EDS11-157C

DIGITAL CONTROLLER PXH DATA SHEET PXH9 is a 96 × 96 mm, high-performance digital controller that assures high-speed and high-accuracy control. With its abundant and flexible input/output points and powerful math function, it can be used for a wide range of applications, including not only temperature control but also process control of pressure, flow rate, etc. PXH9 FEATURES 1. High-speed and high-accuracy control • High-speed control in sampling cycle of 50 ms • Highly accurate input indication of ± 0.1% FS • Measurement resolution of 0.01 ° C (Resistance bulb input) 2. Multitude of input/output points (including options) • Universal measurement input: 2 points (Thermocouple/Resistance bulb/Voltage/Current) • Auxiliary analog input: 1 point (DC voltage/Potentiometer) • Analog output: 2 points • Digital input: 9 points • Digital output: 9 points • Transmitter power supply 3. Substantial communication function • PC Loader interface (RS232C) equipped as standard • RS485 (Modbus RTU) communication function (Option) 4. Strong math function • Applicable to various applications such as correction processing and input switching based on mathematical calculations between multiple inputs. Refer to the list of expressions on page 17 for the type of mathematical expressions. 5. Complex setting achieved by easy operation • Equipped with control template function that allows input/output according to control type and automatic allocation of calculation blocks. 6. Totalizer function • Input is selectable from any of measurements or a result of math operation. • Seven-digit total display • Batch control outputs 7. Excellent user-friendliness • Multi-function, large LED display with the high level of visibility • Provision of three function keys whose function allocation can be changed • IP66 waterproof front face (NEMA-4X) • Compact size with the depth of only 81.5 mm SPECIFICATIONS 1. General specifications (1) Power supply voltage: 100 V (- 15%) to 240 V (+10%) AC, 50/60 Hz (2) Power consumption: 15 VA or less (100 V AC) 20 VA or less (220 V AC) (3) Insulation resistance: 20 MΩ or more (500 V DC) (4) Withstand voltage: Power supply ↔ All terminals; 1500 V AC for 1 minute Relay output ↔ All terminals; 1500 V AC for 1 minute Others; 500 V AC for 1 minute (5) Applicable standard: UL, C-UL, CE Mark EDS11-157c Date Apr. 1, 2011 PXH9 2. Input section 2-1 Measurement value input (1) Number of inputs: 1 or 2 (Option) (2) Input signal type: Thermocouple :J, K, R, B, S, T, E, PR40/20, N, PL-II, WRe5-26 Resistance bulb :Pt100Ω (3-wire) Voltage :0 to 10 mV DC, 0 to 50 mV DC, 1 to 5 V DC, 0 to 5 V DC, 0 to 10 V DC Current :4 to 20 mA DC, 0 to 20 mA DC (3) Measurement range: Refer to the measurement range table (page 16). (4) Input indication accuracy (Ambient temperature: 23 °C): • Thermocouple: (± 0.1%FS± 1digit ± 1° C) or ± 1.5° C, whichever is larger Thermocouple B: 0 ° C to 400°C range; ± 5%FS± 1digit ± 1 ° C Thermocouple R: 0 ° C to 500°C range; ± 1%FS± 1digit ± 1 ° C • Resistance bulb input: (± 0.1%FS± 1digit) or ± 0.25°C, whichever is larger • Voltage input, current input: ± 0.1%FS± 1digit (5) Input sampling cycle: 50 ms (6) Input impedance • Thermocouple, voltage input (mV): 1 MΩ or more • Voltage input (V): 1MΩ • Current input: 250 Ω (7) Influence of source resistance / Permissible wiring resistance • Thermocouple, voltage input (mV):0.1%FS per 100 Ω • Voltage input (V): 0.1%FS per 500 Ω • Resistance bulb input: 10 Ω or less (per cable) (8) Permissible input voltage • Voltage (V) input: +35 V / - 10 V DC • Current input: ± 25 mA DC • Thermocouple/Resistance bulb/Voltage (mV) input: ± 5 V DC (9) Noise reduction ratio • Normal mode: 40 dB (50/60 Hz) • Common mode: 120 dB (50/60 Hz) (10) Input value correction function (Input conditioner) • User adjustment: ± 50%FS both for zero point and span point • Square-root extractor: OFF or cut point from 0.0 to 125.0% • First-order lag filter: 0.0 to 900.0 sec • Linearizer: 16 straight lines 2-2 Auxiliary analog input (Option) (1) Number of inputs: 1 (2) Input signal 1) DC voltage: 1 to 5 V DC / 0 to 5 V DC / 0 to 10 V DC • Input accuracy: ± 0.2%FS • Sampling cycle: 100 ms • Input impedance: 1 MΩ • Influence of source resistance: 0.2%FS per 500 Ω • Permissible input voltage: +35 V / - 10 V DC • Noise reduction ratio • Normal mode: 40 dB (50/60 Hz) or more • Common mode: 120 dB (50/60 Hz) or more 2) Valve opening feedback signal (Potentiometer) • Resistance range: 100 Ω ro 10 kΩ 3-wire • Resolution: ± 0.1%FS • Input accuracy: ± 1.0%FS (3) Input value correction function • User adjustment: ± 50%FS both for zero point and span point • Square-root extractor: OFF or cut point from 0.0 to 125.0% • First-order lag filter: 0.0 to 900.0 sec • Linearizer: 16 straight lines 2-3 Digital input (DI) (1) Number of points: Standard: 4 (Di1 to 4) Expansion: 5 (9 points in total at max.) (2) Specifications: Contact or transistor input (3) Contact capacity: 12 V DC, Approx. 2 mA (per point) (4) Operation pulse width: 200 ms or more (5) Function: Control mode changeover, EX-MV selection, SV changeover, Control standby, Auto-tuning start, Timer start, Alarm latch cancel. 2-4 Math function (1) Kind of formula: 24 kinds, selected by the parameter setting. (see page 17.) (2) Operation parameter: Analog input (PV1, PV2, Ai1), Constant (K1 to K16) (3) Data type: Engineering unit (with floating point) 3. Output section 3-1 Control output 3-1-1 Control output 1 (1) Number of points: 1 (2) Type: Select one from 1 to 4, as shown below. 