RKC INSTRUMENT CB100 Initial Setting Manual
Digital controller
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Also See for CB100:
- Connection manual (292 pages) ,
- Communication instruction manual (44 pages) ,
- Instruction manual (43 pages)
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Summary of Contents for RKC INSTRUMENT CB100
- Page 1 Digital Controller CB100/CB400 CB500/CB700 CB900 Initial Setting Manual IMCB04-E10 RKC INSTRUMENT INC. ®...
- Page 2 All Rights Reserved, Copyright 1998, RKC INSTRUMENT INC.
- Page 3 Thank you for purchasing this RKC instrument. In order to achieve maximum performance and ensure proper operation of your new instrument, carefully read all the instructions in this manual. Please place this manual in a convenient location for easy reference.
- Page 4 CAUTION This is a Class A instrument. In a domestic environment, this instrument may cause radio interference, in which case the user may be required to take adequate measures. This instrument is protected from electric shock by reinforced insulation. Provide reinforced insulation between the wire for the input signal and the wires for instrument power supply, source of power and loads.
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Page 5: Table Of Contents
CONTENTS Page 1.TRANSFER TO MODE ............1 1.1 Go to Initialization Mode .................1 1.2 Exit Initialization Mode ..................3 2. SETTING ................4 2.1 Initial Setting Menu ..................4 2.2 Procedure for Setting Each Parameter ............5 2.3 List of Parameters in Initialize Code 0 (Cod=0) ..........7 2.4 List of Parameters in Initialize Code 1 (Cod=1) ..........15 2.5 List of Parameters in Initialize Code 2 (Cod=2) ..........23 3. - Page 6 MEMO IMCB04-E10...
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Page 7: Transfer To Mode
2. Press the SET key for two seconds to go to the Parameter Setting Mode from the PV/SV display. For details on parameter setting mode, see the CB100/CB400/CB500/CB700/CB900 Instruction Manual (IMCB25-E ). 3. Press the SET key until “LCK” (Set Data Lock display) will be displayed. - Page 8 1. TRANSFER TO MODE 6. Press the SET key to store the new set value. The display goes to the next parameter, and the Initialization mode is unlocked. The parameter displayed varies on the instrument specification. OUT1 OUT2 ALM1 ALM2 CT1 input value display 7.
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Page 9: Exit Initialization Mode
1. TRANSFER TO MODE 1.2 Exit Initialization Mode When any parameter setting is changed in the Initialization Mode, check all parameter set values in SV Setting Mode and Parameter Setting Mode. section in each image of the controller shows the digits which are not high-lighted. 1. -
Page 10: Setting
2. SETTING 2.1 Initial Setting Menu The “Cod” display will be displayed when the controller goes to the Initialization Mode. Initializing items are classified into 3 initialize code groups in initialization mode. There are parameters which are not displayed depending on the specification. Press the <R/S key while pressing the SET key Press the SET key for two seconds. -
Page 11: Procedure For Setting Each Parameter
2. SETTING 2.2 Procedure for Setting Each Parameter Example of changing the setting When the display unit shows SL1 (Input type selection) in initialize code 0, the following procedure is for changing the input type from K to J. section in each image of the controller shows the digits which are not high-lighted. 1. - Page 12 2. SETTING 3. Press the UP key to change the number to 1. List of parameters Set value Input type OUT1 OUT2 ALM1 ALM2 Input type selection 4. Press the SET key to store the new set value. The display goes to the next parameter. OUT1 OUT2 ALM1...
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Page 13: List Of Parameters In Initialize Code 0 (Cod=0)
2. SETTING 2.3 List of Parameters in Initialize Code 0 (Cod = 0) (1) SL1 (Input type selection) When any parameter setting is changed in the Initialization Mode, check all parameter set values in SV Setting Mode and Parameter Setting Mode. Factory set value varies depending on the input type. - Page 14 2. SETTING (2) SL2 (Engineering unit selection and cooling type selection) For the D type (PID action with autotuning [direct action]) and F type (PID action with autotuning [reverse action]), the setting of the cooling type selection is ignored. The upper 2 digits are not used. Do not change the setting, as this may cause malfunction.
