Page 1 SDC35/36. It also provides necessary information for installation, mainte- nance, and troubleshooting. This manual should be read by those who design and maintain equipment that uses the SDC35/36. Be sure to keep this manual nearby for handy reference.
Page 2 Try looking at these pages first, and then read the main text for details. A separate color version of the quick guide printed on dirt-resistant paper is available for convenient use on the work site (document No. CP-SP-1203E). Contact Yamatake Corporation or a distributor for details.
Page 3 SAFETY REQUIREMENTS To reduce risk of electric shock which could cause personal injury, follow all safety notices in this documentation. This symbol warns the user of a potential shock hazard where hazardous live voltages may be accessible. If the equipment is used in a manner not specified by the manufacturer, the protection •...
Page 4 SAFETY PRECAUTIONS ■ About Icons The safety precautions described in this manual are indicated by various icons. Please be sure you read and understand the icons and their meanings described below before reading the rest of the manual. Safety precautions are intended to ensure the safe and correct use of this prod- uct, to prevent injury to the operator and others, and to prevent damage to proper- ty.
Page 5 WARNING Do not disassemble the SDC35/36. Doing so might cause electric shock or faulty operation. Before wiring, or removing/mounting the SDC35/36, be sure to turn the power OFF. Failure to do so might cause electric shock. Do not touch electrically charged parts such as the power terminals.
Page 6 CAUTION The part between the control output 1 and control output 2 is not isolated. When necessary, use an appropriate isolator. Do not connect multiple loader cables to multiple units from one personal computer. The current coming from other circuits might cause the PV value indication error to occur.
Page 7 The Role of This Manual Four manuals are available for the SDC35/36 Single Loop Controller (hereafter referred to as "this unit"). Read appropriate manuals according to your requirements. If you do not have your required manual, contact Yamatake Corporation or its dealer.
Page 8 This chapter lists up the display items of this unit and their contents. Chapter 7. CPL COMMUNICATION FUNCTION This chapter describes how to communicate this unit with a host unit, such as a personal computer or PLC through Yamatake's standard CPL communication using RS-485. Chapter 8. MODBUS COMMUNICATION FUNCTION This chapter describes how to communicate this unit with a host unit, such as a personal computer or PLC through MODBUS communication.
Page 9 Organization of This User's Manual Conventions Used in This Manual SDC35/36 Quick Reference Guide Part names • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • •...
Page 10 ■ Connection of open collector output to digital input • • • • • • • • • • • • • • • • • • • ■ Connection of communication (RS-485) cable • • • • • • • • • • • • • • • • • • • • • • • • • ■...
Page 11 ■ SP setup in operation display mode 5-33 • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • ■...
Page 12: User Function
5-10 Application Examples 5-78 • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • ■...
Page 13 ■ Zone bank 6-11 • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • 6-3 List of Setup Setting Displays 6-12 •...
Page 14 8-3 Description of Commands • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • ■...
Page 15 The following conventions are used in this manual: Handling Precautions : Handling Precautions indicate items that the user should pay attention to when handling the SDC35/36. : This indicates the item or page that the user is requested to refer to. Note : Notes indicate useful user tips and information.
Page 17 This guide is made for repeated use. Dirt wipes off easily and even notes written with an oil-based felt-tip pen can be removed with an eraser. If more detailed information on the SDC35/36 is needed, refer to the user's manu- al: CP-SP-1150E for installation and configuration.
Page 18 When the power is turned ON [display] key ① ② [para] key 2-second press + hold of [display] key [para] key [para] key [V] key [display] key [ ] key [enter] key [enter] key While AUtO is flashing, [enter] key 2-second press 2-second press + hold of + hold of [ ] key [para] key...
Page 19 [display] key [para] key [V] key [ ] key [enter] key 2-second press + hold of [para] key...
Page 20 Setup of PV input range type Setup of event operation type In this example, the event 1 operation type is set to deviation high limit. Press [display] once Press and hold to get the operation [para] for more than display. 2s to get the para- meter setup display.
Page 21 Press and hold Press [display] once [mode] for more to get the operation than 2s, display. flashes on the lower display. If the control method is The [mode] key can be set to "ON/OFF control" used for 1 of 7 different and if the DI assignment operations.
Page 22 List of operation displays Display Item Contents Initial value Setting value Upper display: PV Lower display: SP SP(Target value) SP low limit to SP high limit LSP 1 (Display example) LSP group number 1 to LSP system group (Max. 4) (1st digit=the right end digit) St 1-(Display example) Step operation remaining...
Page 23 • Items marked ● in the tables are displayed in standard and/or high function configuration. • To change a user level, refer to in the lower right part of this page. Changing the user level Display Item Contents Initial value Setting value Precaution for setup MV display setup...
Page 24 PV input range table Event type [Thermocouple] [RTD] Operation Direct action Reverse action type value ● shows that the ON/OFF is changed at this value. ● shows that the ON/OFF is changed at this value. O shows that the ON/OFF is changed at a point that O shows that the ON/OFF is changed at a point that Sensor Sensor...
Page 25 Chapter 1. OVERVIEW 1 - 1 Overview This unit is a compact controller having a mask of 48 X 96 mm or 96 X 96 mm and provides the following features: • The depth is only 65 mm, providing excellent space-saving. •...
Page 26 Specifications Remarks model No. output input supply treatment SDC35 Mask size 48 mm X 96 mm SDC36 Mask size 96 mm X 96 mm Panel mounting type Control output 1 Control output 2 Relay output NO Relay output NC (Note 3)
Page 27 Chapter 1. OVERVIEW ■ Accessories and optional parts Name Model No. Mounting bracket 81409654-001 (Accessory) Current transformer QN206A (5.8mm hole dia.) QN212A (12mm hole dia.) Hard cover 81446915-001 (for C35) 81446916-001 (for C36) Soft cover 81441121-001 (for C35) 81441122-001 (for C36) Terminal cover 81446912-001 (for C35) 81446913-001 (for C36)
Page 28 Covers the slit, which is used to pull out the console from the main body. Handling Precautions The user must not touch the cap. This cap is used only by Yamatake’s engineers when repairing this controller. If the cap is pulled forcibly, this may be broken.
Page 29 Chapter 1. OVERVIEW ● Detailed description of console [mode] key When this key is kept pressed for 1 sec. or longer in the operation display mode, any of the following operations, which have been set previously, can be performed: • AUTO/MANUAL mode selection •...
Page 30 Chapter 1. OVERVIEW Mode indicators [man]: AUTO/MANUAL mode indicator. Lights in MANUAL mode. [rsp]: LSP/RSP mode indicator. Lights in RSP mode. [ev1], [ev2], [ev3]: Event output 1 to 3 indicator. Lights when event relays are [ot1], [ot2]: Control output 1 and 2 indicator. Lights when the control output is ON.
Page 31 Chapter 1. OVERVIEW ■ Rear panel ● C35 ● C36 Terminal part: The power supply, input, and output are connected to the terminals. The M3 screw is used. When connecting to the terminal, always use a correct crimp type terminal lug suitable for the M3 screw. The tightening torque of the terminal screw is 0.4 to 0.6N·m or less.
Page 33 Chapter 2. OUTLINE OF FUNCTIONS 2 - 1 Input/Output Configuration Other Control output 1, 2 (Current output/ Analog continuous voltage output) output PV input process process Auxiliary output Control (Current output/ process continuous voltage output) (ON/OFF RSP input process control, PID control) Digital input...
Page 34 Various displays or settings can be called up on the console through key operation. The following describes the general flow of key operation: The display and setting data are arranged as shown in the following tree-structure: Operation Display PV and SP Bank Selection LSP group selection Mode...
Page 35 Chapter 2. OUTLINE OF FUNCTIONS Display when the power is turned ON. The mode indicators are sequentially The mode lit for up to 5s after the power has Off. indicators are been turned ON while both the upper sequentially lit. display and lower display are off.
Page 36 Chapter 2. OUTLINE OF FUNCTIONS • When pressing the [<] key with the [para] key kept pressed instead of pressing of the [para] key on the setting display, various displays and settings can be operated in the reverse order. However, the operation that both the [para] key and [<] key are kept pressed for 2s or longer, is invalid.
Page 37 Chapter 2. OUTLINE OF FUNCTIONS (This Figure shows the display (This Figure shows the display when the 1st digit of "0001" is when the entire character string flashing.) "rUn" is flashing.) (3) Press the [enter] key. >> The flashing display is stopped, and then the data you have changed is set. ●...
