myTEM SmartHome Radio IO Modul User Guide
- June 7, 2024
- myTEM SmartHome
Table of Contents
myTEM Radio IO Modul / Radio IO Modul Floor
MTIOM-100-WL / MTIOM-101-WL
The Radio IO Modul MTIOM-100-WL and the Radio IO Modul Floor MTIOM-101-WL are
universal, Z-Wave compatible modules from myTEM for extending your smart home
system with additional inputs and outputs. For this, the devices are connected
to your central myTEM Radio Server via the Z-Wave mesh network.
The programmable behavior allows flexible use of the devices in the house.
Further information can be found on our website: https://www.mytem- smarthome.com/web/en/download
https://www.mytem-smarthome.com/web/en/download
ATTENTION: This device is not a toy. Please keep it away from children and
animals!
Please read the manual before attempting to install the device!
These instructions are part of the product and must remain with the end-
user.
Warning and safety instructions
WARNING!
This word indicates a hazard with a risk that, if not avoided, can result in
death or serious injury. Work on the device must only be carried out by
persons with the necessary training or instruction.
CAUTION!
This word warns of possible damage to property.
115’078 Version: 04/2021
SAFETY INSTRUCTIONS
- Operate this device only as described in the manual.
- Do not operate this device if it has obvious damage.
- This device shall not be altered, modified or opened.
- This device is intended for use in buildings in a dry, dust-free location.
- This device is intended for installation in a control cabinet. After installation, it must not be openly accessible.
- Electrical equipment may only be installed and fitted by qualified electricians who are familiar with and comply with the applicable regulations and standards.
- Analog inputs/outputs, digital inputs and device supply must comply with the ELV requirements. Do not connect ELV and mains voltage together. (ELV = extra-low voltage)
- If several motors are to be connected in parallel at one output, be sure to observe the manufacturer’s instructions and, if necessary, use isolating relays.
- Only use blind motors with mechanical or electronic limit switches. Limit switches must be checked for correct adjustment.
- Do not connect three-phase motors.
DISCLAIMER
All rights reserved. This is a translation from the original version in
German.
This manual may not be reproduced in any format, either in whole or in part,
nor may it be duplicated or edited by electronic, mechanical or chemical
means, without the written consent of the publisher.
The manufacturer, TEM AG, is not liable for any loss or damage caused by
failure to follow the instructions in the manual.
Typographical and printing errors cannot be excluded. However, the information
contained in this manual is reviewed on a regular basis and any necessary
corrections will be implemented in the next edition. We accept no liability
for technical or typographical errors or the consequences thereof. Changes may
be made without prior notice as a result of technological advances. TEM AG
reserves the right to make changes to product design, layout,, and driver
revisions without notice to its users. This version of the manual supersedes
all previous versions.
Trademarks
myTEM and TEM are registered trademarks. All other product names mentioned
herein may be trademarks or registered trademarks of their respective
companies.
What is Z-Wave?
Z-Wave is the international wireless protocol for communication in the smart
home. Z-Wave ensures reliable communication by reconfirming every message
(two-way communication) and every mains-powered node can act as a repeater for
other nodes (meshed network) in case the receiver is not in direct wireless
range of the transmitter.
Z-Wave products from different manufacturers can be used together in a
wireless network. Thus, this product with any Z-Wave product from other
manufacturers can be used in a common Z-Wave wireless network. All mains
operated nodes within the network will act as repeaters regardless of vendor
to increase the reliability of the network.
The myTEM Radio IO Modul and the myTEM Radio IO Modul Floor are Z-Wave devices
with secure communication (S2) and use the radio frequency of 868.4 MHz. If
other devices also support the same secure communication, the data is
exchanged in this secure mode. Otherwise, it will switch automatically to a
lower level of security to maintain backward compatibility. For more
information about frequency regulations please refer to the homepage of
Silicon Labs. For more information about Z-Wave technology, devices,
tutorials, etc. please refer to www.z-wave.info.
Product description
The myTEM Radio IO Modul and the myTEM Radio IO Modul Floor are Z-Wave devices of the type Binary Switch for use in Europe / Switzerland.
