TS590S_serv.pdf

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1、SERVICE MANUAL This product uses Lead Free solder.This product complies with the RoHS directive for the European market. 2010-9 PRINTED IN JA PAN B51-8941-00 (N) 283 HF / 50MHz ALL MODE TRANSCEIVER TS-590S Key top (8key) (K29-9466-02) Panel (A62-1176-02) Phone jack (9P) (E11-0705-15) RF coaxial rece

2、ptacle (Round) (E06-0858-25) Key top (25key) (K29-9467-02) RF coaxial receptacle (M) (E04-0167-15)x2 3.5D phone jack (3P) (E11-0414-15) Rectangular receptacle (E58-0537-05) Sub socket (D) (E58-0529-05) 3.5D phone jack (3P) (E11-0455-05) Pin jack (E13-0166-25)x2 Foot (Back) (J02-0475-05)x2 Phone jack

3、 (9P) (E11-0705-15) DIN socket (E56-0408-15) DIN socket (E06-0752-15) Lead wire with connector (EXT.AT) (E37-0891-25) Lead wire with terminal (E37-1480-05) Foot (Front) (J02-0442-04)x2 Foot (Front) (J02-0440-04) Knob (Main knob) (K21-1107-13) Key top (20key) (K29-9468-02) Key top (5key) (K29-9469-02

4、) Front glass (B10-2799-02) Knob (RIT) (K29-9471-03) Knob (MULTI) (K29-9456-23) Knob (Inside/NOTCH,AF) (K29-9390-03)x2 Knob (Outside/SQL,RF) (K29-9391-13)x2 Knob (Inside/HI) (K29-9477-03) Knob (Outside/LO) (K29-9478-03) TS-590S 2 Document Copyrights Copyright 2010 by Kenwood Corporation. All rights

5、re- served. No part of this manual may be reproduced, translated, distributed, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or other- wise, for any purpose without the prior written permission of Kenwood. Disclaimer While every precaution has been take

6、n in the preparation of this manual, Kenwood assumes no responsibility for er- rors or omissions. Neither is any liability assumed for dam- ages resulting from the use of the information contained herein. Kenwood reserves the right to make changes to any products herein at any time for improvement p

7、urposes. CONTENTS DISASSEMBLY FOR REPAIR . 3 CIRCUIT DESCRIPTION . 5 COMPONENTS DESCRIPTION . 20 SEMICONDUCTOR DATA . 27 PARTS LIST . 34 EXPLODED VIEW . 63 PACKING . 66 ADJUSTMENT . 67 TERMINAL FUNCTION . 81 PC BOARD FINAL UNIT (X45-391X-XX) . 88 CONTROL UNIT (X53-446X-XX) (A/3) . 92 CONTROL UNIT (X

8、53-446X-XX) (B,C/3) . 96 DISPLAY UNIT (X54-3700-00) . 100 TX-RX UNIT (X57-785X-XX) . 104 INTERCONNECTION DIAGRAM . 108 SCHEMATIC DIAGRAM . 110 BLOCK DIAGRAM . 136 LEVEL DIAGRAM . 138 OPTIONAL ACCESSORIES PS-60 (DC Power Supply) . 140 ARCP-590 (Radio Control Program) . 140 ARHP-590 (Radio Host Progra

9、m) . 140 ARUA-10 (USB Audio Controller) . 140 SPECIFICATIONS . 141 TS-590S 3 Removing the torque changeover lever (G02-1858-03) 1. Insert the tip of a fl at-head screwdriver (or other imple- ment) under the tab of the torque changeover lever, then lift the tab using the tip of the fl at-head screwdr

10、iver. (q) Caution: Be careful not to damage the panel when lifting it. 2. Turn the lever section of the torque changeover lever to the right, as in the position described in step 1. (w) ? ? 3. Lift the torque changeover lever and remove it from the panel. (e) ? Mounting the torque changeover lever (

11、G02-1858-03) 1. Insert the torque changeover lever by aligning the three tabs of the panel. (q) ? 2. Slightly turn the lever section of the torque changeover lever to the left (e) while pressing the surface near the tab at the lower right of the torque changeover lever (w). Caution: Confirm that the

12、 torque changeover lever is caught by the lower right tab of the panel. 3. Turn the lever section of the torque changeover lever to the left (t) while pressing the surface near the tab at the upper right of the torque changeover lever (r), then mount it onto the panel. ? ? ? ? Procedures when Replac

