Fuji Electric MICREX-SX series SPF User manual
series
USER’S MANUAL
Analog Unit
FEH527
Preface
Thank you for purchasing Fuji Electric Programmable Controller MICREX-SX SPF Series.
This User’s Manual describes the specications of the SPF series analog unit and thermocouple input unit.
Read this manual carefully to ensure correct operation and also read the corresponding user’s manuals listed below.
Notes
1. This manual may not be reproduced in whole or part in any form without prior written approval by the manufacturer.
2. The contents of this manual (including specifications) are subject to change without prior notice.
3. If you find any ambiguous or incorrect descriptions in this manual, please write them down (along with the manual No.
shown on the cover) and contact FUJI.
* In addition to the above manuals, the following Fuji Electric Co.,Ltd.site offers various manuals and technical documents
associated with MICREX-SX series.
URL http://www.fujielectric.com
Title Manual No. Contents
User’s Manual Hardware,
MICREX-SX series SPF
FEH526 Describes the system conguration, hardware specications and
operations of units in the MICREX-SX series SPF.
User’s Manual Instructions (Standard),
MICREX-SX series SPF
FEH524 Describes the memory specications and instructions specic to
SPF series.
User’s Manual Instructions (Standard),
MICREX-SX series SPB
FEH430 Describes the memory, language and system denitions of the
MICREX-SX series SPB (SX-mode, Standard loader).
User’s Manual Instructions (Standard),
MICREX-SX series SPH
FEH588 Describes the memory, language and system denitions of the
MICREX-SX series SPH (SX-mode, Standard loader).
User’s Manual SX-Programmer Standard
<Reference>, MICREX-SX series
FEH598 Describes the functions and the operations of SX-Programmer
Standard.
User’s Manual Instructions (Expert),
MICREX-SX series SPF
FEH525 Describes the memory specications and instructions specic to
SPF series.
User’s Manual Instructions (Expert),
MICREX-SX series SPB
FEH202 Describes the memory, language and system denitions of the
MICREX-SX series SPB (SX-mode, Expert loader).
User’s Manual Instructions (Expert),
MICREX-SX series SPH
FEH200 Describes the memory, language and system denitions of the
MICREX-SX series SPH (SX-mode, Expert loader).
User’s Manual SX-Programmer Expert
<Reference>, MICREX-SX series
FEH257 Describes the functions and the operations of SX-Programmer
Expert.
Safety Precautions
Be sure to read the "Safety Precautions" thoroughly before using the module.
Here, the safety precautions items are classied into "Warning" and "Caution".
Warning
Caution
: Incorrect handling of the device may result in death or serious injury.
: Incorrect handling of the device may result in minor injury or physical damage
.
Even some items indicated by "Caution" may result in a serious accident.
Both safety instruction categories provide important information. Be sure to strictly observe these instructions.
Warning
Neve touch any part of charged circuits as terminals and exposed metal portion while the power is turned ON.
It may result in an electric shock to the operator.
Turn OFF the power before mounting, dismounting, wiring, maintaining or checking, otherwise, electric shock, erratic
operation or troubles might occur.
Place the emergency stop circuit, interlock circuit or the like for safety outside the PLC. A failure of the PLC might break
or cause problems to the machine.
When using an expansion right side unit, be sure to mount a healthy unit to stop the SPF system with a fatal fault if the
expansion right side unit is dropped. Unless a healthy unit is mounted, a dropout of the expansion right side unit is not
detected and the SPF system continues operation in the state where the expansion right side unit is dropped.
Do not use one found damaged or deformed when unpacked, otherwise, fire, failure or erratic operation might be caused.
Do not shock the product by dropping or tipping it over, otherwise, it might be damaged or troubled.
Follow the directions of the instruction manual and user’s manual when mounting the product.
If mounting is improper, the product might drop or develop problems or erratic operations.
Use the rated voltage and current mentioned in the instruction manual and user’s manual. Use beyond the rated values
might cause fire, erratic operation or failure.
Operate (keep) in the environment specified in the instruction manual and user’s manual. High temperature, high humidity,
condensation, dust, corrosive gases, oil, organic solvents, excessive vibration or shock, might cause electric shock, fire,
erratic operation or failure.
Select a wire size to suit the applied voltage and carrying current. Tighten the wire terminals to the specified torque.
Inappropriate wiring or tightening might cause fire, malfunction, failure or might cause the product to drop from its
mounting.
Contaminants, wiring chips, iron powder or other foreign matter must not enter the device when installing it, otherwise, fire,
accident, erratic operation or failure might occur.
