aspar SDM-16RO Expansion Module User Manual

June 9, 2024
aspar

SDM-16RO Expansion Module
User Manualaspar SDM-16RO Expansion Module SDM-16RO
Expansion Module – 16 relay outputs
version 1.2
User manual

SDM-16RO Expansion Module

Thank you for choosing our product.
This manual will help you with proper support and proper operation of the device.
The information contained in this manual have been prepared with utmost care by our professionals and serve as a description of the product without incurring any liability for the purposes of commercial law.
This information does not release you from the obligation of own judgement and verification.
We reserve the right to change product specifications without notice.
Please read the instructions carefully and follow the recommendations contained therein.
WARNING!
Failure to follow instructions can result in equipment damage or impede the use of the hardware or software.

Safety rules

  • Before first use, refer to this manual
  • Before first use, make sure that all cables are connected properly
  • Please ensure proper working conditions, according to the device specifications (eg: supply voltage, temperature, maximum power consumption)
  • Before making any modifications to wiring connections, turn off the power supply

Module Features

2.1. Purpose and description of the module
The SDM-16RO module is an innovative device that provides a simple and cost- effective extension of the number of lines of output with high current- carrying capacity. The module has 16 relay outputs.
This module is connected to the RS485 bus with twisted-pair wire.
Communication is via MODBUS RTU or MODBUS ASCII. The use of 32-bit ARM core processor provides fast processing and quick communication. The baud rate is
configurable from 2400 to 115200.
The module is designed for mounting on a DIN rail in accordance with DIN EN 5002.
The module is equipped with a set of LEDs used to indicate the status of inputs and outputs useful for diagnostic purposes and helping to find errors.
Module configuration is done via USB by using a dedicated computer program.
You can also change the parameters using the MODBUS protocol.
2.2. Technical Specifications

Power Supply Voltage 10-30 VDC; 10-28VAC
Maximum Current* DC: 200 mA @ 24VDC AC: 250 mA @ 24VAC
Maximum power consumption DC: 4.8W; AC: 6VA
Relay outputs No of outputs 16
The maximum current and voltage (resistive load) 3A 230V AC / COM

3A 30V DC / COM
__**Temperature| Work| -10 °C – +50°C
Storage| -40 °C – +85°C
Connectors| Power Supply| 2 pins
Communication| 3 pins
Outputs| 2x 10 pins
Configuration| Mini USB
Size| Height| 110 mm
Length| 62 mm
Width| 88 mm
Interface**| RS485| Up to 128 devices

2.3. Dimensions of the product
Look and dimensions of the module are shown below. The module is mounted directly to the rail in the DIN industry standard. Power connectors, communication and IOs are at the bottom and top of the module. USB connector configuration and indicators located on the front of the module.  aspar SDM-
16RO Expansion Module - Fig 1

Communication configuration

3.1. Grounding and shielding
In most cases, IO modules will be installed in an enclosure along with other devices which generate electromagnetic radiation. Examples of these devices are relays and contactors, transformers, motor controllers etc. This electromagnetic radiation can induce electrical noise into both power and signal lines, as well as direct radiation into the module causing negative effects on the system. Appropriate grounding, shielding and other protective steps should be taken at the installation stage to prevent these effects. These protective steps include control cabinet grounding, module grounding, cable shield grounding, protective elements for electromagnetic switching devices, correct wiring as well as consideration of cable types and their cross sections.
3.2. Network Termination
Transmission line effects often present a problem on data communication networks. These problems include reflections and signal attenuation.
To eliminate the presence of reflections from the end of the cable, the cable must be terminated at both ends with a resistor across the line equal to its characteristic impedance. Both ends must be terminated since the direction of propagation is bidirectional.
In the case of an RS485 twisted pair cable this termination is typically 120 Ω.
3.3. Setting Module Address in RS485 Modbus Network
The following table shows how to set switch to determine the address of the module. The module address is set with the switches in the range of 0 to 127. Addresses From 128 to 255 can by set via RS485 or USB.

