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Digital 8 interface Input Output IO LINK Slave Communication Module

8-channel input /output voltage and current analog

IP67 8Channel antalog

Model:
IACM-AIO8VI-IOL
Brand:
Superisys

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Product Introduction

1. 8ports antalog Input/Output (I/O)

Key Point: "Input/Output" here refers to the fact that each channel can be configured as either an input or output mode, rather than a fixed 4 inputs and 4 outputs.

Bidirectional Flexibility: Users can dynamically configure any channel to:

Analog Input: Used to acquire signals from field sensors (e.g., temperature, pressure, flow rate).

Analog Output: Used to control field actuators (e.g., proportional valves, speed controllers, servo drives).

2. Supported range: Each channel, after configuration, typically supports the following industry-standard signal types:

Voltage signals: Common ranges include 0-10V, ±10V, 0-5V, 1-5V.

Current signals: Common ranges include 0-20mA, 4-20mA, ±20mA.

Parameters:

Basic Parameter
Shell Material	PA6+GF
Color	Black
Product description	IO-LINK Slave module
Product description	IP67 protection class, Epoxy full potting
I/O connection mode	M12, 5pin hole holder, A code
Size	1555328.7mm
Weight	217g
Operating tem.	-25℃--70℃
Memory Tem.	-40℃--70℃
Operating Humidity	5%-95%
Memory Humidity	5%-95%
Operate pressure	80Kpa-106Kpa
I/O port tightening torque	M12:0.5Nm
Application environment	Conforms to EN-61131
Vibration measurement	Conforms to EN-60068-2
Impact test	Conforms to EN-60068-27
White by drop test	Conforms to EN-60068-32
Electromagnetic Compatibility (EMC)	Conforms to EN-61000-4-2,-3,-4
Certification	CE, RoHS
Mounting hole specification	φ4.3mm×4
Communication and power parameters
Connection type	1×M12 A-code; 5- Core hole seat
Communication protocol	IO Link
Communication rate	38.4kbit/s
Communication port Tightening torque	M12;0.5Nm
Minimum cycle	55ms
System power supply voltage US	18…30 VDC(type.24VDC）
Power port tightening torque	M12:0.5Nm
No load current consumption	≤80mA
Analog input and output parameters
Input. Output Quantity	8 Channel or voltages
Position of the input and output ports	J1.......J8
Current input/output Range	0~20 mA 4~20 mA
Voltage input/output range	0~+5 VDC;0~+10VDC; +5~+10 VDC
Diagnose	Contain self-diagnosis
Sensor power supply	24VDC
Ripple wave	<1%
Voltage input output error	<±0.3% full scale
Current input/output error	<±0.3% full scale
Resolution ratio	16 bit
Measurement display and output format	16 bit unsigned integer
Factory settings	0-+10 VDC input
Indicator Lights
PWR	Green: The power supply to the module is Normal Off: The module power supply is not connecte
AI(J1......J8)	Extinguish (LEDA,LEDB):Port close Green (LEDA): The channel signal is normal and the input/output signal is within the effective range Red (LEDA): The input/output signal is out of range Red (LEDA,LEDB): Pins 1 and 3 are short-circuited or port disconnected
IO Link PIN DEFINITION

Key Advantages

High Flexibility: Initially, there's no need to precisely determine whether each point is an input or output. Later, when processes change, only software reconfiguration is required; no hardware wiring modifications or module replacements are needed, reducing design risk and modification costs.

Cost and Space Savings: One module replaces a combination that might otherwise require multiple single-function modules (such as separate analog input and output modules), reducing the number of hardware components, cabinet space, and spare parts.

Simplified Inventory and Maintenance: Only one module model needs to be stocked to handle various failure replacement scenarios.

High Performance and High Reliability: Professional analog signal processing circuitry provides high accuracy, low drift, and excellent anti-interference capabilities.

Product application scenarios

1. Process Control and Monitoring Station

Scenario: In a small reactor or mixing station, it is necessary to monitor temperature (PT100/4-20mA), pressure (4-20mA), and liquid level (4-20mA), while simultaneously controlling the feed proportional valve (0-10V) and agitator motor speed (0-10V).

Application: An 8-channel module can be configured as follows: 4 channels for AI to receive sensor signals, 2 channels for AO to control valves and motors. The remaining 2 channels can be used as backups or for other auxiliary measurements.

2. Test and Measurement Station

Scenario: A product performance testing station that requires injecting various analog excitation signals (voltage/current) into the device under test (DUT) and simultaneously acquiring its response signals.

Application: The module's channels are flexibly configurable: some are used as AO outputs for programmable test signals (such as sine waves and ramps), while others are used for high-speed AI acquisition of the DUT's output. All operations can be precisely synchronized via software.

3. Intelligent Energy Management System

Scenario: Monitoring the energy consumption of a large piece of equipment, including multiple voltage and current transformer signals (converted to 0-10V or 4-20mA).

Application: Connecting all analog signals to an 8-channel AI module, the PLC calculates power and energy consumption in real time, performing energy efficiency analysis and load management.