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DJ-G5
Service Manual
CONTENTS
+ SPECIFICATIONS 2 + PARTS LIST
RF Unit 37~40
IF Unit 41~44
+ CIRCUIT DESCRIPTION CPU Unit 44~46
1) Receiver System 3~5 SVV UniL 46
2) Transmitter System 5 UVCO Unit 46
3) PLL Synthesizer Circuit 6 VVCO Unit 47
4) CPU and Peripheral Circuit 6~7 CHARGE Unit 47
5) Terminal function of CPU 10~12 PTT Unit 47
6) Terminal function of 4094 13 Mechanical Parts 48
7) Frequency Table 13
+ SEMICONDUCTOR DATA + ADJUSTMENT
l) AK2341 14 1) Required Test Equipment 49
2) BU4094BF 15 2) Adjustment for DJ-G5T/E 50
3) HD6433877 16 3) Adjustment Points 51
4) LC75366M 17
5) LC73881 M 18
6) M64076GP 19 + PC BOARD VIEW
7) MC3372VM 20 1) RF Unit Side A 52
8) NJM21 00V 20 2) RF Unit Side B 53
9) NJM2070M 21 3) IF Unit Side A 54
10) RH5RH501A 22 4) 1F Unit Side B 55
11) RH5RH651A 22 5) CPU Unit Side A 56
12) S-80730SL-AT 23 6) CPU Unit Side B 57
13) S-AV28 24 7) UVCO Unit 58
14) S-AU57 24 8) VVCO Unit 58
15) S-81237SG-QE 25 9) PTT Unit Side A 58
16) TA75S01F 25 10) PTT Unit Side B 58
17) TA75W01FU 26 11) CHARGE Unit 58
18) TC4W53F 26 12) SW Unit Side A 58
19) TK10930VTL 27
20) uPD1 6430AGF-3B9 28
21) 24LC16B 29 + VOLTAGE TABLE
22) Transistor, Diode and LED Outline Dra30 1) Diode 59~60
23) LCD Unit 31~32 2) IC 60~63
3) Transistor 63~64
+ EXPLODED VIEW
1) Charge Unit 33 + BLOCK DIAGRAM 66~67
2) RF Unit 34
3) IF Unit/CPU Unit 35
4) Front/Rear View 36 + SCHEMATIC DIAGRAM
1) RF Unit 68~69
2) IF Unit 70~71
3) CPU Unit 72~73
4) UVCO Unit 74
5) VVCO Unit 75
6) CHARGE Unit 76
7) PTT Unit 76
ALINCO INCORPORATED
TWIN 21 M.I.D. TOWER BUILDING 23F, 1-61, 2-CHOME,
SHIROMI CHUO-KU , OSAKA, 540-8580 JAPAN
Tel (81)6-6946-8150 fax (81)6-6946-8175
e-mail: [email protected]
General
VHF UHF
108.000~173.995 420.000~479.995
DJ-G5T L-band (AM FM) (FM)
1 30.000~l 73.995
Receiver range(MHz) R-band (FM)
DJ-G5E 144.000~145.995 430.000~439.995
Transmitter range(M DJ-G5T 144.000~147.995 438.000~449.995
DJ-G5E 144.000~145.995 430.000~439.995
Modulation F2E.,F3E(FM)
Antenna impedance 50 ohm
Operating temperature range -10 ~ +60*C
Supply voltage (rated voltage) External (V) 4.5~16.0(13.8)
Ni-Cd(V) 4.5~16.0(4.8)
Tx Hi: 13.8VDC(external) approx. 1.4A approx. 1.5A
Tx Hi: 9.6VDC(Ni-Cd) approx. 1.4A approx. 1.5A
Tx Hi: 7.2VDC(Ni-Cd) approx. 1.4A approx. 1.5A
Tx Hi: 4.8VDC(Ni-Cd) approx. 1.0A approx. 1.2A
Current TxMid: 4.8VDC(Ni-Cd) approx. 0.8A
(regulated supply voltage) TxLo: 4.8VDC(Ni-Cd) approx. 0.5A
Rxsquelched(twinband) approx. 85mA
Rxsquelched(monoband) approx. 50mA
Rx Battery-Save On (800/200 twin band) approx. 25mA
Ground Negative ground
Microphone impedance 2k ohm
Dimensions without projection (with projections) W57(63) x H138(155) x D27.5(31.5)
Weight (Ant. belt-clip, strap, and Ni-Cd EBP-33N inclusive) approx. 350g
Transmitter
Hi: 13.8VDC(external) approx. 5W
Power output Hi: 9.6VDC(Ni-Cd) approx. 4.5W
(regulated supply voltage) Hi: 7.2VDC(Ni-Cd) approx. 3.5w approx. 3W
Hi: 4.8VDC(Ni-Cd) approx. l.5W approx. 1 W
Modulation Variable reactance
Maximum deviation +/-5kHz
Spurious emission notmorethan-60dB
Receiver
System Double-conversion superheterodyne
First l.F. 38.9MHz 45.1 MHz
Second l.F. 455kHz
L-band: 144.000~147.995MHz
Sensitivity R-band: 438.000~449.995MHz better than -16dBu better than -15dBu
L-band: 438.000~449.995MHz
DJ-G5T R-band: 144.000~147.995MHz better than -12dBu
L-band: 144.000~145.995MHz
R-band: 430.000~439.995MHz better than -16dBu better than -15dBu
L-band: 430.000~439.995MHz
DJ-G5E R-band: 144.000~145.995MHz better than-12dBu
Squelch sensitivity better than-20dBu (0.1uV)
Selectivity (-6dB/-60dB) more than 12kHz / less than 30kHz
A.F.output(@10% distortion) 100mW(8ohm load)
CIRCUIT DESCRIPTTON
1) Receiver System
The receiver system is the double-conversion superheterodyne. ln L band the first
IF is 38.9MHz and second IF is 455kHz, and in R band the first IF is 45.1MHz and
second IF is 455kHz.
1 Front End
1-1 108.00MHz~ 173.995MHz (144M Band Main)
The receiving signal is passed through the low-pass filter (L90, L91 , L92, C220,
C229, C230, C231, C235), and amplified in RF amplifier (Q77), then led to the
resonant circuit (L85, L86, varicap D68, D69). The signal is amplified in RF
amplifier Q75, and passed through the resonant circuit (L81 , L82 varicap D66 and
D67), then converted into the frequency of 38.9MHz in the mixer Q79.
Two resonant circuits consisting of L85, L86, varicap D68, D69, L81 , L82, varicap
D66, D67, are controlled by the trucking voltage to obtain the best condition to the
receiving frequency.
The local signal from VVCO OUT is passed through the buffer Q79, and fed to the
base of the mixer Q76. The sum of the displayed frequency and IF frequency is
employed.
1-2 420.00MHz~51 1.995MHz: (430M Band Sub)
The receiving signal is passed through the band-pass filter (C59, C60, C61 , C66,
C67, C68, L57, L58, L53, L54), RF amplifier (Q62, Q72), band switch (D63), and
high-pass filter (C175, C176, C186, C187, L77, L78), and converted into the
frequency of 38.9MHz in mixer (Q74).
The local signal is passed through the buffer (Q70), and the difference frequency
between IF frequency and the displayed frequency is fed to the base of the mixer
(Q74).
