DIGITAL INDICATING CONTROLLER BCx2 INSTRUCTION MANUAL
Preface Thank you for purchasing our digital indicating controller BCx2. This manual contains instructions for the mounting, functions, operations and notes when operating the BCx2. To prevent accidents arising from the misuse of this controller, please ensure the operator receives this manual.
Safety Precautions (Be sure to read these precautions before using our products.) The safety precautions are classified into categories: “Warning” and “Caution”. Depending on circumstances, procedures indicated by Caution may cause serious results, so be sure to follow the directions for usage. Warning Procedures which may lead to dangerous conditions and cause death or serious injury, if not carried out properly.
2. Wiring Precautions Caution • Do not leave wire remnants in the instrument, as they could cause a fire or malfunction. • Use the solderless terminal with an insulation sleeve in which the M3 screw fits when wiring the instrument. • The terminal block of this instrument is designed to be wired from the left side. The lead wire must be inserted from the left side of the terminal, and fastened with the terminal screw. • Tighten the terminal screw using the specified torque.
Contents Page 1. Model 1.1 Model ------------------------------------------------------------------------------------- 7 1.2 How to Read the Model Label ------------------------------------------------------ 8 2. Names and Functions of Sections ------------------------------------------------- 9 3. Mounting to the Control Panel 3.1 External Dimensions (Scale: mm) ----------------------------------------------- 12 3.2 Panel Cutout (Scale: mm) --------------------------------------------------------- 14 3.
9. Attached Function 9.1 Input Value Correction -------------------------------------------------------------- 97 9.2 Set Value Lock ------------------------------------------------------------------------ 99 9.3 Control Output OFF Function ---------------------------------------------------- 100 9.4 Switching Auto/Manual Control (Auto/Manual Control Function) ------- 101 9.5 Using as a Converter -------------------------------------------------------------- 102 9.
1. Model 1.1 Model Size BC 2 BCS2 BCR2 BCD2 Control output OUT1 Power supply voltage - R S A 0 1 Input Option 1 (*2) (Choose only one option.) 0 0 1 2 3 4 0 1 2 3 Option 2 (*2) (Choose only one option.
1.2 How to Read the Model Label The model label is attached to the left side of the case. BCS2 (e.g.) BCS2R00-12 BCR2, BCD2 (e.g.) BCD2R00-12 (1) (1) (2) (3) (4) (5) (6) (7) (2) (3) (4) (5) (6) (7) (Fig. 1.2-1) No. (1) (2) (3) Description Terminal arrangement Model Option (4) (5) Input Control output, Event output (6) Power supply voltage, Power consumption Serial number (7) (Fig. 1.
2. Names and Functions of Sections BCS2 (9) (1) (2) (4) (5) (8) (6) (7) (Fig. 2-1) BCR2 (9) (1) (2) (3) (4) (5) (8) (6) (7) (Fig.
BCD2 (9) (1) (2) (3) (4) (5) (8) (6) (7) (Fig. 2-3) Display No. (1) Name PV Display (2) SV Display (3) MEMO/STEP Display Description Indicates PV. Indicates setting characters in each setting mode. Indicates SV. Indicates set data in each setting mode. In Monitor mode, indicated contents differ depending on the model as follows. Model Indicated Contents BCS2 Indicates MV, Remaining time (Program control), Step number (Program control) or Set value memory number (Fixed value control).
Action Indicators No. Name (4) O1 (Green) O2 (Yellow) EV1 (Red) EV2 (Red) AT (Yellow) R/L (Yellow) T/R (Yellow) MEMO (Yellow) STEP (Green) Description Lit when control output OUT1 is ON. For direct current output type, flashes corresponding to the MV in 125 ms cycles. Lit when control output OUT2 (EV2, DS options) is ON. For direct current output type (DA option), flashes corresponding to the MV in 125 ms cycles. Lit when Event output 1 is ON. Lit when Event output 2 (EV2 option) is ON.
3. Mounting to the Control Panel 3.1 External Dimensions (Scale: mm) BCS2 Mounting frame Terminal cover (sold separately) Gasket (*) When the terminal cover is used. (Fig. 3.1-1) BCR2 Screw type mounting bracket Gasket Terminal cover (sold separately) (*) When the terminal cover is used. (Fig. 3.
BCD2 Screw type mounting bracket Terminal cover (sold separately) Gasket (*) When terminal covers are used. (Fig. 3.
3.2 Panel Cutout (Scale: mm) Caution If lateral close mounting is used for the controller, IP66 specification (Drip-proof/Dust-proof) may be compromised, and all warranties will be invalidated. BCS2 Lateral close mounting n: Number of units mounted (Fig. 3.2-1) 130 92+0.8 0 BCR2 92+0.8 0 n×48-3 +0.5 0 Lateral close mounting n: Number of units mounted 45+0.5 0 (Fig. 3.2-2) 130 92+0.8 0 BCD2 □92+0.8 0 n×96-3 +0.5 0 Lateral close mounting n: Number of units mounted (Fig. 3.
3.3 CT (Current Transformer) External Dimensions (Scale: mm) CTL-6-S-H (for 20A) CTL-12-S36-10L1U (for 100A) (Fig. 3.
3.4 Mounting to, and Removal from, the Control Panel Caution As the mounting frame of the BCS2 is made of resin, do not use excessive force while tightening screws, or the mounting frame could be damaged. Tighten screws with one rotation upon the screw tips touching the panel. The torque is 0.15 N•m. For the BCR2, BCD2, the torque should be 0.1 N•m. 3.4.
BCR2, BCD2 Mount the controller vertically to the flat, rigid panel to ensure it adheres to the Drip-proof/Dust-proof specification (IP66). Mountable panel thickness: 1 to 7 mm (1) For the BCR2, if Drip-proof/Dust-proof specification (IP66) is necessary, mount the included gasket. If lateral close mounting is used for the controller, IP66 specification (Drip-proof/Dust-proof) may be compromised, and all warranties will be invalidated.
3.4.2 How to Remove the Mounting Frame and Unit BCS2 (Fig. 3.4.2-1) (1) Turn the power to the unit OFF, and disconnect all wires before removing the mounting frame. (2) Insert a flat blade screwdriver between the mounting frame and unit ( 1 ). (3) Slowly push the frame upward using the screwdriver ( 2 ), while pushing the unit toward the panel ( 3 ). (4) Repeat step (2) and slowly push the frame downward using the screwdriver for the other side.
4. Wiring Warning Turn the power supply to the instrument off before wiring or checking. Working on or touching the terminal with the power switched on may result in severe injury or death due to electric shock. 4.1 Terminal Arrangement BCS2 (Fig. 4.1-1) BCR2, BCD2 (Fig. 4.
Terminal Description PWR (Power supply) 100 to 240 V AC or 24 V AC/DC For a 24 V AC/DC power source, do not confuse polarity when using direct current (DC). Event output EV1 Event output EV2 (EV2 option) Control output OUT2 (EV2, DS, DA options) 24 V DC insulated power output (P24 option) Control output OUT1 RTD input Thermocouple input Direct current, DC voltage inputs For DC voltage input, (+) side input terminal number of 0 to 5 V DC, 1 to 5 V DC, 0 to 10 V DC differs from that of 0 to 1 V DC.
