Low Power RF & Wireless Connectivity

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Low Power RF & Wireless Connectivity

Welcome to the Low Power RF & Wireless Connectivity Section of the TI E2E Support Community. Ask questions, share knowledge, explore ideas, and help solve problems with fellow engineers. To post a question, click on the forum tab then "New Post".

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  • Wiki Page: DN024 868 MHz and 915 MHz Meandering Monopole PCB Antenna

    Glenn B
    This document describes a PCB antenna designed for operation in the 868 MHz and 915 MHz ISM bands. http://www.ti.com/lit/swra227
    on Feb 16, 2012

  • Wiki Page: DN023 868 MHz and 915 MHz PCB Inverted F Antenna

    Glenn B
    This document describes a PCB antenna designed for operation in the 868 MHz and 915 MHz ISM bands. http://www.ti.com/lit/swra228
    on Feb 16, 2012

  • Wiki Page: DN008 868 MHz and 915 MHz PCB Antenna

    Glenn B
    This document describes a PCB antenna designed for operation in the 868 MHz and 915 MHz ISM bands. This antenna can be used with all transceivers and transmitters from Texas Instruments, which operates in these frequency bands. Maximum gain is measured to be 4.6 dB and overall size requirements for this...
    on Feb 2, 2012

  • Wiki Page: Connector on CC EM modules

    Kjetil
    Q: FAQ: Connector on CC EM modules The PCB connector used on the EM (Evaluation Modules) for the chips mentioned above is: Samtec TFM-110-02-S-D-K-A. The connectors are 1200mils apart (centre to centre). More details, including the recommended footprint, can be found on: http://www.samtec.com/ftppub...
    on Nov 22, 2010

  • Wiki Page: Samples of LPRF devices

    Kjetil
    Q: FAQ: Samples of LPRF devices For samples of LPRF products, please see the following for direct sample requests: http://www.ti.com/home_b_samples
    on Nov 22, 2010

  • Wiki Page: RF Testing in production

    Kjetil
    Q: FAQ: RF Testing in production The prototypes and the first batch should go through qualification testing. For later batches, samples can be submitted to qualification tests and remaining devices to production test. The level of testing must be seen in connection with cost and consequence of failure...
    on Nov 22, 2010

  • Wiki Page: VIA and solderpaste coverage for LPRF transceivers

    Kjetil
    Q: FAQ: VIA and solderpaste coverage for LPRF transceivers The area under the chip is used for grounding and shall be connected to the bottom ground plane with several vias for good thermal performance and to minimize inductance to ground . In the reference designs available from the TI web site...
    on Nov 22, 2010

  • Wiki Page: EMI shield

    Kjetil
    Q: FAQ: EMI shield by 613920 Does TI recommend an EMI shield to pass FCC? None of the reference designs make this recommendation. Usually TI LPW reference designs do not require an RF-Shield. This is generally achieved by filling ground on any available area not used for routing. This shortens...
    on Nov 22, 2010

  • Wiki Page: Antennas in development kits

    Kjetil
    Q: FAQ: Antennas in development kits Antennas used in the Low Power Wireless development kits. 433 MHz development kits: - Badland SMAFF-433 ( www.badland.co.uk ) 868-915 MHz development kits: - CC11xx: Previously Nearson S331AM-915, has recently been changed to Nearson S463AM-915 ( www.nearson...
    on Nov 22, 2010

  • Wiki Page: AN081 Johanson Technology balun optimized for CC2530

    Kjetil
    AN081 -- Johanson Technology balun optimized for CC2530 ( http://focus.ti.com/general/docs/techdocsabstract.tsp?abstractName=swra297 ) The swra297.zip file ( www.ti.com/litv/zip/swra297 ) contains schematics and layout files for the CC2530 that contain one part from Johanson Technology interfacing...
    on Nov 19, 2010

  • Wiki Page: AN021 Voltage Level Conversion

    Kjetil
    Texas Instruments RF-ICs operate with supply voltages lower than the old industrystandard 5V. Running at a lower voltage enables the ICs to be less expensive and have lower power consumption than they would have had if they used a 5 V supply. Also, lower operating voltages are good for battery-operated...
    on Nov 19, 2010

  • Wiki Page: AN014 Frequency Hopping Systems

    Kjetil
    Spread spectrum systems are becoming more and more prevalent, also for ISMband systems. As the ISM bands become more and more crowded, the anti-jamming properties of spread spectrum techniques are useful for ensuring reliable communications. All of LPRF chips are very well suited to the frequency hopping...
    on Nov 19, 2010

  • Wiki Page: AN016 CC1000 / CC1050 used with On-Off Keying

    Kjetil
    The CC1000 and CC1050 products from Texas Instruments are highly integrated multichannel FSK (Frequency Shift Keying) transceivers and transmitters respectively. However, in some applications OOK (On-Off Keying) or ASK (Amplitude Shift Keying) are required. FSK is a kind of FM (Frequency Modulation...
    on Nov 19, 2010

  • Wiki Page: AN009 CC1000 / CC1050 Microcontroller interfacing

    Kjetil
    The CC1000 RF transceiver is very easy to interface with a microcontroller. The chip is configured using a three-wire bus, comprising of PCLK, PDATA and PALE signals. Data interfacing is done via the DCLK and DIO pins. Three different modes for interfacing with a microcontroller are available. Data...
    on Nov 19, 2010

  • Wiki Page: AN028 LC filter with improved high-frequency attenuation

    Kjetil
    This application note describes an improved T-type LC filter that can be used to further attenuate harmonics if a standard Pi-type filter (such as the one used in many of LPRF’s development kits) is not sufficient. This T-type filter provides much better stop-band attenuation than a Pi-type filter...
    on Nov 19, 2010

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