background image

7

FT-270R/E Technical Supplement

Circuit Description

Receive Signal Path

Incoming RF signal is from the antenna jack is delivered
to the Main Unit and passed through the low-pass filter
network, antenna switching diode 

D1003

 and 

D1004

 (both

RLS135

), and low-pass filter network to the RF amplifier

Q1022

 (

3SK296ZQ

). The amplified RF signal is passed

through band-pass filtered again by varactor-tuned band-
pass filter consisting of coils L1024, L1025, and L1026, and
diodes 

D1017

D1018

, and 

D1019

 (all 

HVC350B

), then ap-

plied to the 1st mixer 

Q1023

 (

3SK296ZQ

) along with the

first local signal from the PLL circuit.

The first local signal is generated between 115.3 MHz and
152.3 MHz by the VCO, which consists of 

Q1014

(

2SC5005

)

 

and varactor diodes 

D1009

D1010

 (both

HVC365

) and 

D1011

 (

HSC277

) according to the receiv-

ing frequency.

IF and Audio Circuits

The 21.7 MHz first IF signal is applied to the monolithic
crystal filters 

XF1001

 and 

XF1002

 which strip away un-

wanted mixer products, and the IF signal is applied to the
first IF amplifier 

Q1024

 (

2SC4915

). The amplified first IF

signal is then delivered to the FM IF subsystem IC 

Q1004

(

NJM2591V

), which contains the second mixer, limiter am-

plifier, noise amplifier, and FM detector.

The second local signal is generated by 21.25 MHz crystal

X1002

, produces the 450 kHz second IF signal when mixed

with first IF signal within 

Q1004

 (

NJM2591V

).

The 450 kHz second IF signal is applied to the ceramic
filter 

CF1001

 or 

CF1002

 which strip away unwanted mix-

er products to the ceramic discriminator 

CD1001

 which

removes any amplitude variations in the 450 kHz IF sig-
nal before detection of speech.

The detected audio from the 

Q1004

 (

NJM2591V

) is ap-

plied to a band-pass filter consisting of 

Q1081

 and 

Q1082

(both 

2SC4617

), then passes through the audio mute gate

Q1052

 (

2SC4617

) and 

Q1045

 (

DTC144EE

).

The audio signal is passed through the audio VR which
adjusts the audio sensitivity to compensate for audio lev-
el variations, then delivered to the audio amplifier 

Q1008

(

TDA2822D

).

Squelch Control

When no carrier received, noise at the output of the de-
tector stage in 

Q1004

 (

NJM2591V

) is applied to pin 49 of

main CPU 

Q1001

 (

HD64F2266TF13

), which compares the

squelch threshold level to that which set by the 

SQL

 knob.

While no carrier is received, pin 71 of 

Q1001

(

HD64F2266TF13

) remains “low,” to disable audio out-

put from the speaker.

Transmit Signal Path

The speech signal from the microphone is amplified by

Q1074

 (

LM2902PWR

). The amplified speech signal is sub-

jected to the low-pass filter network 

Q1074

 (

LM2902PWR

)

and deviation controller 

Q1075

 (

DTC144EE

).

VHF Transmit Signal Path

The adjusted speech signal from 

Q1075

 (

DTC144EE

) is

delivered to VCO 

Q1014

 (

2SC5005

) which frequency

modulates the transmitting VCO made up of 

D1010

(

HVC365

).

The modulated transmit signal passes through buffer
amplifier 

Q1013

 and 

Q1012

 (both

 2SC5005

).

The transmit signal applied to the Pre-Drive amplifier

Q1011

 (

2SC5005

) and Drive amplifier 

Q1010

 (

2SK3074

),

then finally amplified by Power amplifier 

Q1009

(

2SK3476

) up to 5 Watts. This two stages (

Q1010

 and

Q1009

) power amplifier’s gain is controlled by the APC

circuit.

