Kenwood SP-430, PS-50, PS-430, MB-430, AT-440, VS-1, YK-88SN, YK-88CN specifications TS-440$

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TS-440$

CIRCUIT DESCRIPTION

DSB by IC4 goes through the SSB transmit switching diode s D17 and D18, filter switching diodes D14 and D12, and SS B ceramic filter CF1, to obtain the SSB signal . The SSB signa l then goes through the transmit switching diode D36 and i s fed into the transmit first mixer, IC6, where the SSB signa l is mixed with the output from the 8 .375 MHz oscillator i n the IF unit, and converted to 8 .83 MHz . In CW or FM mode , the carrier signal from the PLL unit does not go through IC 5 BM or the 455 kHz filter . These carrier signals are applie d to IC6 via switching diodes D53 and D54 . The output signa l from IC6 goes through the MCF to remove spurious compo - nents, and is amplified by the IF amplifier Q46 (3SK73) an d sent to the RF unit . Q46 provides ALC control and C W keying .

In the transmitter second mixer, consisting of Q1 1 and Q12 , (3SK122), the 8 .83 MHz transmit IF signal input to the R F unit is mixed with HET oscillator signal (36 .22 MHz) fro m the PLL unit and converted to 45 .05 MHz signals . The 45 .0 5 MHz signal goes through D23 and the MCF to remove an y spurious components . The 45 .05 MHz signal then goe s through D27 and is supplied to the transmit third mixer con - sisting of Q13 and Q14 (3SK1 22) . In the third mixer the sig - nal is mixed with VCO signal (Q21 to Q24) amplified by Q1 2 (2SC2668) and converted to the required transmit frequen - cy (1 .8 to 29 .7 MHz) . The signal from the third mixer goes through the low pass filters C156, C158, C159, and L89 , and is amplified by the wide band amplifier Q15 (2SC2570) . The signal then goes through the wide band transformer Ti 9 and low pass filters C164, C165, and L90, and is further am - plified by wide band amplifier Q16 (2SC2538) . The signa l from the Q16 goes through the output transformer T20 an d is used as the drive output .

In FM mode, the PLL VCO is directly modulated . The audi o signal from IF unit IC4 (UPC1 1 58HZ) is fed into the RF uni t via the FM1 pin . In the RF unit, the audio signal is amplifie d by Q36 (2SC2459) and Q37 (2SC2603), and goes throug h the limiter circuit consisting of Q38 (UPC4558C) and lo w pass filter circuit, and is sent to the PLL unit via the FM D pin . In the PLL unit, the 36 .22 MHz VCO is modulated . Q39 (2SC2603) is a switching circuit to prevent the modulate d signals from being emitted from the PLL unit in a mode othe r than FM .

For "S" model radios the output from the RF unit i s amplified to a 100 W power level by Q1 (2SC2075), Q 2 and Q3 (2SC2509), and Q4 and Q5 (2SC2879) in the final unit . The 100 W output goes through the LPFs whic h differ by bands, and is sent as output to the antenna via th e AT unit and transmit/receive switching relay . SWR an d ALC detection is performed at the output of the LPFs .

1) Antenna tune r

The antenna tuner operates when the AUTO/THRU switc h is in the AUTO position and the AT TUNE switch is ON . Th e antenna tuner is driven in the CW mode and power is reduce d to 50 W by the microcomputer regardless of the mode select - ed before the AT TUNE switch was turned ON . The rang e of operating frequencies is determined by a microcompute r program, and is from 3 .5 MHz to 30 MHz .

• AT unit operatio n

Power transmitted by the final unit passes through the cur- rent and voltage detecting transformers L1 and L2 usin g toroidal cores . Current and voltage components detecte d by the transformers are supplied to pins 9 and 13 of IC 2 for wave shaping and their phases are compared by IC 3 HD10131 . The output from pin 3 of IC3 depends upo n the phase of the voltage and current waveforms applie d to IC3 . The signal from IC3 pin 3 is sent to pins 10 an d 15 of buffer IC IC3 HD10125 . Output from pins 12 an d 13 of IC3 goes through level shift Zener diodes D5 an d D6 to control the input circuit of motor drive IC IC 5 BA6109U2 . The output signal is used to drive motor M 1 to adjust the variable capacitor VC1 so that the phas e difference between voltage and current components i s reduced .