1-3 130.00MHz~173.995MHz (144M Band Sub)
The receiving signal is passed through the low-pass filter (L90, L91 , L92, C220,
C229, C230, C231 and C235), and RF amplifier (Q68), low-pass fitter (C145,
C146, C153 and C154), then converted into the frequency of 45.1MHz in the mixer
(Q67).
The local signal is passed through the buffer (Q69), then the sum of displayed
frequency and IF frequency is fed to the base of the mixer (Q67).
1-4 420.00MHz~51 1.995MHz (433M Band Main)
The receiving signal is passed through the band-pass filter (C59, C60, C61 , C66,
C67, C68, L57, L58, L53, L54), RF amplifier (Q62, Q72) and the band-pass filter
(FL51), and amplified in RF amplifier (Q63), then converted into the frequency of
45.1MHz.
The band-pass filter (FL51) is the helical filter to obtain the band width characteris-
tics.
The local signal from UVCO OUT is passed through the diode switch (D58), buffer
(Q64), then the difference frequency between the displayed and IF is fed to the
base ofthe mixer (Q61).
2 IF
2-1 L Band
The sum/difference between the receiving signal and local signal is made in each
mixer. The crystal filter (XF53) selects the difference of 38.9MHz and
eliminates unwanted signal, then it is amplified in the first IF amplifier (Q78).
2-2 R Band
The sum/difference between the receiving signal and local signal is made in each
mixer. The crystal filter (XF51) selects the difference of 45.l MHz and
eliminates unwanted signal, then it is amplified in the first IF amplifier (Q60).
3
3 Demodulation
3-1 L Band
After amplified in the first IF amplifier (Q78), the signal is fed to the demodulation
IC (IC302) Pin24. The first IF signal outputted to Pin24 (38.9MHz) is mixed in the
mixer of IC302 with the local signal of 38.455MHz which is oscillated in the
oscillation circuit of IC302 and the crystal oscillator (X303), then converted into the
second IF signal of 455kHz. The second IF is supplied from the IC302 Pin3. After
eliminating unwanted signal by the ceramic filter (FL302), the signal is applied to
Pin5 and Pin7.
As for the FM demodulation, the second IF signal applied to Pin7 is demodulated
in limiter amplifier and quadrature detection circuit of IC302 when IC302 Pinl4 is
open, and it is outputted from Pinl2 as the audio signal.
As for the AM demodulation, the second IF signal applied to Pin5 is demodulated
in AM amplifier and AM detection circuits of IC302 when the voltage of IC302
Pin14 is low, and it is outputted from Pinl3 as the audio signal.
3-2 R Band After amplified in the first IF amplifier (Q60), the signal is applied to the demodula-
tion lC301, Pinl6. It is mixed in the mixer of IC301 with the local signal of
45.555MHz which is oscillated in the oscillation circuit and the crystal oscillator
(X301) of IC301, then converted into the second IF signal of 455kHz. The second
IF is outputted from IC301 Pin3, and applied to Pin5 and Pin7 after eliminating
unwanted signal by the ceramic filter (FL30l).
4 Audio Circuit
4-1 FM (L band The audio signal supplied from IC302 is pre-emphasized white transmitting. So
the audio frequency should be compensated in the de-emphasis circuit (R366,
C363), then the signal is passed through FM/AM selection switch (IC303). The
frequency of 300Hz or below is cut in the audio high-pass fitter circuit (Q313), and
it is applied to the electronic volume (IC304) Pin1. The signal is passed through
the buffer (IC306), and adjusted the volume, then led to the audio power amplifier
(IC307) to drive the speaker.
4-2 AM (L band When AM mode is selected, the switching transistor (Q312) is turned ON, and
IC302 Pin14 becomes low, then AM demodulation circuit of IC302 is activated.
The audio signal provided from IC302 Pin14 is passed through the de-emphasis
circuit (R362, C360), and FM/AM selection switch (IC303), then led to audio high-
pass filter circuit (Q313), electronic volume (IC304), buffer (IC306) and the audio
power amplifier (IC307) to drive the speaker.
Note:
The FM detection circuit in IC301 (TK10930) is operating even while AM receiving.
(The squelch circuit is activated by FM detection output.) So the FM audio is not
outputted by FM/AM selection switch (IC303).
4-3 FM (R band)
The audio signal supplied by IC301 Pin9 is compensated the audio frequency
characteristics in de-emphasis circuit (R330, C327), and the signal is passed
through the audio high-pass filter (Q306), then applied to the electronic volume
(IC304) Pin20. It is passed through the buffer (IC305), and led to the audio power
amplifier (IC307) to drive the speaker.
5 Squelch Circuit
5-1 L Band
A part of the audio signal of IC302 Pin12 is selected and amplified by the noise
amplifiers in R351 , R352, R350, R353, C351, C352, C353, and IC302. Then it is
supplied from IC302 Pin20 to be amplified again in the noise amplifier (Q309). The
amplified noise factor is rectified in D302, adjusted the level in VR303, and applied
to CPU (IC508) Pin96, then converted to the digital signal.
4
5-2 R Band
A part of the audio signal of IC301 Ping is selected and amplified by the noise
amplifiers in R316, R317, R318, R319, C318, C319, C320, and IC301. Then it is
supplied from IC301 Pin11 to be amplified again in the noise amplifier (Q303). The
amplified noise factor is rectified in D301 , adjusted the level in VR30l , and applied
to CPU (IC508) Pin97, then converted to the dligital signal.
6 Attenuator Circuit
6-1 VHF Band
When the ATT key is pressed, "L" is applied from shift resistor (IC52) Pin14, and
D71 is turned ON, then the Attenuator circuit (Q56, R151, C194, R160) is acti-
vated.
The receiving signal passed through the low-pass filter is attenuated approximately
15dB by the attenuator to decrease the interference of the adjacent channel, etc.
6-2 UHF Band
When the ATT key is pressed, "L" is applied from shift resistor (IC52) Pin13, and
D55 is turned ON, then the Attenuator circuit (Q56, R73, C90, R80) is activated.
The receiving signal passed through the low-pass filter is attenuated approximately
15dB by the attenuator to decrease the interference of the adjacent channel, etc.
2) Transmitter System
1 Demodulation Circuit
The voice is converted into the electric signal by the internal or external micro-
phone, then it is applied to the mic amplifier (IC310). This IC310 has two opera-
tional amplifiers. The pre-emphasis and IDC consist of Pin1, 2 and 3, and the
splutter filter consists of Pin5, 6 and 7.
The output from the microphone amplifier is passed through variable resistors
VR305 and VR306 for maximum deviation adjustment to cathode of varicap diode
of the VCO, controlling the VCO frequency and so producing a frequency-modula-
tion.
2 Power Amplifier
2-1
The transmitting signal oscillated in VVCO is amplified in pre-drive amplifier (Q81)
and drive amplifier (Q80), then fed to the power module (IC54). The transmitting
signal amplified in IC54 is supplied to the antenna after attenuated the harmonics
enough in the antenna switch (D72) and the Low-pass filter (L90, L91 , L92, C220,
C229, C230,C231 , C235).