Page 38 Chapter 2. OUTLINE OF FUNCTIONS (This Figure shows the display (This Figure shows the display when the 1st digit of "0001" is when the entire character string flashing.) "rUn" is flashing.) (3) Release the key and wait for a while. >>...
Page 39 Chapter 2. OUTLINE OF FUNCTIONS ■ [mode] key operating procedures When the [mode] key is kept pressed for 1 sec. or longer on the operation display, the selection operation, which has been set using the [mode] key function (C72) of the setup setting, can be performed.
Page 40 Chapter 2. OUTLINE OF FUNCTIONS 2 - 3 Operation Modes The following shows the transition of operation modes: RUN + AUTO mode READY + AUTO mode LSP mode RSP mode LSP mode RSP mode RUN/READY AT stop AT running AT stop AUTO/MANUAL AUTO/MANUAL RUN + MANUAL mode...
Page 41 Chapter 3. INSTALLATION CAUTION Use the SDC35/36 within the operating ranges recommended in the specifications (temperature, humidity, voltage, vibration, shock, mounting direction, atmosphere, etc.). Failure to do so might cause fire or faulty operation. Do not block ventilation holes. Doing so might cause fire or faulty operation.
Page 42 Chapter 3. INSTALLATION ■ Panel Cutout Dimensions Make the mounting holes according to the panel hole marking dimensions. ● C35 Unit: mm Gang-mounting Stand-alone mounting +0.5 +0.5 30 min. (48xN-4) ● C36 Unit: mm Stand-alone mounting Gang-mounting +0.5 +0.5 (96xN-4) 30 min.
Page 43 Chapter 3. INSTALLATION ■ Mounting procedures • The mounting must be horizontal within 10 degrees tilted on the back side lowering or within 10 degrees tilted on the back side rising. • The mounting panel should be used with a thickness of less than 9 mm of firm board.
Page 44 The display can be seen with the cover kept closed. Raise the cover to operate the key. Items to be prepared: Hard cover (for SDC35) Part No. 81446915-001 (Optional unit) Hard cover (for SDC36) Part No. 81446916-001 (Optional unit) Hard cover...
Page 45 Attaching the soft cover to the front console provides the protection (IP66) similar to the waterproof mounting using the gasket. Items to be prepared: Soft cover (for SDC35) Part No. 81441121-001 (Optional unit) (for SDC36) Part No. 81441122-001 (Optional unit) Panel...
Page 47 WIRING 4 - 1 Wiring WARNING Before wiring, or removing/mounting the SDC35/36, be sure to turn the power OFF. Failure to do so might cause electric shock. Do not touch electrically charged parts such as the power terminals. Doing so might cause electric shock.
Page 48 Chapter 4. WIRING ■ Terminal assignment label symbols The following table shows the meanings of the symbols used for the terminal assignment label attached to the side panel of this unit: Symbol Contents DC power supply Caution, Electric shock hazard Caution ■...
Page 49 Chapter 4. WIRING • When the motor power to be connected to the motor drive relay output is 100Vac or 200Vac, use an external auxiliary relay. • Do not run the motor drive terminals (13), (14), and (15), and MFB input terminals (7), (8), and (9) in the same duct.
Page 50 Chapter 4. WIRING ● Recommended crimp type terminal lugs For wiring of C35/36, use an appropriate crimp type terminal lug suitable for the M3 screw. Applicable Terminal dimensions (mm) Recommended crimp terminal Applicable electrical JST Mfg. Co. screw size JIS indication wire size Model No.
Page 51 Chapter 4. WIRING ■ Connection of open collector output to digital input The following shows a connection example when connecting to four digital input points. This unit ■ Connection of communication (RS-485) cable ● 3-wire system This unit (slave station) Master station Shield –...
Page 52 Chapter 4. WIRING ● 5-wire system This unit (slave station) Master station Shield Ð Ð This unit (slave station) Shield IMPORTANT Terminating resistor • Do not connect any terminating resistor in the communication path. Doing so might cause the communication failure. •...
Page 53 1. Yamatake's PGM10N/PGM10F series This example shows the calculation for the connection of the SDC35 and the PGM10N015. (Note: For connection with other model number, check the specifications of each model.)
Page 54 Chapter 4. WIRING 2. Omron's G3PA, G3PB, G3NA • Input current: Since the input current is 7mA or less, up to three units (7mA X 3 = 21mA < 24mA [maximum allowable current]) can be connected in parallel. • Operating voltage range (input): The rating voltage is 5 to 24Vdc or 12 to 24Vdc.
Page 55 When necessary, an appropriate external resistor is connected in series so that the voltage between the input terminals of the SSR you are using is within the specified range. (Example) Connection of two Yamatake PGM units Connection diagram External resistor R1 This unit ✽✽...
Page 56 If the noise from the power supply is large, an appropriate insulation transformer is added to the power supply and an appropriate line filter must be used. (Yamatake's line filter model No.: 81446364-001) If the noise has a fast rising edge, an appropriate CR filter must be used.
Page 57 Chapter 4. WIRING 4 - 2 Recommended Cables Contact the thermocouple wires to the terminals in case of a thermocouple input. When a thermocouple is connected to terminals, or wiring distance is long, connect the wire via a shielded compensating lead wire. •...
Page 59 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 1 PV Input The following shows the functional block diagram of the PV input: PV input is thermocouple. PV input is RTD. PV input is DC voltage/DC current. PV input range type PV input range type PV input range type (Setting: Setup C01)
Page 60 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ● PV input range table (Thermocouple) ● PV input range table (RTD) Sensor Range Range C04 initial value Sensor Range Range C04 initial value set value type (Celsius) (Fahrenheit) display range *3 when C01 or C02 set value type (Celsius)
Page 61 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Temperature unit When the PV input range type is thermocouple or RTD, the temperature unit can be selected. Item (Bank) Display Contents Initial value User level Temperature unit 0: Celsius (˚C) Basic, (Setup bank) 1: Fahrenheit (˚F).
Page 62 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ PV square root extraction dropout When the PV input range type is DC voltage or DC current, a dropout value can be set so that the result of the PV square root extraction used to convert the pressure (differential pressure) into the flow becomes "0".
Page 63 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Decimal point position When the PV input range type is DC voltage or DC current or when the PV input range type is a part of the PV input range type of thermocouple or RTD, the decimal point position of the PV input can be set.
Page 64 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ PV input range low limit/high limit When the PV input range type is DC voltage or DC current, the scaling of the PV input can be set. Item (Bank) Display Contents Initial value User level PV input range low limit When the PV input range type is DC voltage...
Page 65 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ PV filter This PV filter is a primary delay filter to be used if the PV repeatedly fluctuates rapidly and the control cannot be performed or if the PV fluctuates finely due to influence of noise, etc.
Page 66 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Zener barrier adjustment When the PV input is RTD and uses the Zener barrier, the Zener barrier needs to be adjusted. Additionally, if three wiring resistances to the PV input terminal have any variation even though the Zener barrier is not used, the Zener barrier must also be adjusted.
Page 67 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION (2) Turn ON the power to the unit and set “5” to [C88: Special function]. (3) Display [C89: Zener barrier adjustment]. Handling Precautions (If [C01: PV range type] is not RTD or if [C88: Special function] is other than “5”, [C89: Zener barrier adjustment] is not displayed.) (4) Press the [enter] key to display a difference in wiring resistance between the A and B lines on the lower display.
Page 68 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 2 Mode It is possible to set the AUTO/MANUAL mode selection, RUN/READY mode selection, LSP/RSP mode selection, Auto Tuning (AT) stop/start selection, release all digital output (DO) latches, and OFF/ON selection of communication digital input 1 (communication DI 1).
Page 69 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Auto tuning (AT) stop/start The AT stop/start selection can be set. Item (Bank) Display Contents Initial value User level Auto Tuning (AT) stop/start At.oF: AT stop [Communication value is "0".] At.oF Basic, (Mode bank) At.on: AT start [Communication value is "1".] Standard,...
Page 70 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 3 Control The following shows the functional block diagram of the control (ON/OFF control, PID control, RationaLOOP control, and Heat/Cool control, etc.): ON/OFF control Control method: ON/OFF control (Setting: Parameter CtrL must be set at "0".) Branching according to RUN/READY mode selection...
Page 71 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Fixed PID MV1 = MV 5-13...