Switch|

Adress

---|---
SW1| +1
SW2| +2
SW3| +4
SW4| +8
SW5| +16
SW6| +32
SW7| +64

Ex. if switches 1, 3 and 5 are on than module addres is: Address = 1 + 4 + 16 = 21
3.4. Types of Modbus Registers
There are 4 types of variables available in the module.

Type| Beginning adress| Variable| Access| Modbus Command
---|---|---|---|---
1| 00001| Digital Outputs| Bit
Read & Write| 1, 5, 15
2| 10001| Digital Inputs| Bit Read| 2
3| 30001| Input Registers| Registered Read| 3
4| 40001| Output Registers| Registered Read & Write| 4, 6, 16

3.5. Communication settings
The data stored in the modules memory are in 16-bit registers. Access to registers is via MODBUS RTU or MODBUS ASCII.
3.5.1. Default settings
You can restore the default configuration by the switch SW8 (see 3.5.2 – Restore the default configuration)

Boud rate 19200
Pariti None
Data bits 8
Stop bits 1
Reply Delay [ms] 0
Modbus Type RTU

3.5.2. Restore the default configuration
To restore the default configuration:

  • turn off the power
  • turn on the switch SW8
  • turn on the power
  • when power and communication LED start blinking alternately than turn off the switch SW8

Caution! After restoring the default configuration all values stored in the registers will be cleared as well.
3.5.3. Configuration registers

Modbus| Dec| Hex| Name|

Values

---|---|---|---|---
40003| 2| 0x02| Baud rate| 0 – 2400
1 – 4800
2 – 9600
3 – 19200
4 – 38400
5 – 57600
6 – 115200
other – value * 10
40005| 4| 0x04| Parity| 0  – none
1  – odd
2  – even
3  – always 1
4  – always 0
40004| 3| 0x03| Stop Bits LSB| 1 – one stop bit
2 – two stop bit
40004| 3| 0x03| Data Bits MSB| 7  – 7 data bits
8  – 8 data bits
40006| 5| 0x05| Response delay| Time in ms
40007| 6| 0x06| Modbus Mode| 0  – RTU1  – A
SCII

3.5.4. Watchdog function
This 16-bit register specifies the time in milliseconds to watchdog reset. If module does not receive any valid message within that time, all Digital and Analog Outputs will be
set to the default state.
This feature is useful if there is an interruption in data transmission and for security reasons. Output states must be set to the appropriate state in order to assure the safety of persons or property.
The default value is 0 milliseconds which means the watchdog function is disabled.

Switches

aspar SDM-16RO Expansion Module - Fig 2

Switch| Function|

Description

---|---|---
1| Module address +1| Setting module address from 0 to 127
2| Module address +2
3| Module address +4
4| Module address +8
5| Module address +16
6| Module address +32
7| Module address +64


8

| Restoring default settings| Restoring default settings
(see 3.5.1 – Default settings i 3.5.2 – Restore the default configuration).

Front panel removing

To remove the panel and gain access to the switch, you must pry open the panel using a thin tool (eg a small screwdriver) as in the picture below.aspar
SDM-16RO Expansion Module - Fig 3

Indicators

aspar SDM-16RO Expansion Module - Fig 4

Indicators|

Description

---|---
Power supply| LED indicates that the module is correctly powered.
Communication| The LED lights up when the unit received the correct packet and sends the answer.
Outputs state| LED indicates that the output is on.