2-2
The transmitting signal oscillated in UVCO is amplified in pre-drive amplifier (Q54)
and drive amplifier (Q53), then fed to the power module (IC51). The transmitting
signal amplified in IC51 is supplied to the antenna after attenuated the harmonies
enough in the antenna switch (D52), and the bandi)ass filter (L57, L58, L53, L54,
C59, C60, C61, C66, C67, C68).
3 APC Circuit
3-1 VHF Band A part of transmitting voltage from low-pass filter is detected by D74, and con-
verted into the DC voltage. The converted detection voltage is differential ampli-
fied, and the output voltage controls the bias voltage of power module (IC54) Pin2
to fix the transmitting power.
3-2 UHF Band
A part of transmitting voltage from low-passS filter is detected by D56, and con-
verted into the DC voltage. The converted detection voltage is differential ampli-
fied, and the output power controls the bias voltage of power module (IC51) Pin2
to fix the transmitting power.
5
3) PLL Synthesizer Circuit
1 PLL
The data is sent to the PLL IC (IC53) Pin2 and the clock is sent to Pin3 from CPU
(IC508), then the ratio of the division is decided each in L band and R band.
Each VCO oscillating signal is amplified in the buffer (Q73: L band, Q66: R band),
and the signal in L band is applied to Pin15, then the signal in R band is applied to
Pin6. The programmable divider of IC53 is determined by frequency data, and it
divides (1/N) input signal of IC53. Resulting signal will be 5kHz or 6.25kHz.
2 Reference frequency division
The reference frequency of 5kHz or 6.25kHz according to the channel step is
produced by dividing the reference oscillation 12.8MHz (X51) by 2560 or 2048, the
data from CPU (IC508). The channel steps of 5kHz, 10kHz, 15kHz, 20kHz,
25kHz, 30kHz and 50kHz use the reference frequency of 5kHz, and the channel
step of l2.5kHz uses the reference frequency of 6.25kHz.
3 Phase comparator
The reference frequency of IC53 is 5kHz or 6.25kHz.
The VCO output frequency divided by N is compared with 5kHz or 6.25kHz in the
phase comparator.
4 PLL Loop Filter Circuit
If the phase error should occur in PLL, the charge pump of IC53 Pin13 (L band)
and Pin8 (R band) outputs the pulse. The signal is converted into the DC voltage
in PLL loop filter, then inputted to the varicap of each VCO unit.
5 VVCO Circuit (VHF Band)
Q705 is turned ON, and the desired frequency is oscillated in the Colpitts osclllator
consisting of Q701. The frequency control voltage is apprled to the varicap (D702,
D703), and the osciflating frequency is changed, then amplified in VCO buffer
(Q703), and outputted from the VCO unit.
6 VVCO Circuit (UHF Band)
Q704 is turned ON, and the desired frequency is oscillated in the Colpitts oscillator
consisting of Q702. The frequency control voltage is applied to the varicap (D704,
D705), and the oscillating frequency is changed, then amplified in VCO buffer
(Q703), and outputted from the VCO unit.
7 UVCO Circuit (UHF Band)
Q605 is turned ON, and the desired frequency is oscillated in the Colpitts oscillator
consisting of Q601. The frequency control voltage is applied to the varicap (D602,
D603), and the oscillating frequency is changed, then amplified in VCO buffer
(Q603), and outputted from the VCO unit.
8 UVCO Circuit (VHF Band)
Q604 is turned ON, and the desired frequency is oscillated in the Colpitts oscillator
consisting of Q602. The frequency control voltage is applied to the varicap (D604,
D605), and the oscillating frequency is changed, then amplified in VCO buffer
(Q603), and outputted from the VCO unit.
4) CPU and Peripheral Circuit
1 LCD Display Circuit
The strobe, serial data, and clock are sent to the LCD driver (IC503) Pin 75~77
from CPU (IC508), and the LCD is activated with 1/4 duty and l/3 bias. The frame
frequency is 137Hz.
6
2 Display Lamp Circuit
The regulated power supply circuit consisting of Q505, Q507, R508, R509 supplies
H from CPU (IC508) when LAMP key is pressed. Then it is applied to the base
of Q507, and the voltage of 3.5V is outputted from the collector of Q505. lt is fed
to each LED (D503~D506, D509,D511 ,D513,D514).
3 Reset and Backup Circuit
When the voltage of approximately 3.0V or more is supplied from the external (DC
jack, battery), the reset signal of "H" level is outputted from Reset IC (IC506), and
it is fed to CPU (IC508) Ping, then the CPU is reset. Until the clock (X502) of CPU
is stabilized, the reset signal is fed to CPU after it is delayed in C522 and R58l.
When the voltage from external is decreased to approximately 3.3V or below, the
voltage of Pin18 in CPU is changed from "H" level to "L" level, then the CPU enters
into the backup mode.
4 S (signal) Meter Circuit
4-1 L Band
The DC voltage of IC302 Pin16 is low when the signal is weak and high when the
signal is strong. This change of DC voltage is adjusted the level at the trim pot
(VR304), and led to CPU (IC508) Pin98, then displayed on the LCD as S meter
after A/D converting.
4-2 R Band
The DC voltage of IC301 Pin13 is adjusted the level at the trim pot (VR302), and
led to CPU (IC508) Pin99, then displayed on the LCD as S meter after A/D
converting.
5 Full-duplex Circuit
When the DUP key is pressed, in the receiving side Q317 is turned ON and the
audio signal supplied to audio amplifier is decreased. ln transmitting side Q510 is
turned ON, and the modulation signaf is decreased to prevent the howling.
6 X-Band Repeater Circuit
ln X-band repeater mode, Q323 is turned OFF, the audio Signal which is opened
the squelch is passed through the audio high-pass filter (Q313: L band, Q306:R
band), and the signal is applied to the other modulation circuit. Then the radio
enters into the transmitting mode.
7 DTMF
7-1 Encoder
The DTMF encoder is built in the CPU (IC508). The DTMF signal output from
Pin91 is adjusted its level at VR308, and amplified by the mic amplifier (IC310),
then fed to the varicap for modulation of each VCO.
Simultaneously the monitor sound is passed through AF circuit, and it is supplied
from the speaker.
7-2 Decoder
A part of the audio signal which is demodulated in IC301 , IC302 is fed to the DTMF
switch (IC501), then only the selected band audio signal is fed to DTMF IC (IC502)
Pin1. The supplied signal is judged whether valid or not by the signal judgement
circuit in IC502, and converted into 4-bit code, then supplied to IC508 Pin85.
8 Tone Squelch
8-1 Encoder
The tone signal supplied from Tone IC (IC504) Pin21 (67.OHz~254.lHz) is ad-
justed the level at VR307, and amplified n the tone amplifier (Q322), then applied
to the varicap for modulation of each VCO.
8-2 Decoder
A part of the audio signal which is demodulated in IC301, IC302 is fed to the tone
switch (IC504), then only the selected band audio signal is fed to tone IC (IC504)
Pin1.
When the signal is accord with the programmed tone frequency, "LO" is outputted
from IC504 Pin14, and it is fed to CPU (IC508) Pin74, then the squelch is opened.
