3
4
1
1
2
1
1
2
•Operating CH. : CH2
•Receiving
•Operating CH. : CH2
•Transmitting
•Operating CH. : CH6
•Receiving
•Operating CH. : CH6
•Transmitting
•Operating CH. : CH6
•Connect an RF power meter or 50 Ω
dummy load to the antenna connector.
•Transmitting
•Operating CH. : CH1
•Transmitting
•Operating CH. : CH1
•Transmitting
•Operating freq. : CH3
•No audio applied to the [MIC] input.
•Set an FM deviation meter as:
HPF : OFF
LPF : 20 kHz
De-emphasis : OFF
Detector : (P–P)/2
•IF bandwidth : Narrow
•Push the [P0] while transmitting
•Operating freq. : CH3
•Set the FM deviation meter as:
HPF : OFF
LPF : 20 kHz
De-emphasis : OFF
Detector : (P–P)/2
•Connect the audio generator to the
[MIC] connector and set as
:
1.0 kHz/150 mVrms
•Transmitting
•Operating freq. : CH4
•Transmitting
•Operating freq. : CH5
•No audio applied to the [MIC] input.
•Transmitting
PLL LOCK
VOLTAGE
[LV (RX LVA)]
[LV (TX LVA)]
REFERENCE
FREQUENCY
[REF]
OUTPUT
POWER
[Power (Hi)]
[Power (Low)]
MODULATION
BALANCE
[BAL N]
FM
DEVIATION
[MOD N]
(Narrow)
[MOD Ratio]
(Middle)
CTCSS/DTCS
DEVIATION
[CTCS/DTCS]
MAIN
MAIN
Top
panel
Top
panel
Top
panel
Top
panel
Check the “LV”item on the CS-
F43TR ADJ’s display.
Check the “LV”item on the CS-
F43TR ADJ’s display.
Loosely couple a frequency
counter to the antenna connec-
tor.
Connect an RF power meter to
the antenna connector.
Connect an FM deviation meter
with an oscilloscope to the
antenna connector through an
attenuator.
Connect an FM deviation meter
to the antenna connector
through the attenuator.
Connect an FM deviation meter
to the antenna connector
through the attenuator.
1.0 V
1.0 V
3.3–4.5 V
(Verify)
3.3–4.5 V
(Verify)
470.0000 MHz [L]
520.0000 MHz [H]
4.0 W
1.0 W
±2.10 kHz
±4.10 kHz
±0.70 kHz
ADJUSTMENT ADJUSTMENT CONDITION MEASUREMENT VALUE
UNIT LOCATION
Set to square wave
form
5 - 5
*The output level of the standard signal generator (SSG) is indicated as the SSG’s open circuit.
SOFTWARE ADJUSTMENT (RECEIVING)
•Select an operation using [↑] / [↓] keys, then set specified value using [←] / [→] keys on the connected computer keyboard.
•Need to adjust “S-METER ADJUSTMENT”after “RX SENSITIVITY ADJUSTMENT”is adjusted.
Otherwise, “S-METER ADJUSTMENT”will not be adjusted properly.
Minimum distortion
level
Set “SQL level”to
close squelch.
Then set “SQL level”
at the point where
the audio signals
just appears.
1
1
2
1
•Operating CH. : CH2
•Connect a standard signal generator to
the antenna connector and set as:
Frequency : 400.000 MHz [L]
450.000 MHz [H]
Level : 10 µV* (–87 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
•Receiving
•Operating freq. : CH2
•Connect an SSG to the antenna con-
nector and set as:
Frequency : 400.000 MHz [L]
450.000 MHz [H]
Level : 4.5 µV* (–94 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
•Receiving
•Set an SSG as :
Level :
0.25 µV* (–119 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
•Receiving
•Operating freq. : CH6
•Connect an SSG to the antenna con-
nector and set as:
Frequency : 470.000 MHz [L]
520.000 MHz [H]
Level : 0.2 µV* (–121 dBm)
Modulation : 1 kHz
Deviation : ±3.5 kHz
•Receiving
RX
SENSITIVITY
[BPF T1],
[BPF T2]
S-METER
[S-METER]
SQUELCH
LEVEL
[SQL]
MAIN
Front
panel
Connect a SINAD meter with an
8 Ωload to the [SP] JACK.