4.3 Terminal Cover BCS2 When using a terminal cover (sold separately), make sure the longer side is on the back right side of the case. Pass the wires from terminals 7 to 12 into the holes of the terminal cover. Terminal cover (Fig. 4.3-1) BCR2 When using a terminal cover (sold separately), make sure the longer side is on the back right side of the case. Pass the wires from terminals 13 to 24 through the left side of the terminal cover.
BCD2 When using terminal covers (sold separately), make sure the longer side is on the back right and left sides of the case. Pass the wires from terminals 13 to 24 through between covers. Top of BCD2 2 terminal covers Mount the longer side of the cover to the back right and left. (Fig. 4.3-3) (Fig. 4.3-4) (Fig. 4.
4.4 Wiring For the terminal arrangement, refer to Section ‘4.1 Terminal Arrangement’ (p.19). 4.4.1 Power Supply Power supply voltage is 100 to 240 V AC or 24 V AC/DC. For a 24 V AC/DC power source, ensure polarity is correct when using direct current (DC). BCS2 BCR2, BCD2 4.4.2 Control Output OUT1, OUT2 When EV2, DS or DA option is ordered, control output OUT2 is available. Specifications of Control output OUT1, OUT2 are shown below.
4.4.3 Input Each input wiring is shown below. For DC voltage input, (+) side input terminal number of 0 to 5 V DC, 1 to 5 V DC, 0 to 10 V DC differs from that of 0 to 1 V DC.
4.4.4 Event Output 1, 2 Event output EV1 is a standard feature. If EV2 option is ordered, Event output EV2 is available. Specifications of Event output 1, 2 are shown below. Relay contact 1a Control capacity: 3 A 250 V AC (resistive load) 1 A 250 V AC (inductive load cos =0.4) Electrical life: 100,000 cycles Minimum applicable load: 10 mA 5 V DC BCS2 BCR2, BCD2 4.4.5 Insulated Power Output If P24 option is ordered, the Insulated power output is available.
4.4.6 CT Input CT input is available when Heater burnout alarm (C5W, EIW, W options) is ordered. Cannot be used for detecting heater current under phase control. BCS2 BCR2, BCD2 Use the CT (current transformer) provided, and pass one lead wire of the heater circuit into the hole of the CT. (Fig. 4.4.6-1) When wiring, keep the CT wire away from AC sources or load wires to avoid the external interference. BCS2 13 CT1 input terminals 14 CT Power supply Heater (Fig. 4.4.
BCR2, BCD2 1 CT1 input terminals 2 CT Power supply Heater (Fig. 4.4.6-3) If using 3-phase, pass any 2 lead wires of R, S, T into the CT, and connect them to CT1 ( 1 - 2 ) and CT2 ( 2 - 3 ) terminals. (Fig. 4.4.6-4) 1 2 Heater CT1 R S CT2 T (Fig. 4.4.
4.4.7 Serial Communication If the C5W or C5 option is ordered, Serial communication is available. BCS2 BCR2, BCD2 (1) Serial Communication • When using USB communication cable CMC-001-1 (sold separately) USB communication cable CMC-001-1 (sold separately) BCS2 ⑯ YA(-) ⑰ YB(+) ⑱ SG YA(-) YB(+) COM BCR2, BCD2 ⑩ YA(-) ⑪ YB(+) ⑫ SG Host computer USB port Shielded wire FG ⑯ YA(-) ⑰ YB(+) ⑱ SG ⑩ YA(-) ⑪ YB(+) ⑫ SG Shielded wire FG ⑯ YA(-) ⑰ YB(+) ⑱ SG ⑩ YA(-) ⑪ YB(+) ⑫ SG (Fig. 4.4.
Shielded wire Connect only one end of the shielded wire to the FG terminal so that current cannot flow to the shielded wire. If both ends of the shielded wire are connected to the FG terminal, the circuit will be closed between the shielded wire and the ground. As a result, current will run through the shielded wire and this may cause noise. Be sure to ground FG terminal. Recommended cable: OTSC-VB 2PX0.5SQ (made by Onamba Co., Ltd.) or equivalent (Use a twisted pair cable.
4.4.8 Event Input Event Input DI1 is available for the BCS2 with Event input (EIW, EIT, EI options). Event Input DI1 is available for the BCR2, BCD2 with Serial communication (C5W option) or Event input (EIW, EIT, EI options). Event Input DI2 is available for the BCS2 with Event input (EIW, EI options). Event Input DI2 is available for the BCR2, BCD2 with Serial communication (C5W option) or Event input (EIW, EIT, EI options). Specifications of Event input are shown below.
5.2 Modes Mode RUN mode Monitor mode Initial setting mode Main setting mode Sub setting mode Engineering mode Description When power is turned ON, the unit enters RUN mode. The PV Display indicates PV, and the SV Display indicates SV. Control starts from previous status (last shutdown). By pressing the key for approx. 1 sec, one of the following functions selected in [OUT/OFF key function] is activated. OUT/OFF Key Function Description Control output OFF function Turns the control output ON or OFF.
5.3 Basic Operation after Power-ON After the unit is mounted to the control panel and wiring is completed, operate the unit following the procedures below. (1) Turn the power supply to the unit ON After the power is turned ON, the PV Display indicates the input type, and the SV Display indicates the Input range high limit value (for thermocouple, RTD inputs) or Scaling high limit value (for DC voltage, current inputs) for approximately 3 seconds. (Table 5.
(3) Turn the load circuit power ON Control starts, so as to reach, and then maintain the control target at the SV. Error codes during operation If errors occur during operation, error codes below are indicated in the PV Display. Error Code Error Contents PV has exceeded Input range high limit value (scaling high limit value for DC voltage, current inputs). PV has dropped below Input range low limit value (scaling low limit value for DC voltage, current inputs).
[Output status when input errors occur] can be used only for controllers using Direct current and voltage inputs, and Direct current output. Output status differs depending on selection in [Output status when input errors occur].
6. Initial Setting Setup (setting the Input type, Event output allocation, SV, etc.) should be done before using this controller, according to the user’s conditions. Perform setup in Initial setting mode. Setting items in Initial setting mode are shown in (Table 6.1). If the user’s specification is the same as the factory default value of this instrument, or if user’s instrument has already been installed in a system, initial settings are not necessary. Proceed to Section ‘7. Settings’ (p.53). (Table 6.
6.1 Example of Initial Setting (e.g.) BCS2R00-00 Initial Setting Items Input type Event output EV1 allocation EV1 alarm value SV Example K -200.0 to 400.0 High limit alarm 20.0 (Deviation setting from SV) 200.0 (Fixed value control) PID control is performed. PID constants are calculated by performing AT. Alarm action ON OFF 200.0 219.0 220.0 (Fig. 6.