7
5) Terminal function of CPU
No. Name Pin Name I/O Description H L HiZ
1 ANO +BD I Power supply voltage detection Analog lN
2 AVSS GND / Analogground
3 TEST GND / Connect to ground
4 X2 OPEN Open when not used
5 X1 VDD / Power supply
6 VSS GND / Ground
7 OSC1 OSC1 I Internal oscillator input
8 OSC2 OSC2 O Internal osciIIator output
9 RES REST I CPU reset At work
10 NMl VDD /
11 P20 CLK O Clock input Pulse Normal
12 P21 DATA O Data input Pulse Normal
13 P22 STB1 O RF4094 strobe Pulse Normal
14 P23 STB2 O lF4094 strobe Pulse Normal
15 P24 STB3 O Electronic volume strobe Pulse Normal
16 P25 OPEN /
17 P26 +BDSW O +BD input ON/OFF ON OFF
18 lRQO BU I Backup signal input Normal Backup
19 P17 RE1 I Rotary encoder up input OFF ON
20 P16 RE2 I Rotary encoder down input OFF ON
21 P15 PSW I Power switch input OFF ON
22 P14 OPEN
23 P13 OPEN
24 TMOFH BEEP O Beep sound output Pulse Pulse Normal
25 TMOFL 1750 O Tone burst output Pulse Pulse Normal
26 P10 XBR O Cross band repeater ON/OFF Normal Repeater
27 VSS GND / Ground
28 V3 OPEN
29 V2 OPEN
30 V1 OPEN
31 VCC VDD / Power supply terminal
32 PA3 LBSY I LCD driver data input ON/OFF Permitted Inhibited
33 PA2 LCLK O LCD driver clock Normal Pulse
34 PA1 LDATA O LCD driver serial data Normal Pulse
35 PA0 LSTB O LCD driver strobe Inhibited Permitted
36 P50 PT5/PTT I PTT input ON OFF
37 P51 MONt I Monitor key input OFF ON
38 P52 TBST I TX(toneburst)input OFF ON
39 P53 FUNC I Function key input OFF ON
40 P54 BP3 I Band plan (TX/RX expansion) Expanded Normal
41 P55 UHF I UHF key input OFF ON
42 P56 VOLU I VOL up key input OFF ON
43 P57 SQLD I SQL down key input OFF ON
44 P60 SQLU I SQL up key input OFF ON
45 P6l SRCH I Search key input OFF ON
46 P62 VHF I VHF key input OFF ON
47 P63 VOLD I VOL down key input OFF ON
48 P64 KIN1 I Key matrix input1 OFF ON
49 P65 KIN2 I Key matrix input2 OFF ON
50 P66 KIN3 I Key matrix input3 OFF ON
10
No. Name Pin Name IIo Description H L HiZ
51 P67 KIN4 I Key matrix input4 OFF ON
52 P70 KOT1 O Key matrix output1 OFF ON
53 P71 KOT2 O Key matrix output2 OFF ON
54 P72 KOT3 O Key matrix output3 OFF ON
55 P73 KOT4 O Key matrix output4 OFF ON
56 P74 PRST O PLL reset pulse input judgement Normal Pulse
57 P75 SDA I/O EEPROM data PL SE Normal
58 P76 SCL O EEPROM clock PL SE Normal
59 P77 50SW O 5V ON/OFF ON OFF
60 P80 OPEN /
61 P81 TFD O Full duplex ON/OFF when transmittin Full duplex Normal
62 P82 UTBST O Right side TX lamp ON/OFF ON OFF
63 P83 VTBST O Left side TX lamp ON/OFF ON OFF
64 P84 VTXCV O VHF TX circuit for power supply ON OFF
65 P85 UTXCV O UHF TX circuit for power supply ON OFF
66 P86 VBSY O VHF RX busy lamp ON/OFF ON OFF
67 P87 UBSY O UHF RX busy lamp ON/OFF ON OFF
68 P90 LAMPC O LAMP ON/OFF ON OFF
69 P91 PCNT O Vcc ON/OFF ON OFF
70 P92 MUTE O Microphone mute Muted Normal
71 P93 RFD O Full duplex ON/OFF when receiving Full duplex Normal
72 P94 DSW O DTMF band selection VHF UHF
73 P95 TSW O Tone band selection VHF UHF
74 P96 TSQD I Tone detection signal input None Tone
75 P97 TSTB O Tone IC strobe Pulse Normal
76 VCC VDD / Power supply
77 PD0 AM O AM circuit ON/OFF AM FM
78 PD1 AFPC O Audio amplifier power supply ON/OFFON OFF
79 PD2 VAFS O VHF AF mute Muted ON
80 PD3 UAFS O UHF AF mute Muted ON
81 PD4 OPEN
82 PD5 IFPC O IF power supply ON/OFF ON OFF
83 PD6 VRXC O VHF IF circuit power supply OFF ON
84 PD7 URXC O UHF IF circuit power supply OFF ON
85 PE0 DSD I DTMF 4-bit data Normal Pulse
86 PE1 ACK O DTMF clock Pulse Normal
87 PE2 DSTD I DTMF detection signal Signal None
88 PE3 DPD O DTMF operation ON/OFF isstopped Operation
89 AVCC AVCC / A/D converter power supply
90 TONEM TRAC O VHF trucking voltage output
91 TONED DTON O DTMF signal output Normal
92 VTref VDD / Power supply for DTMF reference level
93 AVref AVCC / Power suppTy for A/D reference level
94 AN7 BP2 I Band plan2
95 AN6 BP1 I Band plan1 (destination)
96 AN5 VSD I VHF SD signal input No signal Analog in
97 AN4 USD I UHF SD signal input No slgnal Analog in
98 AN3 VSMT I VHF S meter signal input Analog in
99 AN2 USMT I UHF S meter signal input Analog in
100 AN1 MRC I Microphone remote control input Analog in
11
6) Terminal function of 4094
VHF VHF UHF UHF BS
145 433 433 145 OFF
4094 po Port Name Function Logic Description MHz MHz MHz MHz TIME
Q11 UHl UHF high power control Active Low Low power H H H H H
Q12 UMlD UHF middle power control Active Low UHF middle=H H H H H H
Q13 VHl VHF high power control Active Low Low power H H H H H
Q14 VMID VHF middle power control Active Low VHF middle=H H H H H H
Q15 VATTC VHF RX attenuater control Active Low ATT ON H/L H/L H/L H/L H
Q16 UATTC UHF RX attenuater control Active Low ATT ON H/L H/L H/L H/L H
Q17 VCO4SW UHF VCO switch Active Low H/L H/L L H H
Q18 VCO1SW VHF VCO switch Active Low L H H/L H/L H
Q21
Q22 USUBC UHF 145MHz power control Active Low H/L H/L H L H
Q23 UMAINC UHF 435MHz power control Active Low H/L H/L L H H
Q24
Q25 VSUBC VHF 435MHz power control Active Low H L H/L H/L H
Q26 VMAlNC VHF 145MHz power control Active Low L H H/L H/L H
Q27 UPLLC UHF VCO power control Active Low H/L H/L L L H
Q28 VPLLC VHF VCO power control Active Low L L H/L H/L H
7) Frequency Table
Band IF Frequency Display frequency UP/LOW Oscillation frequency Mode
VHF 38.9MHz 108.000~173.995MHz UP 146.900~212.895MHz FM/AM
420.000~511.995MHz Low 381.100~473.095MHz FM/AM
UHF 45.lMHz 130.000~173.995MHz UP 175.100~219.095MHz FM
420.000~511.995MHz Low 374.900~466.895MHz FM
13
(XA0505)
PARTS L1ST
RF Unit RF unit RF unit RF unit RF unit
Ref N Parts No. Description Parts Name Ver. Ref No Parts No. Description Parts Name Ver. Ref No Parts No. Description Parts Name Ver. Ref N Parts No. Description Parts Name Ver.