Page 72 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Control method A desired control method can be selected from two kinds of control methods. Item (Bank) Display Contents Initial value User level Control method 0: ON/OFF control 0 or 1 Basic, (Parameter bank) 1: Fixed PID Standard,...
Page 73 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Control action and Heat/Cool control The control action (direct/reverse) and Heat/Cool control (enabled/disabled) can be selected. However, when the control output type is R1 (motor drive relay output), the Heat/Cool control is not enabled. Item (Bank) Display Contents...
Page 74 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ MANUAL mode change The control output when the AUTO mode is changed to the MANUAL mode can be set. Item (Bank) Display Contents Initial value User level Output operation at 0: Bumpless transfer Standard, changing Auto/Manual 1: Preset...
Page 75 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Initial output of PID control Item (Bank) Display Contents Initial value User level Initial output of PID control –10.0 to +110.0% 0.0% or 50.0% High function (Setup bank) • When the control method is other than the ON/OFF control (CtrL≠0), the display and setting can be performed.
Page 76 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ ON/OFF control The ON/OFF control related items can be set. Item (Bank) Display Contents Initial value User level Differential (for ON/OFF 0 to 9999U Basic, control) (Parameter bank) Standard, High function High function ON/OFF control action -1999 to +9999U point offset (Parameter...
Page 77 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ PID control In the fixed PID control, the PID control related items can be set. Item (Bank) Display Contents Initial value User level Proportional band (PID1) 0.1 to 999.9% 5.0% Basic, (PID bank) Standard, High function Integral time (PID1)
Page 78 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level 5-20...
Page 79 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level MV low limit (PID 5) Same as PID 1 0.0% Standard, High function MV high limit (PID 5) 100.0% Proportional band for cool Same as PID 1 5.0% Basic, side (PID 5)
Page 80 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level Proportional band for cool Same as PID 1 5.0% Basic, side (PID 7) Standard, High function Integral time for cool side 120s (PID 7) Derivative time for cool side (PID 7) Output low limit for cool Same as PID 1...
Page 81 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • Priorities for PID group change Priorities for PID group change are shown below. Priority High DI function Zone function During RSP SP group assignment of When PID group During use [SP group linked] >...
Page 82 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION PID 8 group PID 8 group Zone 7 Zone 7 PID 7 group PID 7 group Zone 6 Zone 6 PID 6 group PID 6 group Zone 5 Zone 5 PID 5 group PID 5 group Zone 4 Zone 4...
Page 83 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • When [C26: Heat/Cool control] is set to [1: Enabled], the display and setting can be made. • When MV ≥ 50%, the control is changed to the PID (heat). • When MV < 50%, the control is changed to the PID (cool). •...
Page 84 ■ Auto tuning (AT) The following AT related items can be set: (Note) AT derivative time adjustment coefficient Since the coefficient on position proportional control models (with code R1 in the control output segment of the model No.) is originally set at 0.00, the derivative time is 0 seconds when AT is complete.
Page 85 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION The following figure shows the conceptual diagram expressing differences in control result using the PID constant calculated by each AT type: AT type = 1 (Immediate response) AT type = 0 (Normal) AT type = 2 (Stability) Time Difference in PV change when SP is changed.
Page 86 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Just-FiTTER This Just-FiTTER function provides the effect of the overshoot suppression and the following items can be set: Item (Bank) Display Contents Initial value User level Just-FiTTER overshoot 0 to 100 Standard, limit/restraint/control (“0”: JF function disabled) High function...
Page 87 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 4 Auto Tuning (AT) Function The auto tuning (AT) function is used when the PID constants are set automatically with the control method set at “Fixed PID” ([CtrL = 1]). The AT function can be used when the control method is set to “Fixed PID”. ■...
Page 88 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Insufficient Stable stability cycle Time AT start Normal end In the Heat/Cool control, the AT function is run in the status that both the heat MV and cool MV are operated. In the first half, the MV is changed to the MV low limit/MV high limit. In the latter half, the MV is changed in a slightly narrow range.
Page 89 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • On position proportional control models (with code R1 in the control output segment of the model No.), the factory setting for At-d (AT derivative time adjustment coefficient) in the Extended tuning bank is 0.00, and therefore the derivative time is 0 seconds when AT is complete.
Page 90 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 5 Set Point (SP) The following shows the functional block diagram of the SP. For details about step operation, refer to 5-6, Step operation. LSP system group RSP input type (Setting: Setup C30) (Setting: Setup C10) Two or more LSP groups exist.
Page 91 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ SP setup in operation display mode The set value for LSP in use of LSP1 to 8 can be set. The LSP set value is different from the SP display value during SP ramp. However, the set value is displayed while the key is being operated to change the setting.
Page 92 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ RSP input range low limit/high limit The scaling of the RSP input can be set. Item (Bank) Display Contents Initial value User level RSP input range low limit -1999 to +9999 (No decimal point) Basic, (Setup bank) -199.9 to +999.9 (1 digit after the decimal...
Page 93 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ RSP filter This RSP filter is a primary delay filter to be used if the RSP deflects finely due to effect of the noise. As this set value is made larger, the RSP to be used for control of this unit becomes difficult to change.
Page 94 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ PID group number The PID group numbers to the RSP and eight groups of LSPs can be set. Item (Bank) Display Contents Initial value User level PID group number (RSP) 1 to 8 Standard, (SP bank) High function...
Page 95 ■ DI Assignment of LSP group selection The LSP group selection can be set for internal contacts 1 to 5 using the DI Assignment. • Details of LSP group selection with the internal contact function The following shows the LSP group selection value according to the ON/OFF status of each internal contact: LSP group selection (0/+1) OFF: 0...
Page 96 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ SP ramp-up/ramp-down The SP ramp-up and ramp-down can be set. Item (Bank) Display Contents Initial value User level SP ramp-up 0.0U: No ramp 0.0U High function (Parameter bank) 0.1 to 999.9U (The unit of the ramp time is selected using the SP ramp unit.) 0.0U SP ramp-down...
Page 97 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ SP multi-ramp The SP multi-ramp set values can be set for eight groups of LSPs. Item (Bank) Display Contents Initial value User level Ramp 0.0U: No ramp. 0.0U Standard (SP bank) 0.1 to 999.9U (The time unit of the ramp is selected using 0.0U the SP ramp unit.)
Page 98 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ SP low limit/high limit The SP low limit and high limit can be set to limit the SP range. • If the setting is made so that the SP low limit is greater than the SP high limit, the operation is performed with the low limit swapped for the high limit automatically.
Page 99 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 6 Step Operation Use of up to eight SP groups makes it possible to perform the step operation, in which the SP is changed, as shown in the Figure below. The step operation is set according to the LSP, ramp, and time of each step. Additionally, the PID group No.
Page 100 • The operation of this unit with the setting set at “3” (step operation, operation is recovered when the power restarts) is different from that of Yamatake’s digital programmable controller model DCP-series (DCP31/32, DCP551/552). The DCP-series functions so that the SP, RAMP, or SOAK elapse time immediately before the power cut continues even after the power has been turned ON again.
Page 101 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ SP ramp unit The ramp unit for the RAMP portion of the step operation can be set. Item (Bank) Display Contents Initial value User level SP ramp unit 0: 0.1U/s High function (Setup bank) 1: 0.1U/min 2: 0.1U/h...
Page 102 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ STEP PV start Whether or not the PV start exists and its type at start of the step operation can be set. Item (Bank) Display Contents Initial value User level STEP PV start 0: None High function (Setup bank)
Page 103 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ STEP loop Whether or not the loop exists at the end of the step operation and the operation end status can be set. Item (Bank) Display Contents Initial value User level STEP loop 0: Stop (No loop) High function (Setup bank)
Page 104 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ STEP operation LSP, PID group No., ramp, time The SP change and PID group No. by step of the step operation can be set. Item (Bank) Display Contents Initial value User level LSP1 (Step 1) SP low limit (C07) to SP high limit (C08) Basic,...
Page 105 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level • The display and setting for the number of steps set in [C30: LSP system group] can be performed. • The PID group No. cannot be displayed and set if the ON/OFF control is used, if the PID group selection is set for the operation type of internal contact 1 to 5, or if the zone PID function is used.
Page 106 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Operation type of internal contact The following shows the operation types related to the step operation. Note For details about internal contact function, refer to; 5-7, DI (Digital Input) and Internal Contact (on page 5-49). Item (Bank) Display Contents...
Page 107 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 7 Digital Input (DI) and Internal Contact The following shows the functional block diagram of the digital input (DI) and internal contact: Input bit function is not used. Input bit function is used. Input assignment Input bit function is not used.