Setting Procedure Power ON Setting Detail Power ON RUN mode + Initial setting mode Input type RUN mode PV/SV Display (3 sec) Initial setting mode Input type or : K -200.0 to 400.0 Event output EV1 allocation (3 times) Event output EV1 allocation. or : High limit alarm EV1 alarm value (Twice) EV1 alarm value or 20.0 SV1 (Many times) SV1 or 200.
6.2 Initial Setting Mode To enter Initial setting mode, press and hold the and keys (in that order) for 3 seconds in RUN mode. To set (or select) each setting item, use the or key. To register each setting item, press the key. Explanation of setting item: • Upper left: PV Display: Indicates setting characters. • Lower left: SV Display: Indicates factory default. • Right side: Indicates the setting item, explanation of its function, and setting range (or selection item).
Characters, Factory Default Setting Item, Function, Setting Range Scaling low limit • Sets scaling low limit value. • Setting range: Input range low limit value to Scaling high limit value DC voltage, current inputs: -2000 to 10000 (*1) Decimal point place • Selects decimal point place.
Characters, Factory Default Setting Item, Function, Setting Range EV1 alarm value 0 Enabled/Disabled • When EV1 alarm value is 0 (zero), alarm action can be Enabled or Disabled. • Selection item: Disabled Enabled Available when independent alarm), (Alarm output, High limit alarm) to (Alarm output, High/Low limit range (Alarm output, High limit with standby alarm) to (Alarm output, High/Low limits with standby independent alarm) are selected in [Event output EV1 allocation].
Characters, Factory Default Setting Item, Function, Setting Range EV1 alarm hysteresis • Sets EV1 alarm hysteresis. • Setting range: 0.1 to 1000.0 ( ), DC voltage, current inputs: 1 to 10000 (*1) Available when any alarm from (Alarm output, High limit alarm) to (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV1 allocation]. EV1 alarm delay time • Sets EV1 alarm action delay time.
Characters, Factory Default Setting Item, Function, Setting Range Event output EV2 allocation • Selects Event output EV2 allocation from the Event Output Allocation Table below. • When changing Event output EV2 allocation, refer to Section “8.10 Items to be Initialized by Changing Settings” (p.96).
Characters, Factory Default Setting Item, Function, Setting Range EV2 alarm value • Sets EV2 alarm value. EV2 alarm value matches EV2 low limit alarm value in the following cases: (Alarm output, High/Low limits independent alarm), (Alarm output, High/Low limit range independent alarm), or (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV2 allocation].
Characters, Factory Default Setting Item, Function, Setting Range EV2 alarm Energized/De-energized • Selects Energized/De-energized status for EV2 alarm. (Refer to ‘EV1/EV2 Energized/De-energized’ on p.50.) • Selection item: Energized De-energized Available when any alarm from (Alarm output, High limit alarm) to (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV2 allocation].
Characters, Factory Default and CT2 current value are alternately indicated in the PV Display. Setting Item, Function, Setting Range Heater burnout alarm 2 value • Sets the heater current value for Heater burnout alarm 2. Available only when using 3-phase. Characters and CT2 current value are alternately indicated in the PV Display. When OUT1 is ON, the CT2 current value is updated. When OUT1 is OFF, the unit memorizes the previous value when OUT1 was ON. Upon returning to set limits, the alarm will stop.
Characters, Factory Default Setting Item, Function, Setting Range Event input function Remote/Local Input ON (Closed) Remote Input OFF (Open) Local Program control RUN/STOP Program control Holding/Not holding Program control Advance function Integral action Holding RUN STOP Holding Not holding Advance function Integral action Holding Usual control Usual integral action Remarks Effective only when EIT (External setting input) option is ordered Level action when power-on Level action when power-on
Characters, Factory Default Setting Item, Function, Setting Range Transmission output high limit • Sets the Transmission output high limit value. This value correponds to 20 mA in DC current output. • Setting range: PV, SV transmission Transmission output low limit to Input range high limit value DC voltage, current inputs: -2000 to 10000 MV transmission Transmission output low limit value to 105.
[EV1/EV2 Energized/De-energized] When (Energized) is selected, Event output 1 or 2 is conductive (ON) while the EV1/EV2 indicator is lit. Event output 1 or 2 is not conductive (OFF) while the EV1/EV2 indicator is not lit. When (De-energized) is selected, Event output 1 or 2 is not conductive (OFF) while the EV1/EV2 indicator is lit. Event output 1 or 2 is conductive (ON) while the EV1/EV2 indicator is not lit.
[Event Input] • If (Set value memory) is selected, the set value memory number will be as follows. When only Event input DI1 is selected. Set value memory number SV1 DI1 Open SV2 Closed When only Event input DI2 is selected. Set value memory number SV1 DI2 Open SV2 Closed When both Event inputs DI1, DI2 are selected.
[Time Signal Output] Time signal output activates during Time signal output ON time within the step for which step number is set. Time signal output ON time follows Time signal output OFF time after the program control starts. The following program pattern shows that the temperature rises to 200 at 200 for 2 hours after Program control starts. Step Step SV Step time 1 2 200 1:00 200 2:00 for 1 hour, and stays Time signal output (Fig. 6.2-4) is shown when set as follows.
7. Settings In this section, Main setting, Sub setting and Engineering modes will be explained. 7.1 Main Setting Mode To enter Main setting mode, press the key in RUN mode. Use the or key for settings (or selections). To register the set data, use the key. Explanation of setting items: • Upper left: PV Display: Indicates setting characters. • Lower left: SV Display: Indicates factory default value. • Right side: Indicates the setting item, explanation of its function and setting range (or selection item).
Characters, Factory Default Setting Item, Function, Setting Range SV2 • Sets SV2. • Corresponds to [SV2] in Initial setting mode. If Program control is selected in [OUT/OFF key function], this will become Step 2 SV.
Characters, Factory Default Setting Item, Function, Setting Range SV4 • Sets SV4. • Corresponds to [SV4] in Initial setting mode. If Program control is selected in [OUT/OFF key function], this will become Step 4 SV.
Characters, Factory Default Setting Item, Function, Setting Range Step 6 SV • Sets Step 6 SV. • Setting range: Scaling low limit to Scaling high limit (*1) Available only when Program control is selected in [OUT/OFF key function]. Step 6 time • Sets Step 6 time. • Setting range: , or 00:00 to 99:59 If is set, Step 6 time will be held, and Fixed value control will be performed using Step 6 SV. Available only when Program control is selected in [OUT/OFF key function].
Characters, Factory Default Setting Item, Function, Setting Range Step 8 SV • Sets Step 8 SV. • Setting range: Scaling low limit to Scaling high limit (*1) Available only when Program control is selected in [OUT/OFF key function]. Step 8 time • Sets Step 8 time. • Setting range: , or 00:00 to 99:59 If is set, Step 8 time will be held, and Fixed value control will be performed using Step 8 SV. Available only when Program control is selected in [OUT/OFF key function].
