Highly integrated GPS, GLONASS, QZSS positioning module requires only an antenna.
Swiss-based u‑blox, a global leader in cellular and positioning modules and integrated circuits, introduces the smallest standalone GNSS positioning module on the market, the EVA-7M.
Designed for cost and space sensitive applications, the highly integrated 7 x 7 x 1.1 mm LGA module comprises all necessary components, including crystal and passives: just add an antenna for instant global positioning capability.
The module supports US GPS, Russian GLONASS, Japanese QZSS, plus all SBAS augmentation systems. Based on u-blox’ advanced GNSS technology u‑blox 7, the module achieves -160 dBm sensitivity when tracking GPS satellites (-158 dBm with GLONASS satellites), fast acquisition time and the lowest power of any u-blox 7 module (15 mA at 3 V) thanks to an innovative high-efficiency power converter.
The EVA-7M eases implementation in end-products because RF and digital domains are kept well separated, and the LGA pads are configured in single rows. Unlike other GNSS receivers on the market, EVA is a standalone GNSS receiver which provides a position without the need for host integration or extra RF components. It is optimized for keeping eBOM (engineering bill of materials) and system costs to an absolute minimum.
Thomas Nigg, VP Product Marketing at u-blox, said:
“The EVA-7M brings embedded satellite positioning to the next level of portability.”
“The module has been developed with ease-of-manufacturing as a high priority. Its QFN-like footprint with connections along four sides and high-level of component integration makes it a perfect solution for medium and high volume production runs. This ensures high first-pass production yield, crucial criteria especially for cost-sensitive, high-volume industrial and consumer applications.”
A UART and I2C interface provide flexible connections to a host processor. EVA-7M can also communicate directly with u‑blox’ SARA 2G, LISA 3G and TOBY LTE cellular modules to support advanced tracking and location-aware applications.
The module is suitable for consumer, industrial and after-market vehicle applications. First samples will be available in Q1 2014.