1. Relay contact output • Contact structure: SPDT contact (Do4 used) • Contact capacity: 220 V AC / 30 V DC, 3 A (Resistive load) 220 V AC / 30 V DC, 1 A (Inductive load) • Contact life: 100,000 operations (rated load) 2. SSR/SSC driver output (Voltage pulse) • Rating: 12 V DC (10 to 15 V DC) / Maximum current: 20 mA (provided with protection against short circuit) • Load resistance: 600 Ω or more 3. • • • Current output (4 to 20 mA DC) Accuracy: ± 0.2%FS Linearity: ± 0.2%FS Load resistance: 600 Ω or less 2 4. Motorized valve operation pulse output (OPEN, CLOSE output) • Contact structure: SPST contact x 2 (with interlock circuit) • Contact capacity: 220 V AC / 30 V DC, 1 A (Resistive load) 220 V AC / 30 V DC, 0.3 A (Inductive load) • Contact life: 100,000 times or more (rated load) 3-1-2 Control output 2 (Cooling output) (1) Number of points: 1 (2) Type: Select one from 1 to 3, as shown below. 1. Relay contact output • Contact structure: SPST contact (Do3 used) • Contact capacity: 220 V AC / 30 V DC, 1 A (Resistive load) 220 V AC / 30 V DC, 0.3 A (Inductive load) • Contact life: 100,000 operations (rated load) 2. SSR/SSC driver output (Voltage pulse) • Rating: 12 V DC (10 to 15 V DC) / Maximum current: 20 mA (provided with protection against short circuit) • Load resistance: 600 Ω or more 3. • • • Current output (4 to 20 mA DC) Accuracy: ± 0.2%FS Linearity: ± 0.2%FS Load resistance: 600 Ω or less (4) Restriction: The sum of control output (current or SSR/SSC drive), analog re-transmission output and transmitter power supply output is 2 points at maximum. 3-4 Transmitter power supply output (1) Number of points: 1 at max. (2) Rating: 24 V DC (17 to 30 V DC), Maximum current; 23 mA (with short circuit protection) The sum of control output (current or SSR/SSC drive), analog re-transmission output and transmitter power supply output is 2 points at maximum. (3) Restriction: 4. Control function 4-1 Controller type (1) Control system • Advanced PID control with Auto-tuning (2) Controller template Operation block and I/O definition can be selected by parameter setting from available types according to targets of control. • Basic type 1-loop basic PID controller (with math function) 1-loop SV selectable PID controller (with math function) 1-loop basic PID controller (without math function) 1-loop SV selectable PID controller (without math function) 1-loop input selectable PID controller (with math function) • Motorized valve control type [With or without valve openings feedback input is selectable] 1-loop motorized valve controller (with math function) 1-loop SV selectable motorized valve controller (with math function) 1-loop motorized valve controller (without math function) 1-loop SV selectable motorized valve controller (without math function) • Heating/cooling control type 1-loop heating/cooling controller (with math function) 1-loop SV selectable heating/cooling controller (with math function) 1-loop heating/cooling controller (without math function) 1-loop SV selectable heating/cooling controller (without math function) Note: The control template can only be changed within each of basic type, motorized valve control type, and heating/cooling control type controllers. 3-2 Digital output (Do) (1) Number of points: Standard: 2 (Do3, 4) Expansion: Maximum 7 (9 points in total at max.) (2) Specifications: • Contact structure: SPST contact (except for Do4) SPDT contact (Do4) • Contact capacity: 220 V AC / 30 V DC, 1A (Resistive load) • Contact life: 100,000 operations (rated load) (3) Function: (4) Restriction: (5) Others: Alarm output, timer output, control output (Do4, Do3) 4 Do points max. for 2-point measurement input model. Do4 or Do3 becomes control output when relay is selected as control output. Do4 becomes control output for motorized valve control type. 3-3 Analog re-transmission output (1) Number of points: 2 at max. (2) Type: Current output (4 to 20 mA DC) • Accuracy: ± 0.2%FS • Linearity: ± 0.2%FS • Load resistance: 600 Ω or less (3) Output contents: PV, SV, MV, DV, AIM (Math operation result), MVRB (Valve openings), TV (Totarizer result) 3 PXH9 4-2 Control parameter 4-2-1 Basic type, motorized valve control type • Proportional band (P): 0.0 to 999.9%, ON/OFF (2-position) operation at P = 0 • Integral time (I): 0.0 to 3200.0 sec, Integral operation OFF at I = 0 • Derivative time (D): 0.0 to 999.9 sec, Derivative operation OFF at D = 0 • Anti-reset windup: 0 to 100% of measurement range • Proportion cycle: 1 to 150 sec, For SSR/SSC drive or relay output only • Hysteresis width: 50% of measurement range, for ON/OFF operation only • Control cycle: 50 ms • Number of SV and PID groups: 7 sets • Method of changing PID groups: Selected by parameter, SV reference, PV reference 4-2-2 Heating/cooling control type • Proportional band on heating side (P): 0.0 to 999.9% • Integral time on heating side (I): 0.0 to 3200.0 sec, Integral operation OFF at I = 0 • Derivative time on heating side (D): 0.0 to 999.9 sec, Derivative operation OFF at D = 0 • Proportional band on cooling side (Pc): 0.0 to 999.9% • Integral time on cooling side (Ic): 0.0 to 3200.0 sec, Integral operation OFF at Ic = 0 • Derivative time on cooling side (Dc): 0.0 to 999.9 sec, Derivative operation OFF at Dc = 0 • Anti-reset windup: 0 to 100% of measurement range • Proportion cycle: 1 to 150 sec, For SSR/SSC drive or relay output only • Hysteresis width: 50% of measurement range, for ON/OFF operation only • Control cycle: 50 ms • Number of SV and PID groups: 7 sets • Method of changing PID groups: Selected by parameter, SV reference, PV reference 4-3 Control mode (1) Type of mode: Auto/Manual/Remote (2) Changeover: Available via key, Digital input and Communication. Auto ↔ Manual: With balanceless, bumpless transfer Auto/Manual → Remote: With balance, bumpless transfer Auto/Manual ← Remote: With balanceless, bumpless transfer 5. Alarm function 5-1 Number of alarm points • 8 points for setting 5-2 Type of alarm • PV value (upper/lower limit, absolute/deviation, band), PV variation ratio, SV upper/lower limit, main unit error • Hold (standby) function • Operation latching • Excitation/non-excitation • Operation delay: 0 to 9999 sec, 0 to 9999 min 5-3 Alarm output • Output to DO1 to DO4 and DO11 to DO15 (Allocation change available.) 