Speaker
ADJUSTMENT ADJUSTMENT CONDITION MEASUREMENT VALUE
UNIT LOCATION
CONVENIENT:
The BPF T1, BPF T2 can be adjusted automatically.
q-1: Set the cursor to “BPF ALL”on the adjustment program and then push [ENTER] key.
q-2: The connected PC tunes BPF T1, BPF T2 to peak levels.
or
w-1: Set the cursor to one of BPF T1, T2 as desired.
w-2: Push [ENTER] key to start tuning.
w-3: Repeat w-1 and w-2 to perform additional BPF tuning.
Push the [ENTER] key on the connected computer’s keyboard
to set “S6 level”.
Push the [ENTER] key on the connected computer keyboard
to set “S1 level”.
[MAIN UNIT][MAIN UNIT]
IC6 1110006350 S.IC LM2902PWR B
IC8 1110005770 S.IC S-80942CNMC-G9C-T2 B
IC9 1110003200 S.IC TA31136FN (EL) T
IC10 1130011580 S.IC 24LC64T-I/SN B
IC12 1190001350 S.IC M62364FP 600D B
IC13 1130006220 S.IC TC4W53FU (TE12L) B
IC14 1110006220 S.IC AK2346-E2 B
IC15 1110001810 S.IC TA7368F (ER) T
IC16 1110002750 S.IC TA75S01F (TE85R) T
IC17 1110005350 S.IC NJM2870F05-TE1 B
IC19 1110006380 S.IC LM2904PWR B
IC20 1130009090 S.IC LC75834W-TLM T
IC21 1130010100 S.IC LMX2352 T
IC22 1140011510 S.IC HD64F2238BTF13 B
IC23 1110006380 S.IC LM2904PWR B
IC24 1110002750 S.IC TA75S01F (TE85R) B
IC25 1130007020 S.IC TC7S66FU (TE85R) B
Q2 1590003320 S.FET TPC6103 (TE85L) T
Q3 1590003290 S.TRANSISTOR UNR9213J-(TX) T
Q4 1560000840 S.FET 2SK1829 (TE85R) T
Q5 1580000730 S.FET 3SK293 (TE85L) B
Q6 1580000760 S.FET 3SK299-T1 U73 B
Q7 1530002600 S.TRANSISTOR 2SC4215-O (TE85R) B
Q14 1530003260 S.TRANSISTOR 2SC5006-T1 B
Q15 1530003260 S.TRANSISTOR 2SC5006-T1 B
Q16 1530002920 S.TRANSISTOR 2SC4226-T1 R25 B
Q17 1530002920 S.TRANSISTOR 2SC4226-T1 R25 B
Q18 1590001400 S.TRANSISTOR XP1214 (TX) T
Q19 1590003290 S.TRANSISTOR UNR9213J-(TX) T
Q20 1530002850 S.TRANSISTOR 2SC4116-BL (TE85R) T
Q21 1560000540 S.FET 2SK880-Y (TE85R) T
Q22 1530002850 S.TRANSISTOR 2SC4116-BL (TE85R) T
Q24 1510000920 S.TRANSISTOR 2SA1577 T106 Q B
Q25 1510000920 S.TRANSISTOR 2SA1577 T106 Q B
Q26 1520000450 S.TRANSISTOR 2SB1132 T100 Q B
Q27 1590001190 S.TRANSISTOR XP6501-(TX) .AB B
Q28 1590003230 S.TRANSISTOR UNR9113J-(TX) B
Q29 1530003260 S.TRANSISTOR 2SC5006-T1 B
Q38 1590003290 S.TRANSISTOR UNR9213J-(TX) B
Q40 1590003290 S.TRANSISTOR UNR9213J-(TX) B
Q41 1590001190 S.TRANSISTOR XP6501-(TX) .AB T
Q42 1520000450 S.TRANSISTOR 2SB1132 T100 Q T
Q43 1590003400 S.TRANSISTOR UNR9112J T
Q44 1590003270 S.TRANSISTOR UNR9210J-(TX) B
Q45 1590003230 S.TRANSISTOR UNR9113J-(TX) T
D5 1160000060 S.DIODE DAN202U T106 T
D6 1790001260 S.DIODE MA2S077-(TX) B
D8 1790001250 S.DIODE MA2S111-(TX) T
D9 1750000710 S.VARICAP HVC350BTRF B
D10 1750000710 S.VARICAP HVC350BTRF B
D11 1750000710 S.VARICAP HVC350BTRF B
D12 1720000570 S.VARICAP MA368 (TX) B
D13 1750000710 S.VARICAP HVC350BTRF B
D14 1750000710 S.VARICAP HVC350BTRF B
D15 1750000710 S.VARICAP HVC350BTRF B
D16 1750000580 S.DIODE 1SV307 (TPH3) B
D17 1790001260 S.DIODE MA2S077-(TX) B
D18 1790001250 S.DIODE MA2S111-(TX) T
D19 1750000710 S.VARICAP HVC350BTRF B
D20 1750000710 S.VARICAP HVC350BTRF B
D21 1160000060 S.DIODE DAN202U T106 B
D24 1750000710 S.VARICAP HVC350BTRF B
D25 1750000710 S.VARICAP HVC350BTRF B
D28 1790001670 S.DIODE RB706F-40T106 B
D29 1790001250 S.DIODE MA2S111-(TX) T
FI1 2010002450 S.XTAL FL-313 (46.35 MHz) T
FI2 2020001530 CERAMIC CFWLB450KFFA-B0 B
X1 6070000190
S.DISCRIMINATOR
CDBCB450KCAY24-R0 B
X2 6050011930 S.XTAL CR-781 (15.3 MHz) B
X5 6050011730 S.XTAL CR-765 (3.6864 MHz) B
X6 6050011830 S.XTAL CR-774 (12.288 MHz) B
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
L7 6200007700 S.COIL LQW2BHN22NJ01L B
L8 6200007700 S.COIL LQW2BHN22NJ01L B
L9 6200007680 S.COIL LQW2BHN12NJ01L B
L11 6200007680 S.COIL LQW2BHN12NJ01L B
L12 6200007920 S.COIL ELJRF 15NJF2 (15) B
L13 6200003350 S.COIL ELJNC R27K-F B
L21 6200007920 S.COIL ELJRF 15NJF2 (15) B
L22 6200007900 S.COIL ELJRF 22NJF2 (22) B
L25 6200008490 S.COIL 0.30-0.9-3TR 7.5N B
L27 6200004950 S.COIL NL 252018T-1R8J T
L28 6200002710 S.COIL ELJFC 1R8K-F T
L31 6200007720 S.COIL LQW2BHN33NJ01L B
L32 6200007910 S.COIL ELJRF 18NJF2 (18) B
L33 6200004480 S.COIL MLF1608D R82K-T T
L35 6200003540 S.COIL MLF1608D R22K-T T
L37 6200009710 S.COIL 0.30-0.9-4TL 10.5N B
L41 6200007880 S.COIL ELJRF 33NJF2 (33) B