- Switching of lights
- Switching of single-phase fan motors
- Switching of electric blinds or similar shading devices
- Operation by means of buttons, sensors via the central server
Functions:
- Supply voltage 24 VDC ± 10%
- Communication via Z-Wave mesh network
- 6 digital inputs 24 VDC (DI1 – DI6) for e.g. external switches
- 24 VDC power supply, 100 mA, for the digital inputs DI1 – DI6 (VDIout)
- 4 analog inputs (AI1 – AI4), which can be used for 010 VDC or NTC-, PTC- or PT1000 sensors. Analog inputs can also be used as digital inputs 24 VDC. They must then be connected to VDIout.
- 6 digital outputs with potential-free relays 8 A, 250 VAC or 30 VDC (DO1 – DO6) in case of the myTEM Radio IO Modul and noiseless SSR 0.05 A, 250 VAC in case of the Radio IO Modul Floor.
- Manual positions of the outputs via DIP switch for easy commissioning
- The device is installed in a control cabinet, mounted on a 35 mm DIN rail
Preparation for the installation
In order to include (“Add”) a Z-Wave device to a network, it must be in the
factory default state. Please make sure to reset the device into factory
default. After power-up the status is displayed as below:
Status “Add” (included in a Z-Wave network): The LED 2 lights green for 1-2
seconds
Status “Remove” (not included): The LED 2 flashes red for 1-2 seconds
Device Reset Locally (Reset to factory default)
Please use this procedure only when the network primary controller is missing
or otherwise inoperable.
Power up the device and then press the button (T) for 10 seconds.
Reset: The LED lights up briefly in red
The device reset deletes the memory chip, including all Z-Wave network settings.
Installation
WARNING! Depending on national safety standards, only authorized and/or
trained technicians may be allowed to perform electrical installations on the
power grid. Please inform yourself about the legal situation before
installation.
WARNING! Different voltages (e.g. 24 VDC, 230 VAC L1 or 230 VAC L2) may
only be connected to the digital outputs (relays / SSR’s) if one output is
left out between them.
Please install the device according to the following steps:
-
WARNING! Make sure that the device is disconnected from the power supply or that the devices in the control cabinet are disconnected from the mains.
-
WARNING! Connect the device according to the circuit diagram of the myTEM ProgTool or the terminal assignment from the pictures in this manual. Incorrect wiring can result in injury or death or damage to the device.
-
CAUTION! The device shall only be operated with stabilized power supplies (24 VDC). Connecting to higher voltages will damage the device.
-
WARNING! Switch on the power supply and, if necessary, check the wiring with the manual positions via the DIP switch.
Take care of your safety as the devices are live. -
Include (Add) the module into the Z-Wave network as described below.
Inclusion/Exclusion (“Add/Remove”) of the device
On factory default, the device does not belong to any Z-Wave network. In
order to communicate with other Z-Wave devices, it must be included in an
existing network or a new network has to be established. In Z-Wave, this
process is called “Add”. Devices can also be removed from networks. In
Z-Wave, this process is called “Remove”. The primary controller of the Z-Wave
network initiates both processes. This controller is put into the “Add”,
respectively the “Remove” mode. The manual of the controller will contain the
information on how to switch it into these modes. Only when the primary
controller of the Z-Wave network is in the “Add” mode can devices be added.
Removing a device from the network will reset it to the delivery state.
SmartStart
SmartStart enabled products can be added into a Z-Wave network by scanning the
Z-Wave QR code present on the product with a controller providing SmartStart
inclusion. No further action is required and the SmartStart product will be
added automatically within 10 minutes of being switched on in the network
vicinity.
The DSK label (QR code) is located on the long side of the housing. When the
device is in the “Add” mode, the LED flashes green. When finished, the new
status is:
Add: The LED 2 lights up briefly in green
Remove: The LED 2 lights up briefly in red
Manual inclusion/exclusion (“Add/Remove”)
If the myTEM Radio IO Modul or myTEM Radio IO Modul Floor shows the status
“Add”, the “Remove” can be performed with any controller in the network or
with the help of a new controller. However, it is recommended to use the
primary controller of the previous network unless it is no longer available or
damaged.