- Page 15 2. SETTING (3) SL3 (Heater break alarm [HBA], control loop break alarm [LBA], special specification, or control loop break alarm [LBA] output selection ) Cannot be used the heater break alarm (HBA) for the following instruments. • Instrument without the alarm 2 (ALM2) output. •...
- Page 16 2. SETTING (4) SL4 (Alarm 1 [ALM1] type selection, hold action selection) SL5 (Alarm 2 [ALM2] type selection, hold action selection) SL4 is set to 0000 in the following cases. • When the instrument does not have ALM1 output • When Control Loop Break Alarm (LBA) is provided and assigned to ALM1 •...
- Page 17 2. SETTING (5) SL6 (Control action type selection) Conduct setting so as to meet the instrument specification. An incorrect setting may cause a malfunction. When control action is of the type D or F, Control action type selection (Cool-side) setting is ignored. Factory set value varies depending on the instrument specification.
- Page 18 2. SETTING (6) SL7 (Energized/de-energized selection, special specification selection 1) The following instrument is set to 0000. Instrument without both the alarm 1 (ALM1) output and the alarm 2 (ALM2) output. Factory set value varies depending on the instrument specification. Set value Description Alarm 1 energized alarm...
- Page 19 2. SETTING (8) SL9 (Special specification selection 3) Any item set in the Z-168 specification has priority over that set in SL3 (heater break alarm selection). Factory set value varies depending on the instrument specification. Set value Description Z-168 specification not provided Special specification selection Z-168 specification provided Z-1018 specification not provided...
- Page 20 2. SETTING (10) SL11 (SV alarm type selection) The following instrument always set it to 0 : Alarm 1, SV alarm not provided. • Instrument without the alarm 1 (ALM1) output. • Instrument of the process alarm, deviation alarm, band alarm or control loop break alarm (LBA) is used as the alarm 1 (ALM1).
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Page 21: List Of Parameters In Initialize Code 1 (Cod=1)
2. SETTING 2.4 List of Parameters in Initialize Code 1 (Cod = 1) (1) SLH (Setting limiter [high limit]) Set the limiter by referring to Input range table (P.17) Setting method Press the <R/S key to move the digit, then enter the high limit of the set value (SV) by pressing the UP or DOWN key. - Page 22 2. SETTING (2) SLL (Setting limiter [low limit]) Set the limiter by referring to Input range table (P.17) Setting method Press the <R/S key to move the digit, then enter the high limit of the set value (SV) by pressing the UP or DOWN key.
- Page 23 2. SETTING Input range table Thermocouple input (TC) Type Input range Type Input range 0 to 200 °C 0 to 1820 °C 1, 3 0 to 400 °C 800 to 3200 °F 0 to 600 °C 0 to 3308 °F 1, 3 0 to 800 °C 0 to 800 °C...
- Page 24 2. SETTING RTD input Type Input range −199.9 to +649.0 °C −199.9 to +200.0 °C −100.0 to +50.0 °C −100.0 to +100.0 °C −100.0 to +200.0 °C 0.0 to 50.0 °C 0.0 to 100.0 °C 0.0 to 200.0 °C 0.0 to 300.0 °C 0.0 to 500.0 °C Pt100 (JIS/IEC) −199.9 to +999.9 °F...
- Page 25 2. SETTING Voltage input Type Input range 0 to 5 V DC 0.0 to 100.0 % 0 to 10 V DC * 1 to 5 V DC * For the 0 to 10 V DC (Z-1010 specification), no input type cannot be changed as the hardware differs.
- Page 26 2. SETTING (3) PGdP (Decimal point position setting) Use to select a decimal point position of the input range (voltage input and current input). PGdP is displayed only for voltage or current input. Inappropriate settings may result in malfunction. Factory set value: 0001 Set value Description No decimal place...