L42 6200004660 S.COIL MLF1608A 1R8K-T T
L43 6200004660 S.COIL MLF1608A 1R8K-T T
L46 6200007590 S.COIL LL1608-FH27NJ B
L47 6200002850 S.COIL NL 252018T-R82J T
L48 6200002850 S.COIL NL 252018T-R82J T
R1 7030004970 S.RESISTOR ERJ2GEJ 470 X (47 Ω) T
R2 7030009140 S.RESISTOR ERJ2GEJ 272 X (2.7 kΩ) T
R4 7030008370 S.RESISTOR ERJ2GEJ 561 X (560 Ω) T
R5 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) T
R6 7030008300 S.RESISTOR ERJ2GEJ 184 X (180 kΩ) T
R7 7030005310 S.RESISTOR ERJ2GEJ 124 X (120 kΩ) T
R8 7030005170 S.RESISTOR ERJ2GEJ 474 X (470 kΩ) T
R9 7030008280 S.RESISTOR ERJ2GEJ 271 X (270 Ω) T
R12 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) B
R13 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R15 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) T
R16 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) B
R17 7030004970 S.RESISTOR ERJ2GEJ 470 X (47 Ω) T
R18 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) T
R19 7030005080 S.RESISTOR ERJ2GEJ 823 X (82 kΩ) T
R21 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) T
R22 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R23 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) T
R24 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R25 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R29 7030007270 S.RESISTOR ERJ2GEJ 151 X (150 Ω) B
R31 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) T
R32 7030010040 S.RESISTOR ERJ2GE-JPW T
R33 7030007270 S.RESISTOR ERJ2GEJ 151 X (150 Ω) B
R34 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) B
R35 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) B
R36 7030005030 S.RESISTOR ERJ2GEJ 152 X (1.5 kΩ) B
R38 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R39 7030004970 S.RESISTOR ERJ2GEJ 470 X (47 Ω) B
R40 7030007270 S.RESISTOR ERJ2GEJ 151 X (150 Ω) T
R43 7030004970 S.RESISTOR ERJ2GEJ 470 X (47 Ω) T
R44 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) T
R45 7030008290 S.RESISTOR ERJ2GEJ 183 X (18 kΩ) T
R46 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) T
R48 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) B
R50 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) B
R68 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R69 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R70 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) B
R71 7030005600 S.RESISTOR ERJ2GEJ 273 X (27 kΩ) B
R72 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R73 7030008010 S.RESISTOR ERJ2GEJ 123 X (12 kΩ) B
R74 7030006610 S.RESISTOR ERJ2GEJ 394 X (390 kΩ) B
R75 7030005100 S.RESISTOR ERJ2GEJ 154 X (150 kΩ) B
R76 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) B
R77 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) B
R78 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R79 7030006020 S.RESISTOR RR0510P-682-D (6.8 kΩ) B
R80 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R81 7030008290 S.RESISTOR ERJ2GEJ 183 X (18 kΩ) B
R82 7030010040 S.RESISTOR ERJ2GE-JPW B
R83 7030006020 S.RESISTOR RR0510P-682-D (6.8 kΩ) B
R84 7030006020 S.RESISTOR RR0510P-682-D (6.8 kΩ) B
R85 7030006020 S.RESISTOR RR0510P-682-D (6.8 kΩ) B
R86 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) T
R87 7030009280 S.RESISTOR ERJ2GE 391 X T
R88 7030005010 S.RESISTOR ERJ2GEJ 681 X (680 Ω) T
6 - 1
SECTION 6 PARTS LIST
REF ORDER DESCRIPTION M.
NO. NO.
REF ORDER DESCRIPTION M.
NO. NO.
[H]: High-band. [L]: Low-band.
[MAIN UNIT]
R89 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R90 7030005170 S.RESISTOR ERJ2GEJ 474 X (470 kΩ) T
R91 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) T
R92 7030005310 S.RESISTOR ERJ2GEJ 124 X (120 kΩ) T
R93 7030005060 S.RESISTOR ERJ2GEJ 333 X (33 kΩ) B
R95 7030005030 S.RESISTOR ERJ2GEJ 152 X (1.5 kΩ) T
R96 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R97 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R98 7030007290 S.RESISTOR ERJ2GEJ 222 X (2.2 kΩ) T
R100 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R101 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R103 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) B
R104 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R106 7030005160 S.RESISTOR ERJ2GEJ 105 X (1 MΩ) B