6. Communication function 6-1 PC Loader interface (1) Number of points: 1 (2) Physical specifications: EIA RS232C (3) Protocol: Modbus-RTU (4) Communication method: 3-wire, half-duplex bit serial asynchronous system (5) Data type, Data length: 8 bits, Parity; Odd/Even/None (6) Communication speed: 9600 bps, 19200 bps, 38400 bps (7) Connector: Connected with miniature jack on bottom face of the main unit (2.5 mm dia., 3-pole) * Special cable is prepared as option. 6-2 RS-485 interface (option) (1) Number of points: 1 (2) Physical specifications: EIA RS485 (3) Protocol: Modbus-RTU (4) Communication method: 2-wire, half-duplex bit serial asynchronous system (5) Data type, Data length: 8 bits, Parity; Odd/Even/None (6) Communication speed: 9600 bps, 19200 bps, 38400 bps (7) Connection topology: Multi-drop, Up to 32 units can be connected including master device. (8) Communication distance: 500 m max. (Total length of connection) 4 7. Other functions 7-1 Parameter recipe (1) Number of recipe groups: 7 sets (2) Number of parameters which can be registered: 10 parameters (3) Method of changing recipe groups: Synchronized with the change of PID groups 7-2 Totalizer (1) Totalized value: - 1999999 to 9999999 (7 digits) (2) Totalize source: PV1, PV2, Ai1, AiM [MATH result] (3) Totalize resolution: XXX.XXXX to XXXXXXX (4) Status: RUN/HOLD/RESET (5) Totalized value output: via Re-transmission (6) Alarm/Batch output: 2 points, via Do1 to Do4 (7) Totalized data backup: 30 seconds interval to EEPROM 12. Structure (1) Mounting method: Panel flush mounting (2) External terminal: M3 screw terminal (3) Case • Material: • Color: (4) Protection • Faceplate: Plastic (Flame-resistant, UL94V-0) Gray IEC IP66, NEMA-4X-equivalent (When mounted on panel with our genuine packing. Waterproof feature unavailable in side-by-side mounting.) • Body: IEC IP20 (Provided with slits on top and bottom faces) • Terminal section: IEC IP00. Terminal cover can be mounted (option). (5) External dimension: 96 (W) x 96 (H) x 81.5 (D) mm * “D” is the depth from the front face of the panel (not including terminal cover). (6) Mass: Approx. 500 g 8. Operation/display section 8-1 Parameter setting • Digital setting by UP/DOWN key • Key-lock function provided • User function key (3 keys) provided 8-2 Display (1) Type: LED (2) Display contents Measurement value display: 7 segments, 5 digits (red), character height; 20 mm Setting display : 7 segments, 5 digits (orange), character height; 13 mm Auxiliary display: 7 segments, 2 digits (orange), character height; 12 mm Bar graph: 12 segments (orange) Status display indicator lamp: Standby, control mode, output, alarm 13. Range of delivery • Controller • Instruction manual • Mounting bracket • Waterproof packing • Unit name plate • Terminating resistor …… 1 piece …… 1 piece …… 2 pieces …… 1 piece …… 1 piece …… 1 piece (only for the model with communication function) 9. Processing at power failure • Memory protection: Non-volatile memory 14. Relative documents and tools • User's manual • Communication function manual • PC loader software • PC loader software manual *You can download above documents and tools from the website "Fuji Instrumentation and control" of Fuji Electric Systems Co., Ltd. or ask our customer service. 15. PC Loader Software 10. Self diagnosis • System: Program error monitoring performed by watchdog timer (1) System requirements • PC: DoS/V PC (PC-AT compatible PC) • Operation System: Confirmed on Windows 2000 (English) Windows XP (English) • RAM: 128MB or more • HDD capacity (Empty area): 100 MB or more • CD-ROM drive: Required • Display resolution: 1024 x 768 dots or more (2) Connection to the PXH controller • Via PC Loader interface on bottom face of the main unit (Optional dedicated cable is required.) or Via RS485 communication (RS485 function is necessary for PXH.) 11. Operation and storage conditions (1) Ambient operating temperature: - 10° C to 50 °C (2) Storage temperature: - 20° C to 60 ° C (3) Ambient humidity for use/storage: 90% RH or less (non-condensing) (4) Warm-up time: 15 min or longer 5 PXH9 BLOCK DIAGRAMS (CONTROLLER TEMPLATES) Template No. 10 1-loop basic PID controller (with math function) PV SV Re-transmission [Ao1T] output 1 Output type setting RET1 Re-transmission [Ao2T] output 2 RET2 Measurement value input 1 Measurement value input 2 Aux. input /Remote SV input Remote command PV1 Input Conditioner Input Conditioner Input Conditioner Result of calculation [AiM] Math module Local SV Remote SV [RSV1] R L MV PV PV AO 1 OUT1 Current output or SSR driver output Current output or Transmitter supply Relay output (Control output) PV2 PID operation SV A RUN SV MV Depend on [OTYP] setting AO 2 OUT2 Ai1 Control output 1 MV1 DO 4 DO4 Remote command [REM] EX-MV setting [EXM1] Manual MV setting M STBY (Parameter setting or key operation) Di allocation DO allocation ALM1 Do1 Do2 Do3 Do4 Do11 to Do15 Remote acknowledge Manual command EX-MV output command Remote acknowledge A/M chargeover ALM2 ALM3 ALM4 Di1 Di2 Di3 Di4 Di11 to Di15 R-ACK SMV No allocation EX-MV command Relay output (Do) EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. [STBY] or