Page 108 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Operation type The operation type by the internal contact function can be set. Item (Bank) Display Contents Initial value User level Internal Contact 1 Operation 0 to 20 Basic, type (DI Assignment bank) For details about function by each set value, Standard, refer to the Table shown on the next page.
Page 109 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION The following Table shows the contents of the dI settings: Set value Function Operation at OFF Operation at ON No function None None LSP group selection (0/+1) LSP No.: +0 LSP No.: +1 LSP group selection (0/+2) LSP No.: +0 LSP No.: +2...
Page 110 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Input bit function Four kinds of input bit functions are provided. The required functions can be configured by the user. Item (Bank) Display Contents Initial value User level Internal Contact 1 Input bit 0: Not used (Default input) High function function...
Page 111 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Input assignment The assignment of four inputs (A, B, C, D) used for the input bit function can be set. Item (Bank) Display Contents Initial value User level Internal Contact 1 Input 0: Normally opened.
Page 112 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level Internal Contact 5 Input 0: Normally opened. (OFF, 0) assignment A 1: Normally closed. (ON, 1) (DI Assignment bank) 2: DI1 3: DI2 4: DI3 5: DI4 6 to 9: Undefined.
Page 113 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Polarity of input bit function The polarity of the input bit function (functions 1 to 4) can be set. Item (Bank) Display Contents Initial value User level Internal Contact 1 Polarity 0: Direct High function (DI Assignment bank) 1: Reverse...
Page 114 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 8 Internal Event The result of the internal event process can be output to the control output or event output through the digital output (DO) process. For details, refer to; 2-1, Input/Output Configuration (on page 2-1). Operation type (Setting: Event Configuration Operation type E1.
Page 115 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Operation According to the operation type, direct/reverse, main setting, sub setting, hysteresis, and other settings, the operation of the internal event becomes as follows: [List of internal event operations] Note For details about unit (U), refer to the attached glossary. Operation type Set value Direct action...
Page 116 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Operation type Set value Direct action Reverse action ● shows that the ON/OFF is changed at this value. ● shows that the ON/OFF is changed at this value. of operation ❍ shows that the ON/OFF is changed at a point that ❍...
Page 117 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Operation type Set value Direct action Reverse action of operation type Loop diagnosis 1 The event is turned ON when any change in PV corresponding to increase/decrease in Manipulated variable (MV) is not observed. This event is used to detect any fault at the operation end.
Page 118 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Operation type Set value Direct action Reverse action of operation type Loop diagnosis 2 The event is turned ON when any change in PV corresponding to increase/decrease in Manipulated variable (MV) is not observed. This event is used to detect any fault at the operation end.
Page 119 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Operation type Set value Direct action Reverse action of operation type Loop diagnosis 3 The event is turned ON when any change in PV corresponding to increase/decrease in Manipulated variable (MV) is not observed. This event is used to detect any fault at the operation end.
Page 120 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Operation type Set value Direct action Reverse action of operation type Alarm ON if alarm occurs (alarm code AL01 to 99). OFF if alarm occurs (alarm code AL01 to 99). (status) OFF in other cases. ON in other cases.
Page 121 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Operation type The operation type of the internal event can be set. Item (Bank) Display Contents Initial value User level Internal Event 1 0: No event Basic, Configuration 1 Operation 1: PV high limit Standard, type 2: PV low limit...
Page 122 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Direct/reverse, standby, and EVENT state at READY Direct/reverse, standby, and EVENT state at READY accompanying with the operation type can be set. Item (Bank) Display Contents Initial value User level Internal Event 1 The digits are called 1st digit, 2nd digit, 3rd 0000 Basic,...
Page 123 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Alarm OR, special OFF setup, and delay time unit Alarm OR, special OFF setup, and delay time unit accompanying with the operation type can be set. Item (Bank) Display Contents Initial value User level Internal Event 1 The digits are called 1st digit, 2nd digit, 3rd...
Page 124 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Main setting, sub setting, and hysteresis Main setting, sub setting, and hysteresis accompanying with the operation type can be set. Item (Bank) Display Contents Initial value User level Internal Event 1 Main setting -1999 to +9999 Basic, (Event bank)
Page 125 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level Basic, Internal Event 8 Main setting Same as Internal Event 1 Main setting. Standard, (Event bank) High function Internal Event 8 Sub-setting Same as Internal Event 1 Sub setting. (Event bank) Internal Event 8 Hysteresis Same as Internal Event 1 Hysteresis.
Page 126 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level Internal Event 5 ON delay Same as internal event 1 ON delay. 0.0s or 0s or 0min High function (Event bank) Internal Event 5 OFF delay Same as internal event 1 ON delay.
Page 127 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 9 Digital Output (DO) The following shows the functional block diagram of the digital output (DO): MV1 process: ON/OFF control output, time proportional output, and time proportional output (heat) of Heat/Cool control. MV2 process: Time proportional output (cool) of Heat/Cool control (Setting: Parameters...
Page 128 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ MV1/MV2 process The time proportional cycle and time proportional cycle mode of MV1/MV2 can be set. Item (Bank) Display Contents Initial value User level Time proportional unit 1 (for 0: 1s unit High function MV1) 1: Cycle fixed at 0.5s.
Page 129 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • The setting of the time proportional cycle mode (tP.ty) is valid to the time proportional outputs of both MV1 and MV2. • When MV1 is connected to the relay control output or event output in the DO Assignment and the time proportional cycle 1 (Cy) is set at less than “5s”, the operation is performed at intervals of 5s.
Page 130 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Operation type The outputs of the control outputs 1 to 2 and event outputs 1 to 3 can be set using the operation type of the DO Assignment. Item (Bank) Display Contents Initial value User level Control output 1 Operation...
Page 131 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Output assignment The assignments of four inputs (A, B, C, D) used for the output bit function can be set. Item (Bank) Display Contents Initial value User level (Continue on next page.) 5-73...
Page 132 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Item (Bank) Display Contents Initial value User level Event output 2 Output Same as those on the previous page. Same as that assignment D on the (DO Assignment bank) previous page. Event output 3 Output assignment A (DO Assignment bank) Event output 3 Output...
Page 133 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Polarity of output assignment The polarity of four output assignments (A, B, C, D) used for the output bit function can be set. Item (Bank) Display Contents Initial value User level Control output 1 Polarity A The digits are called 1st digit, 2nd digit, 3rd 0000 High function...
Page 134 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Polarity of output bit function The polarity after the output bit function (functions 1 to 4) can be set. Item (Bank) Display Contents Initial value User level Control output 1 Polarity 0: Direct High function (DO Assignment bank) 1: Reverse...
Page 135 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ DO Assignment setting with SLP-C35 Smart Loader Package When setting [DO Assignment] with the SLP-C35 Smart Loader Package, select [Edit (E)] → [Input/Output port setup (O)] in that order from the menu. The output bit function, output assignment, polarity of output assignment, and polarity of output bit function can be easily set using visual images as shown below.
Page 136 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 10 Application Examples This section describes examples of applications using the assignment functions of this unit. ■ Examples of applications using assignment functions The following shows setting examples with the SLP-C35 Smart Loader Package. To use assignment functions, it is absolutely necessary to set the user level to “High function configuration”.
Page 137 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION (4) In the Input/Output port setup window, set the following items: (a) In this example, since the logical OR of two functions needs to be output, select [Function 1]. (b) Select [PV high limit] of Internal Event 1 for output assignment A. (c) Similarly, select [Heater break] of Internal Event 2 for output assignment (d) Select [Normally closed] for output assignment B and D.
Page 138 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ● Example 2 The operation is started by the external switch, and then it is stopped automatically 30min after the temperature has reached the set value. Temperature Set value 30min Time Control ON Control OFF ◆...
Page 139 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • DI Assignment DI Assignment Display Internal Contact 1 Internal Contact 2 Operation type DIx.1 17: Timer stop/start 7: RUN/READY Input bit function DIx.2 1: Function 1 (A and B) or 1: Function 1 (A and B) or (C and D) (C and D) Input assignment A...
Page 140 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION DI Assignment (Internal Contact 2): Input/Output port setup Logical AND of DI1 (A-contact) Reversed at this point since the Mode (RUN/READY) and timer (B-contact) mode is the READY mode when selection contact turned ON. ●...