7.2 Sub Setting Mode To enter Sub setting mode, press the and keys (in that order) together in RUN mode. Use the or key for settings (or selections). To register the set data, use the key. Explanation of setting items: • Upper left: PV Display: Indicates setting characters. • Lower left: SV Display: Indicates factory default value. • Right side: Indicates the setting item, explanation of its function and setting range (or selection item).
Characters, Factory Default Setting Item, Function, Setting Range ARW • Sets ARW (anti-reset windup). • Setting range: 0 to 100% Available only for PID control. Manual reset • Sets the reset value manually. • Setting range: Proportional band value If a value larger than 100.0% is set in [OUT1 proportional band], the setting range will be 100.0. Available only for P and PD controls. OUT1 proportional cycle • Sets proportional cycle for OUT1.
Characters, Factory Default Setting Item, Function, Setting Range OUT2 cooling method • Selects OUT2 cooling method from air, oil or water cooling. OUT2 proportional band Air cooling Oil cooling Water cooling SV (Fig. 7.2-1) • Selection item: Air cooling (linear characteristics) Oil cooling (1.5th power of the linear characteristics) Water cooling (2nd power of the linear characteristics) Available when Event output EV2 (EV2 option) or Heating/Cooling control (DS, DA options) is ordered.
Characters, Factory Default Setting Item, Function, Setting Range OUT2 low limit • Sets OUT2 low limit value. • Setting range: 0% to OUT2 high limit value (Direct current output type: -5% to OUT2 high limit value) Available when Event output EV2 (EV2 option) or Heating/Cooling control (DS, DA options) is ordered. Overlap/Dead band • Sets the overlap band or dead band for OUT1 and OUT2. + Set value: Dead band – Set value: Overlap band • Setting range: -200.0 to 200.
Characters, Factory Default Setting Item, Function, Setting Range EV1 high limit alarm value • Sets EV1 high limit alarm value. This value is available only for the following cases: (Alarm output, High/Low limits independent alarm), (Alarm output, High/Low limit range independent alarm), or (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV1 allocation]. Corresponds to [EV1 high limit alarm value] in Initial setting mode.
Characters, Factory Default and CT2 current value are alternately indicated in the PV Display. Setting Item, Function, Setting Range Heater burnout alarm 2 value • Sets the heater current value for Heater burnout alarm 2. Available only when using 3-phase. Corresponds to [Heater burnout alarm 2 value] in Initial setting mode. Characters and CT2 current value are indicated alternately in the PV Display. When OUT1 is ON, the CT2 current value is updated.
7.3 Engineering Mode To enter Engineering mode, press and hold the and in RUN mode. Use the or key for settings (or selections). To register the set data, use the key. keys (in that order) together for 3 seconds Explanation of setting items: • Upper left: PV Display: Indicates setting characters. • Lower left: SV Display: Indicates factory default value. • Right side: Indicates the setting item, explanation of its function and setting range (or selection item).
Characters, Factory Default Setting Item, Function, Setting Range Event input DI1 allocation • Selects Event input DI1 from the Event Input Allocation Table. Corresponds to [Event input DI1 allocation] in Initial setting mode.
Characters, Factory Default Setting Item, Function, Setting Range Event output EV1 allocation • Selects Event output EV1 allocation from the Event Output Allocation Table below. Corresponds to [Event output EV1 allocation] in Initial setting mode. • When changing Event output EV1 allocation, refer to Section “8.10 Items to be Initialized by Changing Settings” (p.96).
Characters, Factory Default Setting Item, Function, Setting Range EV1 alarm value • Sets EV1 alarm value. Corresponds to [EV1 alarm value] in Initial setting mode. EV1 alarm value matches EV1 low limit alarm value in the following cases: (Alarm output, High/Low limits independent alarm), (Alarm output, High/Low limit range independent alarm), or (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV1 allocation].
Characters, Factory Default Setting Item, Function, Setting Range EV1 alarm delay time • Sets EV1 alarm action delay time. Corresponds to [EV1 alarm delay time] in Initial setting mode. When setting time has elapsed after the input enters the alarm output range, the alarm is activated. • Setting range: 0 to 10000 seconds Available when any alarm from (Alarm output, High limit alarm) to (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV1 allocation].
Characters, Factory Default Setting Item, Function, Setting Range Event output EV2 allocation • Selects Event output EV2 allocation from the Event Output Allocation Table below. Corresponds to [Event output EV2 allocation] in Initial setting mode. • When changing Event output EV2 allocation, refer to Section “8.10 Items to be Initialized by Changing Settings” (p.96).
Characters, Factory Default Setting Item, Function, Setting Range EV2 alarm value 0 Enabled/Disabled • When EV2 alarm value is 0 (zero), alarm action can be Enabled or Disabled. Corresponds to [EV2 alarm value 0 Enabled/Disabled] in Initial setting mode.
Characters, Factory Default Setting Item, Function, Setting Range EV2 alarm hysteresis • Sets EV2 alarm hysteresis. Corresponds to [EV2 alarm hysteresis] in Initial setting mode. • Setting range: 0.1 to 1000.0 ( ), DC voltage, current inputs: 1 to 10000 (*1) Available when any alarm from (Alarm output, High limit alarm) to (Alarm output, High/Low limits with standby independent alarm) is selected in [Event output EV2 allocation]. EV2 alarm delay time • Sets EV2 alarm action delay time.
Characters, Factory Default Setting Item, Function, Setting Range Sensor correction coefficient • Sets sensor correction coefficient. Sets slope of input value from a sensor. PV after sensor correction= Current PV x (Sensor correction coefficient) + (Sensor correction value) Refer to Section ‘9.1 Input Value Correction’ (p. 97). • Setting range: -10.000 to 10.000 Sensor correction • This corrects the input value from the sensor.
Characters, Factory Default Setting Item, Function, Setting Range Communication speed • Selects a communication speed equal to that of the host computer. • Selection item: 9600 bps 19200 bps 38400 bps Available only when Serial communication (C5W, C5 options) is ordered. Data bit/Parity • Selects data bit and parity. • Selection item: 8 bits/No parity 7 bits/No parity 8 bits/Even 7 bits/Even 8 bits/Odd 7 bits/Odd Available only when Serial communication (C5W, C5 options) is ordered.
Characters, Factory Default Setting Item, Function, Setting Range External setting input high limit • Sets External setting input high limit value. (This value corresponds to 20 mA in Direct current input.) • Setting range: External setting input low limit to Input range high limit Available only when External setting input (EIT option) is ordered. External setting input low limit • Sets External setting input low limit value. (This value corresponds to 4 mA in Direct current input.
Characters, Factory Default Setting Item, Function, Setting Range Power restore action • Selects the program status if a power failure occurs mid-program and it is restored. • Selection item: Stops after power is restored. Continues (resumes) after power is restored. Suspends (on hold) after power is restored. Available only when Program control is selected in [OUT/OFF key function]. Program start temperature • Sets the step temperature when Program control starts.