Di allocation Manual command Stand-by command Alarm A/M chargeover LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM Template No. 11 1-loop SV selectable PID controller (with math function) PV SV Re-transmission [Ao1T] output 1 Output type setting RET1 Re-transmission [Ao2T] output 2 RET2 Measurement value input 1 Measurement value input 2 PV1 Input Conditioner Input Conditioner Input Conditioner Result of calculation [AiM] Math module Local SV L MV PV PV AO 1 OUT1 Current output or SSR driver output Current output or Transmitter supply Relay output (Control output) PV2 PID operation SV A RUN SV MV Depend on [OTYP] setting AO 2 OUT2 Aux. input Ai1 R EX-MV setting [EXM1] Manual MV setting Control output 1 MV1 DO 4 DO4 M STBY DO allocation Di allocation SV select signal 1 SV select signal 2 SV select signal 3 EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 SV select SV1 [SV1] to ALM1 ALM2 ALM3 Do1 Do2 Do3 Do4 Do11 to Do15 SV select 1 SV select 2 SV select 3 EX-MV command SV7 [SV7] EX-MV output command Preset output value [PMV1] ALM4 No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. [STBY] or Di allocation Manual command Stand-by command Alarm A/M chargeover LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM 6 Template No. 13 1-loop basic PID controller (without math function) Re-transmission [Ao1T] output 1 Output type setting RET1 Re-transmission [Ao2T] output 2 RET2 PV SV MV AO 1 Measurement value input 1 OUT1 PV1 Input Conditioner Local SV Remote SV L PV PV Current output or SSR driver output Current output or Transmitter supply Relay output (Control output) PID operation SV A RUN SV MV Depend on [OTYP] setting AO 2 OUT2 Remote SV input Remote command Ai1 Input Conditioner [RSV1] R Remote command [REM] EX-MV setting [EXM1] Manual MV setting Control output 1 MV1 DO 4 DO4 M STBY (Parameter setting or key operation) Di allocation DO allocation ALM1 Do1 Do2 Do3 Do4 Do11 to Do15 Remote acknowledge Manual command EX-MV output command Remote acknowledge A/M chargeover ALM2 ALM3 ALM4 Di1 Di2 Di3 Di4 Di11 to Di15 R-ACK SMV No allocation EX-MV command Relay output (Do) EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. [STBY] or Di allocation Manual command Stand-by command Alarm A/M chargeover LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM Template No. 14 1-loop SV selectable PID controller (without math function) PV SV MV Re-transmission [Ao1T] output 1 Output type setting RET1 AO 1 Measurement PV1 value input 1 OUT1 Input Conditioner Local SV L PV PV PID operation SV A RUN SV MV Re-transmission [Ao2T] output 2 AO 2 Depend on RET2 Current output or SSR driver output Current output or Transmitter supply Relay output (Control output) OUT2 [OTYP] setting Control output 1 MV1 DO 4 DO4 R EX-MV setting [EXM1] Manual MV setting M STBY DO allocation Di allocation SV select signal 1 SV select signal 2 SV select signal 3 EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 SV select SV1 [SV1] to ALM1 ALM2 ALM3 Do1 Do2 Do3 Do4 Do11 to Do15 SV select 1 SV select 2 SV select 3 EX-MV command SV7 [SV7] EX-MV output command Preset output value [PMV1] ALM4 No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. [STBY] or Di allocation Manual command Stand-by command A/M chargeover Alarm LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM 7 PXH9 Template No. 16 Measurement value input 1 Measurement value input 2 Aux. input 1-loop input selectable PID controller (with math function) Result of calculation [AiM] Math module PV select [CONST1] PV SV PV1 Input Conditioner Input Conditioner Input Conditioner AIM PV SV MV AiM PV2 Re-transmission [Ao1T] output 1 Output type setting RET1 AO 1 OUT1 Ai1 PID operation A RUN PV SV MV Re-transmission [Ao2T] output 2 RET2 Current output or SSR driver output Current output or Transmitter supply Relay output (Control output) Depend on [OTYP] setting AO 2 OUT2 Remote command PV select (Parameter setting or key operation) [REM] Local SV Remote command RSV select [CONST2] L Control output 1 MV1 DO 4 DO4 M R STBY DO allocation ALM1 ALM2 [CN01] (Parameter setting) Do1 Do2 Do3 Do4 RSV select [CN02] (Parameter setting) EX-MV setting [EXM1] EXMV select [CONST3] ALM3 ALM4 Relay output (Do) No allocation AMV1 EXMV select [CN03] Alarm (Parameter setting) FF signal select [CONST4] * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Do11 to Do15 [FFv1] FF Calculation Feedforward LED display allocation ALM1 to 5 FF select [CN04] L Do1 to L Do5 L ALM (Parameter setting) FF INH command [CN05] Indicator lamp OR of all the ALMs (Parameter setting) Di allocation Manual MV setting Remote acknowledge Manual command Remote acknowledge A/M chargeover Di1 Di2 Di3 R-ACK SMV No allocation EX-MV EX-MV output command Di4 EX-MV output command Preset output value [PMV1] Di11 to Di15 No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. [STBY] or Di allocation Stand-by command 8 Template No. 30 1-loop motorized valve controller (with math function) AiM PV SV MV Re-transmission [Ao1T] output 1 Output type setting RET1 MVRB AO 1 OUT1 Measurement value input 1 Measurement value input 2 /Remote SV input Valve openings feedback signal /Aux. input Remote command PV1 Input Conditioner Input Conditioner Input Conditioner Result of calculation [AiM] Math module Local SV L Current output Current output or Transmitter supply Relay output PV AiM PV PV2 FB /Ai1 PID operation SV A RUN Re-transmission [Ao2T] output 2 RET2 MVRB Depend on [OTYP] AO 2 setting OUT2 SV MV [RSV1] R M STBY Control output 1 MV1 PO CLOSE (Close output) OPEN Remote command [REM] Relay output (Open output) (Parameter setting or key operation) Di