Ver.1.00
F&eIT Series
Isolated Digital I/O Module
DIO-4/4(FIT)GY
This product is an expansion module (device module) that adds
digital signal I/O interfaces to one of various types of controllers.
The product is used in combination with the I/O controller
module <CPU-CAxx(FIT)GY> (*1) or microcontroller unit
<CPU-SBxx(FIT)GY> (*1) in the F&eIT Series.
This product can perform a maximum of 4 points of
Optocoupler isolated input and 4 points of Optocoupler isolated
output per module. (Input: 12 - 24 VDC specified, output: 12 -
48 VDC specified)
*1 This module is available in different product models. "x" in each model number
represents a blank or one alphanumeric character. This is applicable to the rest of this
document.
* Specifications, color and design of the products are subject to
change without notice.
Features
Specification
This product can perform 4-point digital signal input and 4-point
digital signal output, treating 4 points as a group.
Specifications
Specifications
DIO-4/4(FIT)GY
Item
Input section
Input format
Input section is ready to accept both the current sinking output
and current source output.
Optocoupler isolated input
(compatible with current sink output and current source
output)
Input resistance
Input ON current
Input OFF current
3kΩ
3.4mA or more
0.16mA or less
The output section is a high sink current, open collector type
using high-capacitance transistors.
150 mA/24 VDC or 50 mA/48 VDC max. (per channel)
Number of input signal points 4 points (4 points/common)
Response time Within 1msec
External circuit power supply 12 - 24VDC (±15%)
(4mA/12V - 8mA/24V per channel)
Isolated I/O operations using an optocoupler improves noise
immunity.
Output section
Output format
Optocoupler isolated open collector output (current sink type)
12 - 48VDC (±15%)
150mA (12 - 24V) (per channel) (Max.)
50mA (36 - 48V) (per channel) (Max.)
4 points (4 points/common)
Ratings
Output voltage
Output current
A rotary switch allows you to set device IDs, making it easy to
keep track of device numbers.
Number of output signal
points
Like other F&eIT series products, the module has a 35mm DIN
rail mounting mechanism as standard. A connection to a
controller module can be effected on a lateral, stack basis in a
unique configuration, which permits a simple, smart system
configuration without the need for a backplane board.
Response time
Within 1msec
External circuit power supply 12 - 48VDC (±15%)
Common section
Interrupt level
Using CPU-SBxx(FIT)GY: IRQ 5, 7, or 9
Internal current consumption 5VDC(±5%) 150mA(Max.) *1
Allowable distance of signal Approx. 50m (depending on wiring environment)
extension
Physical dimensions (mm)
Weight of the module itself
Module connection method
25.2(W) x 64.7(D) x 94.0(H) (exclusive of protrusions)
100g
Stack connection by means of a connection mechanism
standard with the system.
Module installation method
One-touch connection to 35mm DIN rails
(standard connection mechanism provided in the system)
AWG 28 - 16 wire type: 0.32 - 1.30mm
FRONT-MC 1,5/12-STF-3,81 (made by Phoenix Contact
Corp.)
Applicable wire
Applicable plug
3.81mm-pitch, rated current: 8A (Max.)
*1 The stack connector accepts currents of up to 3.0A (Max.).
Installation Environment Requirements
Packing List
Item
Requirement description
Operating temperature
Storage temperature
Operating humidity
Floating dust particles
Corrosive gases
0 - 50°C
-10 - 60°C
10 - 90%RH (No condensation)
Not to be excessive
None
Module[DIO-4/4(FIT)GY] …1
First step guide … 1
CD-ROM [F&eIT Series Setup Disk] *1…1
Interface connector plug…1
Noise immunity Line-noise AC line/2kV, Signal line/1kV
*1
(IEC1000-4-4Level 3, EN61000-4-4Level 3)
Static
electricity
Contact discharge/4kV (IEC1000-4-2Level 2,
EN61000-4-2Level 2)
*1 The CD-ROM contains various software and User’s Guide.
resistance Atmospheric discharge/8kV (IEC1000-4-2Level 3,
EN61000-4-2Level 3)
Vibration
Sweep
10 - 57Hz/semi-amplitude 0.15mm, 57 - 150Hz/2.0G
resistance
resistance 80minutes each in X, Y, and Z directions
(JIS C0040-compliant, IEC68-2-6-compliant)
Impact resistance
15G half-sine shock for 11ms in X, Y, and Z directions
(JIS C0041-compliant, IEC68-2-27-compliant)
*1 When using a POW-AD22GY
DIO-4/4(FIT)GY
1
Ver.1.00
Example of a Connection to Current Sink Output
Interface Connector
Module
External circuit
Vcc
How to Connect an Interface Connector
When connecting the Module to an external device, you can
use the supplied connector plug.