R107 7030005060 S.RESISTOR ERJ2GEJ 333 X (33 kΩ) B
R108 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) B
R110 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R111 7030005170 S.RESISTOR ERJ2GEJ 474 X (470 kΩ) T
R114 7030005080 S.RESISTOR ERJ2GEJ 823 X (82 kΩ) B
R115 7030007570 S.RESISTOR ERJ2GEJ 122X (1.2 kΩ) T
R116 7030007060 S.RESISTOR ERJ2GEJ 684X (680 kΩ) T
R117 7030005160 S.RESISTOR ERJ2GEJ 105 X (1 MΩ) B
R118 7030005060 S.RESISTOR ERJ2GEJ 333 X (33 kΩ) B
R119 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R120 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R121 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) B
R122 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R123 7030005060 S.RESISTOR ERJ2GEJ 333 X (33 kΩ) B
R124 7030005170 S.RESISTOR ERJ2GEJ 474 X (470 kΩ) T
R127 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R130 7030007300 S.RESISTOR ERJ2GEJ 332 X (3.3 kΩ) T
R131 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R147 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R148 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R151 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R152 7030005230 S.RESISTOR ERJ2GEJ 334 X (330 kΩ) B
R154 7030005310 S.RESISTOR ERJ2GEJ 124 X (120 kΩ) B
R156 7030010040 S.RESISTOR ERJ2GE-JPW B
R157 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R161 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R162 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R163 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R164 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R165 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R166 7030007290 S.RESISTOR ERJ2GEJ 222 X (2.2 kΩ) B
R172 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R173 7030008400 S.RESISTOR ERJ2GEJ 182 X (1.8 kΩ) T
R174 7030005170 S.RESISTOR ERJ2GEJ 474 X (470 kΩ) T
R175 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) T
R181 7030005220 S.RESISTOR ERJ2GEJ 223 X (22 kΩ) B
R182 7030005220 S.RESISTOR ERJ2GEJ 223 X (22 kΩ) B
R183 7030005220 S.RESISTOR ERJ2GEJ 223 X (22 kΩ) B
R184 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R185 7030005170 S.RESISTOR ERJ2GEJ 474 X (470 kΩ) B
R186 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) B
R203 7030005110 S.RESISTOR ERJ2GEJ 224 X (220 kΩ) B
R204 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R205 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R209 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R210 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R211 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R213 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R214 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R215 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R216 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R217 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R218 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R219 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R220 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R221 7030005220 S.RESISTOR ERJ2GEJ 223 X (22 kΩ) B
R222 7030008300 S.RESISTOR ERJ2GEJ 184 X (180 kΩ) B
R223 7030005720 S.RESISTOR ERJ2GEJ 563 X (56 kΩ) B
R224 7030005220 S.RESISTOR ERJ2GEJ 223 X (22 kΩ) B
R225 7030007260 S.RESISTOR ERJ2GEJ 330 X (33 Ω) T
R226 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) T
R227 7030009140 S.RESISTOR ERJ2GEJ 272 X (2.7 kΩ) T
R228 7030007300 S.RESISTOR ERJ2GEJ 332 X (3.3 kΩ) T
R229 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R231 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R233 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) T
R234 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) T
R235 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) T
R236 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R237 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) B
R238 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) B
R239 7030007340 S.RESISTOR ERJ2GEJ 153 X (15 kΩ) B
R240 7030005220 S.RESISTOR ERJ2GEJ 223 X (22 kΩ) B
R241 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
6 - 2
REF ORDER DESCRIPTION M.