Page 141 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ◆ Setting example • Event Event Display Internal Event 1 Internal Event 2 Operation type Ex.C1 9: Deviation high/low limit 32: Timer (Status) (Final SP reference) Direct/reverse Ex.C2 1: Reversed. ---- Standby Ex.C2 0: No standby ---- EVENT state at READY...
Page 142 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ◆ Others C72 [mode key function]: 7 (COM DI1 selection) SP ramp-up/ramp-down: Desired value ◆ Setting points The internal EV1 is substituted for the guarantee soak. Therefore, “9999” is set to the hysteresis of Event 1 so that Event 1 is not turned OFF after it has been turned ON even though the PV fluctuates.
Page 143 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 11 Continuous Output The following shows the functional block diagram of the continuous output: Output range type (Setting: Setup C42, C47, C52) Output type (Setting: Setup C43, C48, C53) Output scaling high limit/low limit (Setting: C44, C45, C49, C50, C54, C55) Continuous output (current output/...
Page 144 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Output scaling low limit/high limit The output scaling low limit and high limit of the current output and continuous voltage output can be set. Item (Bank) Display Contents Initial value User level Control output 1 scaling low -1999 to +9999 Basic,...
Page 145 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ MV scaling range When the control output type is set to either SP+MV or PV+MV, the control output is a continuous output in which the amount of change in the MV is added to the SP or PV.
Page 146 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 12 Current Transformer (CT) Input For CT input, two kinds of current values are provided. • Current value at output ON: This current value is used for the heater burnout/over-current event. This current value is displayed as CT current value.
Page 147 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ CT type A desired operation type can be set for each of CT input 1 or CT input 2. Item (Bank) Display Contents Initial value User level CT1 operation type 0: Heater burnout detection Basic, (Setup bank) 1: Current value measurement...
Page 148 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Number of CT turns and number of CT power wire loops Each CT of CT inputs 1 and 2 can be set. Item (Bank) Display Contents Initial value User level Number of CT1 turns 0: 800 turns High function (Setup bank)
Page 149 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION Handling Precautions • Do not allow the current to exceed the upper limit of the CT input display range. Doing so might cause a malfunction. • If a current exceeding the upper limit of the CT input display range is detected, the CT input failure alarm (AL11) is displayed.
Page 150 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 13 Console Display and Key Operation It is possible to make the setting so that the console display and key operation are customized. ■ Key operation type Two kinds of general key operation flows are provided, standard key operation type and special key operation type.
Page 151 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ MODE display setup The mode related setup items of the parameter setting and mode bank to be displayed can be set. Item (Bank) Display Contents Initial value User level MODE display setup Whether or not the mode bank setup is Standard, (Setup bank)
Page 152 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ PV/SP display setup The PV/SV value related items to be displayed in the operation display mode can be set. Item (Bank) Display Contents Initial value User level PV/SP display setup Whether or not the PV/SP value related items Standard, (Setup bank) are displayed in the operation display mode is...
Page 153 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ MV display setup The MV related items to be displayed in the operation display mode can be set. Item (Bank) Display Contents Initial value User level MV display setup Whether or not the MV value related items are Standard, (Setup bank) displayed in the operation display mode is...
Page 154 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ EV display setup The main setting and sub-setting of Internal Events 1 to 3 to be displayed in the operation display mode can be set. Item (Bank) Display Contents Initial value User level EV display setup 0: Internal Event set value is not displayed in Standard,...
Page 155 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ CT display setup The CT current value to be displayed in the operation display mode can be set. Item (Bank) Display Contents Initial value User level CT display setup 0: CT current value is not displayed in the Standard, (Setup bank) operation display mode.
Page 156 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Multi Status (MS) display The lighting conditions for the Multi Status (MS) display located at the center of the console and three groups of the lighting statuses can be set with the priority put.
Page 157 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • The lighting conditions are satisfied when the status set as conditions is ON (example: Internal event 1) or the status set as conditions is met (example: MANUAL). Therefore, if the lighting conditions are set at “0”, the conditions are always not satisfied.
Page 158 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • When the lighting status is set at “9” (MV graph), “10” (Heat-side MV graph), “11” (Cool-side MV graph), or “12” (MFB graph), the Multi Status (MS) display is lit as shown in the following Figure: Off at 0.0% or less 0.1 to 10.0% 10.1 to 20.0%...
Page 159: Each Setting Is Set On The Upper
Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ User Function Up to eight settings selected from various settings can be added to the operation display. Item (Bank) Display Contents Initial value User level User Function 1 Each setting is set on the upper display. ---- Standard, (User Function bank)
Page 160 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ● User Function setting procedures This section describes an example of setting with the Smart Loader Package SLP- C35. When registering the user function, up to eight parameters can be registered to the [para] key.
Page 161 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION (1) Select [Option] → [User Function]. (2) Select [1: Event] in [Group select]. (3) Select [801: Event value] in [Item select]. 5-103...
Page 162 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 2. To register currently setting item into the user function: If there are any parameters you wish to register into the user function during setting, follow the steps below to register such parameters. (1) Keep the cursor placed in an item you wish to register and set, and then left- click the [UF] icon.
Page 163 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Key lock, communications lock, and loader lock The setting (changing) or display can be set disabled using the key lock. Item (Bank) Display Contents Initial value User level Key lock 0: All settings are possible. Basic, (Lock bank) 1: Mode, event, operation display, SP, UF, lock,...
Page 164 • The settings, which cannot be changed by the key lock, cannot be displayed in the password lock mode. • If the password lock cannot be unlocked, contact Yamatake or its dealer. At Yamatake's factory, the password lock can be unlocked by returning the setting to the initial setting.
Page 165 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION 5 - 14 Position Proportional Control When the control output type of the model is R1 (motor drive relay output), the position proportional control is performed. In the position proportional control, the ON/OFF control of the relays on the open and close sides is performed so that the MV (manipulated variable) by the PID control, MANUAL operation, and output at READY meets the opening (MFB) of the modutrol motor.
Page 166 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • In the estimated position control status, an error occurs between the actual motor opening and estimated MFB value. Therefore, if the output (MV) ≤ 0.0%, the relay on the close side is always turned ON.
Page 167 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Position proportional dead zone Item (Bank) Display Contents Initial value User level Position proportional dead 0.5 to 25.0% 10.0% Basic, zone Standard, (Setup bank) High function • When the control output type is R1 (motor drive relay output), the display and setting can be performed.
Page 168 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION • When the control output type is R1 (motor drive relay output), the display and setting can be performed. However, when [C57: Position proportional type] is set at “2” (Estimated position control) or “3” (Estimated position control + Position adjustment at power ON), the display and setting cannot be performed.
Page 169 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Motor wiring and motor auto adjust operation For wiring method between the motor and controller, two kinds of wiring methods, direct wiring and reverse wiring, are provided as described below. The direct wiring means that the motor is rotated clockwise (CW, ) as the output of the controller increases.
Page 170 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ● Correct direct wiring Upper display Lit LED Lower display Motor motion Remarks Decreases like 2000 When the motor is moved CCW with → 1500 and becomes “ot2” lit, the motor terminals 1 and 2 ↓...
Page 171 Chapter 5. DETAILED DESCRIPTION OF EACH FUNCTION ■ Input with motor fully closed and input with motor fully open Item (Bank) Display Contents Initial value User level Input with motor fully 0 to 9999 1000 Basic, closed Standard, (Setup bank) High function Input with motor fully 0 to 9999...
Page 173 Chapter 6. LIST OF DISPLAYS AND SETTING DATA 6 - 1 List of Operation Displays The following shows the meanings of the values stated in the “User Level” column: 0: Basic, Standard, and High function configuration 1: Standard and High function configuration 2: High function configuration ■...
Page 174 Chapter 6. LIST OF DISPLAYS AND SETTING DATA...
Page 175 Chapter 6. LIST OF DISPLAYS AND SETTING DATA 6 - 2 List of Parameter Setting Displays The following shows the meanings of the values stated in the “User Level” column: 0: Basic, Standard, and High function configuration 1: Standard and High function configuration 2: High function configuration The initial value may vary depending on the model No.
Page 176 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ SP bank Bank selection: Item Contents Initial User Remarks Display value level Setting is disabled. — Displayed when the optional model provides the RSP input. PID group No. (For 1 to 8 Displayed when the optional RSP) model provides the RSP...
Page 177 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ Event bank Bank selection: Contents User Display Item Initial Remarks level value -1999 to +9999 Internal Event 1 Necessary settings are The decimal point position may vary displayed according to main setting so that it meets the operation type of Internal Event 1 operation the internal event.