Remove the dust-cover seals of modules after wiring, otherwise, fire, accident, erratic operation or failure might occur.
Connect the ground terminal to the ground, otherwise, electric shock or erratic operation might occur.
Periodically make sure the terminal screws and mounting screws are securely tightened.
Operation at a loosened status might cause fire or erratic operation.
Put the furnished connector covers on unused connectors, otherwise, erratic operation or failure might occur.
Sufficiently make sure of safety before program change, forced output, starting, stopping or anything else during a run.
Wrong operation might break or cause problems to the machine
Engage the loader connector in a correct orientation, otherwise, an erratic operation might occur.
Before touching the PLC, discharge any static electricity that may have been collected on your body. To discharge it, touch
a grounded metallic object. Static electricity might cause erratic operation or failure.
Be sure to install the electrical wiring correctly and securely, observing the directions of the instruction manual and user’s
manual. Wrong or loose wiring might cause fire, accident or failure.
When disengaging the plug from the outlet, do not pull the cord, otherwiase, break of cable might cause fire or failure.
Do not attempt to change system configurations (such as installing or removing expansion block) while the power is ON,
otherwise, failure or erratic operation might occur.
Do not attempt to repair the module by yourself, but contact your Fuji Electric agent, otherwise, fire, accident or failure
might occur.
To clean the module, turn power off and wipe the module with a cloth moistened with warm water. Do not use thinner or
other organic solvents, as the module surface might become deformed or discolored.
Do not remodel or disassemble the product, otherwise, failure might occur.
Follow the regulations of industrial wastes when the device is to be discarded.
The products covered in this user’s manual have not been designed or manufactured for use in equipment or systems
which, in the event of failure, can lead to loss of human life.
If you intend to use the products covered in this user’s manual for special applications, such as for nuclear energy control,
aerospace, medical or transportation, consult your Fuji Electric agent.
Be sure to provide protective measures when using the products covered in this manual in equipment which, in the event
of failure, can lead to loss of human life or other grade results.
External power supply (such as 24 V DC power supply) which is connected to DC I/O should be strongly isolated from AC
power supply, otherwise, accident or failure might occur. (Use of EN60950 conforming power supply is recommended.)
Do not use the peoducts covered in this user’s manual in a residential environment.
Caution
Safety Precautions
Revision
* The manual No. is printed at the bottom right of the cover of this manual.
Printed on * Manual No. Revision contents
Jan. 2017 FEH527 First edition
ContentsContents
Preface
Safety Precautions
Revision
Contents
Section 1 Overview
1-1 Product List ......................................................................................................................................1-1
1-2 Features ............................................................................................................................................1-1
1-2-1 Number of connectable units ........................................................................................................................1-1
1-2-2 Analog signal range setting function .............................................................................................................1-1
1-2-3 Parameter setting function ............................................................................................................................1-1
Section 2 Specications
2-1 General Specications ....................................................................................................................2-1
2-2 Functional/Performance Specications.........................................................................................2-2
2-2-1 Specication list ............................................................................................................................................2-2
2-2-2 Conversion characteristics............................................................................................................................2-6
2-3 Names and Functions......................................................................................................................2-12
2-3-1 Analog input unit (Type: NA0AX06-MR)........................................................................................................2-12
2-3-2 Analog output unit (Type: NA0AY02-MR)......................................................................................................2-14
2-3-3 Analog input/output unit (Type: NA0AW06-MR)............................................................................................2-16
2-3-4 Thermocouple input unit (Type: NA0AX06-TC).............................................................................................2-19
2-4 Wiring ................................................................................................................................................2-20
2-4-1 Analog input (target type: NA0AX06-MR and NA0AW06-MR)......................................................................2-20
2-4-2 Analog output (target type: NA0AY02-MR and NA0W06-MR) ......................................................................2-21
2-4-3 Thermocouple input (target type: NA0AX06-TC) ..........................................................................................2-22
2-5 Dimensions.......................................................................................................................................2-23
Section 3 Programming
3-1 Memory Assignment ........................................................................................................................3-1
3-1-1 Analog input unit ...........................................................................................................................................3-1
3-1-2 Analog output unit .........................................................................................................................................3-1
3-1-3 Analog input/output unit ................................................................................................................................3-1
3-1-4 Thermocouple input unit................................................................................................................................3-1
3-2 System Denition.............................................................................................................................3-2
3-2-1 Registering units ...........................................................................................................................................3-2
3-2-2 Setting parameters........................................................................................................................................3-3
1-1
Section 1 Overview
Type Specication
NA0AX06-MR Analog voltage/current input, 6 channels
NA0AY02-MR Analog voltage/current output, 2 channels
NA0AW06-MR Analog voltage/current input/output, Input 4 channels
NA0AX06-TC Thermocouple input unit, 6 channels
1-1 Product List
The SPF series analog unit and temperature measurement unit include the following models.