NO. NO.
[H]: High-band. [L]: Low-band.
[MAIN UNIT]
R242 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R243 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R244 7030007350 S.RESISTOR ERJ2GEJ 393 X (39 kΩ) B
R245 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R246 7030005290 S.RESISTOR ERJ2GEJ 682 X (6.8 kΩ) T
R247 7030005000 S.RESISTOR ERJ2GEJ 471 X (470 Ω) B
R256 7510001730 S.THEMISTOR ERTJOEP 473J B
R257 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R258 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) B
R259 7030005160 S.RESISTOR ERJ2GEJ 105 X (1 MΩ) B
R260 7030008010 S.RESISTOR ERJ2GEJ 123 X (12 kΩ) B
R261 7030008010 S.RESISTOR ERJ2GEJ 123 X (12 kΩ) B
R262 7030008010 S.RESISTOR ERJ2GEJ 123 X (12 kΩ) B
R263 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R264 7030006010 S.RESISTOR RR0510P-472-D (4.7 kΩ) B
R265 7030006010 S.RESISTOR RR0510P-472-D (4.7 kΩ) B
R266 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R267 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R269 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R270 7030007290 S.RESISTOR ERJ2GEJ 222 X (2.2 kΩ) B
R272 7030004980 S.RESISTOR ERJ2GEJ 101 X (100 Ω) T
R273 7030007300 S.RESISTOR ERJ2GEJ 332 X (3.3 kΩ) B
R275 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R282 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R283 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R288 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R289 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R291 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R292 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R293 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R295 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) T
R300 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R301 7030005070 S.RESISTOR ERJ2GEJ 683 X (68 kΩ) B
R302 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R303 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R304 7030010040 S.RESISTOR ERJ2GE-JPW B
R305 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R306 7030005530 S.RESISTOR ERJ2GEJ 100 X (10 Ω) B
R307 7030005580 S.RESISTOR ERJ2GEJ 560 X (56 Ω) B
R308 7030007340 S.RESISTOR ERJ2GEJ 153 X (15 kΩ) T
R309 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R315 7210003060 VARIABLE TP76N00N-15F-10KA-2251 B
R318 7030005700 S.RESISTOR ERJ2GEJ 274 X (270 kΩ) T
R319 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) T
R320 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R321 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R323 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R325 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R327 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R329 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R331 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R333 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R335 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) B
R336 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R337 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R338 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R339 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R340 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R341 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R342 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R343 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R344 7030009710 S.RESISTOR ERJ2GEJ 203 X (20 kΩ) B
R345 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R346 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R347 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R348 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R349 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R350 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R351 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R352 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R353 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R354 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R355 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R356 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R357 7030006610 S.RESISTOR ERJ2GEJ 394 X (390 kΩ) B
R358 7030006610 S.RESISTOR ERJ2GEJ 394 X (390 kΩ) B
R359 7030010040 S.RESISTOR ERJ2GE-JPW T
R360 7030005050 S.RESISTOR ERJ2GEJ 103 X (10 kΩ) T
R361 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) B
R362 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
R507 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R508 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R509 7030005040 S.RESISTOR ERJ2GEJ 472 X (4.7 kΩ) B
R510 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R511 7030005210 S.RESISTOR ERJ2GEJ 822 X (8.2 kΩ) B
R512 7030005210 S.RESISTOR ERJ2GEJ 822 X (8.2 kΩ) B
R513 7030005240 S.RESISTOR ERJ2GEJ 473 X (47 kΩ) B
R514 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
REF ORDER DESCRIPTION M.