allocation Remote acknowledge EX-MV setting [EXM1] A/M chargeover SMV No allocation EX-MV command DO allocation ALM1 ALM2 ALM3 Remote acknowledge Manual command EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 R-ACK Do1 Do2 Do3 Do11 to Do15 EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. [STBY] or Di allocation Manual command Front key (during MAN operation only) Stand-by command Alarm LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM * Valve openings feedback input is used for the type of 5th digit “D” in CODE SYMBOLS. Template No. 31 1-loop SV selectable motorized valve controller (with math function) AiM PV SV MV Re-transmission [Ao1T] output 1 Output type setting RET1 MVRB AO 1 Measurement value input 1 Measurement value input 2 Valve openings feedback signal /Aux. input PV1 Input Conditioner Input Conditioner Input Conditioner Result of calculation [AiM] Math module Local SV L OUT1 Current output Current output or Transmitter supply Relay output PV AiM PV2 FB /Ai1 PID operation SV A RUN PV SV MV [Ao2T] output 2 RET2 MVRB Depend on [OTYP] Re-transmission setting AO 2 OUT2 Control output 1 MV1 R M STBY PO CLOSE (Close output) OPEN Relay output (Open output) Di allocation SV select signal 1 SV select signal 2 SV select signal 3 EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 SV select SV1 [SV1] to SV7 [SV7] EX-MV setting [EXM1] Remote command DO allocation ALM1 ALM2 ALM3 SV select 1 SV select 2 SV select 3 EX-MV command Do1 Do2 Do3 Do11 to Do15 EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. [STBY] or Di allocation Manual command Front key (during MAN operation only) Stand-by command A/M chargeover Alarm LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM * Valve openings feedback input is used for the type of 5th digit “D” in CODE SYMBOLS. 9 PXH9 Template No. 33 1-loop motorized valve controller (without math function) PV SV MV Re-transmission [Ao1T] output 1 Output type setting RET1 MVRB AO 1 Current output OUT1 Measurement value input 1 Measurement value input 2 Valve openings feedback signal Remote command PV1 Input Conditioner Input Conditioner Input Conditioner PV PV2 Local SV L PID SV operation A RUN PV SV MV Re-trans- Depend on mission AO 2 [OTYP] [Ao2T] output 2 setting OUT2 RET2 MVRB Current output or Transmitter supply Relay output FB [RSV1] R M STBY Control output 1 MV1 PO CLOSE (Close output) OPEN Remote command 〔REM〕 Relay output (Open output) (Parameter setting or key operation) Di allocation Remote acknowledge EX-MV setting [EXM1] A/M chargeover DO allocation ALM1 ALM2 ALM3 Remote acknowledge Manual command EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 R-ACK SMV No allocation EX-MV command Do1 Do2 Do3 Do11 to Do15 EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. [STBY] or Di allocation Manual command Front key (during MAN operation only) Stand-by command Alarm LED display allocation ALM1 to 5 L Do1 to L Do5 Indicator lamp OR of all the ALMs L ALM * Valve openings feedback input is used for the type of 5th digit “D” in CODE SYMBOLS. Template No. 34 1-loop SV selectable motorized valve controller (without math function) PV SV MV Re-transmission [Ao1T] output 1 Output type setting RET1 MVRB AO 1 Measurement value input 1 OUT1 Current output Current output or Transmitter supply Relay output PV1 Input Conditioner PV Local SV Valve openings feedback signal FB L SV PID operation A RUN PV SV MV Re-trans- Depend on AO 2 mission [OTYP] [Ao2T] output 2 setting RET2 MVRB OUT2 Input Conditioner R M STBY Control output 1 MV1 PO CLOSE (Close output) OPEN Relay output (Open output) Di allocation SV select signal 1 SV select signal 2 SV select signal 3 EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 SV select SV1 [SV1] to SV7 [SV7] EX-MV setting [EXM1] Remote command DO allocation ALM1 ALM2 ALM3 SV select 1 SV select 2 SV select 3 EX-MV command Do1 Do2 Do3 Do11 to Do15 EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. [STBY] or Di allocation Manual command Front key (during MAN operation only) Stand-by command A/M chargeover Alarm LED display allocation L Do1 ALM1 to 5 to L Do5 Indicator lamp OR of all the ALMs L ALM * Valve openings feedback input is used for the type of 5th digit “D” in CODE SYMBOLS. 10 Template No. 50 1-loop heating/cooling controller (with math function) PV SV [Ao1T] Re-transmission output 1 Output type setting RET1 Re-transmission output 2 Measurement value input 1 Measurement value input 2 Aux. input /Remote SV input PV1 Input Conditioner Input Conditioner Input Conditioner Result of calculation [AiM] Math module Local SV Remote SV [RSV1] R L MV PV PV SV AO 1 OUT1 Current output or SSR driver output Current output or Transmitter supply or SSR driver output Relay output (Control output) Relay output (Control output) [Ao2T] Heating output RUN STBY PV2 PID operation SV A RUN MV Ai1 Remote [REM] command Remote command (Parameter setting or key operation) Di allocation Remote acknowledge EX-MV setting [EXM1] Manual MV setting M Heating /cooling operation OUT2 RET2 Heating Depend on [OTYP] output DO 3 setting HMV DO3 Cooling output DO 4 CMV DO4 AO 2 Cooling output DO allocation RUN ALM1 STBY ALM2 Do1 Do2 Do3 Do4 Do11 to Do15 Remote acknowledge Manual command EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 R-ACK SMV No allocation EX-MV command A/M chargeover ALM3 ALM4 Relay output (Do) EX-MV output command Preset output value [PMV1] No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do3 and Do4. No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. Alarm Preset output value [PMC1] [STBY] or Di allocation LED display allocation Stand-by command L Do1 ALM1 to 4 to L Do5 Indicator lamp OR of all the ALMs L ALM Template No. 51 1-loop SV selectable heating/cooling controller (with math function) PV SV [Ao1T] Re-transmission output 1 Output type setting RET1 Re-transmission output 2 Measurement value input 1 Measurement value input 2 Aux. input PV1 Input Conditioner Input Conditioner Input Conditioner Result of calculation [AiM] Math module Local SV L MV PV PV SV AO 1 OUT1 Current output or SSR driver output Current output or Transmitter supply or SSR driver output Relay output (Control output) Relay output (Control output) [Ao2T] Heating output RUN STBY PV2 PID operation SV A MV Heating /cooling operation Ai1 R EX-MV setting [EXM1] Manual MV setting OUT2 RET2 Heating Depend on [OTYP] output DO 3 setting HMV DO3 Cooling output DO 4 CMV DO4 AO 2 M Cooling output RUN STBY DO allocation ALM1 ALM2 ALM3 Di allocation SV select signal 1 SV select signal 2 SV select signal 3 EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 SV select SV1 [SV1] to Do1 Do2 Do3 Do4 Do11 to Do15 SV select 1 SV select 2 SV select 3 EX-MV command SV7 [SV7] EX-MV output command ALM4 No allocation Relay output (Do) No allocation * Di allocation can be changed with parameters. Preset output value [PMV1] Alarm * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do3 and Do4. Preset output value [PMC1] [STBY] or Di allocation LED display allocation Stand-by command L Do1 ALM1 to 4 to L Do5 Indicator lamp OR of all the ALMs L ALM 11 PXH9 Template No. 53 1-loop heating/cooling controller (without math function) PV SV MV [Ao1T] Re-transmission output 1 Output type setting RET1 Re-transmission output 2 AO 1 Measurement value input 1 OUT1 Current output or SSR driver output Current output or Transmitter supply or SSR driver output Relay output (Control output) Relay output (Control output) PV1 Input Conditioner Local SV Remote SV [RSV1] L PV PV [Ao2T] Heating output RUN STBY PID operation SV A SV MV Heating /cool[Note 1] ing operation Remote SV input Ai1 Input Conditioner R EX-MV setting [EXM1] Manual MV setting OUT2 RET2 Heating Depend on [OTYP] output DO 3 setting DO3 HMV Cooling output DO 4 CMV DO4 AO 2 M Remote command [REM] (Parameter setting or key operation) Di allocation Cooling output DO allocation RUN ALM1 Do1 Do2 Do3 Do4 Do11 to Do15 Remote acknowledge Manual command EX-MV output command Remote acknowledge A/M chargeover STBY ALM2 ALM3 ALM4 Di1 Di2 Di3 Di4 Di11 to Di15 R-ACK SMV No allocation EX-MV command Relay output (Do) EX-MV output command Preset output value [PMV1] Preset output value [PMC1] [STBY] or Di allocation No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do3 and Do4. No allocation * Di allocation can be changed with parameters. * Since the R-ACK value is INH at the time of delivery, set it to ENA before use. Alarm LED display allocation Stand-by command L Do1 ALM1 to 4 to L Do5 Indicator lamp OR of all the ALMs L ALM Template No. 54 1-loop SV selectable heating/cooling controller (without math function) PV SV MV [Ao1T] Re-transmission output 1 Output type setting RET1 Re-transmission output 2 AO 1 OUT1 Current output or SSR driver output Current output, Transmitter supply, or SSR driver output Relay output (Control output) Relay output (Control output) Measurement value input 1 PV1 Input Conditioner Local SV L PV PV SV [Ao2T] Heating output RUN STBY PID operation SV A MV Heating /cooling operation R EX-MV setting [EXM1] Manual MV setting OUT2 RET2 Heating Depend on [OTYP] output DO 3 setting HMV DO3 Cooling output DO 4 CMV DO4 AO 2 M Cooling output Control output 1 RUN STBY DO allocation ALM1 ALM2 ALM3 Di allocation SV select signal 1 SV select signal 2 SV select signal 3 EX-MV output command Di1 Di2 Di3 Di4 Di11 to Di15 SV select SV1 [SV1] to Do1 Do2 Do3 Do4 Do11 to Do15 SV select 1 SV select 2 SV select 3 EX-MV command SV7 [SV7] EX-MV output command Preset output value [PMV1] ALM4 No allocation * Do allocation can be changed with parameters. * Higher priority is assigned to designation of [OTYP] for the output to Do3 and Do4. Relay output (Do) No allocation * Di allocation can be changed with parameters. Alarm Preset output value [PMC1] [STBY] or Di allocation LED display allocation Stand-by command L Do1 ALM1 to 4 to L Do5 Indicator lamp OR of all the ALMs L ALM 12 CODE SYMBOLS [Basic type] 12345678 9 10111213 Digit PXH9A Digit Description 96 x 96 mm 1-loop basic controller Universal input: 1 point Universal input: 2 points Not fitted DC voltage: 1 point OUT1 Current Current Current SSR/SSC driver SSR/SSC driver OUT2 Not fitted Current Transmitter supply Not fitted Current *3 Notes 1 V 0 4 5 6 9 A 1 2 0 1 1 *1 7 8 9 1 2 5 A B V 0 R 10 11 100 to 240 V AC Not fitted RS-485 Digital input Digital output (Including relay control output) 2 points (Do3, Do4) 4 points (Do1 to Do4) 9 points (Do1 to Do4, Do11 to Do15) *2 12 4 points (Di1 to Di4) 4 points (Di1 to Di4) 9 points (Di1 to Di4, Di11 to Di15) *1 0 A B 0 13 Not fitted. *1: “2” for the 6th digit and “B” for the 12th digit cannot be specified at the same time. *2: One digital output (Do4) is occupied when relay is allocated as control output. *3: Explanation of the 9th digit of type code and output terminal function is below. Terminal Output Kind Do4 Relay OUT1 Current (4 to 20 mA) SSR/SSC driver OUT2 Current (4 to 20 mA) Transmitter power supply Function Control output * Control output Re-transmission or Control output or Re-transmission output Code Digital output output 9th digit 1 : Not fitted 2 : Fitted 5 A B * The selection of “Function” is specified according to the parameter. Optional Items Contents Terminal cover PC loader interface cable Model ZZP PXR1-B230 ZZP PXH1*TK4H4563 Notes Two pieces are necessary per 1 unit. For RS232C Interface 13 PXH9 [Motorized valve control type] 12345678 9 10111213 Digit P XH 9 Digit Description 96 x 96 mm 1-loop motorized valve controller (with valve openings feedback input) 1-loop motorized valve controller (without valve openings feedback input) Universal input: 1 point Universal input: 2 points Not fitted DC voltage: 1 point OUT1 Current Current Current OUT2 Not fitted Current Transmitter supply *2 Notes 1 V 0 4 5 9 D S 1 2 0 1 1 6 *1 7 8 9 1 2 5 V 0 R 10 11 100 to 240 V AC Not fitted RS-485 Digital input Digital output (Including valve control output) 2 points (Do3, Do4) 4 points (Do1 to Do4) 9 points (Do1 to Do4, Do11 to Do15) *3 12 4 points (Di1 to Di4) 4 points (Di1 to Di4) 9 points (Di1 to Di4, Di11 to Di15) *1 0 A B 0 13 Not fitted. *1: Universal input 2 points and “B” for the 12th digit cannot be specified at the same time. Select “universal input 2 points” when external setting input (RSV) is required. *2: “D” for the 5th digit and “1” for the 7th digit cannot be specified at the same time. *3: Do4 is used as control output. If 2 or 3 Do points are required for event output, specify code A, and if 4 to 8 Do points are required, specify code B. Terminal Output kind Function * Code Do4 Relay Used for valve open/close output. OUT1 Current (4 to 20 mA) OUT2 Current (4 to 20 mA) Transmitter power supply Re-transmission Re-transmission output output 9th digit 1 : Not fitted 2 : Fitted 5 * The selection of “Function” is specified according to the parameter. 14 [Heating/cooling control type] 12345678 9 10111213 Digit P XH 9 F Digit Description 96 x 96 mm 1-loop heating/cooling controller Universal input: 1 point Universal input: 2 points Not fitted DC voltage: 1 point OUT1 Current Current Current Current SSR/SSC driver SSR/SSC driver SSR/SSC driver OUT2 Not fitted Current SSR/SSC drive Transmitter supply Not fitted Current SSR/SSC drive *3 Notes 1 V 0 4 5 6 9 F 1 2 0 1 1 *1 7 8 9 1 2 3 5 A B C V 0 R 10 11 100 to 240 V AC Not fitted RS-485 Digital input Digital output (Including relay control output) 2 points (Do3, Do4) 4 points (Do1 to Do4) 9 points (Do1 to Do4, Do11 to Do15) *2 12 4 points (Di1 to Di4) 4 points (Di1 to Di4) 9 points (Di1 to Di4, Di11 to Di15) *1 0 A B 0 13 Not fitted. *1: “2” for the 6th digit and “B” for the 12th digit cannot be specified at the same time. *2: One digital output (Do4) or 2 points (Do3 and 4) is occupied when relay is allocated as control output. *3: Explanation of the 9th digit of type code and output terminal function is below. Terminal Output kind Do3 Relay Do4 Relay OUT1 Current (4 to 20 mA) SSR/SSC driver OUT2 Current (4 to 20 mA) SSR/SSC driver Function Control output Control output * Control output Control output or or or or Control output Control output Re-transmission Re-transmission Digital output Digital output Code output output 9th digit 1 2 3 5 A B C * The selection of “Function” is specified according to the parameter. Transmitter power supply : Not fitted : Fitted 15 PXH9 MEASUREMENT RANGE TABLE (1) Unit of temperature : ˚C Input type Resistance bulb Thermocouple Pt100Ω J K R B S T E PR40/20 N PL-II WRe5-26 DC voltage 1 to 5 V 0 to 5 V 0 to 10 V 0 to 10 mV 0 to 50 mV DC current Motorized valve opening feedback 4 to 20 mA 0 to 20 mA Potentiometer 100 to 10 kΩ 1/1000 digit -19999 to 99999 (Range where scaling is allowed) 1/10000 digit Measurement range [˚C] Max. -150 to 850 0 to 1000 0 to 1200 0 to 1600 0 to 1800 0 to 1600 -200 to 400 -200 to 800 0 to 1800 0 to 1300 0 to 1300 0 to 2300 Min. 0 to 150 0 to 400 0 to 400 0 to 1600 0 to 1800 0 to 1600 -200 to 200 0 to 800 0 to 1800 0 to 1300 0 to 1300 0 to 2300 Reading/setting resolution (˚C) 0.01 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 (2) Unit of temperature : ˚F Input type Resistance bulb Thermocouple Pt100Ω J K R B S T E PR40/20 N PL-II WRe5-26 DC voltage 1 to 5V DC 0 to 5V DC 0 to 10V DC 0 to 10mV DC 0 to 50mV DC Current Motorized valve opening feedback 4 to 20mA DC 0 to 20mA DC Potentiometer 100 to 10 kΩ 1/1000 digit -19999 to 99999 (Range where scaling is allowed) 1 / 10000 digit Measurement range [˚F] Max. -238 to 1562 32 to 1832 32 to 2192 32 to 932 32 to 3272 32 to 2912 -328 to 752 -328 to 1472 32 to 3272 32 to 2372 32 to 2372 32 to 4172 Min. 32 to 302 32 to 752 32 to 752 32 to 932 32 to 3272 32 to 2912 -328 to 392 32 to 1472 32 to 3272 32 to 2372 32 to 2372 32 to 4172 Reading/setting resolution (˚F) 0.01 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 0.1 16 LIST OF MATH FUNCTIONS CALC setting Name of operation Arithmetic expression 0 No math operation Mathematical expression 1 (Flow rate compensation with temperature and pressure) Mathematical expression 2 (Flow rate compensation with temperature and pressure) Mathematical expression 3 (Flow rate compensation with temperature and pressure) Mathematical expression 4 Mathematical expression 5 Mathematical expression 6 H selector (2 points) L selector (2 points) H selector (3 points) L selector (3 points) Input switching (2 points) H/L selector (2 points) (with Di switching function) H/L selector (3 points) (with Di switching function) M1 = PV1 input M1 = k01 X Ai1 + k02 X k04 k03 PV2 + k05 PV1: Flow rate (differential pressure), PV2: Temperature, Ai1: Pressure PV1 X *1 *1 *2 1 2 3 4 5 6 7 8 9 10 11 12 13 Ai1 + k02 X k04 k03 PV2 + k05 PV1: Flow rate (differential pressure), PV2: Temperature, Ai1: Pressure k04 M1 = k01 x PV1 x Ai1+k02 x k03 PV2+k05 PV1: Flow rate (differential pressure), PV2: Temperature, Ai1: Pressure (k01 X (k02 X PV1 + k03 X PV2 + k04 X Ai1) + k05) M1 = (k06 X (k07 X PV1 + k08 X PV2 + k09 X Ai1) + k10) (k01 