CSR announces the launch of a new Bluetooth Smart platform designed to meet the needs of developers looking to create low-power wearable accessories. The CSR1012, which is part of the proven CSR µEnergy® range, provides a smaller form factor package making it ideal for wearable devices, such as smart watches and activity monitors.
The platform provides a form factor small enough for wearable devices but critically still uses standard PCB technology, which allows developers to get a high-volume product to market quickly and cost effectively. It’s also the first solution to support direct connection to a lithium-ion battery without the need for an external regulator. This ensures long-battery life which is critical for wearable accessories.
In addition to wearable technology, the solution can also be used for other small form factor ‘appcessories’ and HID accessories, such as slim smartphone or tablet styluses and small advertising beacons.
Designed for high-volume products
The CSR1012 provides the ideal solution for high-volume production coupled with compact design. The 0.4 mm pitch QFN package can be handled easily on high-volume production lines. Space beneath the device enables I/O to be routed using standard drilled vias. This coupled with a 4×4 package area, offers a very small final PCB to ensure developers can produce compact wearable devices with consumer appeal. The CSR1012 is available in volume from today.
Reference designs to reduce time to market
To reduce time to market, CSR will offer developers CSR1012 reference designs with full manufacturing information. These are downloadable from CSR’s support site (login required).
Compatibility with CSR µEnergy range for an easy transition
The CSR1012 is based on CSR µEnergy silicon and is fully compatible with CSR’s existing software, enabling an easy transition for developers using CSR1010 and CSR1011 solutions looking to develop wearable accessories with CSR1012.
Highly efficient for the best battery life
The CSR1012 is designed to ensure the longest battery life possible for wearable accessories. It is the first solution that can be directly connected to rechargeable battery chemistries without the need for an external regulator. This not only saves cost and PCB area, but crucially saves precious quiescent leakage current in the external regulator. The quiescent of an external switcher can be 10-15 µA and of a linear 1-2 µA, which can significantly reduce the battery life of a device that is only working in the nano Amp to low micro Amp range. The platform achieves this using an on-chip switched mode power supply that operates from 1.8 V to 4.3 V. This enables the device to operate directly from compact lithium polymer batteries.