The 5 Watts RF signal passes through low-pass filter net-
work, antenna switch 

D1003

 (

RLS135

), and another low-

pass filter network, and then deliver to the 

ANT

 jack.

Tx APC Circuit

A portion of the Power amplifier output is rectified by

D1002

  (

1SS321

), then delivered to APC 

Q1019

(

LM2904PWR

), 

Q1020

 and 

Q1021

 (both 

DTC144EE

), as a

DC voltage which is proportional to the output level of
the power amplifier.

The APC 

Q1019

 (

LM2904PWR

) is compared the rectified

DC voltage from the power amplifier and the reference
voltage from the main CPU 

Q1001

 (

HD64F2266TF13

), to

produce a control voltage, which regulates supply volt-
age to the Drive amplifier 

Q1010

 (

2SK3074

) and Power

amplifier 

Q1009

 (

2SK3476

), so as to maintain stable out-

put power under varying antenna loading condition.

PLL

A portion of the output from the VCO 

Q1014

 (

2SC5005

),

passes through the buffer amplifier 

Q1017

 (

2SC5005

), then

delivered to the programmable divider section of the PLL
IC 

Q1003

 (

MB15A01PFV1

), which divided according to the

frequency dividing data that is associated with the setting
f r e q u e n c y   i n p u t   f r o m   t h e   m a i n   C P U  

Q 1 0 0 1

(

HD64F2266TF13

). It is then sent to the phase comparator.

The 21.25 MHz frequency of the reference oscillator cir-
cuit made up of 

X1002

 is divided by the reference frequen-

cy divider section of 

Q1003

 (

MB15A01PFV1

) into 4250 or

3400 parts to become 5 kHz or 6.25 kHz comparative ref-
erence frequencies, which are utilized by the phase com-
parator.

Summary of Contents for FT-270R

Page 1: ...lieve the information in this manual to be correct VERTEX STANDARD assumes no liability for damage that may occur as a result of typographical or other errors that may be present Your cooperation in p...

Page 2: ...H x 1 26 D mm 60 x 120 x 32 mm W O knob antenna belt clip Weight 13 8 Oz 390 g with FNB 83 antenna and belt clip Transmitter RF Power Output 5 0 W High 2 0 W Middle 0 5 W Low 7 2 V Modulation Type Var...

Page 3: ...LECTOR SHEET RA0578300 WASHER RA057840A RING NUT RA057730B x2 pcs SPACER RA0577400 x2 pcs TERMINAL RA1113500 WINDOW RA057710A HOLDER RA057700A RUBBER KNOB RA111430A DOUBLE FACE RA0434100 SHEET M409018...

Page 4: ...4 FT 270R E Technical Supplement Exploded View Miscellaneous Parts Note...

Page 5: ...5 Block Diagram FT 270R E Technical Supplement...

Page 6: ...6 Block Diagram FT 270R E Technical Supplement Note...

Page 7: ...compares the squelch threshold level to that which set by the SQL knob While no carrier is received pin 71 of Q1001 HD64F2266TF13 remains low to disable audio out put from the speaker Transmit Signal...

Page 8: ...een the frequency divided os cillation frequency of the VCO circuit and comparative frequency and its output is a pulse corresponding to the phase difference This pulse is integrated by the charge pum...

Page 9: ...ealignment determined to be abso lutely necessary Required Test Equipment The following test equipment and familiarity with its use is necessary for complete realignment Correction of problems caused...

Page 10: ...s the keypad in the following sequence MHz 0 SET 2 CODE 2 CODE MR MW SKIP 8 Press the F key to cause A0 REF xxx A0 REF xxx A0 REF xxx A0 REF xxx A0 REF xxx to appear on the display for five seconds th...

Page 11: ...WR xxx 6 With in five second of appearing the A2 PWR xxx A2 PWR xxx A2 PWR xxx A2 PWR xxx A2 PWR xxx on the display press the PTT switch to activate the transmitter adjust the DIAL knob so that the wa...