Page 178 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Internal Event 6 Same as Internal Event 1. Necessary settings are main setting displayed according to Internal Event 6 operation Internal Event 6 type (E6.C1). sub-setting Internal Event 6 Hysteresis...
Page 179 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ PID bank Bank selection: Contents Display Item Initial User Remarks value level Proportional band 0.1 to 999.9% Displayed when the control (PID 1) method is other than the ON/OFF control (CtrL≠0). Integral time (PID 1) 0 to 9999s or 0.0 to 999.9s (Note) (No integration control action when...
Page 180 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Proportional band Same as PID 1 Same as PID 1 (PID 3) Integral time (PID 3) Derivative time (PID 3) Manual reset (PID 3) 50.0 MV low limit (PID 3) MV high limit (PID 3)
Page 181 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Proportional band Same as PID 1 Same as PID 1 (PID 6) Integral time (PID 6) Derivative time (PID 6) Manual reset (PID 6) 50.0 MV low limit (PID 6) MV high limit (PID 6)
Page 182 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ Parameter bank Bank selection: Contents User Display Item Initial Remarks level value Control method 0: ON/OFF control The initial value is “0” when 1: Fixed PID the control output uses only one point and is the relay output.
Page 183 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Contents User Display Item Initial Remarks level value Time proportional 0: Controllability aiming type The initial value is “1” when cycle mode 1: Actuator service life aiming type control output 1 is the relay (Only one ON/OFF operation within output.
Page 184 Chapter 6. LIST OF DISPLAYS AND SETTING DATA 6 - 3 List of Setup Setting Displays The following shows the meanings of the values stated in the “User Level” column: 0: Basic, Standard, and High function configuration 1: Standard and High function configuration 2: High function configuration Initial value may differ depending on model No.
Page 185 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Output operation at 0: Bumpless transfer Displayed when the control changing Auto/Manual 1: Preset method is other than the ON/OFF control (CtrL≠0). Preset MANUAL -10.0 to +110.0% 0.0 or When the operation mode is...
Page 186 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Control output 1 Current output Displayed when control range 1: 4 to 20mA output 1 of the model is the 2: 0 to 20mA current output or continuous Continuous voltage output voltage output.
Page 187 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Control output 2 Same as control output 1. Displayed when control range output 2 of the model is the current output or continuous Control output 2 type voltage output.
Page 188 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Data format (Stop bit) 0: 1 bit 1: 2 bits Response time-out 1 to 250ms Key operation type 0: Standard type 1: Special type [mode] key function 0: Invalid 1: AUTO/MANUAL selection...
Page 189 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level EV display setup 0: Internal Event set value is not displayed in the operation display mode. 1: Set value of Internal Event 1 is displayed in the operation display mode.
Page 190 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Multi Status (MS) 0: Lit. display, Status (top 1: Slow flashing 2: Flashing twice priority) 3: Fast flashing 4: Left to right 5: Right to left 6: Reciprocating between left and right 7: Deviation OK...
Page 191 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ Event configuration bank Bank selection: Item Contents Initial User Remarks Display value level Internal Event 1 0: No event 1: PV high limit Configuration 1 Operation type 2: PV low limit 3: PV high/low limit 4: Deviation high limit 5: Deviation low limit...
Page 192 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Internal Event Digits are assigned from right to left 0000 in the order 1, 2, 3, 4. Configuration 3 1st digit: Controller 0: None 1: Alarm direct + OR operation alarm OR 2: Alarm direct + AND operation...
Page 193 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Internal Event 5 Same as Internal Event 1 0000 Configuration 2 Configuration 2. 1st digit: Direct/ Reverse 2nd digit: Standby 3rd digit: EVENT state at READY 4th digit: Undefined.
Page 194 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ DI Assignment bank Bank selection: Display Item Contents Initial User Remarks value level Internal Contact 1 0: No function Operation type 1: LSP group selection (0/+1) 2: LSP group selection (0/+2) 3: LSP group selection (0/+4) 4: PID group selection (0/+1) 5: PID group selection (0/+2)
Page 195 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Internal Contact 1 Digits are assigned from right to left 0000 Polarity A to D in the order 1, 2, 3, 4. 1st digit: Polarity A 0: Direct (Polarity of Input 1: Reverse...
Page 196 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Internal Contact 2 Same as Internal Contact 1 Input Displayed when internal Input assignment A assignment A to D. contact 2 Input bit function is set 1 to 4 (DIl2.2≠0).
Page 197 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Internal Contact 5 Same as Internal Contact 1 Input Displayed when internal Input assignment A assignment A to D. contact 5 input bit function is set 1 to 4 (DI5.2≠0).
Page 198 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ DO Assignment bank Bank selection: Contents User Display Item Initial Remarks level value Control output 1 0: Default output Displayed when control Operation type 1: MV 1 (ON/OFF control output, time output 1 of the model is relay proportional output, and time output or voltage pulse...
Page 199 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Control output 2 Same as Control output 1 Operation Displayed when the control Operation type type. output of the model is set to 0: Default output the position proportional 1: MV1 output or the control output 2...
Page 200 Chapter 6. LIST OF DISPLAYS AND SETTING DATA Item Contents Initial User Remarks Display value level Event output 2 Same as Control output 1 Operation Displayed when the optional Operation type type. model has Event output 2. 0: Default output When using Event output 2, 1: MV1 the default output is Internal...
Page 201: Table Of Contents
Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ User Function bank Bank selection: Item Contents Initial User Remarks Display value level Each setting is set on the upper It is possible to register only User Function 1 ---- display. the settings, which can be The following shows the setting displayed.
Page 202 Chapter 6. LIST OF DISPLAYS AND SETTING DATA ■ Lock bank Bank selection: ■ Instrument information bank Bank selection: Item Contents Initial User Remarks Display value level Identification of ROM ROM ID 2 fixed — firmware setting is disabled. ROM Version 1 —...
Page 203 If the optional model is provided with the RS-485 communication function, communication with a PC, PLC or other host devices are available using a user-configured program. The communication protocol can be selected from the Controller Peripheral Link (CPL) communication (Yamatake's host communication protocol) and the MODBUS communication. This chapter describes the CPL communications. ■ Features The features of the SDC35/36's communication function are as follows: •...
Page 204 Chapter 7. CPL COMMUNICATION FUNCTION ■ Communication procedures The communication procedure is as follows: (1) The instruction message is sent from the host device (master station) to one unit (slave station) to communicate with. (2) The slave station receives the instruction message, and performs read or write processing according to the content of the message.
Page 205 Chapter 7. CPL COMMUNICATION FUNCTION 7 - 2 Message Structure ■ Message structure The following shows the message structure: Messages are broadly classified into two layers; the data link layer and the application layer. • Data link layer This layer contains the basic information required for the communication such as the destination of the communication message and the check information of the message.
Page 206 Chapter 7. CPL COMMUNICATION FUNCTION ● List of data link layer data definitions The following list shows the definitions for data in the data link layer: Data name Character code Number of Meaning of data characters Start of message Station address 0 to 7FH are expressed as Identification of device hexadecimal character codes.
Page 207 Chapter 7. CPL COMMUNICATION FUNCTION • How to calculate a checksum (1) Add the character codes in the message from STX through ETX in single byte units. (2) Take two's complement of the low-order one byte of the addition result. (3) Convert the obtained two's complement to a two-byte ASCII code.
Page 208 Chapter 7. CPL COMMUNICATION FUNCTION 7 - 3 Description of Commands ■ Continuous data read command (RS command) This command reads data of continuous addresses by a single command. ● Send message This command enables the content of continuous data addresses starting with the specified read start address to be read as a single message.
Page 209 Chapter 7. CPL COMMUNICATION FUNCTION ■ Continuous data write command (WS command) This command writes data to continuous addresses. ● Send message The figure below shows the structure of the application layer of the send message for the data write command. (1) Write command (2) Data delimiter (3) Start write data address...
Page 210 Chapter 7. CPL COMMUNICATION FUNCTION ■ Fixed length continuous data read command (RD command) This command reads continuous data in two-byte units. This command is suitable for handling data in ladder programs sent by PLC communications as the data is of a fixed length.
Page 211 Chapter 7. CPL COMMUNICATION FUNCTION ■ Fixed length continuous data write command (WD command) This command writes continuous data in two-byte units. This command is suitable for handling data in ladder programs sent by PLC communications as the data is of a fixed length.
