World's smallest 3.75G module

U-blox has announced LISA, a new family of small, ultra-fast wireless modems that enables a wide range of high-bandwidth applications such as mobile computing, car infotainment, telematics systems and handheld terminals where wireless high-speed Internet connection is essential. It also provides secure data exchange to support sensitive applications such as automatic meter reading, fixed wireless terminals, telehealth, remote displays and point of sales terminals.
February 3, 2012 Read time: 2 mins
602 U-Blox has announced LISA, a new family of small, ultra-fast wireless modems that enables a wide range of high-bandwidth applications such as mobile computing, car infotainment, telematics systems and handheld terminals where wireless high-speed Internet connection is essential. It also provides secure data exchange to support sensitive applications such as automatic meter reading, fixed wireless terminals, telehealth, remote displays and point of sales terminals.

The modules provide high performance with uplink data speeds of up to 5.7Mb/s (HSUPA) and downlink data speeds of up to 7.2Mb/s (HSDPA) using UMTS/WCDMA technology. LISA also supports quad-band GSM/GPRS/EDGE (2G). The module series comes in a compact 33.2x22.4x2.7mm surface-mount package.

The family includes variants supporting dual-band UMTS frequencies in EMEA/Asia and the Americas (900/2,100MHz and 850/1,900MHz), plus versions dedicated to data-only applications. All modules are optimised to work with U-blox's GPS receivers via direct interface. LISA follows U-blox's highly successful LEON 2G module and is layout compatible to enable mounting of either module on the same PCB footprint.
Networking & Communication Systems

For more information on companies in this article

Related Content

  • Nedap launches next generation RFID reader
    July 31, 2015
    Nedap, a specialist in systems for long-range identification, wireless vehicle detection and city access control, will use the 2015 ITS World Congress, to introduce the next generation of Microwave RFID reader, Transit Ultimate, that identifies vehicles and drivers at a distance of up to 10 metres (33 ft.) and a travelling speed of up to 200 km/h (125 mph) by using semi-active (2.45 GHz) RFID technology. The new Transit Ultimate contains a second communication channel at 433 MHz that enables a wider bandwid
    Read More
  • Viewcom gets H.264
    January 31, 2012
    Traficon has announced the Viewcom/E Max+, a communication board for intersection control. Its task is to transmit traffic data and alarm events issued by VIP (video image processor) vehicle presence detectors. This new module provides H.264 compressed video, which guarantees best quality video while consuming minimal network bandwidth. It offers quad view functionality that allows an operator to quickly see the whole intersection in a mosaic of four streaming videos. The dedicated serial communicatio
    Read More
  • Ethernet to tap new synergies for connected cars
    July 25, 2013
    Ethernet could be catalyst for bringing the automotive industry a step closer to connected vehicles. The latest report from Frost and Sullivan indicates that the need to integrate multiple consumer electronic devices into the car offering connected services and maintaining brand identity has led to a situation where original equipment manufacturers (OEMs) are shifting toward higher connectivity options which could power prioritised and personalised services, catering to varied consumer needs. With the parad
    Read More
  • Standardised technology aids low cost wireless communication
    November 13, 2012
    In the UK, the necessary radio spectrum has been identified and standardised technology developed to allow cost effective wireless communication between cars, devices and other ‘machines’. This by Professor William Webb. A world free of traffic congestion, with intelligent systems directing vehicles and alerting drivers to free parking spaces may sound a far off fantasy to motorists stuck in seemingly endless queues on the outskirts of London. Yet this is a scenario not confined to the world of science fict
    Read More

Highlighted Content