Characters, Factory Default Setting Item, Function, Setting Range SV fall rate • Sets SV fall rate (falling value for 1 minute). When the SV is adjusted, it approaches the new SV by the preset rate-of-change ( /min, /min). When the power is turned on, the control starts from the PV and approaches the SV by the rate-of-change ( /min, /min). • Setting range: 0 to 10000 /min ( /min) Thermocouple, RTD inputs with a decimal point: 0.0 to 1000.
Characters, Factory Default Setting Item, Function, Setting Range Indication time • Sets time to backlight from no operation status until backlight is switched off. Backlight relights by pressing any key while backlight is OFF. • Setting range: 00:00 to 60:00 (Minutes:Seconds) When set to 00:00, remains ON. OUT1 MV preset value • If ‘Preset output 1 ON/OFF’ or ‘Preset output 2 ON/OFF’ is selected in [Event input allocation], OUT1 MV can be set.
8. Operation and Settings of Standard Functions 8.1 Selecting an input type Select an input type in [Input type] in Initial setting mode. Selection item: K -200 to 1370 K -200.0 to 400.0 J -200 to 1000 R 0 to 1760 S 0 to 1760 B 0 to 1820 E -200 to 800 T -200.0 to 400.0 N -200 to 1300 PL- 0 to 1390 C(W/Re5-26) 0 to 2315 Pt100 -200.0 to 850.0 JPt100 -200.0 to 500.
8.2 Selecting PID Control or ON/OFF Control Selects PID or ON/OFF control action. Select PID or ON/OFF control action in [OUT1 proportional band] in Sub setting mode. If ‘OUT1 proportional band’ is set to 0 (zero), the unit performs ON/OFF control action. Factory default value is PID control. PID control Proportional (P) action suppresses overshoot and hunting, Integral (I) action corrects offset, and Derivative (D) action converges rapid temperature change due to disturbance in shorter time.
8.3 Selecting Direct/Reverse Action Selects Direct or Reverse control action. Select Direct or Reverse control action in [Direct/Reverse action] in Sub setting mode. Factory default value is Reverse action. Direct action In Direct action, MV is increased when PV is higher than SV (positive deviation). Refrigerators, etc. perform Direct action. MV Low High PV SV (Fig. 8.3-1) Reverse action In Reverse action, MV is increased when SV is higher than PV (negative deviation). Electric furnaces, etc.
8.4 Performing Fixed Value Control Fixed value control is a typical temperature control action, which reduces deviation from a single SV by comparing with PV. To perform Fixed value control, set the SV. There are 2 ways to set the SV. • Set the SV in [SV1] in Initial setting mode. • Set the SV in [SV1] in Main setting mode. Setting item [SV1] in Initial setting mode corresponds to [SV1] in Main setting mode. Therefore, if one SV1 is changed, the other SV1 will also be changed.
8.5 Setting PID Constants (by Performing AT) Notice • Perform the AT during the trial run. • During the AT, none of the setting items can be set. • If power failure occurs during the AT, the AT stops. • If AT is cancelled during the process, P, I and D values revert to the values before AT was performed. • AT will be forced to stop if it has not been completed within 4 hours. • Sometimes the AT process will not fluctuate if AT is performed at or near room temperature.
[C] If there is a large difference between the SV and PV as the temperature is falling When AT bias is set to 20 , the AT process will fluctuate at the temperature 20 higher than the SV. Temperature 20 Temperature higher than the SV (1) Calculating PID constants (2) PID constants calculated (3) Controlled by the PID constants set by AT. (4) AT bias value (Factory default: 20 ) (4) SV Time AT starting point (1) (2) (3) (Fig. 8.
(Example) Performing Usual AT Power ON RUN mode PV/SV Display + Sub setting mode AT/Auto-reset Perform/Cancel or Select AT Perform. RUN mode PV/SV Display Now, selection is complete. The AT indicator flashes while AT is performing. After AT is complete, the AT indicator goes off, and control is performed using PID constants calculated by the AT. If AT does not finish after 4 hours, the error code below will be indicated in the PV Display, and AT will automatically stop.
8.6 Performing Auto-reset Notice • Auto-reset is cancelled in approximately 4 minutes. It cannot be released while performing this function. • If input is burnt out, Auto-reset will be forced to stop. Auto-reset is performed to correct the offset at the point at which PV indication is stabilized within the proportional band during the PD control. Since the corrected value is internally memorized, it is not necessary to perform the auto-reset again as long as the process is the same.
8.7 Performing Program Control In Program control, SV changes as time elapses, and PV is controlled to order to reach each SV. SV and time can be set for every step, and a maximum of 9 steps can be repeatedly controlled. SV can be set as (Fig. 8.7-1). (e.g.) Program control of electric furnaces in ceramic manufacture, food machinery, etc. Temperature Step Time (Fig. 8.7-1) Major functions of Program control are shown below.
Program control Holding/Not holding During Program control, progress of current step is suspended (on hold). Fixed value control is performed using the SV from the point of suspension. Program control Holding/Not holding can be selected in [Event input DI1/DI2 allocation]. Advance function Interrupts current step while Program control is running, and proceeds to the beginning of the next step. By pressing the key for approx. 1 second during Program control, Advance function initiates.
Program start temperature When Program control starts, it starts from the value set in [Program start temperature]. Factory default value is 0 . Program control start type One type can be selected: PV start, PVR start, SV start. Factory default value is PV start. Program control start type PV start PVR start SV start Description When Program control starts, the SV and step time are advanced to the PV, then Program control starts.
Select ‘Program control’ in [OUT/OFF key function] in Engineering mode. Factory default value is Control output OFF function. Set the following items in Engineering mode: Step time unit, Power restore action, Program start temperature, Program control start type, Number of repetitions Program pattern can be set in Main setting mode.
(Example) Selecting Program control and Setting program pattern of (Fig. 8.7-6) Power ON RUN mode PV/SV Display + (3 sec) Engineering mode Set value lock (Many times) OUT/OFF key function or Select (Program control). (Many times) or (3 sec) RUN mode Standby (Program control waiting) Main setting mode Step 1 SV or Set to 200 . Step 1 time or Set to 1:00. Step 1 wait value or Set to 10 . Step 2 SV or Set to 200 . Step 2 time or Set to 2:00.
Step 2 wait value or Set to 0 . Step 3 SV or Set to 300 Step 3 time or Set to 0:30. Step 3 wait value or Set to 10 . Step 4 SV or Set to 300 . Step 4 time or Set to 1:00. Step 4 wait value or Set to 0 . Step 5 SV or Set to 0 .
Step 5 time or Set to 2:00. Step 5 wait value or Set to 0 . (Many times) or (3 sec) RUN mode Standby (program control waiting) mode Now, selection is complete. Program control RUN To perform Program control, press and hold the key for approx. 1 second in Standby (program control waiting) mode. Program control starts using the start type selected in [Program control start type]. While Wait function is working, the PV Display flashes.