RF Unit C117 CS0376 Chip Tantal TMCMA0G226MTR C192 CU3035 Chip C. C1608JB1H102KTA C247 CS0049 Chip Tantal TMCSA1C105MTR
C51 CU3031 Chip C. C1608JB1H471KTA C120 CU3031 Chip C. C1608JB1H471KTA C193 CU3001 Chip C. C1608CH1H0R5CTA C248 CU3035 Chip C. C1608JB1H102KTA
C52 CE0373 Electrolytic C. 16MV100UW C121 CS0213 Chip Tantal TMCMA1A225MTR C194 CU3035 Chip C. C1608JB1H102KTA C249 CU3035 Chip C. C1608JB1H102KTA
C53 CU3031 Chip C. C1608JB1H471KTA C122 CS0213 Chip Tantal TMCMA1A225MTR C195 CU3035 Chip C. C1608JB1H102KTA C250 CU3031 Chip C. C1608JB1H471KTA
C56 CU3031 Chip C. C1608JB1H471KTA C123 CU3051 Chip C. C1608JB1E223KTA C196 CU3001 Chip C. C1608CH1H0R5CTA C251 CU3035 Chip C. C1608JB1H102KTA
C57 CS0210 Chip Tantal TMCMB0J156MTR C125 CU3002 Chip C. C1608CH1H010CTA C197 CU3014 Chip C. C1608CH1H180JTA C252 CS0366 Chip Tantal TMCMA0G106MTR
C126 CU3003 Chip C. C1608CH1H020CTA D51 XD0251 Diode MA741WATX
C127 CU3003 Chip C. C1608CH1H020CTA D52 XD0066 Diode RLS135TE11
C58 CU3031 Chip C. C1608JB1H471KTA C129 CS0063 Chip Tantal TMCSA1V104MTR C198 CU3017 Chip C. C1608CH1H330JTA D53 XD0251 Diode MA741WATX
C59 CU3007 Chip C. C1608CH1H060CTA C130 CU3019 Chip C. C1608CH1H470JTA C199 CU3016 Chip C. C1608CH1H270JTA D55 XD0066 Diode RLS135TE11
C60 CU3006 Chip C. C1608CH1H050CTA C131 CU3031 Chip C. C1608JB1H471KTA C201 CU3011 Chip C. C1608CH1H100CTA D56 XD0251 Diode MA741WATX
C61 CU3012 Chip C. C1608CH1H120JTA C132 CU3031 Chip C. C1608JB1H471KTA C202 CU3035 Chip C. C1608JB1H102KTA D57 XD0246 Diode DAN235UT106
C62 CU3011 Chip C. C1608CH1H100CTA C133 CS0377 Chip Tantal TMCMB0G476MTR C203 CU3020 Chip C. C1608CH1H560JTA D58 XD0272 Diode 1SS356TW11
C63 CU3005 Chip C. C1608CH1H040CTA C138 CU3035 Chip C. C1608JB1H102KTA C204 CU3013 Chip C. C1608CH1H150JTA D59 XD0246 Diode DAN235UT106
C64 CU3010 Chip C. C1608CH1H090CTA C139 CU3031 Chip C. C1608JB1H471KTA C205 CU3035 Chip C. C1608JB1H102KTA D60 XD0272 Diode 1SS356TW11
C66 CU3006 Chip C. C1608CH1H050CTA C140 CU3003 Chip C. C1608CH1H020CTA C206 CS0366 Chip Tantal TMCMA0G106MTR D61 XD0246 Diode DAN235UT106
C67 CU3010 Chip C. C1608CH1H090CTA C141 CU3035 Chip C. C1608JB1H102KTA C207 CU3047 Chip C. C1608JB1H103KTA D62 XD0272 Diode 1SS356TW11
C68 CU3004 Chip C. C1608CH1H030CTA C142 CU3035 Chip C. C1608JB1H102KTA C208 CU3022 Chip C. C1608CH1H820JTA D63 XD0246 Diode DAN235UT106
C69 CU3031 Chip C. C1608JB1H471KTA C143 CU3047 Chip C. C1608JB1H103KTA C209 CU3022 Chip C. C1608CH1H820JTA D64 XD0246 Diode DAN235UT106
C70 CS0208 Chip Tantal TMCMA0J475MTR C144 CS0049 Chip Tantal TMCSA1C105MTR C210 CU3019 Chip C. C1608CH1H470JTA D65 XD0272 Diode 1SS356TW11
C71 CU3002 Chip C. C1608CH1H010CTA C145 CU3013 Chip C. C1608CH1H150JTA C211 CU3003 Chip C. C1608CH1H020CTA D66 XD0233 Diode 1SV217TPH4
C72 CU3008 Chip C. C1608CH1H070CTA C146 CU3013 Chip C. C1608CH1H150JTA C212 CU3035 Chip C. C1608JB1H102KTA D67 XD0233 Diode 1SV217TPH4
C73 CU3002 Chip C. C1608CH1H010CTA C147 CU3035 Chip C. C1608JB1H102KTA C213 CU3011 Chip C. C1608CH1H100CTA D68 XD0233 Diode 1SV217TPH4
C74 CS0049 Chip Tantal TMCSA1C105MTR C149 CU3023 Chip C. C1608CH1H101JTA C214 CU3017 Chip C. C1608CH1H330JTA D69 XD0233 Diode 1SV217TPH4
C75 CU3031 Chip C. C1608JB1H471KTA C150 CU3031 Chip C. C1608JB1H471KTA C215 CU3024 Chip C. C1608CH1H121JTA D70 XD0272 Diode 1SS356TW11
C76 CU3031 Chip C. C1608JB1H471KTA C152 CU3011 Chip C. C1608CH1H100CTA C216 CU3024 Chip C. C1608CH1H121JTA D71 XD0066 Diode RLS135TE11
C81 CU3031 Chip C. C1608JB1H471KTA C153 CU3019 Chip C. C1608CH1H470JTA C217 CU3035 Chip C. C1608JB1H102KTA D72 XD0066 Diode RLS135TE11
C83 CU3001 Chip C. C1608CH1H0R5CTA C154 CU3013 Chip C. C1608CH1H150JTA C218 CU3035 Chip C. C1608JB1H102KTA D74 XD0251 Diode MA741WATX
C84 CU3002 Chip C. C1608CH1H010CTA C156 CU3019 Chip C. C1608CH1H470JTA C219 CU3035 Chip C. C1608JB1H102KTA D75 XD0272 Diode 1SS356TW11
C85 CU3031 Chip C. C1608JB1H471KTA C158 CU3021 Chip C. C1608CH1H680JTA C220 CU3007 Chip C. C1608CH1H060CTA