“Remove” deletes the memory chip, including all Z-Wave network settings.
- Activate the “Add” or “Remove” mode on your controller.
- Press the button (T) four times in quick succession to start to include/exclude (“Add / Remove”).
When the device is in the “Add” mode, the LED flashes green.
When finished, the new status is:
Add: The LED 2 lights up briefly in green
Remove: The LED 2 lights up briefly in red
Manual positions via DIP switch
With the aid of the DIP switch, the outputs can be checked after installation.
- CAUTION! While manual settings are used, the control commands from the myTEM Smart Server or myTEM Radio Server are ignored.
- CAUTION! Before starting, set all DIP switches to position OFF, i.e. upwards. This avoids that e.g. OPEN / CLOSE commands are set at the same time.
- To check the digital outputs (relays / SSR’s) set DIP switch 8 down to ON.
With the DIP switches 1 – 6 you can now switch the outputs DO1 – DO6 on and off.
LED 1 display
The LED 1 next to the power connector may show the following states:
LED 1 green: The device started and working according to commands from the
myTEM Smart Server or myTEM Radio Server
LED 1 flashing green: The device is in the manual position, i.e. the outputs
are according to the DIP-switch setting
LED 1 off Device not powered, not started, or broken
Quick troubleshooting
The following hints may help to solve trouble:
- Make sure that the power supply is connected with the correct polarity. With the wrong polarity, the device does not start.
- Make sure that new devices are in the factory reset state. The Z-Wave status is displayed at power-up.
- If a connection cannot be established, check that the controller and the device are working on the same radio frequency.
- If a connection cannot be established, the control cabinet may reduce the radio signal. Please use in this case an external antenna, such as, for example, the myTEM MTANT-100-WL.
- Remove devices that are no longer available in the Z-Wave network from all association groups. Otherwise, significant delays in the execution of commands are possible.
- Make sure you have enough mains-powered devices to benefit from the meshing network.
- Never use “sleeping” battery-powered devices without a central controller and do not poll battery-powered devices.
Technical specifications
Dimensions (W x H x D)| 106.6 x 101.1 x 62.5 mm (height with connectors 106.8
mm)
---|---
Installation / mounting| On 35 mm DIN rail
Operating voltage| 24 VDC ± 10%
Power consumption in standby Continuous operation for a wireless network,
therefore no standby operation
Power consumption in operation (module only, without external loads)| 0.5 W,
If the inputs are open and the outputs are turned off
5.0 W, if the Inputs are short-circuited to VD1out and the outputs are turned
on
MTIOM-100-WL
Switchable load MTIOM-101-WL| 6x 8.0 A, 250 VAC or 30 VDC, cos(c) =1.0 (Relay
version — Radio 10 Modul)
Bx 0.05 A, 250 VAC or 30 VDC, cos(p) =1.0 (SSR version — Radio 10 Modul Floor)
Ambient temperature for operation| 0’C — 50 ‘C
Ambient temperature for storage| -20 ‘C — 60 °C
Ambient humidity| 5 %RH — 85 %RH (non condensing)
Wire cross-section connectors| 0.25 mm2 — 2.5 mm2
Stripping length for connectors| ca. 7 mm
Tightening torque for connectors| 0.5 Nm
Degree of protection provided by the enclosure| IP 20 (after installation)
(according to EN 60529)
Protection class| 11 (according to EN 60730-1)
Overvoltage category| II (according to EN 60730-1, resp. EN 60664-1)
Pollution degree| 2 (according to EN 60730-1)
Safety main unit| EN 60730-1:2016 + A1:2019
EMC main unit| EN 60730-1:2016 + Al2019
EN IEC 61000-6-22019 EN 61000-6-3:2007 + A1:2011 / AC:2012
Safety radio part EN 62368-1:2014 / AC:2017 EN 62479:2010
EMC radio part EN 301 489-1 V2.2.3 EN 301 489-3 V2.1.1
Radio spectrum EN 300 220-2 V3.2.1
RoHS EN IEC 63000:2018
CE conformity
2014/35/EU (LVD) 2014/53/EU I (RED)
( 2014/30/EU (EMC) 2011/65/EU (RoHS)
Z-Wave hardware platform| Z-Wave series 700 (ZGM130)
Device Type| Binary Switch
Role Type| Always On Slave (AOS)
Explanation of some Z-Wave specific terms
Controller … is a Z-Wave device with the capability to manage a network.