8.8 Event Output EV1 Allocation Selects Event output EV1 allocation. There are 2 methods in selection of Event output EV1 allocation. • Select in [Event output EV1 allocation] in Initial setting mode. • Select in [Event output EV1 allocation] in Engineering mode. Setting item [Event output EV1 allocation] in Initial setting mode corresponds to [Event output EV1 allocation] in Engineering mode.
(Example) Selecting High limit alarm, and setting EV1 alarm value to 20 Power ON RUN mode PV/SV Display + (3 sec) Initial setting mode Input type (3 times) Event output EV1 allocation or Select (High limit alarm). (2 times) EV1 alarm value or Set to 20 . (Many times) or (3 sec) RUN mode PV/SV Display Now, settings are complete.
8.9 Indicating MV, Remaining Time (Program Control) In Fixed value control and Program control, MV and remaining time are indicated. To indicate MV, press and hold the key for approx. 3 seconds in PV/SV Display. The unit enters Monitor mode, and indicates MV. While MV is indicating, the decimal point flashes. While in Standby (Program control waiting) mode of Program control, the unit cannot move to Monitor mode. In Monitor mode, the following contents are switched every time the key is pressed.
8.10 Items to be Initialized by Changing Settings The following shows items to be initialized by setting changes.
9. Attached Function 9.1 Input Value Correction Input value can be corrected in [Sensor correction coefficient] and [Sensor correction] in Engineering mode. In [Sensor correction coefficient], set the slope of temperature change. In [Sensor correction], set the difference between temperatures before correction and after correction. PV after input correction is expressed with the following formula.
(Example) Setting Sensor correction coefficient to 0.800, and Sensor correction to 100.0 Power ON RUN mode PV/SV Display + (3 sec) Engineering mode Set value lock (Many times) Sensor correction coefficient. or Set to 0.800. Sensor correction or Set to 100.0 . (Many times) or (3 sec) RUN mode PV/SV Display Now, settings are complete.
9.2 Set Value Lock Locks the set values to prevent setting errors. Make a selection in [Set value lock] in Engineering mode. The setting item to be locked depends on the selection. Selection Item Change via Keypad Unlock All set values can be changed. Lock 1 None of the set values can be changed. Lock 2 In Fixed value control, only SV and Alarm value can be changed. In Program control, Step SV, Step time and Alarm value can be changed. Lock 3 All set values can be changed.
9.3 Control Output OFF Function The control action and output of an instrument (or instruments) can be turned OFF without turning OFF their power supplies using this function. Select ‘Control output OFF function’ in [OUT/OFF key function] in Engineering mode. Factory default value is Control output OFF function.
9.4 Switching Auto/Manual Control (Auto/Manual Control Function) Control action can be switched from automatic to manual and vice versa. When power to the controller is turned ON, Automatic or Manual control is selectable. Select ’Auto/Manual control’ in [OUT/OFF key function] in Engineering mode. Factory default value is Control output OFF function. Select ‘Automatic control’ or ‘Manual control' in [Auto/Manual after power interruption] in Engineering mode. Factory default value is Automatic control.
9.5 Using as a Converter This instrument can be used as a simplified converter. Converts each input value (thermocouple, RTD, DC voltage and current inputs) to ‘4 to 20 mA DC’, and outputs it. When OUT1 is Direct current output, the controller can be used as a converter. Select ‘Converter’ in [Controller/Converter] in Engineering mode. Factory default value is Controller. When this instrument is switched from controller to converter, values in the table below (Table 9.5-1) are automatically set.
Setting Item Set Value (or Selection) Remote/Local Local (EIT option) Transmission output type PV transmission (EIT option) Transmission output high limit 1370 (EIT option) Transmission output low limit -200 (EIT option) SV rise rate SV fall rate OUT1 high limit OUT1 low limit OUT1 rate-of-change 0 0 100 0 0 (*) When input range is changed while this instrument is used as a converter, SV1 to SV4, OUT1 and OUT2 proportional bands will be automatically set to values corresponding to the input
9.6 Clearing Data If data is cleared, data will revert to factory default values. To clear data, press and hold , , , (in that order) together for approx. 3 seconds in the PV/SV Display. The unit enters [Data clear Yes/No] mode. Select ‘Yes’, and press the key. Data will be cleared. While data is clearing, is indicated in the PV Display. Executing data clear Power ON + RUN mode PV/SV Display + + (3 sec) Data clear Start/Stop or Select (Yes). Data is clearing.
10. Action Explanation 10.1 OUT1 Action Contro l action Reverse (Heating) action Direct (Cooling) action Proportional band Proportional band ON ON OFF OFF SV 7 Relay contact output 8 SV 7 7 7 8 8 8 Cycle action is performed according to deviation. + 7 Non-contact voltage output + 7 12 V DC 8 + 7 + 7 8 + 7 20 mA DC 20 to 4 mA DC 8 8 8 + 7 0/12 V DC 8 0 V DC 8 12 V DC 8 Cycle action is performed according to deviation.
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Low limit with standby alarm High limit with standby alarm EV1 hysteresis EV1 hysteresis ON ON Alarm action OFF OFF -EV1 value Alarm output SV +EV1 value -EV1 value + side + side - side - side SV +EV1 value H/L limits with standby independent alarm High/Low limits with standby alarm EV1 hysteresis EV1 hysteresis ON ON Alarm action OFF OFF EV1 value SV EV1 value EV1 low limit value Alarm output : Event output 1 terminals 3 and 4: ON (closed).
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11. Specifications 11.1 Standard Specifications Rating Rated scale Input K J R S B E T N PLC(W/Re5-26) Pt100 JPt100 4 to 20 mA 0 to 20 mA 0 to 1 V 0 to 5 V 1 to 5 V 0 to 10 V Scale Range -200 to 1370 -328 to 2498 -200.0 to 400.0 -328.0 to 752.0 -200 to 1000 -328 to 1832 0 to 1760 32 to 3200 0 to 1760 32 to 3200 0 to 1820 32 to 3308 -200 to 800 -328 to 1472 -200.0 to 400.0 -328.0 to 752.0 -200 to 1300 -328 to 2372 0 to 1390 32 to 2534 0 to 2315 32 to 4199 -200.0 to 850.0 -328.0 to 1562.
General Structure External BCS2 dimensions BCR2 BCD2 Mounting Case Front panel Drip-proof/Dust-proof Standards EN Indication PV Display structure SV Display MEMO/STEP Display (BCR2, BCD2) Action indicators 48 x 48 x 68 mm (W x H x D) (Depth of control panel interior: 60) 48 x 96 x 68 mm (W x H x D) (Depth of control panel interior: 60) 96 x 96 x 68 mm (W x H x D) (Depth of control panel interior: 60) Flush Flame-resistant resin, Black Membrane sheet Front panel: IP66, Rear case: IP20, Terminal section: I
Terminal arrangement Console connector Setting Structure Function UP key key DOWN key MODE key OUT/OFF key Refer to ‘Terminal arrangement’. (p.19) By connecting to the tool cable (CMD-001, sold separately), the following operations can be conducted from an external computer using the Console software SWC-BCx01M. • Reading and setting of SV, PID and various set values • Reading of PV and action status • Function change Increases the numeric value.
