“The CSR µEnergy platform unlocks the potential of the Bluetooth low energy standard and is a huge step forward in consumer wireless technology. Bluetooth low energy technology is an alternative to the fractured market of proprietary and poorly adopted standards and can be deployed in a variety of everyday devices, changing the way that we interact with our local environment,” commented Anthony Murray, Senior Vice President of the Audio and Consumer Business Unit at CSR. “The ultra low power consumption of CSR’s µEnergy platform enables a new range of accessories to connect to the mobile phone, TV, PC, media player or tablet, enabling consumers to experience the power of these services in the home or products that they carry. Bluetooth low energy sensors in consumer products will enable their behaviour to be customised to the needs of the user, and tags will enable consumers to search and locate products and services around them.
CSR has a genuine understanding of OEMs’ priorities, and is the ideal company to deliver an easy-to-integrate, cost-effective Bluetooth low energy platform to the market.”
Analysts predict that Bluetooth low energy will enable new markets for wireless accessories or wireless-enabled products including remote controls, health and wellbeing devices, PC human interface devices, watches, automotive keyless entry, advertising, indoor location, smart energy appliances and proximity tagging.
Fiona Thomson of IMS Research said, “The technology will bring wireless connectivity to a whole new class of devices that have never used it before. The industry is at a key turning point with this technology right now and with the launch of the µEnergy platform of products, CSR is in a great position to drive this market forwards.”
Earlier this month the Bluetooth Special Interest Group (SIG) adopted the complete Bluetooth v4.0 specification, opening the door to commercial release of qualified Bluetooth low energy end products and CSR was one of the first companies to qualify its products to the new standard.
The CSR µEnergy platform has been optimised to support only Bluetooth low energy features, allowing products to be tiny, cost-effective and power-efficient. CSR’s chips can run for years on a single coin cell battery, and may be used in simple sensors such as a step counting foot pods, heart rate monitors or car keyfobs, as well as in more complex low power devices such as a watch that can control and display information from a mobile phone. The platform offers single-mode chips that complement CSR’s dual-mode offerings and provide a complete range of Bluetooth low energy solutions that will drive the development of this new market.
The CSR µEnergy platform, with its built-in processor, is designed for use in consumer products and requires no external processor to run customer applications. It includes four quadurature decoders to enable mouse and pointing devices, three analogue inputs for direct measurement of sensor, and digital serial connectors for external sensors and displays.
The chips each have direct antenna connections, can connect directly to a 3V coin cell or a pair of AAA batteries, and come with three pulse width modulation outputs for variable power control in applications such as lighting control or vibration motors. They can run in optimised sleep modes with currents as low as 600nA and chips can “wake” quickly in response to external input signals for applications such as remote controls. Both chips provide embedded support for keyboard scanning while “asleep” at less than 5µA.
CSR µEnergy is available in two package options. CSR1000 comes in a 32-pin 5x5x0.6mm QFN package. CSR1001, in a 56 pin 8x8x0.9mm QFN, provides extra pins for more complex products with a larger number of digital inputs, such as keyboards, remote control products or home information displays.
Both CSR1000 and CSR1001 can act as a master or slave using CSR’s recently qualified Bluetooth v4.0 host stack providing complete Generic Access Profile (GAP), L2CAP, Security Manager, Attribute Protocol (ATT) and Generic Attribute Profile (GATT). These devices enable customers to run their complete application on chip using the embedded 16-bit microprocessor.
CSR’s µEnergy chips are available to lead customers now.