Page 12: ...ond of appearing the A6 SM U A6 SM U A6 SM U A6 SM U A6 SM U D D D D D on the display press the MHz key Squelch Sensitivity 1 Rotate the DIAL knob to select the display to B0206 2 Inject a 146 050 MHz...

Page 13: ...V 1 95 V 1 95 V 1 95 V 5 13 V 1 48 V CHG PWR OFF 0 91 V CHG PWR OFF 1 53 V CHG 13 1 V CHG 13 8 V 13 5 V 4 90 V 4 86 V 0 99 V 16 0 dB 4 21 V 2 24 V 0 69 V 4 84 V 1 80 V 0 26 V 0 81 V TX 1 88 V TX 3 93...

Page 14: ...14 MAIN Unit FT 270R E Technical Supplement Note...

Page 15: ...N D1024 2SA1774 FR Q1030 1031 1032 1034 1040 1059 2SC4617 BR Q1034 1038 1039 1042 1061 1062 1064 1065 1069 1076 1077 1079 2SC4915 QY Q1024 FMMTL718TA Q1041 2SB1132 BA Q1063 1078 DTA144EE 16 Q1033 104...

Page 16: ...1 1082 2SC5005 73 Q1011 1012 1013 1014 1017 DTC144EE 26 Q1015 1016 1025 1026 1047 1048 1049 1051 1070 1075 MB15A01PFV1 Q1003 NJM2591V Q1004 DA221 K D1012 1030 DAN222 N D1021 1022 1029 2SJ364 4M Q1056...

Page 17: ...2 CHIPCAP 0 1uF 10V B GRM155B11A104KA01D K22108802 1 A G1 C 1033 CHIPCAP 0 001uF 50V B GRM155B11H102KA01D K22178809 1 A G1 C 1034 CHIPTA CAP 4 7uF 16V TEESVA1C475M8R K78120031 1 A F1 C 1035 CHIPCAP 0...

Page 18: ...B c2 C 1107 CHIPCAP 0 001uF 50V B GRM155B11H102KA01D K22178809 1 B c2 C 1108 CHIPCAP 0 001uF 50V B GRM155B11H102KA01D K22178809 1 B c2 C 1109 CHIPCAP 1pF 50V CK GRM1554C1H1R0BZ01D K22178287 1 B c2 C...

Page 19: ...L ELECTRO CAP UWX1C101MCL1GB S8101395 36 B b2 C 1167 AL ELECTRO CAP 100uF 16V UWX1C101MCL1GB K48120032 44 B b2 C 1168 CHIPCAP 0 1uF 10V B GRM155B11A104KA01D K22108802 1 A G2 C 1169 AL ELECTRO CAP 100u...

Page 20: ...c2 C 1225 CHIPCAP 0 0068uF 25V B GRM155B11E682KA01D K22148803 1 B d2 C 1226 CHIPCAP 100pF 50V CH GRM1552C1H101JD01D K22178236 1 B d2 C 1227 CHIPCAP 0 1uF 10V B GRM155B11A104KA01D K22108802 1 B d3 C 12...

Page 21: ...CHIPCAP 0 1uF 10V B GRM155B11A104KA01D K22108802 1 B d4 CD1001 CERAMICDISC JTBC450C7 H7901500 1 B g2 CD1001 CERAMICDISC JTBM450CX7 H7901520 17 B g2 CF1001 CERAMICFILTER LTWC450G H3900562 1 3 B g2 CF1...

Page 22: ...COIL E2 0 3 1 7 7T R L0022372 1 B b1 L 1004 M RFC 1uH ELJ ND1R0JF L1690977 1 A F1 L 1005 COIL E2 0 35 1 6 4T L L0022456 1 B b1 L 1006 COIL E2 0 45 1 4 4T L L0022391 1 B b1 L 1007 COIL E2 0 45 1 4 4T L...