- Page 27 2. SETTING (6) AH2 (Alarm 2 [ALM2] differential gap setting) Not displayed when there is no alarm 2 (ALM2). Setting range 0 to 100 °C [°F] or 0.0 to 100.0 °C [°F] TC and RTD inputs: Voltage and current inputs: 0.0 to 10.0 % of span Factory set value 2 °C [°F] or 2.0 °C [°F] TC and RTD inputs:...
- Page 28 2. SETTING (10) STPK (Factor to calculate proportional band) Displayed when the self-tuning is provided. As this factor is so adjusted that the self-tuning result optimum to most controlled-objects is obtained, do not change it. This is the factor to adjust the proportional band to be calculated by the self-tuning function. The larger the set value, the larger the proportional band thus calculated.
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Page 29: List Of Parameters In Initialize Code 2 (Cod=2)
2. SETTING 2.5 List of Parameters in Initialize Code 2 (Cod = 2) Parameters in initialize code 2 are only displayed. (1) TCJ (Holding peak ambient temperature) The maximum ambient temperature on the rear terminal board of the instrument is stored and displayed on the set value (SV) display unit. -
Page 30: Communication Initial Identifier
Note that there are identifiers which cannot be communicated depending on the specification. The number of digits is 6 for all data. For details on the structure of communication data, see the CB100/CB400/CB500/CB700/CB900 Communication Instruction Manual (IMCB03-E ). ID: Identifier... - Page 31 3. COMMUNICATION INITIAL IDENTIFIER ID: Identifier (RO: Read only R/W: Read/write) Name Data range Factory set value To vary Control action type selection [SL6] CA 0 to 15 depending on specification Energized/de-energized alarm 0 to 15 selection, special specification selection 1 [SL7] Special specification selection 2 [SL8] 0: Z-185 specification not...
- Page 32 3. COMMUNICATION INITIAL IDENTIFIER ID: Identifier (RO: Read only R/W: Read/write) Name Data range Factory set value Time factor assumed to be safe GH 0 to 200 [STTM] Factor to calculate proportional band 0 to 200 [STPK] Factor to calculate integral time [STIK] 0 to 200 Integral time limiter [ILIM]...
- Page 33 3. COMMUNICATION INITIAL IDENTIFIER No alarm Process low alarm Deviation high alarm Deviation high alarm with hold action Deviation high/low alarm 10: Deviation high/low alarm with hold action Process high alarm 11: Process high alarm with hold action Deviation low alarm 13: Deviation low alarm with hold action Band alarm 15: Process low alarm with hold action...
- Page 34 3. COMMUNICATION INITIAL IDENTIFIER Alarm 1 (De-energized alarm), alarm 2 (Energized alarm, Z-124 specification provided) 10: Alarm 1 (Energized alarm), alarm 2 (De-energized alarm, Z-124 specification provided) 11: Alarm 1 (De-energized alarm), alarm 2 (De-energized alarm, Z-124 specification provided) 12: Alarm 1 (Energized alarm, Z-124 specification provided), alarm 2 (Energized alarm, Z-124 specification provided) 13: Alarm 1 (De-energized alarm, Z-124 specification provided), alarm 2 (Energized alarm, Z-124 specification provided)
- Page 35 3. COMMUNICATION INITIAL IDENTIFIER No option function provided (No optional function provided) RUN/STOP function provided Communication function provided (RKC standard communication) Communication function provided (RKC standard communication), RUN/STOP function provided Communication function provided (MODBUS communication) Communication function provided (MODBUS communication), RUN/STOP function provided Self-tuning provided Self-tuning provided, RUN/STOP function provided 12: Self-tuning provided, Communication function provided (RKC standard communication)
- Page 36 MEMO IMCB04-E10...
- Page 37 The first edition: MAR. 1998 The tenth edition: JUN. 2005...
- Page 38 RKC INSTRUMENT INC. HEADQUARTERS: 16-6, KUGAHARA 5-CHOME, OHTA-KU TOKYO 146-8515 JAPAN PHONE: 03-3751-9799 (+81 3 3751 9799) E-mail: info@rkcinst.co.jp FAX: 03-3751-8585 (+81 3 3751 8585) IMCB04-E10 JUN. 2005...
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