NO. NO.
[MAIN UNIT][MAIN UNIT]
R515 7030005120 S.RESISTOR ERJ2GEJ 102 X (1 kΩ) T
R516 7030005090 S.RESISTOR ERJ2GEJ 104 X (100 kΩ) B
C17 4550007120 S.TANTALUM F92 1D 224MPA T
C18 4030017510 S.CERAMIC ECJ0EC1H680J B
C19 4030017350 S.CERAMIC ECJ0EC1H020B B
C21 4030017590 S.CERAMIC ECJ0EC1H070C B
C22 4030017350 S.CERAMIC ECJ0EC1H020B B
C24 4030017460 S.CERAMIC ECJ0EB1E102K T
C25 4030017580 S.CERAMIC ECJ0EC1H060C B
C26 4030017460 S.CERAMIC ECJ0EB1E102K B
C27 4030017660 S.CERAMIC ECJ0EC1H330J B
C28 4030017590 S.CERAMIC ECJ0EC1H070C B
C29 4030017620 S.CERAMIC ECJ0EC1H100C B
C30 4030017460 S.CERAMIC ECJ0EB1E102K B
C31 4030017910 S.CERAMIC ECJ0EB1H152K B
C32 4030017460 S.CERAMIC ECJ0EB1E102K B
C33 4030017420 S.CERAMIC ECJ0EC1H470J B
C34 4030017460 S.CERAMIC ECJ0EB1E102K B
C35 4030017760 S.CERAMIC ECJ0EB1H222K B
C36 4030017460 S.CERAMIC ECJ0EB1E102K T
C37 4030017460 S.CERAMIC ECJ0EB1E102K T
C39 4030017620 S.CERAMIC ECJ0EC1H100C B
C40 4030017520 S.CERAMIC ECJ0EC1H0R3B B
C41 4030017640 S.CERAMIC ECJ0EC1H150J B
C42 4030017460 S.CERAMIC ECJ0EB1E102K T
C43 4030017460 S.CERAMIC ECJ0EB1E102K T
C44 4030017560 S.CERAMIC ECJ0EC1H2R5B B
C45 4030017630 S.CERAMIC ECJ0EC1H120J B
C46 4030017420 S.CERAMIC ECJ0EC1H470J B
C47 4030016970 S.CERAMIC ECJ0EB1C223K B
C48 4030017400 S.CERAMIC ECJ0EC1H220J B
C49 4030017380 S.CERAMIC ECJ0EC1H050B B
C50 4030017460 S.CERAMIC ECJ0EB1E102K B
C51 4030017460 S.CERAMIC ECJ0EB1E102K T
C52 4030017420 S.CERAMIC ECJ0EC1H470J B
C53 4030016790 S.CERAMIC ECJ0EB1C103K B
C54 4030017460 S.CERAMIC ECJ0EB1E102K B
C56 4030017390 S.CERAMIC ECJ0EC1H180J T
C57 4030017460 S.CERAMIC ECJ0EB1E102K T
C58 4030017460 S.CERAMIC ECJ0EB1E102K B
C59 4030017460 S.CERAMIC ECJ0EB1E102K B
C60 4030017460 S.CERAMIC ECJ0EB1E102K B
C61 4030017430 S.CERAMIC ECJ0EC1H101J B
C62 4030017680 S.CERAMIC ECJ0EC1H820J T
C63 4030017460 S.CERAMIC ECJ0EB1E102K B
C64 4030017460 S.CERAMIC ECJ0EB1E102K B
C65 4030017460 S.CERAMIC ECJ0EB1E102K B
C66 4030017460 S.CERAMIC ECJ0EB1E102K T
C67 4030017460 S.CERAMIC ECJ0EB1E102K B
C69 4030017750 S.CERAMIC ECJ0EB1E122K T
C70 4030017740 S.CERAMIC ECJ0EB1E821K T
C71 4030017330 S.CERAMIC ECJ0EF1C104Z T
C72 4030017420 S.CERAMIC ECJ0EC1H470J T
C73 4030017460 S.CERAMIC ECJ0EB1E102K T
C74 4030017460 S.CERAMIC ECJ0EB1E102K B
C75 4550007040 S.TANTALUM ECST0JZ106R B
C76 4030016790 S.CERAMIC ECJ0EB1C103K T
C77 4030017460 S.CERAMIC ECJ0EB1E102K B
C78 4030017460 S.CERAMIC ECJ0EB1E102K T
C79 4030011600 S.CERAMIC C1608 JB 1E 104K-T T