They are typically gateways, remote controls or wall controllers.
Primary controller … is the central administrator of the Z-Wave network.
In a Z-Wave network, only one primary controller is allowed.
Slave... is a Z-Wave device without the ability to manage a network.
Slaves can be sensors, actuators, and even remote controls.
Add (Inclusion)... is the process of adding new Z-Wave devices into a
network.
Remove (Exclusion)... is the process of removing Z-Wave devices from the
network.
Wakeup Notification... is a special wireless message issued by battery-
powered Z-Wave devices to announce that they are awake and able to
communicate.
Node Information Frame (NIF)... is a special wireless message issued by a
Z-Wave device to announce its capabilities and functions.
Z-Wave Association – Devices control each other
The Association Command Class is used to manage associations to NodeID
destinations. An association group sends commands to the configured
destinations when triggered by an event.
Association groups:
Group
ID| Profile / Name| Max. no
of units| Command Class| Type / Event| Description
---|---|---|---|---|---
1| General: Lifeline / Lifeline| 5| Notification Report| T: System (0x09) E:
Heartbeat (0x05)
T: Power Management (0x08)
E: Power has been applied (0x01)| Reports to be alive (interval according to
configuration)
Reports the device had a start-up (sent after each power-up only)
Device Reset Locally| | Reports resetting network and configuration parameter
Central Scene| | Actuation of digital inputs DI1 — DI6
The reports “Heartbeat” and “Power Management” can be activated/deactivated
separately via the command class Notification.
Endpoints 1 … 6 (DO1 – DO6, n = 1. .. 6)
Each endpoint reflects a digital output.
Group ID | Profile / Name | Max. no of units | Command Class | Description |
---|---|---|---|---|
1 | General: Lifeline / Lifeline | 5 | Binary Switch Report | Reports output D0 |
state, when it changed
Endpoints 7 … 12 (DI1 – DI6, n = 1 … 6)
Each endpoint reflects a digital input.
Group ID Profile / Name| Max. no of units| Command Class| Type / State|
Description
---|---|---|---|---
1| General: Lifeline / Lifeline
5| Notification Report| T: System
S: High state / Open| Report “Open” (input open), “High state” (input closed)
Dl
Endpoints 13 … 16 (AI1 – AI4, n = 1 … 4)
Each endpoint reflects an analog input.
Group ID | Profile / Name | Max. no of units | Command Class | Description |
---|---|---|---|---|
1 | General: Lifeline / Lifeline | 5 | Multilevel Sensor Report | Temperature or |
voltage value input Al
5| Multilevel Sensor Supported Report| Reports the actually supported sensor
type (temperature or voltage)
Z-Wave configuration parameters
Z-Wave products can be used out of the box after inclusion (“Add”) into the
network. With the configuration, however, the behavior can be better adapted
to the application.
CAUTION! Depending on the function the server may change some default
settings.