13、ing the Diode (1SR139-400) for hand mounting 1. When replacing the diode (D304: 1SR139-400) used by the Control unit (A/3) (PCB number: J79-0279-09), cut the leg of a new diode. 2mm (0.08 inches) 5mm (0.2 inches) Cathode band (Green) DISASSEMBLY FOR REPAIR TS-590S 4 2. Bend the leg of the diode as s

14、hown in the fi gure. 3. Solder the diode between Q61 (Collector) and the solder pad (Base) of the Control unit (A/3), as shown in the fi g- ure. Note: 1) Confi rm the direction of the cathode band when install- ing the diode. 2) Install the diode so that it is positioned on the dotted line. 3) Insta

15、ll the diode so that its height from the surface of the PCB is 4mm (0.16 inches) or less (Height of rubber sheet (G11-4536-04): 4mm (0.16 inches). Install the diode so that it is positioned on the dotted line. Cathode band Control unit (A/3) Transistor (Q61) Diode (D304) Rubber sheet (G11-4536-04) D

16、iode 4mm (0.16 inches) below 4mm (0.16 inches) Precautions for Reassembly Perform the following steps when assembling the bottom side of the transceiver. 1. Separate the two coaxial cables (E37-1495-05, E37-1496- 05) as shown in the fi gure. 2. Push the two fl at cables (E37-1491-05, E37-1492-05) in

17、to the gap of the chassis so they do not come into contact with the cabinet. Separate the two coaxial cables Coaxial cable (E37-1495-05) Coaxial cable (E37-1496-05) Flat cable (E37-1491-05) Flat cable (E37-1492-05) Push the flat cables into the gap of the chassis Caution for Replacing the LED (B30-2

18、322-05, B30-2323-05) When replacing the “B30-2322-05” or “B30-2323-05” LED used by the Display unit (A/6), order and replace the LED for service into which the rank is divided according to brightness, according to the following procedures, so that the brightness of the LED backlight remains uniform

19、after replacing the LED. 1. Confi rm whether the “A” or “Z” stamp is pushed on the foil side of Display unit (A/6). Confirm whether stamp “A” is pushed. Confirm whether stamp “Z” is pushed. Display unit (A/6) Foil side 2. Order and replace the LED for service as shown in the following table accordin

20、g to whether stamp “A” or “Z” exists or not. Service LED part number for B30-2322-05 (Amber) Service LED part number for B30-2323-05 (Green) Stamp “A” exists Stamp “A” does not exist Stamp “Z” exists Stamp “Z” does not exist W05-1636-00 (High brightness) W05-1637-00 (Low and medium brightness) W05-1

21、638-00 (High brightness) W05-1639-00 (Low and medium brightness) DISASSEMBLY FOR REPAIR TS-590S 5 Frequency Confi guration Figure 1 shows the frequency confi guration of this trans- ceiver. While transmitting, FM mode operates in a double con- version and other modes (AM, SSB, CW, FSK) operate in a

22、triple conversion. While receiving, the fi rst IF operates in 73.095MHz triple conversion. In modes other than FM, the third IF is 24kHz, and the IF signal is converted by an A/D converter and input CIRCUIT DESCRIPTION into DSP. The FM mode is detected in the FM IC, and the audio signal is converted

23、 by an A/D converter and input into the DSP. Under the following conditions, the fi rst IF oper- ates its reception in 11.374MHz double conversion. 1) Modes other than AM or FM 2) Amateur band within the 1.8/3.5/7/14/21MHz bands 3) DSP fi lters bandwidth is 2.7kHz or lower Fig. 1 Frequency confi gur

24、ation PLL AD4111 DDS AD9951 DDS AD9835 11.374MHz 1st IF 73.095MHz 1st IF ADC DAC DAC ADC DSP 10.695MHz 2nd IF 3rd IF IFA IFB VCO FM MOD RX MIX RX MIX TX MIX x2 except FM RX MIX TX MIX 455kHz FM IC NJM2591 FM TX/RX MIX x2 x2 X502 15.6MHz AF 24kHz 24kHz AF OUT MIC IN ANT RX-2 RX-1 Reference Signal Gen