C80 4030017330 S.CERAMIC ECJ0EF1C104Z T
C90 4030017400 S.CERAMIC ECJ0EC1H220J B
C95 4030017710 S.CERAMIC ECJ0EC1H181J B
C98 4030017400 S.CERAMIC ECJ0EC1H220J B
C100 4030017620 S.CERAMIC ECJ0EC1H100C B
C102 4030017380 S.CERAMIC ECJ0EC1H050B B
C103 4030017350 S.CERAMIC ECJ0EC1H020B B
C104 4030017460 S.CERAMIC ECJ0EB1E102K B
C105 4030017460 S.CERAMIC ECJ0EB1E102K B
C106 4030017420 S.CERAMIC ECJ0EC1H470J B
C107 4030017460 S.CERAMIC ECJ0EB1E102K B
C108 4030016790 S.CERAMIC ECJ0EB1C103K B
C109 4030017460 S.CERAMIC ECJ0EB1E102K B
C110 4030017730 S.CERAMIC ECJ0EB1E471K B
C111 4030017420 S.CERAMIC ECJ0EC1H470J T
C112 4030017750 S.CERAMIC ECJ0EB1E122K B
C113 4030017540 S.CERAMIC ECJ0EC1HR75B B
C114 4030017380 S.CERAMIC ECJ0EC1H050B B
C115 4030017630 S.CERAMIC ECJ0EC1H120J B
C116 4030016790 S.CERAMIC ECJ0EB1C103K B
C117 4030017730 S.CERAMIC ECJ0EB1E471K B
C118 4030017520 S.CERAMIC ECJ0EC1H0R3B B
C119 4030017460 S.CERAMIC ECJ0EB1E102K B
C120 4030017730 S.CERAMIC ECJ0EB1E471K B
C121 4030017620 S.CERAMIC ECJ0EC1H100C [L] B
4030017630 S.CERAMIC ECJ0EC1H120J [H] B
M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side)
S.=Surface mount
C122 4030017580 S.CERAMIC ECJ0EC1H060C [L] B
4030017600 S.CERAMIC ECJ0EC1H080C [H] B
C123 4030017390 S.CERAMIC ECJ0EC1H180J [L] B
4030017640 S.CERAMIC ECJ0EC1H150J [H] B
C124 4030017540 S.CERAMIC ECJ0EC1HR75B B
C125 4030017760 S.CERAMIC ECJ0EB1H222K B
C126 4030017630 S.CERAMIC ECJ0EC1H120J B
C128 4030017330 S.CERAMIC ECJ0EF1C104Z B
C129 4030017530 S.CERAMIC ECJ0EC1H0R5B B
C130 4030017330 S.CERAMIC ECJ0EF1C104Z B
C131 4030017330 S.CERAMIC ECJ0EF1C104Z B
C132 4030017460 S.CERAMIC ECJ0EB1E102K T
C133 4030017620 S.CERAMIC ECJ0EC1H100C B
C134 4030017630 S.CERAMIC ECJ0EC1H120J B
C135 4030017460 S.CERAMIC ECJ0EB1E102K T
C136 4030017430 S.CERAMIC ECJ0EC1H101J B
C137 4030016790 S.CERAMIC ECJ0EB1C103K T
C138 4030017420 S.CERAMIC ECJ0EC1H470J T
C139 4030017330 S.CERAMIC ECJ0EF1C104Z B
C140 4030017460 S.CERAMIC ECJ0EB1E102K T
C141 4030017460 S.CERAMIC ECJ0EB1E102K T
C142 4030017330 S.CERAMIC ECJ0EF1C104Z B
C143 4030017460 S.CERAMIC ECJ0EB1E102K T
C144 4030016950 S.CERAMIC ECJ0EB1A473K T
C144 4030017420 S.CERAMIC ECJ0EC1H470J T
C145 4030017420 S.CERAMIC ECJ0EC1H470J T
C147 4030017420 S.CERAMIC ECJ0EC1H470J B
C148 4550006250 S.TANTALUM TEESVA 1A 106M8L T
C149 4030017460 S.CERAMIC ECJ0EB1E102K T
C150 4030017490 S.CERAMIC C1608 JB 1A 105K-T T
C151 4030017460 S.CERAMIC ECJ0EB1E102K B
C152 4030017420 S.CERAMIC ECJ0EC1H470J T