Par# | Description | Unit | Min | Max | Default | Precision | RIW | Size |
---|---|---|---|---|---|---|---|---|
1 | Heartbeat rate | min | 1 | 1440 | 60 | 0 | r/w | 2 bytes |
2 | (0 = disabled; 1 = binary / Binary Sensor Report; Digital input 1 type 2 = | |||||||
key / Central Scene Report) x) | — | 0 | 2 | 0 | 0 | r/w | 2 bytes | |
3 | Digital input 1 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
4 | Digital input 2 type (see Par# 2)’0 | — | 0 | 2 | 0 | 0 | r/w | 2 bytes |
5 | Digital input 2 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
6 | Digital input 3 type (see Par# 2)’ | — | 0 | 2 | 0 | 0 | r/w | 2 bytes |
7 | Digital input 3 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
8 | Digital input 4 type (see Par# 2) X) | – | 0 | 2 | 0 | 0 | r/w | 2 bytes |
9 | Digital input 4 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
10 | Digital input 5 type (see Par# 2)’0 | — | 0 | 2 | 0 | 0 | r/w | 2 bytes |
11 | Digital input 5 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
12 | Digital input 6 type (see Par# 2) x) | — | 0 | 2 | 0 | 0 | r/w | 2 bytes |
13 | Digital input 6 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
14 | Analog input 1 enable (0 = disabled / 1 = enabled) | — | 0 | 1 | 0 | 0 | r/w | 2 |
bytes
15| Analog input 1 select
NTC5k (0), NTC10k (1), PTC1k (2), PT1000 (3), 0-10V (4), digital (5)| —| 0| 5|
0| 0| r/w| 2 bytes
16| Analog input 1 send interval| min| 0.1| 120.0| 5.0| 1| r/w| 2 bytes
17| Minimum delta temperature 1 send’)| K| 0.1| 10.0| 0.5| 1| r/w| 2 bytes
18| Minimum delta voltage 1 send Y)| V| 0.1| 10.0| 0.5| 1| r/w| 2 bytes
19| Analog input 2 enable (0 = disabled / 1 = enabled)| —| 0| 1| 0| 0| r/w| 2
bytes
Par/ | Description | Unit | Min | Max | Default | Precision | R/W | Size |
---|---|---|---|---|---|---|---|---|
20 | Analog input 2 select | |||||||
NTC5k (0), NTC10k (1), PTC1 k (2), PT1000 (3), 0-10V (4), digital (5) | — | 0 | ||||||
5 | 0 | 0 | r/w | 2 bytes | ||||
21 | Analog input 2 send interval | min | 0.1 | 120.0 | 5.0 | 1 | r/w | 2 bytes |
22 | Minimum delta temperature 2 send Y) | K | 0.1 | 10.0 | 0.5 | 1 | r/w | 2 bytes |
23 | Minimum delta voltage 2 send Y) | V | 0.1 | 10.0 | 0.5 | 1 | r/w | 2 bytes |
24 | Analog input 3 enable (0 = disabled / 1 = enabled) | — | 0 | 1 | 0 | 0 | r/w | 2 |
bytes
25| Analog input 3 select
NTC5k (0), NTC10k (1), PTC1 k (2), PT1000 (3), 0-10V (4), digital (5)| —| 0|
5| 0| 0| r/w| 2 bytes
26| Analog input 3 send interval| min| 0.1| 120.0| 5.0| 1| r/w| 2 bytes
27| Minimum delta temperature 3 send n| K| 0.1| 10.0| 0.5| 1| r/w| 2 bytes
28| Minimum delta voltage 3 send Y)| V| 0.1| 10.0| 0.5| 1| r/w| 2 bytes
29| Analog input 4 enable (0 = disabled / 1 = enabled)| | 0| 1| 0| 0| r/w| 2
bytes
30| Analog input 4 select
NTC5k (0), NTC10k (1), PTC1 k (2), PT1000 (3), 0-10V (4), digital (5)| | 0| 5|
0| 0| r/w| 2 bytes
31| Analog input 4 send interval| min| 0.1| 120.0| 5.0| 1| r/w| 2 bytes
32| Minimum delta temperature 4 send Y)| K| 0.1| 10.0| 0.5| 1| r/w| 2 bytes
33| Minimum delta voltage 4 send Y)| V| 0.1| 10.0| 0.5| 1| r/w| 2 bytes
X) With buttons at the input the Central Scene Report should be used, with
switches at the input the Binary Sensor Report should be used
Y) Delta value in relation to the last sent value
Central Scene Command
The digital inputs can be used for Central Scene Commands. The assignment of
the scene number is according to the table.