In this manual, these models are collectively called “analog unit.”
1-2 Features
1-2-1 Number of connectable units
The analog unit is an expansion unit that is connected on the right-hand side of the SPF series basic unit.
Up to three analog units can be connected on the right-hand side of the SPF series basic unit.
( )
OUT Y
Y6Y1
AC100~240V
C0 Y0
Y4
Y2
C2 Y3
PORT0
Y5
C4 C6
0
4
8
2
I
6
5
9
Y8
Y7 Y9
3
7
()
IN X
X8
X0
24V OUT
S/S
RXTX
RUN
ERR
I2 I3
POW
X4
X2
X1 X3
0
8
4
2
I
I0
9
65
X6
X5 X7
X12
3
II
7
X10
X9 X11 X13
SINK
SRCE
max.
400mA
IN
Max. 3 units
㻻㻜㻗㻻㻝㻗
㻭㻳 㻻㻜㻙
㻺㻭㻜㻭㼃㻜㻢㻙㻹㻾
㻻㻝㻙
㻞㻠㼂㻌㻌㻌㻵㻺
㻵㻜㻗 㻵㻝㻗 㻵㻞㻗 㻵㻟㻗
㻵㻜㻙 㻵㻝㻙 㻵㻞㻙 㻵㻟㻙
㻻㻜㻗㻻㻝㻗
㻭㻳 㻻㻜㻙
㻺㻭㻜㻭㼃㻜㻢㻙㻹㻾
㻻㻝㻙
㻞㻠㼂㻌㻌㻌㻵㻺
㻵㻜㻗 㻵㻝㻗 㻵㻞㻗 㻵㻟㻗
㻵㻜㻙 㻵㻝㻙 㻵㻞㻙 㻵㻟㻙
㻻㻜㻗㻻㻝㻗
㻭㻳 㻻㻜㻙
㻺㻭㻜㻭㼃㻜㻢㻙㻹㻾
㻻㻝㻙
㻞㻠㼂㻌㻌㻌㻵㻺
㻵㻜㻗 㻵㻝㻗 㻵㻞㻗 㻵㻟㻗
㻵㻜㻙 㻵㻝㻙 㻵㻞㻙 㻵㻟㻙
Basic unit Analog unit Analog unit Analog unit
1-2-2 Analog signal range setting function
You can set the analog input and analog output signal range by using the jumper pin of the analog unit. Therefore, a program for
the range setting is not required.
1-2-3 Parameter setting function
You can set the parameters of the analog unit by using a program loader. The parameter setting items are as follows:
• Analog input unit (Type: NA0AX06-MR): Moving average, resolution
• Analog output unit (Type: NA0AY02-MR): No parameter
• Analog input/output unit (Type: NA0AW06-MR): Moving average, resolution (for analog input only)
• Thermocouple input unit (Type: NA0AX06-TC): Thermocouple sensor type, moving average, sampling period,
unit (Celsius or Fahrenheit)
2-1
Section 2 Specications
Item Specication Remark
Physical
environmental
conditions
Operating ambient
temperature
0 to +55°C IEC 61131-2
Storage (transportation)
temperature
-25 to +70°C
Relative humidity 20 to 95%RH, no condensation
(Transport condition: 5 to 95%RH, no condensation)
Pollution degree 2 (Note 1)
Corrosion immunity Free from corrosive gases. Not stained with organic solvents
Operating altitude 2000 m or less above sea level (Transport condition: 70 kPa or more)
Mechanical
service
conditions
Vibration Half amplitude: 0.15mm, Constant acceleration: 19.6 m/s2
Two hours for each of three mutually perpendicular axes, total six
hours. (Note 2) (Note 3)
Shock Acceleration peak: 98 m/s2
Three times for each of three mutually perpendicular axes.