25、erator The reference frequency (fstd), which is used to control the individual LO frequencies, oscillates at 15.6MHz in a crystal oscillation circuit (X502, Q501). This 15.6MHz signal passes through a buffer (Q502) and is doubled in a multiplier (Q503) to generate a 31.2MHz signal. The 31.2MHz signa

26、l is used as a reference signal for LO3 (the third local oscillator) DDS (IC601). The 31.2MHz signal is doubled in multipliers (Q504, Q505) to generate a 62.4MHz signal. The 62.4MHz signal is used as a reference signal for LO1 (the fi rst local oscillator) PLL (IC801). The SO-3 (TCXO unit: 15.6MHz)

27、is confi gured as an op- tion in this transceiver, so that you can replace the crystal oscillation circuit (X502, Q501) with the SO-3. When using the SO-3, remove the CN903 and CN904 short jumper wires in order to stop the operation of the crystal oscillation circuit (X502, Q501). LO1/ LO2/ LO3 LO1

28、(the fi rst local oscillator) The VCO (Q806) oscillates at 196.8MHz. Only the double frequency component, 393.6MHz, of this VCOs oscilla- tion output is extracted and input into PLL (IC801) pin 6. This input signal is divided into 1/N within the PLL. Also, the 62.4MHz signal (15.6MHz reference frequ

29、ency x 4) is input into PLL pin 8 and divided into 1/R within the PLL. By a phase comparator in the PLL, the frequency divided into 1/N and the frequency divided into 1/R are compared, and then the frequency is locked. The comparison frequency (f) at this time is 120kHz when transmitting FM, and 2.4

30、MHz otherwise. 393.6MHz signal locked by PLL (IC801) would be used as reference by DDS (IC803). The output signal from DDS (IC803) is 12.495MHz to 32.195MHz when RX-1 path is selected, amplified at the broad band amplifier (IC804), TS-590S 6 and then goes through BPF and is output as LO1. When RX-2

31、path is selected or when transmitting, 36.5625MHz to 66.5475MHz is output, amplifi ed by the broad band ampli- fi er (IC804), and then doubled in the multiplier (D652), goes through BPF, and is output as 73.120MHz to 133.095MHz LO1. LO2 (the second local oscillator) The reference oscillating circuit

32、s output signal 15.6MHz signal passes through a buffer (Q502) and is doubled in a multiplier (Q503) to generate a 31.2MHz signal. The 31.2MHz signal is also used as the DDS (IC601)s reference Fig. 2 Reference signal generator, LO1/ LO2/ LO3 frequency, and therefore its resistance is divided. Then, t

33、he 31.2MHz signal is doubled in multipliers (Q504, Q505) to generate a 62.4MHz signal. The 62.4MHz signals high harmonic is cut in the BPF and the signal is amplifi ed in the amplifi er (Q506) to gener- ate LO2. If IFB is selected, the diode switch (D501) cuts the LO2 output. LO3 (the third local os

34、cillator) The LO3 used in the modulator and the detector is gen- erated in the DDS (IC601). The DDS output signal passes through the buffer (Q602) and LPF to generate LO3. Q808 Q663 AMP Buffer IC803 DDS IC804 AMP IC801 PLL Q806 VCO Doubler IC601 DDS LPF LPF LPF LPF LPF LPF LPF LPF D651 D652 L651 BPF

35、 BPF HPF D659 D670 D671D669 D655D660 D654 D663 D661 BPF BPF BPF D653 D680D681 D667 LO1 LO2 LO3 D657 D679 D662 D668 X502,Q501 15.6MHz Option SO-3 Q502 Buffer Q506 BufferDoubler Q503 Doubler Q504,Q505 Buffer Q601 Buffer Q602 D501 Buffer Q801 Q804 FM MOD Buffer CIRCUIT DESCRIPTION TS-590S 7 Table 1-1 L

36、O1 frequency shift data IF=73M Frequency: 0.0360MHz HF TX/RX LO1 DDS AD9951 (DEN1) USBLSBCWCW-RCWN RXTXRXTXRXTXRXTXRXTX Filter offset 1+1.5k+1.5k1.5k1.5k000000 RIT( RIT)-( RIT)-( RIT)-( RIT)-( RIT)- XIT-( XIT)-( XIT)-( XIT)-( XIT)-( XIT) CAR correction IF10M_2.7k+(CAR1)+(CAR1)(CAR1)(CAR1)+(CAR1)+(CA