C153 4030017420 S.CERAMIC ECJ0EC1H470J T
C154 4030017420 S.CERAMIC ECJ0EC1H470J T
C155 4030017460 S.CERAMIC ECJ0EB1E102K T
C156 4030017430 S.CERAMIC ECJ0EC1H101J B
C157 4030017620 S.CERAMIC ECJ0EC1H100C B
C158 4030017330 S.CERAMIC ECJ0EF1C104Z B
C159 4030017460 S.CERAMIC ECJ0EB1E102K B
C160 4030017460 S.CERAMIC ECJ0EB1E102K T
C161 4030017620 S.CERAMIC ECJ0EC1H100C T
C162 4030017500 S.CERAMIC ECJ0EC1H560J T
C163 4030017570 S.CERAMIC ECJ0EC1H040B T
C164 4030017590 S.CERAMIC ECJ0EC1H070C T
C165 4030016790 S.CERAMIC ECJ0EB1C103K T
C166 4030017360 S.CERAMIC ECJ0EC1H030B T
C167 4030017330 S.CERAMIC ECJ0EF1C104Z B
C168 4030017460 S.CERAMIC ECJ0EB1E102K T
C169 4030017420 S.CERAMIC ECJ0EC1H470J T
C170 4030017330 S.CERAMIC ECJ0EF1C104Z B
C171 4030017460 S.CERAMIC ECJ0EB1E102K B
C172 4030016790 S.CERAMIC ECJ0EB1C103K B
C174 4030017710 S.CERAMIC ECJ0EC1H181J B
C175 4030017420 S.CERAMIC ECJ0EC1H470J B
C176 4030017330 S.CERAMIC ECJ0EF1C104Z T
C177 4030017330 S.CERAMIC ECJ0EF1C104Z B
C180 4030017330 S.CERAMIC ECJ0EF1C104Z B
C182 4030017460 S.CERAMIC ECJ0EB1E102K B
C183 4030017640 S.CERAMIC ECJ0EC1H150J B
C184 4030017460 S.CERAMIC ECJ0EB1E102K T
C185 4030017460 S.CERAMIC ECJ0EB1E102K T
C186 4030017330 S.CERAMIC ECJ0EF1C104Z T
C188 4030017460 S.CERAMIC ECJ0EB1E102K T
C191 4030018120 S.CERAMIC ECJ0EC1H110J B
C192 4030017610 S.CERAMIC ECJ0EC1H090C B
C205 4030017380 S.CERAMIC ECJ0EC1H050B B
C206 4030017590 S.CERAMIC ECJ0EC1H070C B
C208 4030017590 S.CERAMIC ECJ0EC1H070C B
C209 4030017460 S.CERAMIC ECJ0EB1E102K B
C211 4030017260 S.CERAMIC C2012 JB 0J 475KT B
C221 4030016940 S.CERAMIC ECJ0EB1A393K B
C222 4030016790 S.CERAMIC ECJ0EB1C103K B
C223 4030017330 S.CERAMIC ECJ0EF1C104Z B
C224 4550005980 S.TANTALUM TEESVA 1A 475M8L B
C225 4030017730 S.CERAMIC ECJ0EB1E471K B
C226 4030017460 S.CERAMIC ECJ0EB1E102K B
C231 4030016790 S.CERAMIC ECJ0EB1C103K B
C232 4030016790 S.CERAMIC ECJ0EB1C103K B
C233 4550007090 S.TANTALUM TEESVA 1A 226M8R B
C234 4030017330 S.CERAMIC ECJ0EF1C104Z B
C235 4030016790 S.CERAMIC ECJ0EB1C103K B
C236 4030018560 S.CERAMIC C2012 JB 1A 475K-T B
C237 4030016790 S.CERAMIC ECJ0EB1C103K B
C238 4550007070 S.TANTALUM TEESVP 1A 475M8R B
C239 4030017330 S.CERAMIC ECJ0EF1C104Z B
C240 4030017460 S.CERAMIC ECJ0EB1E102K B
C241 4030017460 S.CERAMIC ECJ0EB1E102K B
C242 4030017460 S.CERAMIC ECJ0EB1E102K B
6 - 3
REF ORDER DESCRIPTION M.
NO. NO.
REF ORDER DESCRIPTION M.
NO. NO.
[H]: High-band. [L]: Low-band.
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