Electrical
service
conditions
Electrostatic discharge Contact discharge: ±4kV, Aerial discharge: ±8kV IEC 61000-4-2
Radiated,
radio-frequency,
electromagnetic eld
80 to 1000MHz (10V/m)
1.4 to 2.0 GHz (3V/m)
2.0 to 2.7 GHz (1V/m)
IEC 61000-4-3
EFT/B (Electrical fast
transient/burst)
Equipment power, I/0 power, AC I/O (unshielded): ±2kV
Data communication, digital and analog I/O s’ (except AC unshielded
I/O): ±1kV
IEC 61000-4-4
Lightning impulse surge AC equipment power: ±2kV common mode, ±1kV differential mode
DC equipment power: ±0.5kV common mode, ±0.5kV differential mode
IEC 61000-4-5
Conducted radio
frequency
150kHz to 80MHz, 10V IEC 61000-4-6
Power frequency
magnetic eld
50Hz, 30A/m IEC 61000-4-8
Square wave impulse
noise
±1.5kV, rise time 1 ns, pulse width 1 μs, 16ms cycle JEM TR-177
Construction Panel-mounted type (open equipment)
Cooling Air cooling
2-1 General Specications
Note 1: Pollution degree 2: This pollution does not conduct usually, but under certain circumstances temporary conductivity
occurs due to condensation.
Note 2: The unit is xed by screws to the control panel. When the unit is mounted to the DIN rail, care must be taken that
vibrations or shocks will not occur.
Note 3: In an environment where repetitive or continuous vibration occurs, be sure to take vibration-proong measures.
2-2
Section 2 Specications
2-2 Functional/Performance Specications
2-2-1 Specication list
(1) Analog input unit
Item Specication
Type NA0AX06-MR
No. of input channels 6 channels
Input impedance Voltage: 63.2 kW, Current: 250 W
Maximum allowable input Voltage: ±15V, Current: ±30mA
Input range -10 to +10V, -5 to +5V, 0 to 10V, 0 to 5V
-20 to 20mA, -10 to 10mA, 0 to 20mA, 0 to 10mA
(Collectively set for all channels by the jumper pin in the unit)
Resolution 12 bits or 14 bits (Set for individual channels by the program loader.)
Overall accuracy ±1%
Digital output value 12 bits: 0 to 4000 / -2000 to 2000, 14 bits: 0 to 16000 / -8000 to 8000
Sampling period Synchronized with the scan of the basic unit.
Moving average 1 to 16 times (Set for individual channels by the program loader.)
External wire connections 8-pole terminal block (M3) x 2, Tightening torque: 0.59 to 0.78 N·m
Applicable wire size AWG#22-18 * Be sure to use shielded twisted pair cables.
Status indication 5V power supply display, ON when normal (red)
Isolation method Transducer (power supply) and photocoupler (signal)
Occupied words 6 words
External power supply 24V DC, 53mA
Internal current consumption 5V DC, 25mA
Dimensions 40 (W) x 90 (H) x 80 (D) (mm)
Mass Approx. 150g
2-3
Section 2 Specications
Item Specication
Type NA0AY02-MR
No. of output channels 2 channels
External load resistance Voltage output: 500 Wto 1 MW, Current output: 0 to 500 Wor less
Analog output range -10 to +10V, -5 to +5V, 0 to 10V, 0 to 5V
-20 to 20mA, -10 to 10mA, 0 to 20mA, 0 to 10mA
(Collectively set for all channels by the jumper pin in the unit)
Resolution 14 bits
Overall accuracy ±1%
Data type of digital input value INT type
Output period Synchronized with the scan of the basic unit.
External wire connections 8-pole terminal block (M3) x 2, Tightening torque: 0.59 to 0.78 N·m
Applicable wire size AWG#22-18 * Be sure to use shielded twisted pair cables.
Status indication 5V power supply display, ON when normal (red)
Isolation method Transducer (power supply) and photocoupler (signal)
Occupied words 2 words
External power supply 24V DC, 90mA
Internal current consumption 5V DC, 33mA
Dimensions 40 (W) x 90 (H) x 80 (D) (mm)
Mass Approx. 140g
(2) Analog output unit
2-4
Section 2 Specications
Item Specication
Type NA0AW06-MR
No. of input channels 4 channels
Input impedance Voltage: 63.2 kW, Current: 250 W
Maximum allowable input Voltage: ±15V, Current: 30mA
Input range -10 to +10V, -5 to +5V, 0 to 10V, 0 to 5V
-20 to 20mA, -10 to 10mA, 0 to 20mA, 0 to 10mA
(Collectively set for all channels by the jumper pin in the unit)
Resolution 12 bits or 14 bits (Set for each channel by the program loader.)