Manual reset OUT1 ON/OFF hysteresis Control output OUT1 high limit, OUT1 low limit Relay contact 1a Non-contact voltage (For SSR drive) Direct current Standard Function EV1 output Alarm action Type Action Hysteresis Output Alarm value 0 Enabled/ Disabled Loop break alarm Proportional band value Thermocouple, RTD inputs: 0.1 to 1000.0 ( ) Direct current, voltage inputs: 1 to 10000 (The placement of the decimal point follows the selection.
Simplified converter function If ‘Converter’ is selected in [Controller/Converter function], this instrument can be used as a converter, by setting the following items.
SV rise rate SV fall rate OUT1 high limit OUT1 low limit OUT1 rate-of-change 4 to 20 mA DC Load resistance: Max 550 0 0 100 0 0 Insulation, Dielectric Strength Circuit insulation BCS2 configuration When the C5W or C5 option is ordered. Electrically insulated 1 2 7 13 POWER SUPPLY 14 3 9 CPU 4 6 8 15 EV1 5 OUT1 CT1 CT2 16 17 EV2 OUT2 TC RTD DC RS-485 18 10 11 12 5 P24 : When C5W option is ordered. 6 When the EIW, EI or W option is ordered.
Circuit insulation configuration When the EIT option is ordered. Electrically insulated 1 2 7 13 POWER SUPPLY CT1 8 14 3 15 9 TA EV1 4 5 6 OUT1 CPU 16 17 EV2 OUT2 EXT CONT 18 10 TC RTD DC 11 12 5 P24 6 When OUT1 is a non-contact voltage output or direct current output, and when OUT2 is a non-contact voltage output or direct current output, OUT1 is not electrically insulated from OUT2. Insulation resistance: 10 M min., at 500 V DC BCR2, BCD2 When the C5W or C5 option is ordered.
Circuit insulation configuration When the EIW or W option is ordered. 8 9 12 DI1 DI2 13 14 Electrically insulated POWER SUPPLY 1 CT1 CT2 15 OUT1 2 16 3 17 CPU 21 EV1 18 19 20 22 TC RTD DC EV2 OUT2 23 24 19 P24 : When EIW option is ordered. 20 When the EIT or EI option is ordered.
Power consumption 100 to 240 V AC 24 V AC 24 V DC Rush current Ambient temperature Ambient humidity Weight BCS2 BCR2 BCD2 Accessories included Accessories sold separately Environmental specification Attached Functions Sensor correction coefficient Sensor correction Set value lock Auto/Manual control switching SV ramp function SV Rise/Fall rate start type Program control Power failure countermeasure Self-diagnosis Automatic cold junction temperature compensation Indication range, Control range Thermo
Input error Overscale Underscale Burnout PV has exceeded Input range high limit value (DC voltage, current inputs: Scaling high limit value). PV and [ ] are alternately indicated in the PV Display. For Manual control, the preset MV is outputted. PV has dropped below Input range low limit value (DC voltage, current inputs: Scaling low limit value). PV and [ ] are alternately indicated in the PV Display. For Manual control, the preset MV is outputted.
11.2 Optional Specifications Event input 2 points of Event input (1 point for EIT option) can be applied. BCS2: EIW, EIT, EI options Any Event selected in [Event input DI1/DI2 allocation] will be performed BCR2/BCD2: C5W, EIW, depending on the DI1/DI2 input ON (Closed) or OFF (Open) status. EIT, EI options Circuit current when Closed: Approx. 16 mA Event output Output will be turned ON or OFF depending on the event conditions (EV2 option) selected in [Event output EV2 allocation].
Serial communication (C5W, C5 options) External setting input (EIT option) Transmission output (EIT option) Insulated power output (P24 option) The following operations can be carried out from an external computer. Serial communication and Console communication cannot be used together. (1) Reading and setting of the SV, PID values and various set values (2) Reading of the PV and action status (3) Function change Cable length: Max 1.
12. Troubleshooting If any malfunctions occur, refer to the following items after checking that power is being supplied to the controller. 12.1 Indication Problem [ ] is indicated in the PV Display. [ ] is indicated in the PV Display. PV and [ ] are alternately indicated in the PV Display. PV and [ ] are alternately indicated in the PV Display. [ ] and [ ] are alternately indicated in the PV Display. Possible Cause Internal non-volatile IC memory is defective.
Problem [ ] and [ ] are alternately indicated in the PV Display. [ ] is indicated in the PV Display. [ ], nothing or PV is indicated in the PV Display. The indication of PV Display is irregular or unstable. Possible Cause PV has dropped below the Indication range and Control range. Check whether input signal wire for DC voltage (1 to 5 V DC) or Direct current (4 to 20 mA DC) is disconnected. Solution Check the input signal source and wiring of input terminals.
Problem The PV Display keeps indicating the value set in [Scaling low limit]. Possible Cause Check whether the input signal wire for DC voltage (0 to 5 V DC, 0 to 10 V DC) and Direct current (0 to 20 mA DC) is disconnected. Check whether the input terminals for DC voltage (0 to 5 V DC, 0 to 10 V DC) or Direct current (0 to 20 mA DC) are securely connected to the instrument input terminals.
12.2 Key Operation Problem None of the set values can be set. Only SV and Alarm value can be set. Other settings are impossible. The setting indication does not change in the input range, and new values are unable to be set. Possible Cause Set value lock (Lock 1 or Lock 4) is selected. AT, ‘AT on startup’ or Auto-reset is performing. Solution Release the lock in [Set value lock]. In the case of AT or ‘AT on startup’, cancel AT or ‘AT on startup’. Please wait until auto-reset is finished.
12.3 Control Problem Temperature does not rise. The control output remains in an ON status. The control output remains in an OFF status. [ ] is indicated in the PV display. Possible Cause Sensor is out of order. Check whether the Sensor or control output terminals are securely mounted to the instrument input terminals. Check whether the wiring of sensor or control output terminals is correct. OUT1 or OUT2 low limit value is set to 100% or higher. Solution Replace the sensor.
13. Character Table 13.1 Error Code Error codes are indicated in the PV Display. Error Code Error Contents Internal non-volatile IC memory is defective. Data writing (in non-volatile IC memory) error when power failure occurs. PV has exceeded Input range high limit value (Scaling high limit value for DC voltage, current inputs). PV has dropped below Input range low limit value (Scaling low limit value for DC voltage, current inputs). Input burnout or disconnection.