The current and voltage components output from the cur - rent and voltage detecting transformers is also supplie d to the voltage comparator IC1 NJM2903D . The compa- rator output is used by motor drive IC IC6 BA6109U2 t o drive motor M2 to adjust variable capacitor VC2 so tha t the amplitude difference is reduced . That is, the phase con - trol variable capacitor VC1 is controlled so that the cur - rent is in phase with the voltage and the voltage contro l variable capacitor VC2 is controlled so that the amoun t of amplitude difference between the current and voltag e is reduced (SWR1, an SWR of 1 to 1, is obtained whe n the current and voltage are in phase and the amount o f amplitude difference is 0) . VC1 and VC2 are designed t o operate independently of each other, but since phase difference affects the amount of amplitude difference an d vice versa, VC 1 and VC2 will normally rotate together .

Forward and reflected waves detected by the filter unit ar e converted to SWR control signals in the SWR arithmetic cir- cuit in the control unit and are sent to the ISW pin of th e AT unit . Since the SWR control signals are current wave - forms, the signals are converted from Ito V waveforms b y IC8 (b/4) in the AT unit and to obtain the corresponding vol - tage mode SWR signals are generated . The SWR signals ar e then fed into the SWR comparator IC8 (C/4) . The referenc e voltage pin 9 of the IC8 (C/4) is supplied with a voltage cor - responding to an SWR of 1 .25 to 1 via a potentiometer . Therefore, when the actual SWR value exceeds 1 .25, pin 8 of SWR comparator IC8 (C/4) is H, so the motor drive vol- tage control transistor Q5 turns on and the collector of Q 4 is supplied with voltage from pin 14S . The voltage is als o used to turn the tuning LED on . The inverted input pin of IC 8 (d/4) is supplied with triangular waves generated by IC7, an d its non-inverted input pin is supplied with the above SWR vol - tage signals . As a result, as SWR lowers, IC8 (d/4) outputs

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Contents KEN Wood TS-440S Semiconductors DimensionsFrequency stability SensitivityImage ratio If rejection Selectivity Frequency accuracy RIT/XIT OFFFig Frequency configuratio n Ipll Circuit Descriptio NDisplayed frequencie s Fig Receiver circuit configuratio nUSB, LSB, FS K AM, FMFig Selectivity control circuit Circuit DescriptionCeramic filter L72-0355-05 if Unit CF2 Filter selectiveMCF L71-0259-05 RF Unit Fl D27 D2 Fig Notch circui t Circuit Descriptio NBX7I91- 851 BX719Transmitter Circuit Descriptio n TS-440$ SWR automatic arithmetic circuit Fig Antenna tuner circuitSWR protection circuit Controlsemi Fig -2 FULL/SEMI BREAK-IN timing chartFig -1 FULL/SEMI BREAK-IN block diagra m Fig Standby keying timing char t Circuit DescriptionFig -3 FULL/SEMI BREAK-IN timing char t Circuit Descriptio N PLL3 Fig PLL circuit block diagra m PLL4Unloc k Circuit Descriptio NFig Control circuit block diagra m Circuit DescriptionFig Encoder circui t Fig Encoder waveform timing chartKey scan matrix Fig Digital circuitRIT If Shift %--- 1 9 LFig A/D convertor circui t MT output 8255 IC2 port A7 Reset output 7800 port B7RL output 7800 port A6 BZ Buzzer output 7800 port A7BCD DEC Band information 7800 PBo 3, B3B2B1B oVCO SW VCO Fig Band information generation circuitExpand function Fig Mode control circuit~ t Control unit X53-1450Conditio n Operation procedureBZ OFF TES TSW Monitor Display changes by Test numbe r SN74LS138H Control unit IC51 TOP View ResetRese T SE T DAT a Clock Data MB4052 Pin Descriptio n Signal Pin Function sAD C CLKSN74LSI38 BPDSemiconducto R NF B Semiconducto RPin connectio n TPD8255AC-5 Control unit IC2 SCK Semiconducto RChip capacitors Parts ListFor Europ e For Australi a For U .S .AM2 General Marke T Fuse 20AACCESSNR Y Warranty CardDC Power Cord ASS Y Wire with Conneltnr40HFR MAfN Pnnh Ref . No AddressParts No Description Desti RP. * -g NationSwitch Unit PIN Connectnr Cerom C CeramicCC45RHIH330J Ceramic Ceram ICCE04IAIHO Elec .1RO ElectrCE04W Odium Elec CRO CE04WIH010M ElectroNatio n Address New Parts No Descriptio n DestiElec -FRO OUF Cnnnect I NG WireCC45CF-II.HO50C Ceramic Ceramic OoopfDesti- Re nation mark s Address New Parts No DescriptionDesti Nation Address New Parts No IR .gDesti Re nation mark s Ref . NoParts No Descriptio n Ceramic 56OPF New PartsCK45FIH223Z Ceramic Prone R5 ScrewPUL LEY RAN Hfad Machine SCR K W004`-,0111-1220 CC45CHI.F-IOR5C Ceramic CiooCeramic 6BPF Ceramic 1OPF0107 Oscillating LOILVCO395MH7 Small Fixed Inducto RL40EIOII-13 Small Fixed Inducto R Small Fjxed Inducto RDesti Re nation marks CST Relay LOUTrmming POT 50V Protectio N Mimng POICeramic Hinf Elellrn 47LIFEleltpn Ooiuf112 AT Unit TS-440S G5 a It ,4-$ CK45FIIJ223Z Ceramic Ceramic OioufCK45FIH223Z Ceramic CC45SLIHO50C CeramicCE04W H4RIM CO92M1H1O3KCE04WIH010M CE04W1HR47MSig 1F F TS-440$ DTC114ES Digital Transistor BDF PC Board TS-440SPW M NilY016 C36 Tl .I J PLL Unit Page Page Page Page Page Page Page Page Disassembly Sems Disassembly55x2 OcDC o TS-440E/8 000- N TS-440S Packing REC Adjustmen TJapanese SG American SG 25µ Detector AdjustmentSpectrum Analyzer SPE-ANA Mode a M Power on DC V .MRF Gain MAX Mode USB Stby REC Mode USBUnit Adjustmen T 5612 AN T VR6 Mode F MDI P ANTStby SEN D Function SW a Power SW OFFMode SW Mode USBTOP View ITP8I TP11I ITP1 TP3TP4I Adjustment 44 FM MV AF 25mV 4.9mVAF Output 0 .68V/811 Input DBuTIF DRV If UnitMIC MI C RF UNI T=KO= Power SW on Power SW of FPS-50 AF Power Cord Warranty AP BAL Power for D AC Power ORDNot Wire HAN DPower Ironsinrmer Power Cord PushingFL---PROOF RS RS14GB3A01DJRI1 JZF1OD220V Version 240V Version Schematic Diagramipc Boar DRS14GB3D4R7J Specificationsiparts LIS TSLP144B IC N IC N IC CE04W1HR22MCS15E1EO10M CS15E1VOR1M MN6401TRALanguag E Select Schematic DiagramPage MB-430/SP-430 WeightRatin g YK-88S/SN,YK-88C/C NIncorporated in N .S Communications & Test Equipment Grou P
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Manual 4 pages 53.32 Kb