C86 CU3047 Chip C. C1608JB1H103KTA C159 CS0213 Chip Tantal TMCMA1A225MTR C221 CU3005 Chip C. C1608CH1H040CTA D76 XD0272 Diode 1SS356TW11
C87 CU3031 Chip C. C1608JB1H471KTA C160 CS0213 Chip Tantal TMCMA1A225MTR C222 CU3015 Chip C. C1608CH1H220JTA D77 XD0272 Diode 1SS356TW11
C88 CU3001 Chip C. C1608CH1H0R5CTA C161 CU3051 Chip C. C1608JB1E223KTA C223 CU3035 Chip C. C1608JB1H102KTA FL51 QA0083 HelicaI FilterQA0083 E
C89 CU3002 Chip C. C1608CH1H010CTA C163 CU3002 Chip C. C1608CH1H010CTA C224 CU3035 Chip C. C1608JB1H102KTA FL51 QA0099 HelicaI FilterQA0099 T
C90 CU3031 Chip C. C1608JB1H471KTA C165 CU3035 Chip C. C1608JB1H102KTA C225 CU3020 Chip C. C1608CH1H560JTA IC51 XA0382 IC S-AU57
C91 CU3031 Chip C. C1608JB1H471KTA C166 CU3018 Chip C. C1608CH1H390JTA C226 CU3015 Chip C. C1608CH1H220JTA IC52 XA0246 IC BU4094BFT1
C92 CU3031 Chip C. C1608JB1H471KTA C167 CU3017 Chip C. C1608CH1H330JTA C227 CU3004 Chip C. C1608CH1H030CTA IC53 XA0352 IC M64076GP
C93 CS0049 Chip Tantal TMCSA1C105MTR C168 CS0063 Chip Tantal TMCSA1V104MTR C228 CU3011 Chip C. C1608CH1H100CTA IC54 XA0381 IC S-AV28
C95 CU3031 Chip C. C1608JB1H471KTA C169 CU3031 Chip C. C1608JB1H471KTA C229 CU3016 Chip C. C1608CH1H270JTA L51 QC0288 Chip L. NL252018T1R0J
C96 CU3031 Chip C. C1608JB1H471KTA C170 CU3031 Chip C. C1608JB1H471KTA C230 CU3018 Chip C. C1608CH1H390JTA L52 QC0423 Chip L. LL1608-F27NK
C97 CU3031 Chip C. C1608JB1H471KTA C171 CU3031 Chip C. C1608JB1H471KTA C231 CU3018 Chip C. C1608CH1H390JTA L53 QKA35A Coil MR1.5 3.5T 0.4
C99 CU3007 Chip C. C1608CH1H060CTA C173 CU3031 Chip C. C1608JB1H471KTA C232 CU3035 Chip C. C1608JB1H102KTA L54 QKA45A Coil MR1.5 4.5T 0.4
C101 CU3009 Chip C. C1608CH1H080CTA C174 CU3035 Chip C. C1608JB1H102KTA C233 CU3035 Chip C. C1608JB1H102KTA L55 QKA45A Coil MR1.5 4.5T 0.4
C102 CU3031 Chip C. C1608JB1H471KTA C175 CU3006 Chip C. C1608CH1H050CTA C234 CS0049 Chip Tantal TMCSA1C105MTR L56 QC0423 Chip L. LL1608-F27NK
C103 CU3003 Chip C. C1608CH1H020CTA C176 CU3004 Chip C. C1608CH1H030CTA C235 CU3007 Chip C. C1608CH1H060CTA L57 QKA35A Coil MR1.5 3.5T 0.4
C104 CU3031 Chip C. C1608JB1H471KTA C178 CU3031 Chip C. C1608JB1H471KTA C236 CU3002 Chip C. C1608CH1H010CTA L58 QKA35A Coil MR1.5 3.5T 0.4
C105 CU3031 Chip C. C1608JB1H471KTA C179 CU3035 Chip C. C1608JB1H102KTA C237 CU3035 Chip C. C1608JB1H102KTA L59 QKA45A Coil MR1.5 4.5T 0.4
C106 CU3012 Chip C. C1608CH1H120JTA C180 CS0377 Chip Tantal TMCMB0G476MTR C238 CU3035 Chip C. C1608JB1H102KTA L60 QC0421 Chip L. LL1608-F18NK
C107 CU3011 Chip C. C1608CH1H100CTA C183 CU3004 Chip C. C1608CH1H030CTA C239 CU3035 Chip C. C1608JB1H102KTA L61 QC0288 Chip L. NL252018T1R0J
C108 CU3047 Chip C. C1608JB1H103KTA C184 CU3003 Chip C. C1608CH1H020CTA C240 CS0210 Chip Tantal TMCMB0J156MTR L62 QC0424 Chip L. LL1608-F33NK
C109 CU3007 Chip C. C1608CH1H060CTA C185 CU3031 Chip C. C1608JB1H471KTA C241 CU3005 Chip C. C1608CH1H040CTA L63 QC0422 Chip L. LL1608-F22NK
C111 CU3031 Chip C. C1608JB1H471KTA C186 CU3006 Chip C. C1608CH1H050CTA C242 CU3002 Chip C. C1608CH1H010CTA L64 QC0422 Chip L. LL1608-F22NK
C112 CU3006 Chip C. C1608CH1H050CTA C187 CU3006 Chip C. C1608CH1H050CTA C243 CU3035 Chip C. C1608JB1H102KTA L65 QC0430 Chip L. MLF1608DR10KTA00
C113 CU3001 Chip C. C1608CH1H0R5CTA C188 CU3019 Chip C. C1608CH1H470JTA C244 CU3035 Chip C. C1608JB1H102KTA L66 QC0424 Chip L. LL1608-F33NK
C115 CU3007 Chip C. C1608CH1H060CTA C189 CU3035 Chip C. C1608JB1H102KTA C245 CS0049 Chip Tantal TMCSA1C105MTR L67 QC0422 Chip L. LL1608-F22NK
C116 CU3047 Chip C. C1608JB1H103KTA C190 CU3003 Chip C. C1608CH1H020CTA C246 CU3035 Chip C. C1608JB1H102KTA L68 QC0395 Chip L. LQN1A33NJ04
37 38
RF unit RF unit RF unit RF unit
Ref N Parts No. Description Parts Name Ver. Ref No Parts No. Description Parts Name Ver. Ref No Parts No. Description Parts Name Ver. Ref N Parts No. Description Parts Name Ver.