Overall accuracy ±1%
Digital output value 12 bits: 0 to 4000 / -2000 to 2000, 14 bits: 0 to 16000 / -8000 to 8000
Sampling cycle Synchronized with the scan of the basic unit.
Moving average 1 to 16 times (Set for individual channels by the program loader.)
No. of output channels 2 channels
External load resistance Voltage output: 500 Wto 1 MW, Current output: 0 to 500 Wor less
Analog output range -10 to +10V, -5 to +5V, 0 to 10V, 0 to 5V
-20 to 20mA, -10 to 10mA, 0 to 20mA, 0 to 10mA
(Collectively set for all channels by the jumper pin in the unit)
Resolution 14 bits
Overall accuracy ±1%
Data type of digital input value INT type
Output cycle Synchronized with the scan of the basic unit.
External wire connections 8-pole terminal block (M3) x 2, Tightening torque: 0.59 to 0.78 N·m
Applicable wire size AWG#22-18 * Be sure to use shielded twisted pair cables.
Status indication 5V power supply display, ON when normal (red)
Isolation method Transducer (power supply) and photocoupler (signal)
Occupied words 6 words
External power supply 24V DC, 103mA
Internal current consumption 5V DC, 35mA
Mass Approx. 160g
(3) Analog input/output unit
2-5
Section 2 Specications
(4) Thermocouple input unit
Item Specication
Type NA0AX06-TC
No. of input channels 6 channels
Resolution 0.1°C or 1°C *1
Thermocouple type J, K, R, S, E, T, B, N (Collectively set for all channels by the jumper pin in the unit)
Digital output value 12 bits: 0 to 4000 / -2000 to 2000, 14 bits: 0 to 16000 / -8000 to 8000
Temperature measurement range J: -200.0 to 1200.0°C
K: -200.0 to 1200.0°C
T: -190.0 to 380.0°C
E: -190.0 to 1000.0°C
N: -200.0 to 1000.0°C
B: 350.0 to 1800.0°C
R: 0.0 to 1800.0°C
S: 0.0 to 1700.0°C
-328.0 to 2192.0°F
-328.0 to 2192.0°F
-310.0 to 716.0°F
-310.0 to 1832.0°F
-328.0 to 1832.0°F
622.0 to 3272.0°F
32.0 to 3272.0°F
32.0 to 3092.0°F
Cold junction automatic
compensator
Built in the unit
Data type of digital output value INT type
Sampling period 2 seconds (high speed) or 4 seconds (low speed)
(Collectively set for all channels by the program loader.)
Moving average No moving average / 2 / 4 / 8 times
(Collectively set for all channels by the program loader.)
External wire connections 8-pole terminal block (M1.6, Phoenix-type) x 2, Tightening torque: 0.12 to 0.15 N·m
Status indication 5V power supply display, ON when normal (red)
Isolation method Transducer (power supply) and photocoupler (signal)
Occupied words 6 words
External power supply 24V DC, 29mA
Internal current consumption 5V DC, 30mA
Mass Approx. 140g
*1 The resolution is determined by the setting of the “sampling period” in the parameter.
When the resolution is 1°C: Set to “high speed.”
When the resolution is 0.1°C: Set to “low speed.”
2-6
Section 2 Specications
2-2-2 Conversion characteristics
(1) Analog input
1) 0 to 5V / 0 to 10mA (when set at UNIPOLAR)
(4095) 16383
(4000) 16000
Digital output value
(INT type)
Analog input
voltage/current
05V/10mA
* The values in ( ) are the digital output value
s
when “12 bits” is selected for the resolution.
*
3) 0 to 10V / 0 to 20mA (when set at UNIPOLAR)
2) 0 to 5V / 0 to 10mA (when set at BIPOLAR)
8191 (2047)
8000 (2000)
0
5V/10mA
0V/0mA
-8000 (-2000)
-8192 (-2048)
Digital otuput value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
(4095) 16383
(4000) 16000
010V/20mA
Digital output value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
2-7
Section 2 Specications
5) -5 to 5V / -10 to 10mA (when set at UNIPOLAR)
4) 0 to 10V / 0 to 20mA (when set at BIPOLAR)
6) -5 to 5V / -10 to 10mA (when set at BIPOLAR)
8191 (2047)
8000 (2000)
0
10V/20mA
0V/0mA
-8000 (-2000)
-8192 (-2048)
Digital otuput value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
(4095) 16383
(4000) 16000
0
5V/10mA
-5V/-10mA
Digital output value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
8191 (2047)
8000 (2000)
0
5V/10mA
-5V/-10mA
-8000 (-2000)
-8192 (-2048)
Digital otuput value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
2-8
Section 2 Specications
7) -10 to 10V / -20 to 20mA (when set at UNIPOLAR)
8) -10 to 10V / -20 to 20mA (when set at BIPOLAR)
(4095) 16383
(4000) 16000
0
10V/20mA
-10V/-20mA
Digital output value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
8191 (2047)
8000 (2000)
-8000 (-2000)
0
10V/20mA
-10V/-20mA
-8192 (-2048)
Digital otuput value
(INT type)
Analog input
voltage/current
*
The values in ( ) are the digital output values
when “12 bits” is selected for the resolution.