Digital input.(use buttons) | DI1 | 12 | 13 | D14 | DI5 | DI6 |
---|---|---|---|---|---|---|
Scene number | 1 | 2 | 3 | 4 | 5 | 6 |
Supported Command Classes
Root Device:
Command Class (CC)| Version| Not added| Non-secure added| Securely added,non-
secure CC| Securely added,
---|---|---|---|---|---
Application Status CC| 2| Support| Support| | secure CC
Association CC| 2| Support| Support| | Support
Association Group Information CC| 3| Support| Support| | Support
Basic CC| 2| Support| Support| | Support
Binary Switch CC| 2| Support| Support| | Support
Central Scene CC| 3| Support| Support| | Support
Configuration CC| 4| Support| Support| | Support
Device Reset Locally CC| 1| Support| Support| | Support
Firmware Update Meta Data CC| 5| Support| Support| | Support
Indicator CC| 3| Support| Support| | Support
Manufacturer Specific CC| 2| Support| Support| | Support
Multi-Channel Association CC| 3| Support| Support| | Support
Multi-Channel CC| 4| Support| Support| | Support
Notification CC| 8| Support| Support| | Support
Powerlevel CC| 1| Support| Support| | Support
Security_2 CC| 1| Support| Support| Support| Support
Supervision CC| 1| Support| Support| Support|
Transport Service CC| 2| Support| Support| Support|
Version CC| 3| Support| Support| |
Z-Wave Plus Info CC| 2| Support| Support| Support| Support
Announced CC in endpoints:
The inputs and outputs are mapped to the following endpoints:
Input / Output | Fix / Dynamic | Number | Remark | Abbreviation | Default |
---|---|---|---|---|---|
Digital outputs | Fix | 6 | 001 … DO6 | ||
Digital inputs | Fix | 6 | DI1 … 016 | ||
Analog inputs | Fix | 4 | Individually selectable between: |
■ Temperature sensor
■ 0-10 VDC sensor| All Al4| Temperature sensor
Endpoints 1 … 6 (DO1 – DO6, n = 1 … 6)
Device Type: Switch Binary
Command Class (CC)| Version| Non-secure added| Securely added, non-secure CC|
Securely added, secure CC
---|---|---|---|---
Association CC| 2| Support| | Support
Association Group Information CC| 3| Support| | Support
Binary Switch CC| 2| Support| | Support
Multi-Channel Association CC| 3| Support| | Support
Security_2 CC| 1| | Support|
Supervision CC| 1| Support| Support| Securely added, secure CC
Z-Wave Plus Info CC| 2| Support| Support| Support
Endpoints 7 … 12 (DI1 – DI6, n = 1 … 6)
Device Type: Notification Sensor
Sensor Type: System (0x09)
Event/State: digital input short-circuited (0x09), digital input open (0x0B)
Command Class (CC)| Version| Non-secure added| Securely added, non-secure CC|
Securely added, secure CC
---|---|---|---|---
Association CC| 2| Support| | Support
Association Group Information CC| 3| Support| | Support
Central Scene CC| 3| Support| | Support
Multi-Channel Association CC| 3| Support| | Support
Notification Sensor CC| 8| Support| | Support
Security_2 CC| 1| | Support|
Supervision CC| 1| Support| Support|
Z-Wave Plus Info CC| 2| Support| Support|
Endpoints 13 … 16 (AI1 – AI4, n = 1 … 4; change capabilities)
Device Type: Multilevel Sensor
Sensor Type: Air Temperature (0x01) / Voltage (0x0F)
Scale: Celsius (0x00) / Volt (0x00) or mV (0x01)
Command Class (CC)| Version| Non-secure added| Securely added, non-secure CC|
Securely added, secure CC
---|---|---|---|---
Association CC| 2| Support| | Support
Association Group Information CC| 3| Support| | Support
Multi-Channel Association CC| 3| Support| | Support
Multilevel Sensor CC| 11| Support| | Support
Security_2 CC| 1| | Support|
Supervision CC| 1| Support| Support|
Z-Wave Plus Info CC| 2| Support| Support|
References
- Z-Wave Europe - The leading european distributor for Smart Home products.
- Z-Wave Europe - The leading european distributor for Smart Home products.
- Downloads - myTEM SmartHome
- Z-Wave Global Regions - Silicon Labs