L70 QKA25A Coil MR1.5 2.5T 0.4 Q85 XU0063 Transistor UN9211TX R105 RK3050 Chip R. ERJ3GSYJ103V R163 RK3060 Chip R. ERJ3GSYJ683V
L72 QC0426 Chip L. LL1608-F47NK Q86 XU0063 Transistor UN9211TX R106 RK3026 Chip R. ERJ3GSYJ101V R164 RK3026 Chip R. ERJ3GSYJ101V
L73 QC0395 Chip L. LQN1A33NJ04 R51 RK3026 Chip R. ERJ3GSYJ101V R107 RK3034 Chip R. ERJ3GSYJ471V R166 RK3065 Chip R. ERJ3GSYJ184V
L74 QC0395 Chip L. LQN1A33NJ04 R52 RK3026 Chip R. ERJ3GSYJ101V R108 RK3026 Chip R. ERJ3GSYJ101V R167 RK3042 Chip R. ERJ3GSYJ222V
L75 QC0422 Chip L. LL1608-F22NK R53 RK3026 Chip R. ERJ3GSYJ101V R109 RK3050 Chip R. ERJ3GSYJ103V R168 RK3030 Chip R. ERJ3GSYJ221V
L77 QC0395 Chip L. LQN1A33NJ04 R54 RK3051 Chip R. ERJ3GSYJ123V R110 RK3061 Chip R. ERJ3GSYJ823V R169 RK3036 Chip R. ERJ3GSYJ681V
L78 QC0395 Chip L. LQN1A33NJ04 R55 RK3074 Chip R. ERJ3GSYJ105V R111 RK3026 Chip R. ERJ3GSYJ101V R170 RK3065 Chip R. ERJ3GSYJ184V
L79 QC0292 Chip L. NL252018T-2R2J R57 RK3050 Chip R. ERJ3GSYJ103V R112 RK3022 Chip R. ERJ3GSYJ470V R171 RK3026 Chip R. ERJ3GSYJ101V
L81 QA0071 Coil LQA0071-T R58 RK3050 Chip R. ERJ3GSYJ103V R113 RK3022 Chip R. ERJ3GSYJ470V R172 RK3062 Chip R. ERJ3GSYJ104V
L82 QA0071 Coil LQA0071-T R59 RK3040 Chip R. ERJ3GSYJ152V R114 RK3026 Chip R. ERJ3GSYJ101V R173 RK3062 Chip R. ERJ3GSYJ104V
L83 QC0430 Chip L. MLF1608DR10KTA00 R60 RK3056 Chip R. ERJ3GSYJ333V R115 RK3026 Chip R. ERJ3GSYJ101V R174 RK3062 Chip R. ERJ3GSYJ104V
L85 QA0071 Coil LQA0071-T R62 RK3050 Chip R. ERJ3GSYJ103V R116 RK3034 Chip R. ERJ3GSYJ471V R175 RK3062 Chip R. ERJ3GSYJ104V
L86 QA0071 Coil LQA0071-T R63 RK3049 Chip R. ERJ3GSYJ822V R117 RK3042 Chip R. ERJ3GSYJ222V R176 RK3050 Chip R. ERJ3GSYJ103V
L87 QC0292 Chip L. NL252018T-2R2J R64 RK3034 Chip R. ERJ3GSYJ471V R118 RK3061 Chip R. ERJ3GSYJ823V R177 RK3026 Chip R. ERJ3GSYJ101V
L88 QKA75A Coil QKA75A R65 RK3049 Chip R. ERJ3GSYJ822V R119 RK3061 Chip R. ERJ3GSYJ823V R178 RK3026 Chip R. ERJ3GSYJ101V
L89 QC0427 Chip L. LL1608-F56NK. R66 RK3066 Chip R. ERJ3GSYJ224V R120 RK3030 Chip R. ERJ3GSYJ221V R179 RK3026 Chip R. ERJ3GSYJ101V
L90 QKA75A Coil QKA75A R67 RK3050 Chip R. ERJ3GSYJ103V R121 RK3036 Chip R. ERJ3GSYJ681V R181 RK3040 Chip R. ERJ3GSYJ152V
L91 QKA75A Coil QKA75A R68 RK3038 Chip R. ERJ3GSYJ102V R122 RK3066 Chip R. ERJ3GSYJ224V R182 RK3062 Chip R. ERJ3GSYJ104V
L92 QKA75A Coil QKA75A R69 RK3026 Chip R. ERJ3GSYJ101V R123 RK3050 Chip R. ERJ3GSYJ103V R184 RK3026 Chip R. ERJ3GSYJ101V
L94 QC0426 Chip L. LL1608-F47NK R70 RK3026 Chip R. ERJ3GSYJ101V R124 RK3050 Chip R. ERJ3GSYJ103V R185 RK3038 Chip R. ERJ3GSYJ102V
L95 QC0430 Chip L. MLF1608DR10KTA00 R71 RK3026 Chip R. ERJ3GSYJ101V R125 RK3050 Chip R. ERJ3GSYJ103V R186 RK3026 Chip R. ERJ3GSYJ101V
L97 QC0430 Chip L. MLF1608DR10KTA00 R72 RK3046 Chip R. ERJ3GSYJ472V R126 RK3050 Chip R. ERJ3GSYJ103V R187 RK3026 Chip R. ERJ3GSYJ101V
Q51 XT0088 Transistor 2SA1213YTE12L R73 RK3061 Chip R. ERJ3GSYJ823V R127 RK3053 Chip R. ERJ3GSYJ183V R188 RK3058 Chip R. ERJ3GSYJ473V
Q52 XU0172 Transistor XP1501-TX R74 RK3058 Chip R. ERJ3GSYJ473V R128 RK3047 Chip R. ERJ3GSYJ562V R189 RK3046 Chip R. ERJ3GSYJ472V
Q53 XT0119 Transistor 2SC3356-T1BR24 R75 RK3050 Chip R. ERJ3GSYJ103V R129 RK3057 Chip R. ERJ3GSYJ393V R190 RK3050 Chip R. ERJ3GSYJ103V
Q54 XT0138 Transistor 2SC5066-0(TE85L) R76 RK3026 Chip R. ERJ3GSYJ101V R130 RK3026 Chip R. ERJ3GSYJ101V R191 RK3051 Chip R. ERJ3GSYJ123V
Q55 XU0063 Transistor UN9211TX R77 RK3034 Chip R. ERJ3GSYJ471V R131 RK3026 Chip R. ERJ3GSYJ101V R192 RK3050 Chip R. ERJ3GSYJ103V
Q56 XU0171 Transistor XP1111-TX R78 RK3040 Chip R. ERJ3GSYJ152V R132 RK3026 Chip R. ERJ3GSYJ101V R193 RK3058 Chip R. ERJ3GSYJ473V
Q58 XU0171 Transistor XP1111-TX R79 RK3043 Chip R. ERJ3GSYJ272V R133 RK3026 Chip R. ERJ3GSYJ101V R194 RK3034 Chip R. ERJ3GSYJ471V
Q59 XU0172 Transistor XP1501-TX R80 RK3026 Chip R. ERJ3GSYJ101V R135 RK3026 Chip R. ERJ3GSYJ101V R195 RK3043 Chip R. ERJ3GSYJ272V
Q60 XT0108 Transistor 2SC4649-TL R81 RK3058 Chip R. ERJ3GSYJ473V R136 RK3036 Chip R. ERJ3GSYJ681V R196 RK3049 Chip R. ERJ3GSYJ822V
Q61 XT0138 Transistor 2SC5066-0(TE85L) R82 RK3026 Chip R. ERJ3GSYJ101V R137 RK3050 Chip R. ERJ3GSYJ103V R197 RK3034 Chip R. ERJ3GSYJ471V