Page 23: ...G3070353 10 A G2 Q 1031 TRANSISTOR 2SA1774 TL R G3117748R 1 A F2 Q 1031 TRANSISTOR KTA2014E GR RTK P G3070353 10 A F2 Q 1032 TRANSISTOR 2SA1774 TL R G3117748R 1 A F2 Q 1032 TRANSISTOR KTA2014E GR RTK...

Page 24: ...54 10 A E3 Q 1072 TRANSISTOR 2SC4617 TL R G3346178R 1 B b3 Q 1072 TRANSISTOR KTC4075E GR RTK P G3070356 10 B b3 Q 1073 TRANSISTOR 2SC4617 TL R G3346178R 1 B b3 Q 1073 TRANSISTOR KTC4075E GR RTK P G307...

Page 25: ...1 B f1 R 1050 CHIPRES 470k 1 16W 5 RMC1 16S 474JTH J24189057 1 B f1 R 1051 CHIPRES 22k 1 16W 5 RMC1 16S 223JTH J24189041 1 B g2 R 1052 CHIPRES 100k 1 16W 5 RMC1 16S 104JTH J24189049 1 B f2 R 1053 CHIP...

Page 26: ...3 1 B h2 R 1122 CHIPRES 470k 1 16W 5 RMC1 16S 474JTH J24189057 1 B e2 R 1123 CHIPRES 22k 1 16W 5 RMC1 16S 223JTH J24189041 1 B c2 R 1124 CHIPRES 33k 1 16W 5 RMC1 16S 333JTH J24189043 1 A C3 R 1125 CHI...

Page 27: ...159 1 B c3 R 1192 CHIPRES 100k 1 16W 5 RMC1 16S 104JTH J24189049 1 A D3 R 1194 CHIPRES 100k 1 16W 0 5 RR0510R 104 D J24189167 1 A D2 R 1194 CHIPRES 100k 1 16W 0 5 MCR01MZPD1003 J24189386 46 A D2 R 119...

Page 28: ...RMC1 16S 124JTH J24189050 1 B c3 R 1263 CHIPRES 10k 1 16W 5 RMC1 16S 103JTH J24189037 1 A E3 R 1264 CHIPRES 39k 1 16W 5 RMC1 16S 393JTH J24189044 1 A E3 R 1265 CHIPRES 22k 1 16W 5 RMC1 16S 223JTH J241...

Page 29: ...S 471JTH J24189021 1 B d2 R 1334 CHIPRES 1k 1 16W 5 RMC1 16S 102JTH J24189025 1 A D3 R 1335 CHIPRES 1k 1 16W 5 RMC1 16S 102JTH J24189025 1 A D3 R 1336 CHIPRES 1k 1 16W 5 RMC1 16S 102JTH J24189025 1 A...

Page 30: ...1001 THERMISTOR TBPS1R103K440H5Q G9090067 1 B g1 TH1002 THERMISTOR TBPS1R104K475H5Q G9090069 1 B h2 TH1003 THERMISTOR TBPS1R473K475H5Q G9090068 1 A E1 X 1001 XTAL TRS 4 0 4MHz 4 000MHZ H0103283 1 B d2...

Page 31: ...31 FT 270R E Technical Supplement FTD 7 DTMF Paging Unit Option Circuit Diagram Parts Layout DTA144EE 16 Q6002 6005 DTC144EE 26 Q6004 2SC4617 BR 6003 BU8872FS Q6001 Side A Side B...

Page 32: ...1 CONNECTOR AXK5F14545YJ P1091240 1 Q 6001 IC BU8872FS E2 G1093656 1 Q 6002 TRANSISTOR DTA144EE TL G3070074 1 Q 6003 TRANSISTOR 2SC4617 TL R G3346178R 1 Q 6004 TRANSISTOR DTC144EE TL G3070075 1 Q 6005...

Page 33: ......

Page 34: ...14 FT 270R E Technical Supplement Copyright 2010 VERTEX STANDARD CO LTD All rights reserved No portion of this manual may be reproduced without the permission of VERTEX STANDARD CO LTD...

Reviews: