Fuji EDS11-157C Digital controller pxh Datasheet

DIGITAL CONTROLLER PXH
DATA SHEET
PXH9
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.
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) Valve opening feedback signal (Potentiometer)
2. Input section
2-1 Measurement value input
• Resistance range: 100 Ω ro 10 kΩ 3-wire
(1) Number of inputs: 1 or 2 (Option)
• Resolution: ± 0.1%FS
(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
• 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:
(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
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
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
(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)
(3) 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.
(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
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:
Alarm output, timer output, control output (Do4, Do3)
(4) Restriction:
4 Do points max. for 2-point measurement input model.
(5) Others:
Do4 or Do3 becomes control output
when relay is selected as control output.
Do4 becomes control output for motorized valve control type.
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.
3-3 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
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
<Optional operation>
• 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:
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
4
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)
7. Other functions
7-1 Parameter recipe
12. Structure
(1) Number of recipe groups: 7 sets
(2) External terminal: M3 screw terminal
(2) Number of parameters which can be registered:
10 parameters
(3) Case
• Material:
(3) Method of changing recipe groups:
Synchronized with the change of PID
groups
• Color:
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
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
9. Processing at power failure
• Memory protection: Non-volatile memory
(1) Mounting method: Panel flush mounting
Plastic
(Flame-resistant, UL94V-0)
Gray
(4) Protection
• Faceplate:
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
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)
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
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
(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.)
5
PXH9
BLOCK DIAGRAMS (CONTROLLER TEMPLATES)
Template No. 10
1-loop basic PID controller (with math function)
PV
SV
Measurement
value
input 1
Measurement
value
input 2
PV1
Result of
calculation
[AiM]
Input
Conditioner
PV2
Input
Conditioner
Aux. input
/Remote
SV input
Ai1
Input
Conditioner
Remote
command
[REM]
Math
module
PV
SV
R-ACK
Manual
command
Di2
SMV
Di3
No
allocation
Di4
EX-MV
command
EX-MV setting
[EXM1]
Depend on
[OTYP]
setting
RET2
MV
A
EX-MV output command
[STBY] or
Di 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.
Manual
command
Stand-by
command
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
* Do allocation can be
changed with
parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
Alarm
Measurement
value
input 2
Relay
output
(Control
output)
Relay
output
(Do)
to
Do15
L Do1
to
ALM1 to 5
L Do5
Indicator
lamp
L ALM
1-loop SV selectable PID controller (with math function)
PV
PV1
Current
output or
Transmitter
supply
LED display allocation
A/M chargeover
SV
Measurement
value
input 1
DO4
ALM1
OR of all
the ALMs
Template No. 11
OUT2
Current
output or
SSR driver
output
DO allocation
A/M chargeover
No
allocation
AO 2
OUT1
MV1
STBY
Remote
acknowledge
Preset output
value [PMV1]
AO 1
DO 4
Control
output 1
M
Manual MV setting
(Parameter setting or key operation)
Di1
Re-transmission
[Ao2T] output 2
SV
RUN
R
Remote command
Di11
to
Di15
PV
PID
operation
L
Local SV
[RSV1]
Remote
acknowledge
EX-MV
output
command
MV
Remote SV
Di allocation
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
Result of
calculation
[AiM]
Input
Conditioner
PV2
Input
Conditioner
Aux. input Ai1
Input
Conditioner
Math
module
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
MV
PV
Local SV
PV
PID
operation
L
SV
Re-transmission
[Ao2T] output 2
SV
A
RUN
R
EX-MV setting
[EXM1]
AO 2
DO 4
Control
output 1
OUT1
OUT2
DO4
MV1
M
Manual MV setting
Depend on
[OTYP]
setting
RET2
MV
AO 1
Current
output or
SSR driver
output
Current
output or
Transmitter
supply
Relay
output
(Control
output)
STBY
DO allocation
SV select
signal 1
SV select
signal 2
SV select
signal 3
EX-MV
output
command
Di allocation
SV select
Di1
SV select 1
SV1
[SV1]
Di2
SV select 2
Di3
SV select 3
Di4
EX-MV
command
Di11
to
Di15
to
SV7
[SV7]
EX-MV
output command
Preset output
value [PMV1]
No
allocation
* Di allocation can be
changed with parameters.
[STBY] or
Di allocation
Manual
command
Stand-by
command
A/M chargeover
Alarm
ALM1
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
to
Do15
LED display allocation
L Do1
ALM1 to 5
to
L Do5
OR of all
the ALMs
6
Relay
output
(Do)
L ALM
Indicator
lamp
Template No. 13
1-loop basic PID controller (without math function)
PV
SV
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
AO 1
MV
Measurement
value
input 1
PV1
PV
Input Conditioner
PID
operation
L
Local SV
PV
SV
Ai1
Remote
command
[REM]
Input Conditioner
RUN
EX-MV
output
command
EX-MV setting
[EXM1]
R
Remote command
(Parameter setting or key operation)
Di allocation
Remote
acknowledge
Manual
command
[RSV1]
Di1
R-ACK
Di2
SMV
Di3
No
allocation
Di4
EX-MV
command
Di11
to
Di15
STBY
EX-MV output command
No
allocation
[STBY] or
Di allocation
Manual
command
Stand-by
command
DO4
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
* Do allocation can be
changed with
parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
Alarm
Relay
output
(Control
output)
Relay
output
(Do)
to
Do15
LED display allocation
A/M chargeover
L Do1
to
ALM1 to 5
L Do5
Indicator
lamp
L ALM
1-loop SV selectable PID controller (without math function)
PV
SV
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
MV
Measurement
PV1
value
input 1
Current
output or
Transmitter
supply
ALM1
OR of all
the ALMs
Template No. 14
OUT2
DO allocation
A/M chargeover
* 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.
Current
output or
SSR driver
output
MV1
Remote
acknowledge
Preset output
value [PMV1]
DO 4
Control
output 1
M
Manual MV setting
AO 2
Depend on
[OTYP]
setting
RET2
MV
A
Remote SV
Remote
SV input
Re-transmission
[Ao2T] output 2
SV
OUT1
PV
Input Conditioner
Local SV
PV
PID
operation
L
SV
SV
RUN
R
EX-MV setting
[EXM1]
OUT1
OUT2
[OTYP]
setting
MV
A
AO 1
Re-transmission
[Ao2T] output 2
AO 2
Depend on
RET2
DO 4
Control
output 1
DO4
MV1
M
Current
output or
SSR driver
output
Current
output or
Transmitter
supply
Relay
output
(Control
output)
STBY
Manual MV setting
DO allocation
SV select
signal 1
SV select
signal 2
SV select
signal 3
EX-MV
output
command
Di allocation
SV select
Di1
SV select 1
SV1
[SV1]
Di2
SV select 2
Di3
SV select 3
Di4
EX-MV
command
Di11
to
Di15
to
SV7
[SV7]
EX-MV
output command
Preset output
value [PMV1]
No
allocation
* Di allocation can be
changed with parameters.
[STBY] or
Di allocation
Manual
command
Stand-by
command
A/M chargeover
Alarm
ALM1
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
Relay
output
(Do)
to
Do15
LED display allocation
L Do1
ALM1 to 5
to
L Do5
OR of all
the ALMs
Indicator
lamp
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]
Input
Conditioner
PV1
Input
Conditioner
PV2
PV
SV
AiM
PV
PID
operation
SV
Remote
command
PV select
RSV select
(Parameter
setting or
key operation)
Local
SV
[CN01]
[CN02]
AO 1
PV
Re-transmission
[Ao2T] output 2
SV
A
RUN
EXMV select
[CONST3]
Alarm
FF signal select
[CONST4]
[FFv1]
FF select
Di allocation
Remote
acknowledge
Manual
command
EX-MV
output
command
Di1
R-ACK
Di2
SMV
Di3
No
allocation
Di4
EX-MV
Remote
acknowledge
EX-MV output command
Preset output
value [PMV1]
Di11
to
Di15
8
Manual MV setting
A/M chargeover
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.
Do2
ALM3
Do3
ALM4
Do4
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the output
to Do4.
OR of all
the ALMs
[CN05]
(Parameter
setting)
Do1
ALM2
ALM1 to 5
(Parameter
setting)
FF INH
command
[STBY] or
Di allocation
Current
output or
Transmitter
supply
Relay
output
(Control
output)
Relay
output
(Do)
Do11
to
Do15
LED display allocation
FF
Calculation Feedforward
[CN04]
DO4
ALM1
No
allocation
[CN03]
(Parameter
setting)
OUT2
Current
output or
SSR driver
output
DO allocation
RSV select
[CONST2]
AMV1
EXMV
select
AO 2
DO 4
Control
output 1
STBY
R
Depend
on
[OTYP]
setting
OUT1
MV1
(Parameter
setting)
EX-MV setting
[EXM1]
RET2
MV
L
M
Remote
command
[REM]
(Parameter
setting)
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
MV
PV select
[CONST1]
Input
Conditioner
Ai1
AIM
Math
module
Stand-by
command
L Do1
to
L Do5
L ALM
Indicator
lamp
1-loop motorized valve controller (with math function)
Template No. 30
AiM
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
PV
SV
MV
Measurement
value input 1
Measurement
value input 2
/Remote SV
input
Valve openings
feedback
signal
/Aux. input
Remote
command
Input
Conditioner
PV1
Math
module
Input
Conditioner
PV2
FB
/Ai1
Manual
command
EX-MV
output
command
Local SV
PID
operation
L
SV
SV
A
Di3
No
allocation
Di4
EX-MV
command
CLOSE (Close output)
PO
OPEN
Relay output
(Open output)
STBY
DO allocation
EX-MV setting
[EXM1]
Remote
acknowledge
EX-MV output command
Preset output
value [PMV1]
Di11
to
Di15
Current
output or
Transmitter
supply
Relay output
Control
output 1
MV1
A/M chargeover
SMV
OUT2
RET2
R-ACK
Di2
Current
output
MVRB
M
(Parameter setting
or key operation)
Di1
OUT1
MV
R
Remote command
[REM]
Depend on
[OTYP]
AO 2
setting
Re-transmission
[Ao2T] output 2
PV
[RSV1]
Di allocation
Remote
acknowledge
AiM
PV
RUN
Input
Conditioner
AO 1
MVRB
Result of
calculation
[AiM]
No
allocation
[STBY] or
Di 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.
Stand-by
command
ALM1
Do1
ALM2
Do2
ALM3
Do3
No
allocation
Do11
* Do allocation can be
changed with
parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
Alarm
Relay
output
(Do)
to
Do15
LED display allocation
Manual
command
L Do1
to
ALM1 to 5
Front key
(during MAN
operation only)
Indicator
lamp
L Do5
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
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
MV
Measurement
value input 1
Measurement
value input 2
Valve openings
feedback
signal
/Aux. input
Result of
calculation
[AiM]
Input
Conditioner
PV1
Input
Conditioner
PV2
FB
/Ai1
Math
module
PV
PID
operation
L
Depend on
[OTYP]
Re-transmission
setting
AO 2
AiM
PV
Local SV
[Ao2T] output 2
SV
SV
A
OUT1
Current
output
OUT2
Current
output or
Transmitter
supply
RET2
MV
RUN
Input
Conditioner
AO 1
MVRB
R
MVRB
Control
output 1
MV1
M
Relay output
CLOSE (Close output)
PO
OPEN
Relay output
(Open output)
STBY
Di allocation
SV select
signal 1
SV select
signal 2
SV select
signal 3
EX-MV
output
command
Di1
SV select 1
Di2
SV select 2
Di3
SV select 3
Di4
EX-MV
command
Di11
to
Di15
SV1
[SV1]
to
SV7
[SV7]
Remote
command
EX-MV output command
Preset output
value [PMV1]
No
allocation
* Di allocation can be
changed with parameters.
DO allocation
EX-MV setting
[EXM1]
SV select
[STBY] or
Di allocation
Manual
command
Stand-by
command
A/M
chargeover
Alarm
ALM1
Do1
ALM2
Do2
ALM3
Do3
No
allocation
Do11
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
Relay
output
(Do)
to
Do15
LED display allocation
L Do1
ALM1 to 5
Front key
(during MAN
operation only)
to
L Do5
OR of all
the ALMs
Indicator
lamp
L ALM
* Valve openings feedback input is used for the type of 5th digit “D” in CODE SYMBOLS.
9
PXH9
1-loop motorized valve controller (without math function)
Template No. 33
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
PV
SV
MV
Measurement
value input 1
Measurement
value input 2
Valve openings
feedback
signal
Remote
command
Input
Conditioner
PV2
Di allocation
Di1
R-ACK
Manual
command
Di2
SMV
Di3
No
allocation
Di4
EX-MV
command
Di11
to
Di15
No
allocation
RET2
Current
output or
Transmitter
supply
Relay output
Control
output 1
MV1
M
CLOSE (Close output)
PO
OPEN
Relay output
(Open output)
STBY
DO allocation
EX-MV setting
[EXM1]
Remote
acknowledge
A/M chargeover
EX-MV
output
command
OUT2
MVRB
R
(Parameter setting
or key operation)
Remote
acknowledge
Current
output
OUT1
MV
RUN
Remote command
〔REM〕
setting
SV
A
[RSV1]
Re-trans- Depend on
mission
AO 2
[OTYP]
[Ao2T] output 2
PV
PID
SV operation
L
Local SV
Input
Conditioner
FB
MVRB
PV
Input
Conditioner
PV1
AO 1
ALM1
Do1
ALM2
Do2
Do3
ALM3
EX-MV output command
Preset output
value [PMV1]
Stand-by
command
[STBY] or
Di 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.
No
allocation
* Do allocation can be
changed with
parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
Alarm
Do11
to
Relay
output
(Do)
Do15
LED display allocation
Manual
command
L Do1
to
ALM1 to 5
Front key
(during MAN
operation only)
L Do5
OR of all
the ALMs
Indicator
lamp
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
Re-transmission
[Ao1T] output 1 Output type
setting
RET1
MV
Measurement
value
input 1
Local SV
Valve
openings
feedback
signal
SV
SV
A
Re-trans- Depend on
AO 2
mission
[OTYP]
[Ao2T] output 2
setting
RET2
OUT1
Current
output
OUT2
Current
output or
Transmitter
supply
MV
RUN
Input
Conditioner
FB
PV
PID
operation
L
AO 1
MVRB
PV
Input
Conditioner
PV1
R
M
MVRB
Control
output 1
MV1
Relay output
CLOSE (Close output)
PO
OPEN
Relay output
(Open output)
STBY
Di allocation
SV select
signal 1
SV select
signal 2
SV select
signal 3
EX-MV
output
command
Di1
SV select 1
Di2
SV select 2
Di3
SV select 3
Di4
EX-MV
command
Di11
to
Di15
SV1
[SV1]
to
SV7
[SV7]
Remote
command
EX-MV output command
Preset output
value [PMV1]
No
allocation
* Di allocation can be
changed with parameters.
DO allocation
EX-MV setting
[EXM1]
SV select
[STBY] or
Di allocation
Manual
command
Stand-by
command
A/M
chargeover
Alarm
ALM1
Do1
ALM2
Do2
ALM3
Do3
No
allocation
Do11
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the
output to Do4.
to
Do15
LED display allocation
Front key
(during MAN
operation only)
L Do1
ALM1 to 5
* Valve openings feedback input is used for the type of 5th digit “D” in CODE SYMBOLS.
to
L Do5
OR of all
the ALMs
10
Relay
output
(Do)
L ALM
Indicator
lamp
1-loop heating/cooling controller (with math function)
Template No. 50
PV
Re-transmission
output 1 Output type
setting
RET1
[Ao1T]
SV
Measurement
value
input 1
Measurement
value
input 2
Aux. input
/Remote
SV input
PV1
PV2
Ai1
Remote
[REM]
command
Result of
calculation
[AiM]
Input
Conditioner
Math
module
Input
Conditioner
[RSV1]
R
R-ACK
Manual
command
Di2
SMV
Di3
No
allocation
Di4
EX-MV
command
EX-MV setting
[EXM1]
M
Heating
/cooling
operation
RUN
AO 1
AO 2
OUT2
RET2
Heating Depend on
[OTYP]
output
DO 3
setting
HMV
DO3
Cooling
output
DO 4
CMV
DO4
ALM1
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
EX-MV output command
Preset output
value [PMV1]
No
allocation
Preset output
value [PMC1]
[STBY] or
Di allocation
Alarm
Input
Conditioner
Aux. input
Ai1
Input
Conditioner
Result of
calculation
[AiM]
SV select
signal 2
SV select
signal 3
EX-MV
output
command
Math
module
Local SV
L Do1
to
ALM1 to 4
L Do5
Re-transmission
output 1 Output type
setting
RET1
[Ao1T]
SV select
Di1
SV select 1
SV1
[SV1]
Di2
SV select 2
Di3
SV select 3
Di4
EX-MV
command
No
allocation
* Di allocation can be
changed with parameters.
[Ao2T]
SV
PID
operation
L
Re-transmission
output 2
PV
PV
MV
SV
R
Di allocation
Di11
to
Di15
to
Do15
LED display allocation
MV
Heating
output
A
EX-MV setting
[EXM1]
M
Manual MV setting
SV select
signal 1
Relay
output
(Do)
Indicator
lamp
L ALM
1-loop SV selectable heating/cooling controller (with math function)
Input
Conditioner
PV2
Relay output
(Control output)
Do11
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the output
to Do3 and Do4.
Stand-by
command
PV
Measurement
value
input 2
Relay output
(Control output)
DO allocation
A/M chargeover
SV
PV1
Current output
or Transmitter
supply or SSR
driver output
RUN
OR of all
the ALMs
Measurement
value
input 1
Current output
or SSR driver
output
STBY
Remote
acknowledge
* 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.
Template No. 51
OUT1
STBY
Cooling
output
Manual MV setting
(Parameter setting or key operation)
Heating
output
A
RUN
Remote command
Di1
Di11
to
Di15
MV
SV
Remote SV
Remote
acknowledge
[Ao2T]
SV
PID
operation
L
Re-transmission
output 2
PV
PV
Local SV
Input
Conditioner
Di allocation
EX-MV
output
command
MV
Heating
/cooling
operation
Cooling
output
RUN
RUN
[STBY] or
Di allocation
Current output
or SSR driver
output
Current output
or Transmitter
supply or SSR
driver output
Relay output
(Control output)
Relay output
(Control output)
DO allocation
EX-MV
output command
Preset output
value [PMC1]
AO 2
STBY
STBY
Preset output
value [PMV1]
OUT1
OUT2
RET2
Heating Depend on
[OTYP]
output
DO 3
setting
HMV
DO3
Cooling
output
DO 4
CMV
DO4
to
SV7
[SV7]
AO 1
Alarm
ALM1
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
* 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)
to
Do15
LED display allocation
Stand-by
command
L Do1
ALM1 to 4
to
L Do5
OR of all
the ALMs
Indicator
lamp
L ALM
11
PXH9
1-loop heating/cooling controller (without math function)
Template No. 53
PV
Re-transmission
output 1 Output type
setting
RET1
[Ao1T]
SV
MV
Measurement
value
input 1
PV1
Ai1
Remote
command [REM]
Input Conditioner
Remote
acknowledge
Manual
command
EX-MV
output
command
Di1
R-ACK
Di2
SMV
Di3
No
allocation
Di4
EX-MV
command
Di11
to
Di15
R
Heating
output
A
EX-MV setting
[EXM1]
M
Heating
/cool[Note 1] ing
operation
RUN
AO 2
OUT2
RET2
Heating Depend on
[OTYP]
output
DO 3
setting
DO3
HMV
Cooling
output
DO 4
CMV
DO4
EX-MV output command
Preset output
value [PMV1]
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.
ALM1
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
Preset output
value [PMC1]
[STBY] or
Di allocation
* Do allocation can be
changed with parameters.
* Higher priority is
assigned to designation
of [OTYP] for the output
to Do3 and Do4.
Alarm
to
L Do5
Re-transmission
output 1 Output type
setting
RET1
[Ao1T]
MV
SV
Di allocation
SV select
Di1
SV select 1
SV1
[SV1]
Di2
SV select 2
Di3
SV select 3
Di4
EX-MV
command
* Di allocation can be
changed with parameters.
Heating
output
A
EX-MV setting
[EXM1]
M
Manual MV setting
No
allocation
[Ao2T]
SV
PID
operation
L
Re-transmission
output 2
PV
PV
Input Conditioner
R
Di11
to
Di15
Indicator
lamp
L ALM
Heating
/cooling
operation
Cooling
output
RUN
Preset output
value [PMC1]
AO 2
Current
output or
SSR driver
output
Current output,
Transmitter supply,
or SSR driver
output
Relay output
(Control output)
Relay output
(Control output)
Control
output 1
RUN
DO allocation
EX-MV
output command
Preset output
value [PMV1]
OUT1
STBY
to
SV7
[SV7]
AO 1
OUT2
RET2
Heating Depend on
[OTYP]
output
DO 3
setting
HMV
DO3
Cooling
output
DO 4
CMV
DO4
STBY
[STBY] or
Di allocation
Alarm
ALM1
Do1
ALM2
Do2
ALM3
Do3
ALM4
Do4
No
allocation
Do11
* 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)
to
Do15
LED display allocation
Stand-by
command
L Do1
ALM1 to 4
to
L Do5
OR of all
the ALMs
12
to
Do15
1-loop SV selectable heating/cooling controller (without math function)
Local SV
EX-MV
output
command
Relay
output
(Do)
L Do1
ALM1 to 4
MV
SV select
signal 2
SV select
signal 3
Relay output
(Control output)
LED display allocation
Stand-by
command
SV
SV select
signal 1
Relay output
(Control output)
STBY
Remote
acknowledge
PV
PV1
Current output
or Transmitter
supply or SSR
driver output
DO allocation
OR of all
the ALMs
Measurement
value
input 1
Current output
or SSR driver
output
RUN
A/M chargeover
Template No. 54
OUT1
STBY
Cooling
output
Manual MV setting
(Parameter setting or key operation)
Di allocation
MV
SV
Remote SV
[RSV1]
[Ao2T]
SV
PID
operation
L
Local SV
Remote
SV input
PV
PV
Input Conditioner
AO 1
Re-transmission
output 2
L ALM
Indicator
lamp
CODE SYMBOLS [Basic type]
1 2 3 4 5 6 7 8
PXH9A
Description
Digit
4
<Dimension of front face H x W>
96 x 96 mm
5
<Number of control loops/Function>
1-loop basic controller
6
<Measurement value input>
Universal input: 1 point
Universal input: 2 points
7
<Version No.>
9
<Output>
OUT1
11
12
9
A
*1
1
2
0
1
*3
OUT2
Not fitted
Current
Transmitter supply
Not fitted
Current
1
2
5
A
B
<Power supply>
100 to 240 V AC
V
<Communication interface>
Not fitted
RS-485
<Digital input/output>
Digital input
0
R
Digital output (Including relay control output)
4 points (Di1 to Di4)
4 points (Di1 to Di4)
9 points (Di1 to Di4, Di11 to Di15)
13
Digit
0
1
Current
Current
Current
SSR/SSC driver
SSR/SSC driver
10
V
Notes
<Auxiliary input>
Not fitted
DC voltage: 1 point
8
9 10111213
1
*2
2 points (Do3, Do4)
4 points (Do1 to Do4)
9 points (Do1 to Do4, Do11 to Do15)
0
A
B
*1
<Additional specifications>
Not fitted.
0
*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
Do4
Output
Kind
Relay
OUT2
OUT1
Current
(4 to 20 mA)
SSR/SSC
driver
Current
(4 to 20 mA)
Function
Control output
* Control output
Re-transmission
or
Control output
or
Re-transmission
output
Code
Digital output
output
9th
digit
Transmitter
power
supply
1
: Not fitted
2
: Fitted
5
A
B
* The selection of “Function” is specified according to the parameter.
Optional Items
Contents
Model
Notes
Terminal cover
ZZP PXR1-B230
Two pieces are necessary per
1 unit.
PC loader interface cable
ZZP PXH1*TK4H4563
For RS232C Interface
13
PXH9
[Motorized valve control type]
1 2 3 4 5 6 7 8
P XH 9
Description
Digit
4
5
<Number of control loops/Function>
1-loop motorized valve controller (with valve openings feedback input)
1-loop motorized valve controller (without valve openings feedback input)
7
9
<Output>
OUT1
*1
0
1
OUT2
*2
Not fitted
Current
Transmitter supply
10
<Power supply>
100 to 240 V AC
11
<Communication interface>
Not fitted
RS-485
<Digital input/output>
Digital input
1
2
5
V
0
R
Digital output (Including valve control output)
4 points (Di1 to Di4)
4 points (Di1 to Di4)
9 points (Di1 to Di4, Di11 to Di15)
13
1
2
1
Current
Current
Current
12
D
S
<Auxiliary input>
Not fitted
DC voltage: 1 point
<Version No.>
2 points (Do3, Do4)
4 points (Do1 to Do4)
9 points (Do1 to Do4, Do11 to Do15)
*3
*1
<Additional specifications>
Not fitted.
Terminal
Do4
OUT1
Output
kind
Relay
Current
(4 to 20 mA)
Code
9th
digit
Used for
valve
open/close
output.
OUT2
Current
(4 to 20 mA)
Re-transmission Re-transmission
output
output
Transmitter
power
supply
1
: Not fitted
2
: Fitted
5
* The selection of “Function” is specified according to the parameter.
14
0
A
B
0
*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.
Function
*
0
9
<Measurement value input>
Universal input: 1 point
Universal input: 2 points
8
V
Notes
<Dimension of front face H x W>
96 x 96 mm
6
9 10111213
1
Digit
[Heating/cooling control type]
1 2 3 4 5 6 7 8
P XH 9 F
Description
Digit
4
<Dimension of front face H x W>
96 x 96 mm
5
<Number of control loops/Function>
1-loop heating/cooling controller
6
<Measurement value input>
Universal input: 1 point
Universal input: 2 points
7
<Version No.>
9
<Output>
OUT1
9
F
1
2
*1
0
1
*3
OUT2
Not fitted
Current
SSR/SSC drive
Transmitter supply
Not fitted
Current
SSR/SSC drive
10
<Power supply>
100 to 240 V AC
11
<Communication interface>
Not fitted
RS-485
<Digital input/output>
Digital input
1
2
3
5
A
B
C
V
0
R
Digital output (Including relay control output)
4 points (Di1 to Di4)
4 points (Di1 to Di4)
9 points (Di1 to Di4, Di11 to Di15)
13
Digit
0
1
Current
Current
Current
Current
SSR/SSC driver
SSR/SSC driver
SSR/SSC driver
12
V
Notes
<Auxiliary input>
Not fitted
DC voltage: 1 point
8
9 10111213
1
*2
2 points (Do3, Do4)
4 points (Do1 to Do4)
9 points (Do1 to Do4, Do11 to Do15)
0
A
B
*1
<Additional specifications>
Not fitted.
0
*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
Do3
Do4
Output
kind
Relay
Relay
OUT1
Current
(4 to 20 mA)
OUT2
SSR/SSC
driver
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
Transmitter
power
supply
: Not fitted
2
: Fitted
3
5
A
B
C
* The selection of “Function” is specified according to the parameter.
15
PXH9
MEASUREMENT RANGE TABLE
(1) Unit of temperature : ˚C
Measurement range [˚C]
Input type
Max.
Min.
Reading/setting
resolution (˚C)
Resistance bulb
Pt100Ω
-150 to 850
0 to 150
0.01
Thermocouple
J
0 to 1000
0 to 400
0.1
K
0 to 1200
0 to 400
0.1
R
0 to 1600
0 to 1600
0.1
B
0 to 1800
0 to 1800
0.1
S
0 to 1600
0 to 1600
0.1
T
-200 to 400
-200 to 200
0.1
E
-200 to 800
0 to 800
0.1
PR40/20
0 to 1800
0 to 1800
0.1
N
0 to 1300
0 to 1300
0.1
PL-II
0 to 1300
0 to 1300
0.1
WRe5-26
0 to 2300
0 to 2300
0.1
DC voltage
1 to 5 V
0 to 5 V
0 to 10 V
0 to 10 mV
0 to 50 mV
DC current
-19999 to 99999
(Range where scaling
is allowed)
1/10000
digit
100 to 10 kΩ
1/1000
digit
Measurement range [˚F]
Reading/setting
4 to 20 mA
0 to 20 mA
Motorized valve
opening feedback
Potentiometer
(2) Unit of temperature : ˚F
Input type
Max.
Min.
resolution (˚F)
Resistance bulb
Pt100Ω
-238 to 1562
32 to 302
0.01
Thermocouple
J
32 to 1832
32 to 752
0.1
K
32 to 2192
32 to 752
0.1
R
32 to 932
32 to 932
0.1
B
32 to 3272
32 to 3272
0.1
S
32 to 2912
32 to 2912
0.1
T
-328 to 752
-328 to 392
0.1
E
-328 to 1472
32 to 1472
0.1
PR40/20
32 to 3272
32 to 3272
0.1
N
32 to 2372
32 to 2372
0.1
PL-II
32 to 2372
32 to 2372
0.1
WRe5-26
32 to 4172
32 to 4172
0.1
DC voltage
1 to 5V DC
0 to 5V DC
0 to 10V DC
0 to 10mV DC
0 to 50mV DC
Current
-19999 to 99999
1 / 10000
(Range where scaling is allowed)
digit
100 to 10 kΩ
1/1000
digit
4 to 20mA DC
0 to 20mA DC
Motorized valve
opening feedback
16
Potentiometer
LIST OF MATH FUNCTIONS
CALC
setting
Name
of operation
0
No math operation
1
Mathematical expression 1
(Flow rate compensation with
temperature and pressure)
2
Mathematical expression 2
(Flow rate compensation with
temperature and pressure)
3
Mathematical expression 3
(Flow rate compensation with
temperature and pressure)
4
Mathematical expression 4
5
Mathematical expression 5
6
Mathematical expression 6
7
H selector (2 points)
8
L selector (2 points)
9
H selector (3 points)
10
L selector (3 points)
11
Input switching (2 points)
12
H/L selector (2 points)
(with Di switching function)
Expression 7 or 8 is used by Di switching.
(Specify “140” for Di function for switching.)
13
H/L selector (3 points)
(with Di switching function)
Expression 9 or 10 is used by Di switching.
(Specify “140” for Di function for switching.)
Arithmetic expression
M1 = PV1 input
*2
*1
Ai1 + k02 X
k04
k03
PV2 + k05
PV1: Flow rate (differential pressure), PV2: Temperature, Ai1: Pressure
M1 = k01 X
PV1 X
*1
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
M1 = PV1 (Ai1 + k01) + k02
(PV2 X k03) + k04
20
Flow rate compensation with
temperature and pressure
[% value operation]
21
Flow rate compensation with
temperature and pressure
[% value operation]
(without square-root extraction)
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%))
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
H selector (2 points)
(with coefficient)
M1 = max ((PV1 X k01 + k02), (PV2 X k03 + k04))
28
H selector (2 points)
(with coefficient)
M1 = min ((PV1 X k01 + k02), (PV2 X k03 + k04))
29
H selector (3 points)
(with coefficient)
M1 = max ((PV1 X k01 + k02), (PV2 X k03 + k04), (Ai X k05 + k06))
30
L selector (3 points)
(with coefficient)
M1 = min ((PV1 X k01 + k02), (PV2 X k03 + k04), (Ai X k05 + k06))
31
Input switching (2 points)
(with coefficient)
32
H/L selector (2 points)
(with Di switching function)
Expression 27 or 28 is used by Di switching.
(Specify “140” for Di function for switching.)
33
H/L selector (3 points)
(with Di switching function)
Expression 29 or 30 is used by Di switching.
(Specify “140” for Di function for switching.)
34
Input switching (2 points)
(with coefficient and
interpolation function)
M1 = (PV1 X k02 + k03) when k01 > (PV1 X k02 + k03)
M1 = (PV2 X k04 + k05) when k01 ≤ (PV1 X k02 + k03)
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.
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
79.5
PC Loader Interface
t
1≤t≤8
Terminal cover
(Available optionally)
Panel
1-12
13-24 25-36
6.2
37-48 49-60 61-72
107.5
91.5
96
Waterproof
packing
93.7 (Terminal Cover)
2
96
PANEL CUTOUT
+0.8
116 MIN.
92 – 0
+0.8
92 – 0
Terminal screw M3
RCJ Module
Remove it for resistance bulb input.
RCJ Module (for PV2)
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
TERMINAL ALLOCATION
DO3 D03/Control output 2 (Relay)
Output 1
OUT1
+
5
2
6
+
1
1
-
2
Output 2
OUT2
+
4
-
3
Current
output
Current SSR/SSC
output
driver
output
4
-
Communication
RS485
+
3
+
3
-
SSR/SSC
driver
output
4
+
14
SG
15
-
16
-
Transmitter
power supply
[Note 1]
DO4/
Motorized valve
DO4 Control output 1 (relay) PO opening/closing output
37
49
1
13
25
38
50
2
14
26
39
51
3
15
27
40
52
4
16
28
NC
25
OPEN
25
41
53
5
17
29
COM
26
COM
26
27
CLOSE
27
42
54
6
18
43
55
7
19
31
44
56
8
20
32
45
57
9
21
33
46
58
10
22
34
47
59
11
23
35
48
60
12
24
36
DO1, 2
DOCOM
DO1
DO2
NO
30
Di1-4
Digital inputs
DI1
28
DI2
29
DI3
30
DI4
31
COM
32
Power supply
PV1
FG
7
Measurement value input 1
10
8
11
9
12
+
+
33
33
+
34
100 to 240 V AC
50/60 Hz
PV2
+
Measurement value input
57
+
58
-
DI11
49
50
DI12
50
51
DI13
51
52
DI14
52
53
DI15
53
54
COM
54
60
DC voltage
AI1 Analog input
18
+
RCJ Module 56
DO12
56
-
57
DO13
57
DC voltage
58
DO14
58
59
DO15
59
COM
60
B
-
58
59
+
Resistance
bulb
Thermocouple
The RCJ module must be connected
in case of thermocouple input.
Remove it for resistance bulb input.
55
B
60
60
- 60
[V] [mV]
Resistance ThermoDC current DC voltage bulb
couple
60
DC current
DO11
A
-
49
- 36 - 36
[mV]
[V]
55
57
+
Extended-Di / Do
- 36
RCJ Module 33
+
B
34
34
A
35
35
B
36
- 36
19
FB
Valve opening
feedback input
I+ (100%)
Io
20
18
19
20
I- (0%)
Potentiometer
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
Transmiter
OUT2
+
3
Transmitter power supply
4 PV1
+
33
Input type code 26 (4 to 20 mA DC)
36 - (Input impedance 250Ω)
External wiring
needed
19
PXH9
INSULATION BLOCK DIAGRAM
Power source
Internal Circuit
Digital output (DO) 1, 2
PC Loader interface
Measurement value input 1 (PV1)
Digital output (DO) 3
Measurement value input 2 (PV2)
Digital output (DO) 4
Auxiliary analog Input 1 (Ai1) /
Valve openings feedback input (FB)
Digital output (DO) 11 to 15
Output 1 (Current / SSR driver)
Output 2 (Current / SSR driver)
Digital input (DI) 1 to 4
Basic insulation (1500 V AC)
Digital input (DI) 11 to 15
Functional insulation (500 V AC)
Transmitter power supply
No insulation
RS485