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Kenwood PWR 18-2 Instruction Manual

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PWR series
INSTRUCTION MANUAL
(For Remote Control Operation)
K E N W O O D
C O R P O R A T I O N
© P R I N T E D IN JAPAN B63-0054-10(MC)
94/12 11 10 9 8 7 6 5 4 3 2 1 93/12 11 10 9

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  • Page 1 PWR series INSTRUCTION MANUAL (For Remote Control Operation) K E N W O O D C O R P O R A T I O N © P R I N T E D IN JAPAN B63-0054-10(MC) 94/12 11 10 9 8 7 6 5 4 3 2 1 93/12 11 10 9...

  • Page 2: Table Of Contents

    CONTENTS 1. OUTLINE 4) Tracking Set 5) Setting of P R E S E T Parameters 2. F E A T U R E S 6) Output ON/OFF S e t ..7) Output Protect O N / O F F S e t 3.

  • Page 3: Outline

    1. OUTLINE 2. FEATURES The P W R Series is a fully remote-controllable, multiple-output • Expansion to System-Level Power Supply via DC constant-voltage/current power supply. T h e series incor- GP-IB Control porates a L I S T E N E R function, w h i c h allows remote control of T h e P W R can be combined with the GP-IB adapter ( G P - 6 2 0 , all the functions of the PW Series, and a T A L K E R function, sold separately) to enable use with automation measurement...

  • Page 4: Specifications

    1 bit mand is applicable. Parity method even parity Max. length of Model name Abbreviation 1.5 m control cord PWR 18-2 (18-2) Max. number of PWR 3 6 - 1 (36-1) controllable 4 units machines PWR 1 8 - 1 T...
  • Page 5 EXPLANATION OF TERMINOLOGY * When controlling this unit with a high-speed computer, etc., the waiting time between electric voltage/current should be o MASTER Unit: A P W R Series unit used a s the controller to about 5 0 ms to transmit them successively. Without the control other P W R Series units.
  • Page 6 EXPLANATION OF REMOTE CONNECTOR • Terminals 1 , 3 and 4 of the R E M O T E connector are connected internally (inside the P W R unit) to O U T ter- minals 1 , 3 and 4 , respectively. •...

  • Page 7: Directions For Use

    5. DIRECTIONS FOR USE 1. MASTER Operation (D Designating the M A S T E R Unit. 1) Turn the POWER switch of PWR # 1 to " O N " while depress- During M A S T E R Operation, the M A S T E R unit operates in ing the A key.
  • Page 8 Addr A Addr A Do not specify " 0 " W h e n the A D D R E S S NO. is set to " 0 " , the K E Y L O C K L E D 2) When the A key is depressed, the unit will return to the state will light up green.

  • Page 9: Computer Control

    © Setting remote condition If the M A S T E R unit is operating at any time after s w i t c h - Operate the M A S T E R unit to achieve the desired settings. ing a S L A V E unit from the R E M O T E to the L O C A L mode, When information on changed settings is sent to the S L A V E the S L A V E unit will return to the R E M O T E mode.
  • Page 10 1) Connect the remote controller (PWR1 remote connector IN) Unlike in M A S T E R operation, machines of different types with the master unit, using the connecting cord which comes can be connected. However, the maximum number of included with the PWR series power supply unit.
  • Page 11 2) Connect the R S - 2 3 2 C connector as s h o w n below. Use IN remote terminals © ~ © and O U T terminals © , @ floated from the remote IN © and O U T © terminals (from short the frame GND terminals on the master and Slave units).

  • Page 12: Gp-Ib Control

    © Switch from the REMOTE mode to the LOCAL mode 3. GP-IB Control If the K E Y L O C K key is pressed while the P W R is in the R E - Using the GP-IB adapter ( G P - 6 2 0 : optional) enables GP-IB con- M O T E mode and the K E Y L O C K LED is lit up orange, the P W R trol of 4 P W R (slave) units by 1 G P - 6 2 0 (master) unit.

  • Page 13: Information Message Formats

    6. INFORMATION MESSAGE FORMATS Precautions Regarding RS-232C Controlled PWR Block Diagram of PWR Reception/Transmission Transmission/Reception Pathways Pathways SLAVE 1 With the PWR, one unit (MASTER unit) can be used to control signal level conversion amp REMOTE up to 4 other units. When the M A S T E R unit is used to control only one other unit, it is connected to the other unit by t w o sig- PWR CPU trans- MASTER...

  • Page 14: Transmission Codes

    7. TRANSMISSION CODES P W R transmission and reception is handles using 7-unit A S C I I codes. PLease refer to the following A S C I I code chart. b 4 ~ b 1 0 0 0 0 T C 7 ( D L E ) 0 0 0 1 T C K S O H )

  • Page 15: Pwr Transmission/Reception Methods

    8. PWR TRANSMISSION/RECEPTION Methods E X A M P L E : To sent O U T P U T information to the S L A V E unit 1) Information messages sent from the M A S T E R unit to a having A D D R E S S NO.
  • Page 16 Now, turn the O U T P U T P R O T E C T of the A D D R E S S NO. 1 unit 2) When an information message is sent from the M A S T E R unit to "...
  • Page 17 sent from M A S T E R to S L A V E contains grammatical or In the case where the S L A V E unit transmits a negative range errors, the S L A V E unit will send an affirmative response to the M A S T E R unit, the S L A V E unit does not response to the M A S T E R as long a s the relationship be- do anything, but continues to operate in the same state...
  • Page 18 E X A M P L E : W h a t type of PWR Series model is the unit w h i c h 5) After transmission of a S L A V E - t o - M A S T E R information mes- is being controlled under the A D D R E S S NO.

