ULE - Ultra Low Energy

ULE - Ultra Low Energy is a wireless communication standard, which is used to create wireless sensor and actuator networks. The primary application areas of ULE based devices are home automation, home security, climate control. ULE originated from the DECT technology (thus it is often referred to as DECT ULE). In May 2013 ETSI released the specification of the ULE standard (Technical Specification TS 102 939-01).

The basic ULE wireless network uses a “star network topology”; i.e. there is one main device, called “base”, which controls the network; the “base” is wirelessly connected to “nodes”, which usually are devices with dedicated functions, such as sensors, remote controls, actuators, smart meters, etc. Some examples of node devices – door locks, smoke detectors, motion detectors, remote controls, gas and electricity meters, baby monitors, elderly care, etc.

ULE enables simultaneous data and voice communication; this means that sensors are not limited to indicating the event, but also enable voice interface. A good example is a pendant device for elderly care, which in case of emergency enables person carrying it not only indicate of an emergency situation, but also communicate with a remotely located caretaker, or service station as with regular cordless phone, but all with the simple press of a button.

The ULE technology is promoted by the ULE Alliance, a non-profit organization, located in Bern, Switzerland.

ULE Evolution from DECT

Enhancements were made to the DECT transport layer level by ETSI Technical Group DECT to adapt it to the requirements of the ULE wireless sensor networks:

Low power operation, which enables ULE devices to operate on batteries for extended time period of years
Extended security – ULE is using strong 128 bit AES encryption scheme vs. 64 bit encryption of DECT

Similarly to DECT, ULE uses a dedicated radio frequency, outmatching other technologies, such as Zigbee, Z-Wave, Bluetooth and others in terms of stability.

ULE Applications

Primary application areas of ULE based wireless networks are for home automation, home security and climate control. Each of these application areas represent variety of dedicated devices. Many home gateways, deployed worldwide integrate DECT and implementing the DECT base functionality. These gateways are usually software upgradable. A home gateway which already has DECT functionality can become ULE enabled by software upgrade.

Technical properties

ULE uses a “star topology” network – the base can be wirelessly connected to large number of nodes. ULE communication range is among the longest in the short range wireless communication technologies: over 50 meters in buildings and up to 300 meters in the open air. For the few cases where this range is not sufficient, repeaters can be used to extend the range. Similarly to DECT, ULE can also use more complex network architecture, with several bases connected with each other to cover extended areas (such as offices and larger buildings).

ULE radio properties

Frequency:

1880–1900 MHz in Europe,
1900–1920 MHz in China,
1893–1906 MHz in Japan,
1910–1930 MHz in Latin America,
1910–1920 MHz in Brazil, and
1920–1930 MHz in the US and Canada
As ULE does not operate in the 2.4 GHz ISM band, it is not subject to, nor causes interference with, 802.11b and 802.11g Wi-Fi, and 2.4 GHz cordless phones.
Carriers: 10 (1.728 MHz spacing) in Europe, 5 (1.728 MHz spacing) in the US
Time slots: 12 x 2 (up and down stream)
Channel allocation: dynamic
Average transmission power: 10 mW (250 mW peak) in Europe, 4 mW (100 mW peak) in the US

The DECT physical layer uses:

Frequency division multiple access (FDMA),
Time division multiple access (TDMA) and
Time division duplex (TDD)
This means that the radio spectrum is divided into physical channels in two dimensions: frequency and time.

ULE Protocol Stack

ULE Transport and Physical layers are defined and standardized by ETSI. The ULE physical layer is identical to DECT physical layer, while the Transport layer was enhanced to better fit requirements of wireless sensor networks (see above).

ULE Alliance developed and defined HAN-FUN application layer protocol (Home Area Network FUNctional protocol). The HAN FUN protocol defines the profiles of devices and sets requirements for application level interoperability of ULE based devices. The first version of HAN FUN (released in November 2013) defines profiles of over two dozen different devices.

External links

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