*
2-9
Section 2 Specications
(2) Analog output
1) 0 to 5V / 0 to 10mA (when set at UNIPOLAR)
1638316000
0
5V/10mA
Analog output
voltage/current
Digital input value
(INT type)
3) 0 to 10V / 0 to 20mA (when set at UNIPOLAR)
2) 0 to 5V / 0 to 10mA (when set at BIPOLAR)
81918000
5V/10mA
0V/0mA
-8000
-8192
Analog output
voltage/current
Digital input value
(INT type)
1638316000
0
10V/20mA
Analog output
voltage/current
Digital input value
(INT type)
2-10
Section 2 Specications
4) 0 to 10V / 0 to 20mA (when set at BIPOLAR)
5) -5 to 5V / -10 to 10mA (when set at UNIPOLAR)
6) -5 to 5V / -10 to 10mA (when set at BIPOLAR)
81918000
10V/20mA
0V/0mA
-8000
-8192
Analog output
voltage/current
Digital input value
(INT type)
81918000
5V/10mA
-5V/-10mA
-8000
-8192
Analog output
voltage/current
Digital input value
(INT type)
81918000
0
5V/10mA
-5V/-10mA
-8000
-8192
Analog output
voltage/current
Digital input value
(INT type)
2-11
Section 2 Specications
7) -10 to 10V / -20 to 20mA (when set at UNIPOLAR)
8) -10 to 10V / -20 to 20mA (when set at BIPOLAR)
81918000
10V/20mA
-10V/-20mA
-8000
-8192
Analog output
voltage/current
Digital input value
(INT type)
81918000
0
10V/20mA
-10V/-20mA
-8000
-8192
Analog output
voltage/current
Digital input value
(INT type)
2-12
Section 2 Specications
2-3 Names and Functions
2-3-1 Analog input unit (Type: NA0AX06-MR)
(1) Names
The jumper pins in the analog input unit are used to change the analog signal range and digital value range. Therefore, remove
the upper cover and control board when setting the jumper pin.
Pin layout of control board
(When the upper cover is removed)
Pin layout of I/O board
(When the control board is removed)
2) Terminal block
1) Status indication LED Nameplate
Expansion connector (IN) Expansion connector (OUT)
3) JP1
2) Terminal block
4) JP3
5) JP5 (CH1)
5) JP5 (CH0)
4) JP2
5) JP8 (CH4)
5) JP9 (CH5)
5) JP7 (CH3)
5) JP6 (CH2)
2-13
Section 2 Specications
Status indication LED Status Specication
PWR of analog input unit ON (red) While 5V DC power is normally supplied.
Digital value range JP1 setting
-8192 to 8191
0 to 16383
Signal range JP3 setting JP2 setting
0 to 10V
or
0 to 20mA
0 to 5V
or
0 to 10mA
-10 to 10V
or
-20 to 20mA
-5 to 5V
or
-10 to 10mA
Voltage/current Setting of
JP4 (CH0) to JP9 (CH5)
Voltage
Current
(2) Functions
1) Status indication LED
2) Terminal block
These are terminals for 24V DC power supply to operate the analog unit and analog input signal.
3) JP1: Digital value range selection
This jumper pin is used to set the digital value range.
4) JP2 and JP3: Analog input range selection
These jumper pins are used to set the analog input range
for six channels in a batch.
5) JP4: Voltage/current selection
This jumper pin is used to select voltage or current for
each channel.
* For the wiring method, refer to “2-4 Wiring.”
B
U
B
U
B
U
5V
10V
B
U
5V
10V
B
U
5V
10V
B
U
5V
10V
V
I
V
I
NA0AX06-MR
Other manuals for MICREX-SX series SPF
1
Table of contents
Other Fuji Electric Industrial Equipment manuals