Q62 XT0138 Transistor 2SC5066-0(TE85L) R83 RK3026 Chip R. ERJ3GSYJ101V R138 RK3035 Chip R. ERJ3GSYJ561V R198 RK3049 Chip R. ERJ3GSYJ822V
Q63 XT0138 Transistor 2SC5066-0(TE85L) R84 RK3026 Chip R. ERJ3GSYJ101V R139 RK3036 Chip R. ERJ3GSYJ681V R199 RK3026 Chip R. ERJ3GSYJ101V
Q64 XT0138 Transistor 2SC5066-0(TE85L) R85 RK3058 Chip R. ERJ3GSYJ473V R140 RK3061 Chip R. ERJ3GSYJ823V R200 RK3032 Chip R. ERJ3GSYJ331V
Q65 XT0135 Transistor 2SD2216R-TX R86 RK3033 Chip R. ERJ3GSYJ391V R141 RK3060 Chip R. ERJ3GSYJ683V R201 RK3030 Chip R. ERJ3GSYJ221V
Q66 XT0138 Transistor 2SC5066-0(TE85L) R87 RK3058 Chip R. ERJ3GSYJ473V R143 RK3024 Chip R. ERJ3GSYJ680V R202 RK3034 Chip R. ERJ3GSYJ471V
Q67 XT0138 Transistor 2SC5066-0(TE85L) R88 RK3035 Chip R. ERJ3GSYJ561V R146 RK3062 Chip R. ERJ3GSYJ104V R203 RK3058 Chip R. ERJ3GSYJ473V
Q68 XT0138 Transistor 2SC5066-0(TE85L) R89 RK3020 Chip R. ERJ3GSYJ330V R147 RK3034 Chip R. ERJ3GSYJ471V R204 RK3019 Chip R. ERJ3GSYJ270V
Q69 XT0138 Transistor 2SC5066-0(TE85L) R90 RK3061 Chip R. ERJ3GSYJ823V R148 RK3061 Chip R. ERJ3GSYJ823V VC51 CT0012 Trimmer CTZ10AW
Q70 XT0138 Transistor 2SC5066-0(TE85L) R91 RK3060 Chip R. ERJ3GSYJ683V R149 RK3022 Chip R. ERJ3GSYJ470V VR51 RH0140 Trim.pot MVR22HXBRN472
Q72 XT0138 Transistor 2SC5066-0(TE85L) R92 RK3062 Chip R. ERJ3GSYJ104V R150 RK3022 Chip R. ERJ3GSYJ470V VR52 RH0146 Trim.pot MVR22HXBRN473
Q73 XT0138 Transistor 2SC5066-0(TE85L) R93 RK3026 Chip R. ERJ3GSYJ101V R151 RK3026 Chip R. ERJ3GSYJ101V VR53 RH0140 Trim.pot MVR22HXBRN472
Q74 XT0138 Transistor 2SC5066-0(TE85L) R94 RK3050 Chip R. ERJ3GSYJ103V R152 RK3042 Chip R. ERJ3GSYJ222V VR54 RH0144 Trim.pot MVR22HXBRN223
Q75 XT0138 Transistor 2SC5066-0(TE85L) R95 RK3042 Chip R. ERJ3GSYJ222V R153 RK3042 Chip R. ERJ3GSYJ222V W51 MYCKH4GG Wire #28YH1-045-H1
Q76 XT0138 Transistor 2SC5066-0(TE85L) R96 RK3050 Chip R. ERJ3GSYJ103V R154 RK3026 Chip R. ERJ3GSYJ101V X51 XQ0060 Crystal UM-1/T12.8MHZ
Q77 XT0138 Transistor 2SC5066-0(TE85L) R97 RK3050 Chip R. ERJ3GSYJ103V R155 RK3026 Chip R. ERJ3GSYJ101V XF51 XF0019 Filter 45.1MHz45M15BE
Q78 XT0108 Transistor 2SC4649-TL R98 RK3064 Chip R. ERJ3GSYJ154V R156 RK3001 Chip R. ERJ3GSY0R00V XF53 XF0020 Filter 38.9MHz38M15B
Q79 XT0138 Transistor 2SC5066-0(TE85L) R99 RK3036 Chip R. ERJ3GSYJ681V R157 RK3033 Chip R. ERJ3GSYJ391V TN0004 Coil shield
Q80 XT0119 Transistor 2SC3356-T1BR24 R100 RK3047 Chip R. ERJ3GSYJ562V R158 RK3058 Chip R. ERJ3GSYJ473V TS0101 Module earth DJG5
Q81 XT0138 Transistor 2SC5066-0(TE85L) R101 RK3062 Chip R. ERJ3GSYJ104V R159 RK3034 Chip R. ERJ3GSYJ471V TZ0049 Silicon dumper UM1
Q82 XT0088 Transistor 2SA1213YTE12L R102 RK3050 Chip R. ERJ3GSYJ103V R160 RK3053 Chip R. ERJ3GSYJ183V RD0108 Resistor JPW01R-01
Q83 XU0172 Transistor XP1501-TX R103 RK3053 Chip R. ERJ3GSYJ183V R161 RK3061 Chip R. ERJ3GSYJ823V
Q84 XU0172 Transistor XP1501-TX R104 RK3050 Chip R. ERJ3GSYJ103V R162 RK3018 Chip R. ERJ3GSYJ220V
39 40
IF unit IF unit IF unit IF unit
Ref N Parts No. Description Parts Name Ver. Ref No Parts No. Description Parts Name Ver. Ref No Parts No. Description Parts Name Ver. Ref N Parts No. Description Parts Name Ver.
IF Unit C354 CU3035 Chip C. C1608JB1H102KTA C409 CS0366 Chip Tantal TMCMA0G106MTR IC308 XA0341 IC RH5RH651A-T1
C301 CU3047 Chip C. C1608JB1H103KTA C355 CU3059 Chip C. C1608JF1E104ZTA C410 CU8042 Chip C. C2012JB1C104KTA IC309 XA0332 IC TA75S01F(TE85L)
C302 CE0374 Electrolytic C.16CV100BS C356 CU8042 Chip C. C2012JB1C104KTA C411 CU3051 Chip C. C1608JB1E223KTA IC310 XA0342 IC NJM2100V-TE1
C303 CU3035 Chip C. C1608JB1H102KTA C357 CS0060 Chip Tantal TMCSA1E474MTR C412 CU3035 Chip C. C1608JB1H102KTA IC311 XA0246 IC BU4094BFT1
C304 CU3059 Chip C. C1608JF1E104ZTA C358 CU3047 Chip C. C1608JB1H103KTA C413 CU3027 Chip C. C1608CH1H221JTA JK301UJ0022 Jack HSJ1102-01-540
C305 CS0378 Chip Tantal TMCMC0G107MTR C359 CS0366 Chip Tantal TMCMA0G106MTR C414 CU3039 Chip C. C1608JB1H222KTA JK302UJ0019 Jack HSJ1493-01-010
C306 CU3035 Chip C. C1608JB1H102KTA C360 CU3051 Chip C. C1608JB1E223KTA C415 CU8042 Chip C. C2012JB1C104KTA L301 QC0086 Coil NL322522T101J
C307 CU3047 Chip C. C1608JB1H103KTA C362 CU3035 Chip C. C1608JB1H102KTA C416 CU3021 Chip C. C1608CH1H680JTA Q301 XT0088 Transistor 2SA1213YTE12L
C308 CU3047 Chip C. C1608JB1H103KTA C363 CS0063 Chip Tantal