Friday, September 22, 2023

Registered mail with confirmation of delivery at 868 MHz (EnOcean's bidirectional and energy-autonomous Dolphin platform means new possibilities in automation)

Related articles

EnOcean GmbH, developer of batteryless wireless technology, today announced the market availability of its new Dolphin platform. For the first time, the Dolphin system architecture enables the use of bi-directional, self-powered wireless sensors and actuators meaning EnOcean sensor modules can transmit information as well as receive it. This creates the basis for innovative wireless applications in building and industrial automation, medical engineering and countless other markets. EnOcean is presenting the new Dolphin platform at the Light+Building 2010 show (hall 9 booth B40).

The Dolphin platform enables sensors to communicate in two directions, resulting in a sensor network dialogue that facilitates entirely new possibilities in building automation and a variety of other processes. A room temperature regulator, for instance, is not only able to send the temperature set for a room to its central controller. In the reverse direction it can now also receive commands from this central point and indicate them. At the same time the radiator is controlled and the momentary room temperature adjusted to a new setting. In this way large hotels can control and reduce their energy consumption centrally, without having to set the temperature separately for each room.

The benefits of the new Dolphin modules go far beyond extra convenience and enhanced flexibility in hotel management. In many applications, including sensitive ones such as medicine or security, the receipt of a wireless signal now has to be acknowledged. If no acknowledging signal is returned, there may be defects in the system that can be immediately detected and corrected.

Creating what it takes

EnOcean’s self-powered and service-free wireless technology sets standards when it comes to smart automation and control. Its wireless modules harvest the energy they need to transmit a control command from their surroundings – the movement of a button, for instance, a miniature solar cell or a difference in temperature. This eliminates complicated and costly cabling.

Initially, energy-autonomous sensors implemented in EnOcean wireless technology were only able to transmit. The bi-directional Dolphin platform, now available, is the logical follow-on development of this unidirectional transmission. Since the first prototypes were presented at Electronica 2008, EnOcean has cooperated closely with long-standing customers to optimise and complete the platform.

Broad integration base

OEM partners from diverse sectors can simply integrate the new modules in their product ranges. EnOcean technology enables speedy development and creation of new wireless solutions in building services, in industrial and numerous other applications. Standardised sensor profiles enable interoperability of the resulting products. Devices from different manufacturers can then communicate and cooperate with one another in one and the same system. The new platform remains backward-compatible with all earlier unidirectional, self-powered wireless switches, sensors and actuators in EnOcean technology.

Open-ended for the way ahead

A major component of Dolphin system architecture is the bi-directional STM 300, TCM 300 and TCM 320 wireless modules. These come in versions for a standard frequency of 868 MHz or 315 MHz, so they can work in applications worldwide.

STM 300 features an energy harvesting interface for the implementation of self-powered products. The minimal standby power consumption makes it especially suitable for energy-autonomous wireless solutions such as temperature sensors, sensors in building services and innovative actuators. STM 300 can be powered by a solar cell, available in two sizes.

The TCM 300 and TCM 320 transceiver modules are the ideal building block for continuously powered components such as flush-mounted actuators or gateways. The modules command out-of-the-box switching, dimming, repeating and gateway functionalities. If basic configurations are inadequate, the easy-to-handle EnOcean API development environment enables OEMs to create extra functionality for integration in their applications.

The nucleus of the new modules is the large-scale-integrated EO30001 Dolphin chip. This features an energy converter interface and a complete RF transceiver for the wireless communication developed by EnOcean with its extremely short data telegrams.

The fastest way into energy-autonomous applications

The EDK 300 developer kit gives the designer a fast and full overview of the Dolphin platform. Companies will be able to develop their own energy-autonomous applications for building services automation or other purposes speedily and effectively.

About EnOcean

EnOcean GmbH is the originator of patented self-powered wireless technology. Headquartered in Oberhaching near Munich, the company manufactures and markets maintenance-free wireless sensor solutions for use in buildings and industrial installations. EnOcean products are based on a combination of miniaturized energy converters, ultra-low-power electronic circuitry and reliable wireless. There are already wireless components in use in more than 100,000 buildings. EnOcean GmbH is a promoter of the EnOcean Alliance, a federation of leading companies from the world’s building sector that has set itself the aim of creating innovative solutions for sustainable building. EnOcean has received a number of awards in recent years – for example the Elektra awards 2008: “Wireless & Telecoms Design” and “Company of the Year”. EnOcean currently employs 50 people in Germany and the USA.

For more information visit

EnOcean and the EnOcean logo are registered trademarks of EnOcean GmbH. Press contacts: Slavica Simunovic EnOcean GmbH T: +49.89.673 4689-653 E: slavica.simunovic [at]

Beky Cann Neesham Public Relations T: +44.1296.628180 E: bekyc [at]

Email :kerrym [at]

Source: Enocean

- Advertisement -

In case if you missed

- Advertisement -

More articles