In an approach to overbridge the gap between the OMS wireless M-Bus devices and the mioty technology, Lansen are now sampling the long anticipated OMS4mioty bridge. Read more about its functions down below!
Taking the best parts of the OMS repeater and OMS to LTE-M1 gateway
The oms4mioty bridge use the truly extraordinary radio technology already present in the Lansen OMS repeater to convert Wireless M-Bus data to mioty. The repeater for wireless M-Bus has been developed into perfection, and generation 4 of the repeater is now considered to be the most robust and easy to use OMS repeater on the market.
This year we have also released the OMS to LTE-M1 gateway that use TLS and MQTT to transparently transmit OMS data to the cloud. This device is built on the repeater platform, and just like the repeater, the device is an easy and powerful tool to transmit data directly to the cloud.
Now it is time for the next revolution!
We are now proud to present the brand-new OMS4mioty bridge (wireless M-Bus to mioty), taking the best parts of the OMS repeater and the LTE-M1 gateway. The device will as the LTE-M1 Gateway and repeaters be available with either 10 years worry free battery-time or be mains (230V) powered.
Features
Mioty device class
Class-Z (unidirectional and uplink only).
Configurable features
Tailormade configuration for battery version
The battery powered bridge has a tailormade, fully configurable listen and sleep time. For example, you can set the device to listen for wireless M-Bus data 3 minutes per hour or 20 minutes per day. You can also set the absolute start time at a specific day of the week.
Status packet.
Every 12 hours a status packet is transmitted from the device containing information such as:
Battery version
The store and forward technology are used for the battery version of the bridge. This means that data is saved from meters in the routing list in a permanent memory during the listen period (for example every 20 minutes). The data is saved encrypted as transmitted from the wireless M-Bus meter together with the current timestamp and RSSI.
When the listen period has ended the data stored in the flash memory is transmitted using the mioty protocol. That means that the transmitted data is spread out during the rest of the hour, 24 hours, or even the rest of the week depending on setting. With this way many more meters can be handled while still complying with duty cycle regulation of as defined in EN 300-220.
Maximum number of meters
The maximum number of devices with the standard configuration is 2000 devices but can be further increased if needed. Contact our development team here if that is needed!
Maximum number of packets
The number of meters that can be handled is mostly related to the duty cycle and the sleep period/suppression period.
There are 2 different ways of handling the transmission duty cycle that the mioty bridge uses:
Each wM-Bus byte received is encoded into one mioty subpacket due to the FEC encoding used by mioty. That means that the device can handle up to:
The device starts retransmitting trying to comply with the 1% duty cycle regulation. If too many meters are in the routing list and the suppression is set such that it makes it impossible to comply, the device switches to polite spectrum access schematic to be able to serve more meters.
This feature is enabled by default but can be turned off using the LansenConfigurator configuration tool.
If you are interested in a sample, or have any questions, don't hesitate to reach out to our sales team here, we would love to tell you more!