Page 212 Chapter 7. CPL COMMUNICATION FUNCTION ■ Fixed length random data read command (RU command) This command reads random data in two-byte units. ● Send message The data address (four hexadecimal digits) of the data to be read is sent in the specified order.
Page 213 Chapter 7. CPL COMMUNICATION FUNCTION ■ Fixed length random data write command (WU command) This command writes data to random addresses in two-byte units. Data is expressed in four hexadecimal digits. ● Send message Data is sent for the specified number of write data with the data address (four hexadecimal digits) of the data to be written and the data (four hexadecimal digits) as a pair.
Page 214 Chapter 7. CPL COMMUNICATION FUNCTION 7 - 4 Definition of Data Addresses ● RAM and EEPROM areas of data addresses Data addresses are categorized as follows: Data address Name Remarks (hexadecimal notation) 273W to 14859W RAM access data address Reading and writing of these addresses are (0111 to 3A0B) both performed on RAM.
Page 215 Chapter 7. CPL COMMUNICATION FUNCTION 7 - 5 Numeric Representation in the Application Layer The specifications of numeric representation are decimal variable-length (zero suppress) for RS and WS commands and hexadecimal fixed-length for RD, WD, RU and WU commands. Details are as follows: ●...
Page 216 Chapter 7. CPL COMMUNICATION FUNCTION 7 - 6 List of Termination Codes When an error occurred in the application layer, an abnormal termination code is returned as a response message. Termination Description Remedies Example code Normal termination All the processing has normally completed.
Page 217 Chapter 7. CPL COMMUNICATION FUNCTION 7 - 7 Reception and Transmission Timing ■ Timing specifications for instruction and response message The cautions below are required with regard to the timing to transmit a instruction message from the master station and a response message from the slave station. ●...
Page 218 You can download Borland C++Compiler5.5 from Borland Home Page. Handling Precautions Yamatake assumes no responsibility with regard to any trouble caused by using this program. ● Prior to running the sample program Make sure to check the settings for communications type, station address, transmission speed and data format of the instrument.
Page 219 If the optional model is provided with the RS-485 communications function, communication with a PC, PLC or other host devices are available using a user-configured program. The communication protocol can be selected from the Controller Peripheral Link (CPL) communication (Yamatake's host communication protocol) and the MODBUS communication. This chapter describes the MODBUS communications. ■ Features The features of the C35/36's communication function are as follows: •...
Page 220 Chapter 8. MODBUS COMMUNICATION FUNCTION ■ Communication procedures The communication procedure is as follows: (1) The instruction message is sent from the host device (master station) to one unit (slave station) to communicate with. (2) The slave station receives the instruction message, and performs read or write processing according to the content of the message.
Page 221 Chapter 8. MODBUS COMMUNICATION FUNCTION 8 - 2 Message Structure ■ Message structure This section describes the message structure. All messages are expressed in hexadecimal. ● MODBUS ASCII All messages other than delimiters are written in hexadecimal ASCII codes. A message of MODBUS ASCII consists of (1) to (6) below. The part of (3) stores commands, which are transmission contents from the master station and responses, which are transmission contents from the slave station.
Page 222 Chapter 8. MODBUS COMMUNICATION FUNCTION (2) Take two's complement of the addition result. (3) Convert the low-order one byte of the addition result to a character code. The following is a sample checksum calculation: [Sample message] : 3AH (start of the message) '0' : 30H (first byte of the station address) 'A' : 41H (second byte of the station address) '0' : 30H (first byte of the read command)
Page 223 Chapter 8. MODBUS COMMUNICATION FUNCTION ● MODBUS RTU All messages are written in binary data. A MODBUS RTU message consists of (1) to (3) below. The part of (2) stores commands, which are transmission contents from the master station and responses, which are transmission contents from the slave station. All messages use binary data.
Page 224 Chapter 8. MODBUS COMMUNICATION FUNCTION • 1-frame end judgment A message end (1-frame end) is determined when a time period specified for each transmission speed has passed during which no character is received. It is considered that 1 frame has ended when the next character is not received before the time-out time shown below passes.
Page 225 Chapter 8. MODBUS COMMUNICATION FUNCTION 8 - 3 Description of Commands ■ Read command (03H) ● Send Message This is a command capable of reading the contents of continuous data addresses from a specified read start data address with a single message. The following is an example of send message while reading data: MODBUS ASCII (1) Start of message...
Page 226 Chapter 8. MODBUS COMMUNICATION FUNCTION • Example in case of error (1) Start of message (2) Station address (3) Error flag (since undefined "04" is sent as a command with a send message, the most significant bit is turned ON and sent back as "84".) (4) Abnormal termination code ( refer to page...
Page 227 Chapter 8. MODBUS COMMUNICATION FUNCTION ■ Write command (10H) ● Send Message This is a command capable of writing the contents of continuous data addresses from a specified write start data address with a single message. The following is an example of send message while writing data: (Example) Writing 01A0H and 0E53H in the continuous data addresses consisting of 2 words following 1501W (05DDH).
Page 228 Chapter 8. MODBUS COMMUNICATION FUNCTION ● Response Message A response message corresponding to the command content is returned when the message is correctly received. The figure below shows the structure of the response message when the data is written. MODBUS ASCII (1) Start of message (2) Station address (3) Write command 10H...
Page 229 Chapter 8. MODBUS COMMUNICATION FUNCTION 8 - 4 Specifications Common with CPL Communication Function ■ Definition of data addresses Refer to; 7-4 Definition of Data Addresses (on page 7-12) ■ Numeric representation The specifications of numeric representation is the same as the following: ●...
Page 231 EEPROM Bank Decimal point Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Instrument ROM ID 0111 16657 4111 — "2" when using SDC35/36. information ROM Version 1 0112 16658 4112 ROM Version 2 0113 16659 4113 LOADER Information...
Page 232 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information ✽ ✽ Setup PV input range low limit 5205 1455 21589 5455 ✽ ✽ PV input range high limit 5206 1456...
Page 233 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Setup AUX output scaling low limit 5254 1486 21638 5486 AUX output scaling high limit 5255 1487 21639...
Page 234 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Internal Contact 1 Polarity A 5407 151F 21791 551F — Assignment Internal Contact 1 Polarity B 5408 1520 21792...
Page 235 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Internal Contact 5 Polarity A 5455 154F 21839 554F — Assignment Internal Contact 5 Polarity B 5456 1550 21840...
Page 236 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Event output 3 Operation type 5645 160D 22029 560D — Assignment Event output 3 Output assignment A 5646 160E 22030...
Page 237 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Event Internal Event 5 state at READY 5840 16D0 22224 56D0 — ∆ ∆ ∆...
Page 238 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Prameter SP ramp-up 6018 1782 22402 5782 SP ramp-down 6019 1783 22403 5783 ∆ ∆...
Page 239 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Bank Decimal point Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information LSP8 7033 1B79 23417 5B79 Same as RAM address 13319 (decimal). PID group number for LSP8 7034 1B7A 23418...
Page 241 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information ✽ ✽ Operation Manipulated Variable (MV) 9105 2391 25489 6391 Same as RAM address display 14594 (decimal).
Page 242 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Status Instrument alarm status 9202 23F2 25586 63F2 — Bits 0 to 1: Undefined. Bit 2: AL70 (A/D) Bit 3: AL95 (Set data) Bit 4: AL96 (Adjustment...
Page 243 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Tag 4 9304 2458 25688 6458 — Display and setting cannot be made with the console. Tag 5 9305 2459...
Page 244 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information Integral time (I-7) 12325 3025 28709 7025 Derivative time (D-7) 12326 3026 28710 7026 Manual reset (RE-7) 12327 3027...
Page 245 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Decimal Hexadecimal Decimal Hexadecimal Read Write Read Write information ∆ ∆ ∆ ∆ (Reserved for future extension.) 12375 3057 28759 7057 — Output low limit for cool side (OL7.C) 12376 3058 28760...
Page 246 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Write information Decimal Hexadecimal Decimal Hexadecimal Read Write Read Instrument RUN/READY 14352 3810 30736 7810 — status 2 AUTO/MANUAL 14353 3811 30737 7811 —...
Page 247 Chapter 9. LIST OF COMMUNICATION DATA Item name RAM address EEPROM address EEPROM Decimal point Bank Remarks Write information Decimal Hexadecimal Decimal Hexadecimal Read Write Read PID group Proportional band (P) 14848 3A00 31232 7A00 in use Integral time (I) 14849 3A01 31233...