SP-430, VS-1, PS-430, AT-440, YK-88C specifications

The Kenwood MB-430, PS-50, YK-88S, YK-88CN, and YK-88SN are notable components that enhance the capabilities of Kenwood's transceiver products, particularly in the amateur radio segment. Each of these units plays an essential role in expanding functionality, improving performance, and providing users with valuable features that are beneficial in various communication scenarios.

Starting with the Kenwood MB-430, it serves as a versatile mobile bracket designed for specific Kenwood radio models. The MB-430 enhances mobility, allowing operators to mount their radios securely in vehicles or portable setups. Its sturdy construction ensures reliability during operation, and it offers a simple installation process, making it user-friendly for both beginners and seasoned enthusiasts.

The PS-50 power supply is a crucial accessory that complements Kenwood's transceiver line. This power supply is known for its compact design, providing 13.8 V DC output, which is essential for powering radios effectively. With a current rating that adequately supports various transceivers, the PS-50 is equipped with short-circuit protection and thermal overload features. These safety mechanisms protect both the power supply and the connected equipment, making it a dependable choice amongst operators.

The YK-88S, YK-88CN, and YK-88SN are all filters that enhance the performance of Kenwood transceivers. The YK-88S is a high-performance SSB filter, designed to improve the clarity of SSB signals while reducing adjacent channel interference. It offers narrow bandwidth options that facilitate more precise tuning, making it particularly valuable in crowded band conditions.

Meanwhile, the YK-88CN is known for its crystal filter technology, optimizing the transceiver's performance for CW and digital modes. This filter helps in eliminating unwanted noise, allowing operators to enjoy clearer reception and improved decoding of weak signals.

The YK-88SN, similar in function to the YK-88S and YK-88CN, provides additional narrow filtering options, enhancing the agility of transceiver operation in various modes. It effectively enhances selectivity and reduces interference from strong signals, providing a cleaner audio output.

Together, these components contribute to a seamless operating experience for amateur radio enthusiasts. Whether enhancing filter characteristics, providing reliable power, or ensuring secure mobility, the MB-430, PS-50, YK-88S, YK-88CN, and YK-88SN demonstrate Kenwood’s commitment to quality and performance in the radio communications field.