Module Connection

aspar SDM-16RO Expansion Module - Fig 5

Modules Registers

8.1. Registered access

Modbus| Dec| Hex| Register Name| Access|

Description

---|---|---|---|---|---
30001| 0| 0x00| Version/Type| Read| Version and Type of the device
30002| 1| 0x01| Switches| Read| Switches state
40003| 2| 0x02| Baud rate| Read & Write| RS485 baud rate
40004| 3| 0x03| Stop Bits & Data Bits| Read & Write| No of Stop bits & Data Bits
40005| 4| 0x04| Parity| Read & Write| Parity bit
40006| 5| 0x05| Response Delay| Read & Write| Response delay in ms
40007| 6| 0x06| Modbus Mode| Read & Write| Modbus Mode (ASCII or RTU)
40009| 8| 0x08| Watchdog| Read & Write| Watchdog
40013| 12| 0x0C| Default Output State| Read & Write| Default output state (after power on or watchdog reset)
40033| 32| 0x20| Received packets LSB| Read & Write| No of received packets
40034| 33| 0x21| Received packets MSB| Read & Write
40035| 34| 0x22| Incorrect packets LSB| Read & Write| No of received packets with error
40036| 35| 0x23| Incorrect packets MSB| Read & Write
40037| 36| 0x24| Sent packets LSB| Read & Write| No of sent packets
40038| 37| 0x25| Sent packets MSB| Read & Write
40052| 51| 0x33| Outputs| Read & Write| Output state

8.2. Bit access

Modbus Address| Dec Address| Hex Address| Register name| Access|

Description

---|---|---|---|---|---
193| 192| 0x0C0| Default state of output 1| Read & Write| Default state of output 1
194| 193| 0x0C1| Default state of output 2| Read & Write| Default state of output 2
195| 194| 0x0C2| Default state of output 3| Read & Write| Default state of output 3
196| 195| 0x0C3| Default state of output 4| Read & Write| Default state of output 4
197| 196| 0x0C4| Default state of output 5| Read & Write| Default state of output 5
198| 197| 0x0C5| Default state of output 6| Read & Write| Default state of output 6
199| 198| 0x0C6| Default state of output 7| Read & Write| Default state of output 7
200| 199| 0x0C7| Default state of output 8| Read & Write| Default state of output 8
201| 200| 0x0C8| Default state of output 9| Read & Write| Default state of output 9
202| 201| 0x0C9| Default state of output 10| Read & Write| Default state of output 10
203| 202| 0x0CA| Default state of output 11| Read & Write| Default state of output 11
204| 203| 0x0CB| Default state of output 12| Read & Write| Default state of output 12
205| 204| 0x0CC| Default state of output 13| Read & Write| Default state of output 13
206| 205| 0x0CD| Default state of output 14| Read & Write| Default state of output 14
207| 206| 0x0CE| Default state of output 15| Read & Write| Default state of output 15
208| 207| 0x0CF| Default state of output 16| Read & Write| Default state of output 16
817| 816| 0x330| Output 1| Read & Write| Output 1 state
818| 817| 0x331| Output 2| Read & Write| Output 2 state
819| 818| 0x332| Output 3| Read & Write| Output 3 state
820| 819| 0x333| Output 4| Read & Write| Output 4 state
821| 820| 0x334| Output 5| Read & Write| Output 5 state
822| 821| 0x335| Output 6| Read & Write| Output 6 state
823| 822| 0x336| Output 7| Read & Write| Output 7 state
824| 823| 0x337| Output 8| Read & Write| Output 8 state
825| 824| 0x338| Output 9| Read & Write| Output 9 state
826| 825| 0x339| Output 10| Read & Write| Output 10 state
827| 826| 0x33A| Output 11| Read & Write| Output 11 state
828| 827| 0x33B| Output 12| Read & Write| Output 12 state
829| 828| 0x33C| Output 13| Read & Write| Output 13 state
830| 829| 0x33D| Output 14| Read & Write| Output 14 state
831| 830| 0x33E| Output 15| Read & Write| Output 15 state
832| 831| 0x33F| Output 16| Read & Write| Output 16 state

Configuration software

Modbus Configurator is software that is designed to set the module registers responsible for communication over Modbus network as well as to read and write the current value of other registers of the module. This program can be a convenient way to test the system as well as to observe real-time changes in the registers.
Communication with the module is done via the USB cable. The module does not require any drivers. aspar SDM-16RO Expansion Module - Fig
6Configurator is a universal program, whereby it is possible to configure all available modules.aspar SDM-16RO Expansion Module - Fig
7

Manufactured for:
Aspar s.c.
ul. Oliwska 112
80-209 Chwaszczyno
POLAND
ampero@ampero.eu
www.ampero.eu
tel. +48 58 351 39 89; +48 58 732 71 73

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