Page 249 Chapter 10. MAINTENANCE AND TROUBLESHOOTING ■ Maintenance ● Cleaning When removing dirt from the instrument, wipe it off with a soft cloth rag. At this time, do not use any organic solvent, such as paint thinner or benzene. ● Part replacement Do not replace any parts of this unit.
Page 250 Chapter 10. MAINTENANCE AND TROUBLESHOOTING ■ Alarm displays and corrective action The following table shows the alarm displays and corrective actions if any failure occurs in this unit: Alarm code Failure name Cause Corrective action Check the wiring. PV input failure Sensor burnout, incorrect wiring, Set the PV input type (Over-range)
Page 251 Chapter 10. MAINTENANCE AND TROUBLESHOOTING ■ Behavior in case of PV input failure (1) AL01, 02, or 03 occurs. Control output: It is possible to make the settings so that the control action is continued or stopped. Other actions: Actions are continued. (2) Alarm occurs other than those shown above.
Page 252 Chapter 10. MAINTENANCE AND TROUBLESHOOTING ■ Behavior in case of RSP input failure When an alarm occurs, all actions are continued. The following table shows the indications and alarms of this unit if RSP input failure occurs: Failure status Range No. Indication value Alarm code Burnout...
Page 253 However, note that another message appears when inspecting the LED. Handling Precautions • Yamatake shall not be held responsible for any defects arising from improper calibration made by the customer. • To return the unit to the calibration status of the default settings before shipment during calibration, follow the steps below.
Page 254 Chapter 11. CALIBRATION ■ Cautions before starting the calibration When calibrating the unit, strictly observe the following cautions. Failure to do so may cause inaccuracy: • Before starting the calibration, supply the power to this unit for at least 1 hr. •...
Page 255 Chapter 11. CALIBRATION For details about how to connect measuring instruments in the apply status, refer to the following figures: • The PV input type is T/C (thermocouple). This unit (10) Voltage (11) generator (12) • The PV input type is RTD. This unit (10) Resistor...
Page 256 Chapter 11. CALIBRATION ● RSP input calibration (1) Select the [PV Calibration] tab. (2) Select the model [7: C35/36 RSP]. (3) Select the gain No. in the ascending order and perform the operation from step (4). (4) Click [Read]. (5) Apply the voltage and current values written next to the gain No. to the PV input terminal.
Page 257 Chapter 11. CALIBRATION ● Current Transformer (CT) input calibration (1) Select the [CT input calibration] tab. (2) Select a desired channel to be calibrated. (3) Select [Zero] from the zero span selection items. (When selecting a channel, perform the [Zero] calibration first, and then perform the [Span] calibration next since “Zero/Span”...
Page 258 Chapter 11. CALIBRATION ● Current output/continuous voltage output calibration (1) Select the [Analog Output Calibration] tab. (2) Select a desired channel to be calibrated. Select [ch1] for control output 1, [ch2] for control output 2, and [ch3] for auxiliary output. (3) Select [Zero] from the zero span selection items.
Page 259 Chapter 12. DISPOSAL When disposing of this unit, dispose of it appropriately as an industrial waste in accordance with local laws and regulations. 12-1...
Page 261 Chapter 13. SPECIFICATIONS ■ Specifications ● PV input Thermocouple: K,J,E,T,R,S,B,N (JIS C1602-1995) PL II (Engelhard Industries Data (ITS90)) WRe5-26 (ASTM E988-96(Reapproved 2002)) Ni-NiMo (ASTM E1751-00) PR40-20 (Johnson Matthey Data) DIN U,DIN L (DIN 43710-1985) Gold iron chromel (Hayashidenko Data) Resistance temperature detector (RTD): Pt100 (JIS C1604-1997) JPt100 (JIS C1604-1989) DC voltage:...
Page 262 Chapter 13. SPECIFICATIONS • Resistance temperature detector (RTD) input Input bias current: Approx. +1mA (flows from terminal A.) RTD burnout or A-wire burnout ..Upscale + AL01 Burnout indication: B-wire burnout or C-wire burnout . . . Upscale + AL01, AL03 2 or more wires burnout .
Page 263 Chapter 13. SPECIFICATIONS ● External contact input Number of input points: 4 points Input type: Potential free contact or open collector Allowable ON contact resistance: Max. 250Ω Allowable OFF contact resistance: Min.100 kΩ Allowable ON-state residual voltage: Max. 1.0V Open terminal voltage: DC5.5V±1V ON terminal current: Approx.
Page 264 Chapter 13. SPECIFICATIONS ● Control output • Relay output Contact rating: NO side 250Vac/30Vdc, 3A (resistance load) NC side 250Vac/30Vdc, 1A (resistance load) Life: 50,000 cycles or more on NO side 100,000 cycles or more on NC side Min. open/close specifications: 5V, 100mA Min.
Page 265 Chapter 13. SPECIFICATIONS • Continuous voltage output Output type: 0 to 5Vdc, 1 to 5Vdc or 0 to 10Vdc voltage output Allowable load resistance: Min. 1000Ω Output accuracy: ±0.1%FS (at an ambient temperature of 23±2˚C) However, ±1%FS at 0 to 0.05V. Output resolution: 1/10000 ●...
Page 266 Chapter 13. SPECIFICATIONS ● Environment conditions • Standard conditions Ambient temperature: 23±2˚C Ambient humidity: 60±5%RH Power supply voltage: AC power model, 105Vac±1%, 50/60Hz±1Hz DC power model, 24Vac±1%, 50/60Hz±1Hz 24Vdc±5% Vibration: 0m/s Shock: 0m/s Mounting angle: (Reference plane) ±3˚ • Operating conditions Ambient temperature: 0 to 50˚C (0 to 40˚C for gang-mounting) Ambient humidity: 10 to 90%RH (non-condensing)
Page 267 Chapter 13. SPECIFICATIONS ■ Accessories and optional parts Name Model No. Mounting bracket 81409654-001 (Accessory) Current transformer QN206A (5.8mm hole dia.) QN212A (12mm hole dia.) Hard cover 81446915-001 (for C35) 81446916-001 (for C36) Soft cover 81441121-001 (for C35) 81441122-001 (for C36) Terminal cover 81446912-001 (for C35) 81446913-001 (for C36)
Page 269 Appendix Appendix Glossary Abbreviations are used in the descriptions, tables, and figures in this manual. The following shows the main abbreviations: Auto Tuning Current Transformer Digital Input Digital Output (Control outputs of relay and voltage pulse, and event output) Event Local Set Point.
Page 271 Index -Number- C23 PID Decimal point position 5-17 • • • • • • • • 3-wire system C24 Zone PID operation 5-23 • • • • • • • • • • • • • • • • • •...
Page 272 C70 Response time-out Communication data • • • • • • • • • • • • • • • • • • • • • • • • • • • C71 Key operation mode/type 5-92 Communication DI 5-11 •...
Page 273 DISPOSAL 12-1 • • • • • • • • • • • • • • • • • • 5-69 Gain adjustment 11-3 • • • • • • • • • • • • • • • • •...
Page 274 MV process 5-70 • • • • • • • • • • • • • • • • • • Latch 5-76 MV scaling range 5-87 • • • • • • • • • • • • • •...
Page 275 Preset MANUAL value 5-16 RSP input • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • Proportional band 5-19 RSP low limit alarm 5-35...
Page 276 Temperature unit 5-1, 5-3 • • • • • • • • • • • • • • Terminal assignment label • • • • • • • • • • • • Terminal cover 1-3, 4-2 • • • •...
Page 277 Revision History Printed Manual Number Edition Revised pages Description Date CP-UM-1150E 1st Edition Feb. 2004 2nd Edition 1-2, 4-3, 13-5 DC power model added. Oct. 2004 1-7, 13-5 The tightening torque of the terminal screw changed. 0.4N•m or less→0.4 to 0.6 N•m or less. Resistor type SSR added.
Page 278 Printed Manual Number Edition Revised pages Description date CP-SP-1150E 5th Edition Manual name changed. Feb. 2006 ■PV input range type: this item transferred from page 5-2. PV range tables totally changed. Explanation changed in the first item of Handling Precautions. Explanation changed.
Page 280 Specifications are subject to change without notice. Advanced Automation Company 1-12-2 Kawana, Fujisawa Kanagawa 251-8522 Japan Printed in Japan. URL: http://www.azbil.com 1st Edition: Issued in Feb. 2004 10th Edition: Issued in Jan. 2008 (B) Printed on recycled paper. (07)

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