3kΩ
Minus
External
power supply
12V - 24VDC
common
To wire the Module, strip the sheath about 9 - 10mm from an
end of the wire and insert the exposed wire into an opening.
Tighten the screw to fasten the inserted wire. Applicable
wires are AWG28 - 16.
Input
pin
Current sink
output
Optocoupler
X
Turn the screw to fasten the wire.
0
4
1
5
2
3
7
6
6
Example of a Connection to Current Source Output
9 - 10mm
Device
ID
2
Module
External circuit
COM 0
NC
0
Vcc
- Applicable wire:
1
3.81mm pitch, 12-pin type, 8.0A rated current
3kΩ
2
3
MC1, 5/12-GF-3.81 [made by Phoenix Contact Corp.]
COM1
Minus
X NC
External
common
power supply
4
5
6
7
- Applicable plug:
Input
pin
Front screw type with connector stopper flange
FRONT-MC 1,5/12-STF-3,81 [made by Phoenix Contact Corp.]
Applicable cable: AWG28-16
Optocoupler
Current
source output
DI-8
CAUTION
Removing the connector plug by grasping the cable can
break the wire.
Output section
Figure below shows the output circuit for the interface section
of this product. The signal output section consists of an
Optocoupler isolated open collector output (current sink type).
An external power supply is therefore required to drive the
output section of this module.
The maximum output current rating per channel is 150 mA for
this product (at 12 - 24 VDC) or 50mA for this product (at 36 -
48 VDC). A surge voltage protection circuit (zener diode) is
provided for the output transistors of this module. When the
module drives relays, lamps, and other induction loads,
however, another surge voltage countermeasure should be
provided on the load side.
Signal Layout on the Interface Connector
The Module can be connected to an external device using a
12-pin connector that is provided on the Module face.
Input port
plus / minus common
COM 0 --- +/-COM
N.C.
X 0 --- IN 0
X 1 --- IN 1
Digital Input: 4points
X 2 --- IN 2
X 3 --- IN 3
COM 1 --- +COM
COM 2 --- -COM
Y 0 --- OUT 0
Output port plus common
Output port minus common
CAUTION
Y 1 --- OUT 1
Digital Output: 4points
When the power is turned on, all output will be OFF.
Y 2 --- OUT 2
Y 3 --- OUT 3
Output Circuit
Module
External circuit
External I/O Circuits
Vcc
Plus
common
Load
Input section
Output
pin
Figure below shows the input equivalent circuit for the interface
section of this product.
External
power supply
12V - 48VDC
The signal input section consists of an Optocoupler isolated
input (compatible with both current sink output and current
Vcc
source output).
An external power supply is therefore
required to drive the input section of this module. The power
requirement for the <DIO-4/4(FIT)GY> or <DI-8(FIT)GY> is
about 8 mA per input channel at 24 VDC (about 4 mA at 12
VDC).
Load
Output
pin
Optocoupler
Minus
common
Input Circuit
Module
External circuit
Vcc
3kΩ
Connection example:
Using Inputs X0
+/-
common
External
power supply
12V - 24VDC
Input
pin
Input contact
Optocoupler
Input plus common (e.g., connector COM0)
point
+
External
power supply
12V - 24VDC
-
Input pin (e.g., connector X0)
3kΩ
Input
pin
Input contact
point
Optocoupler
DIO-4/4(FIT)GY
3
Ver.1.00
Using Outputs Y0
+
External
power supply
12V - 48VDC
Load
Output plus common
-
Output pin (e.g., connector Y1)
Output minus common
Example of Connecting Outputs and Inputs
External
power supply
12V - 24VDC
-
+
Intput module
Common plus for intput
Output module
Common plus for output
Output
Intput
Common minus for output
Setting a Device ID
The controller module distinguishes and keeps track of the
modules that are connected to it by assigning device IDs to
them. Each module, therefore, should be assigned a unique
ID.
A Device ID can be assigned in a 0 - 7 range, so that a
maximum of eight modules can be distinguished.
The factory setting for the Device ID is [0].
Setup Method
A Device ID can be set by turning the rotary switch that is
located on the module face.
A Device ID can be assigned by turning the switch.
6
Device
ID
Factory setting:
(Device ID = 0)
2
DIO-4/4(FIT)GY
4
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