  • Page 19: Message Structure

    9. MESSAGE STRUCTURE CONTROL (LISTEN Function) Address Setting Ranges M A S T E R end: The M A S T E R unit and S L A V E unit machine addresses can be ENQ destination address, command E T X B C C 1 B C C 2 set to numbers from "...

  • Page 20: Functions By Command

    : Sets variable delay time to message value. Setting positive tracking current AE * * * * (18-2)(36-1)(18-T)(18-Q) The DELAY time can be set for PWR 18-2 and PWR36-1 as well. The output Setting negative tracking current AF * * * * (18-2){36-1)(18-T)(18-Q) for these can function as tracking output.

  • Page 21: Output On/Off Set

    P R E S E T 2 7) Output protect ON/OFF Set Setting positive tracking current AJ * * * * (18-2)(36-1)(18-T)(18-Q) C o m m a n d : PT0/PT1 (18-2)136-1 )(18-T)(18-Q) Setting negative tracking current AK * * * * (18-21(36-11(18-TH18-Q) E f f e c t : Selects the OUTPUT PROTECT function.

  • Page 22: L O C A L Lockout S E

    12) LOCAL Lockout Set 2. TALK Function C o m m a n d : LL1 (18-2)06-1 )(18-T)(18-Q) 1) Output of Output Voltage, Output Current, Operation Status E f f e c t : Prohibits shifting to the LOCAL mode, so that even if the LOCAL key Corresponding command : STO (18-2)(36-1)(18-T)(18-Q) on the panel is pressed, the machine will not go into the LOCAL mode.

  • Page 23: Output Of Information On V A R I A B L E / All P R E S E T

    Columns 5 5 - 5 8 Delay time Column Tracking Columns 2 9 - 3 2 +8 current Columns 6 2 - 6 5 PRESET 2 +18/ + 36 voltage Columns 3 4 - 3 7 - 6 voltage Columns 6 7 - 7 0 +18/ + 36 current Columns 3 9 - 4 2...
  • Page 24 Columns 4 3 - 46 PRESET 1 +18 voltage F o r m a t : M S 1 ..* * * . , * * * * ..(18-Q) Columns 4 8 - +18 current Columns 1, 2...

  • Page 25: Status Output For All K E Y

    Columns 1 2 7 - 130 + 8 current 1: +18 V (18-2)(18-T)(18-Q) Columns 1 3 2 - 135 - 6 voltage + 3 6 V (36-1) Columns 1 3 7 - 140 - 6 current 2: - 1 8 V (18-2)(18-T)(18-Q) Column Delay plus/minus...

  • Page 26: Id Information Output 2

    0: PWR 18-1. 8Q Operating state * * * * * * 0: CV, 1; CC, Unused portion is 0. 1: PWR 18-1T -6V(18-Q) 2: PWR 18-2 + 6/8V(18-T)(18-Q) 3: PWR 36-1 •-18/36 V(18-2)(36-1)(18-T)(18-Q) + 18/36 V (18-2)(36-1)(18-T)(18-Q) Machine address The notification signal is generated in the Service Requests "...

  • Page 27: Notification Of Alarm Mode Or Output Voltage With Error 2

    11. PARAMETER SET RANGES Voltage 3) Notification of Alarm Mode on Output Voltage with Error 0 0 0 0 - 0 6 1 7 ( 6 . 1 7 V ) (18-T) (18-Q) Message : UU1, * * , * * * * (18-2)(36-1)(18-T)(18-Q) ( 8 .
  • Page 28 12. REMOTE CONTROL SAMPLE PROGRAMS T h i s sample program is for remote controlling all P W R func- 1200 *TX01 tions utilizing R S - 2 3 2 C . 1210 IF CT>5 THEN CT=0:G0T0 *MAIN Abandon after fifth It also functions a s a program for making efficient R S - 2 3 2 C 1220 FOR 1-1 TO LEN(TL$)
  • Page 29 1460 R$-INPUT$(1.#1) 1470 I F R$.CHR$(3) THEN *RX02 1480 RB-RB+ASC(R$) BCC calculation 1490 RL$-RL$+R$ 1500 GOTO *RX01 1510 *RX02 1520 RB-RB+&H3 1530 RB1$-INPUT$(1.#1) 1540 RRBl$-LEFT$(RIGHT$(HEX$(RB).2).l) BCC calculation 1550 RB2$-INPUT$(1,#1) and comparison 1560 RRB2$=RIGHT$(RIGHT$(HEX$(RB).2).1) 1570 IF RB1$=RRB1$ AND RB2$=RRB2$ THEN *RX03 1580 COM STOP 1590...
  • Page 30 A product of K E N W O O D CORPORATION 2-5, 1-chome, Shibuya, Shibuya-ku, Tokyo 150, J a p a n...

This manual is also suitable for:

Pwr 36-1Pwr 18-1tPwr 18-1.8q

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