X ((k02 X PV1 + k03) X (k04 X PV2 + k05) X (k06 X Ai1 + k07)) + k08) M1 = (k09 X ((k10 X PV1 + k11) X (k12 X PV2 + k13) X (k14 X Ai1 + k15)) + k16) M1 = k01 X PV1 X M1 = k01 X PV1 X (k02 X PV2 + k03 X Ai1) + k04 X Ai1 + k05 M1 = Max (PV1, PV2) PV1 or PV2, whichever is larger, is selected. M1 = Min (PV1, PV2) PV1 or PV2, whichever is smaller, is selected. M1 = Max (PV1, PV2, Ai1) PV1, PV2, or Ai1, whichever is largest, is selected. M1 = Min (PV1, PV2, Ai1) PV1, PV2, or Ai1, whichever is smallest, is selected. M1 = PV1 when PV1 ≤ k01, M1 = PV2 when PV1 > k01 Expression 7 or 8 is used by Di switching. (Specify “140” for Di function for switching.) Expression 9 or 10 is used by Di switching. (Specify “140” for Di function for switching.) M1 = PV1 (Ai1 + k01) + k02 (PV2 X k03) + k04 20 Flow rate compensation with temperature and pressure [% value operation] PV1: Differential pressure (flow rate) % value, k01: Pressure compensation constant 1, k04: Temperature compensation constant 2 PV2: Fluid temperature % value, k03: Temperature compensation constant 1 Ai1: Differential pressure % value, k02: Pressure compensation constant 2, k05: Square-root extractor cut point *Input data: % value (0 (0%) to 100000 (100.000%)) 21 Flow rate compensation with temperature and pressure [% value operation] (without square-root extraction) H selector (2 points) (with coefficient) H selector (2 points) (with coefficient) H selector (3 points) (with coefficient) L selector (3 points) (with coefficient) Input switching (2 points) (with coefficient) H/L selector (2 points) (with Di switching function) H/L selector (3 points) (with Di switching function) M1 = PV1 (Ai1 X k01) + k02 (PV2 X k03) + k04 All the inputs and constants are of the same specifications as mathematical expression 20. 27 28 29 30 31 32 33 M1 = max ((PV1 X k01 + k02), (PV2 X k03 + k04)) M1 = min ((PV1 X k01 + k02), (PV2 X k03 + k04)) M1 = max ((PV1 X k01 + k02), (PV2 X k03 + k04), (Ai X k05 + k06)) M1 = min ((PV1 X k01 + k02), (PV2 X k03 + k04), (Ai X k05 + k06)) M1 = (PV1 X k02 + k03) when k01 > (PV1 X k02 + k03) M1 = (PV2 X k04 + k05) when k01 ≤ (PV1 X k02 + k03) Expression 27 or 28 is used by Di switching. (Specify “140” for Di function for switching.) Expression 29 or 30 is used by Di switching. (Specify “140” for Di function for switching.) When PV1 ≤ k05 : M1 = (PV1 X k01) + k02 When PV2 ≤ k06 : M1 = (PV2 X k03) + k04 When PV1 > k05 and PV2 < k06 : Interpolation shown below, is executed. 34 Input switching (2 points) (with coefficient and interpolation function) M1 = 1 - (PV1 X k01 + k02) - k05 k06 - k05 X (PV1 X k01 + k02) - k05 - (PV1 X k01 + k02) - k05 k06 - k05 X (PV2 X k03 + k04) * note) k05 : Input switching upper value k06 : Input switching lower value 40 Calorie calculation M1 = ((PV1 X k01 + k02) - (PV2 X k03 + k04)) X (Ai1 X k05 + k06)) *1: Square-root extraction cut point can be set with k06. *2: Square-root extraction cut point can be set with k07. 17 PXH9 OUTLINE DIAGRAM (Unit:mm) MTG. bracket 94.5 (With terminal cover) 10 96 2 79.5 93.7 (Terminal Cover) Waterproof packing PC Loader Interface t 1≤t≤8 Panel Terminal cover (Available optionally) 37-48 49-60 61-72 1-12 13-24 25-36 PANEL CUTOUT 92 – 0 +0.8 92 – 0 +0.8 116 MIN. Terminal screw M3 RCJ Module (for PV2) RCJ Module Remove it for resistance bulb input. For PV2 fitted model only. Remove it for resistance bulb input. 100 MIN. In some models, a terminal block is not mounted to terminals those are not being used (terminal Nos. 37 to 60). (A dummy cover is mounted instead.) 18 6.2 107.5 91.5 96 TERMINAL ALLOCATION DO3 D03/Control output 2 (Relay) 5 6 OUT1 + 1 2 - Output 1 + 1 2 - OUT2 + 3 4 - Output 2 + 3 4 3 4 + RS485 Communication + SG - 14 15 16 Current SSR/SSC output driver output Current output SSR/SSC driver output Transmitter power supply [Note 1] 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 DO4/ Motorized valve DO4 Control output 1 (relay) PO opening/closing output NC COM NO 25 26 27 OPEN COM CLOSE 25 26 27 Di1-4 Digital inputs DI1 DI2 DI3 DI4 COM 28 29 30 31 32 DO1, 2 DOCOM DO1 DO2 7 8 9 Power supply FG PV1 10 11 12 + Measurement value input 1 33 + 33 + 34 RCJ Module 33 + B 34 34 A 35 35 B 36 - 36 Resistance bulb Thermocouple 100 to 240 V AC 50/60 Hz - 36 DC current - 36 - 36 [mV] [V] DC voltage PV2 Measurement value input 49 50 51 52 53 54 55 Extended-Di / Do DI11 DI12 DI13 DI14 DI15 COM DO11 DO12 DO13 DO14 DO15 COM 49 50 51 52 53 54 55 56 57 58 59 60 The RCJ module must be connected in case of thermocouple input. Remove it for resistance bulb input. AI1 Analog input 18 + DC voltage 19 20 I- (0%) Potentiometer FB Valve opening feedback input I+ (100%) Io 18 19 20 + 57 + RCJ Module 56 57 + 58 B A 58 59 + 57 58 59 B 60 60 - 60 [V] [mV] Resistance ThermoDC current DC voltage bulb couple 60 60 - - - The RCJ module must be connected in case of thermocouple input. Remove it for resistance bulb input. [Note1] Connection to the transmitter power supply 4 to 20 mA DC OUT2 + 3 Transmitter power supply 4PV1 + 33 Input type code 26 (4 to 20 mA DC) 36 - (Input impedance 250Ω) External wiring needed Transmiter 19 PXH9 INSULATION BLOCK DIAGRAM Power source Digital output (DO) 1, 2 Internal Circuit PC Loader interface Measurement value input 1 (PV1) Digital output (DO) 3 Digital output (DO) 4 Digital output (DO) 11 to 15 Measurement value input 2 (PV2) Auxiliary analog Input 1 (Ai1) / Valve openings feedback input (FB) Output 1 (Current / SSR driver) Output 2 (Current / SSR driver) Digital input (DI) 1 to 4 Basic insulation (1500 V AC) Functional insulation (500 V AC) No insulation Digital input (DI) 11 to 15 Transmitter power supply RS485