37、R1)+(CAR1)+(CAR1)- HF TX/RX LO1 DDS AD9951 (DEN1) CWN-RFSKFSK-RAMFM RXTXRXTXRXTXRXTXRXTX Filter offset 100(SHIFT/2) (SHIFT/2) (SHIFT/2) (SHIFT/2)0000 RIT( RIT)-( RIT)-( RIT)-( RIT)-( RIT)- XIT-( XIT)-( XIT)-( XIT)-( XIT)-( XIT) CAR correction IF10M_2.7k- IF=11M Frequency: 0.0321.5MHz (Amateur bands

38、within 1.8/3.5/7/14/21MHz band only) HF TX/RX LO1 DDS AD9951 (DEN1) USBLSBCWCW-RCWNCWN-RFSKFSK-R RXRXRXRXRXRXRXRX Filter offset 1+1.5k1.5k0000(SHIFT/2)(SHIFT/2) RIT( RIT)( RIT)( RIT)( RIT)( RIT)( RIT)( RIT)( RIT) CAR correction IF11M_2.7k+(CAR2)(CAR2)+(CAR2)+(CAR2)- IF11M_500+(CAR3)(CAR3)+(CAR3)+(CA

39、R3)- ( RIT): RIT frequency variable amount (9.99+9.99kHz) ( XIT): XIT frequency variable amount (9.99+9.99kHz) (SHIFT): FSK shift width frequency (170Hz, 200Hz, 425Hz, 850Hz, Initial value:170Hz) CAR correction: SSB IF-Filter adjustment volume. 0 when using Narrow option fi lter. (CAR1): IF 10.695MH

40、z, SSB Normal fi lter compensation value (CAR2): IF 11.374MHz, Normal fi lter compensation value (CAR3): IF 11.374MHz, Narrow fi lter compensation value CIRCUIT DESCRIPTION TS-590S 8 Receiver Circuit In an amateur frequency band or mode that requires anti- proximate interference, the receive signal

41、passes through the double conversion RX-1 path, and in other frequency bands and modes, it passes through the triple conversion RX-2 path. (Refer to table 2) ModeSSBCWFSKAMFM RX-1 path Conversion method Double- IF fre- quency 1st11.374MHz- 2nd24kHz- RX-2 path Conversion method Triple IF fre- quency

42、1st73.095MHz 2nd10.695MHz 3rd24kHz455kHz Table 2 Mode, conversion method, and IF frequency LO3 DDS AD9835 (DEN2) USBLSBCWCW-RCWN RX TXRXTXRXTXRXTXRXTX IF73M IF11M RX21.3M, 21.5RX 21.3RX, RX21.5 Filter offset 146.5k+1.5k46.5k46.5k1.5k1.5k000000 CW pitch- FSK tone- CAR cor- rection IF10M_2.7k+(CAR1)+(

43、CAR1) (CAR1) (CAR1) +(CAR1) +(CAR1) +(CAR1) +(CAR1)- IF11M_2.7k+(CAR2) +(CAR2) (CAR2)+(CAR2)+(CAR2)- IF11M_500+(CAR3) +(CAR3) (CAR3)+(CAR3)+(CAR3)- LO3 DDS AD9835 (DEN2) CWN-RFSKFSK-RAMFM RXTXRXTXRXTXRXTXRXTX Filter offset 10000000000 CW pitch- FSK tone- CAR cor- rection IF10M_2.7k- IF11M_2.7k- IF11

44、M_500- CAR correction: SSB IF-Filter adjustment volume. 0 when using Narrow option fi lter. (CAR1): IF 10.695MHz, SSB Normal fi lter compensation value (CAR2): IF 11.374MHz, Normal fi lter compensation value (CAR3): IF 11.374MHz, Narrow fi lter compensation value Table 1-2 LO3 frequency shift data F

45、rom the antenna terminal to the preamplifi er (Q236) The receive signal from the antenna terminals (ANT1/ ANT2) passes through the antenna changeover relay (K44) in the Final unit (X45-391 A/2), the antenna tuners IN/ THROUGH changeover relay (K45), the transmission/recep- tion changeover relay (K46), and an image fi lter, and is sent from CN51 to the TX-RX unit (X57-785 A/2)s CN100 (RAT) through a co-axial cable. The signal input into the TX-RX unit passes through the RX ANT changeo