13.2 Run Mode Character Indicated Item Name Control output OFF Manual control (MV flashes.
13.3 Monitor Mode Character Indicated Item Name MV [MV] (Decimal point flashes.
13.4 Initial Setting Mode The PV Display indicates setting characters, and the SV Display indicates factory default value. Characters, Setting Item, Setting Range Factory Default Input type K -200 to 1370 K -328 to 2498 K -200.0 to 400.0 K -328.0 to 752.0 J -200 to 1000 J -328 to 1832 R 0 to 1760 R 32 to 3200 S 0 to 1760 S 32 to 3200 B 0 to 1820 B 32 to 3308 E -200 to 800 E -328 to 1472 T -200.0 to 400.0 T -328.0 to 752.
Characters, Factory Default Setting Item, Setting Range Event output EV1 allocation [Event Output Allocation Table] No event Alarm output, High limit alarm Alarm output, Low limit alarm Alarm output, High/Low limits alarm Alarm output, High/Low limits independent alarm Alarm output, High/Low limit range alarm Alarm output, High/Low limit range independent alarm Alarm output, Process high alarm Alarm output, Process low alarm Alarm output, High limit with standby alarm Alarm output, Low limit with standby a
Characters, Factory Default Setting Item, Setting Range EV1 alarm hysteresis Setting range: 0.1 to 1000.
Characters, Factory Default Setting Item, Setting Range EV2 alarm value High limit alarm -(Input span) to Input span ( ) (*1) (*2) Low limit alarm -(Input span) to Input span ( ) (*1) (*2) High/Low limits alarm 0 to Input span ( ) (*1) (*2) High/Low limits independent 0 to Input span ( ) (*1) (*2) alarm High/Low limit range alarm 0 to Input span ( ) (*1) (*2) High/Low limit range 0 to Input span ( ) (*1) (*2) independent alarm Process high alarm Input range low limit to Input range high limit (*1) (*3) Pro
Characters, Factory Default and CT2 current value are alternately indicated in the PV Display. Setting Item, Setting Range Heater burnout alarm 2 value Setting range: 20 A: 0.0 to 20.0 A, 100 A: 0.0 to 100.0 A Loop break alarm time Setting range: 0 to 200 minutes Loop break alarm span Setting range: 0 to 150 ( ), or 0.0 to 150.
Characters, Factory Default Setting Item, Setting Range Transmission output high limit PV, SV transmission Transmission output low limit to Input range high limit DC voltage, currents: -2000 to 10000 MV transmission Transmission output low limit to 105.0% DV transmission Transmission output low limit to Scaling span (*1) Transmission output low limit PV, SV transmission Input range low limit to Transmission output high limit DC voltage, currents: -2000 to 10000 -5.
13.5 Main Setting Mode The PV Display indicates setting characters, and the SV Display indicates factory default value.
Characters, Factory Default Setting Item, Setting Range Step 7 SV Setting range: Scaling low limit to Scaling high limit (*1) Step 7 time Setting range: , or 00:00 to 99:59 Step 7 wait value Setting range: 0 to Converted value of 20% of the input span DC voltage, current inputs: 0 to Converted value of 20% of scaling span (*1) Step 8 SV Setting range: Scaling low limit to Scaling high limit (*1) Step 8 time Setting range: , or 00:00 to 99:59 Step 8 wait value Setting range: 0 to Converted value of 20% of t
13.6 Sub Setting Mode The PV Display indicates setting characters, and the SV Display indicates factory default value. Characters, Setting Item, Setting Range Factory Default AT/Auto-reset Perform/Cancel AT/AT on startup/Auto-reset Cancel AT Perform AT on startup Perform Auto-reset Perform OUT1 proportional band Setting range: 0 to Input span ( ) DC voltage, current inputs: 0.0 to 1000.
Characters, Factory Default Setting Item, Setting Range Overlap/Dead band Setting range: -200.0 to 200.0 ( ), DC voltage, current inputs: -2000 to 2000 (*1) Direct/Reverse action Reverse (Heating) action Direct (Cooling) action EV1 alarm value and CT1 current value are alternately indicated in the PV Display. and CT2 current value are alternately indicated in the PV Display.
13.7 Engineering Mode The PV Display indicates setting characters, and the SV Display indicates factory default value. Characters, Setting Item, Setting Range Factory Default Set value lock Change via Keypad Unlock Lock 1 Change via Software Communication All set values can be changed. All set values can be changed. None of the set values can be changed. Lock 2 In Fixed value control, only SV and Alarm value can be changed. In Program control, Step SV, Step time and Alarm value can be changed.
Characters, Factory Default Setting Item, Setting Range Event input DI2 allocation Selection item: Same as Event input DI1 allocation Event output EV1 allocation [Event Output Allocation Table] No event Alarm output, High limit alarm Alarm output, Low limit alarm Alarm output, High/Low limits alarm Alarm output, High/Low limits independent alarm Alarm output, High/Low limit range alarm Alarm output, High/Low limit range independent alarm Alarm output, Process high alarm Alarm output, Process low alarm Alar
Characters, Factory Default Setting Item, Setting Range EV1 high limit alarm value Setting range: Same as those of EV1 alarm value EV1 alarm hysteresis Setting range: 0.1 to 1000.
Characters, Factory Default Setting Item, Setting Range EV2 alarm value High limit alarm -(Input span) to Input span ( ) (*1) (*2) Low limit alarm -(Input span) to Input span ( ) (*1) (*2) High/Low limits alarm 0 to Input span ( ) (*1) (*2) High/Low limits independent 0 to Input span ( ) (*1) (*2) alarm High/Low limit range alarm 0 to Input span ( ) (*1) (*2) High/Low limit range 0 to Input span ( ) (*1) (*2) independent alarm Process high alarm Input range low limit to Input range high limit (*1) (*3) Pro
Characters, Factory Default Setting Item, Setting Range Communication protocol Shinko protocol Modbus ASCII Modbus RTU Instrument number Setting range: 0 to 95 Communication speed 9600 bps 19200 bps 38400 bps Data bit/Parity 8 bits/No parity 7 bits/No parity 8 bits/Even 7 bits/Even 8 bits/Odd 7 bits/Odd Stop bit 1 bit 2 bits Response delay time Setting range: 0 to 1000 ms SVTC bias Setting range: Converted value of 20% of the input span DC voltage, current inputs: 20% of the scaling span (*1) Remote/Local
Characters, Factory Default Setting Item, Setting Range Transmission output type PV transmission SV transmission MV transmission DV transmission Transmission output high limit PV, SV transmission Transmission output low limit to Input range high limit value MV transmission Transmission output low limit to 105.
Characters, Factory Default Setting Item, Setting Range Indication when control output OFF OFF indication No indication PV indication PV indication + Any Alarm active AT bias Setting range: 0 to 50 (0 to 100 ), or 0.0 to 50.0 (0.0 to 100.0 ) AT gain Setting range: 0.1 to 10.
***** Inquiries ***** For any inquiries about this unit, please contact our agency or the vendor where you purchased the unit after checking the following. [Example] • Model ------------------------------ BCS2R00-12 • Option ----------------------------- EV2, C5W(100A) • Serial number ------------------- No. 145F05000 In addition to the above, please let us know the details of the malfunction, or discrepancy, and the operating conditions. SHINKO TECHNOS CO., LTD.
