Low-Power RF
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Bridge Architecture: revolutionizing dual-mode 4G cellular-modem dongle design
Understand your design options and tradeoffs when providing next-level wireless network access
Extend the range of low-power RF devices without exceeding FCC regulations
Understand how to calculate and improve your link's wireless range, while minimizing power dissipation
ZigBee RF4CE coexistence with common 2.4-GHz ISM-band consumer electronics
Understand the challenges and tradeoffs when using this slice of spectrum, crowded with devices supporting different standards
Over-the-air Testing of MIMO Mobile Terminals (Part 3 of 3)
This white paper discusses the issues related to testing of multiantenna multiple-input, multiple-output mobile terminals
The differential-signal advantage for communications system design
Understand how differential signal chains and architectures can improve system performance in challenging applications
Using SerDes in Fourth Generation Wireless Infrastructure
As the network equipment infrastructure is built up for 4G there will be an demand for high serial data rates between the main control radio equipment and that in distributed base stations. Here is how to meet the high serial data rate by only ugrading the Serdes through the use of a discrete solution
Over-the-air Testing of MIMO Mobile Terminals (Part 2 of 3)
This white paper discusses the issues related to testing of multiantenna multiple-input, multiple-output mobile terminals
Over-the-air Testing of MIMO Mobile Terminals (Part 1 of 3)
This white paper discusses the issues related to testing of multiantenna multiple-input, multiple-output mobile terminals
MORE DESIGN CENTER
«March 2010 Low-Power RF
About the RF Low-Power RF How-To Section
RF DesignLine's Low-Power RF section is the premier design resource for engineers looking to implement RF and millimeter-wave and microwave systems, including those for Wi-Fi, Bluetooth, WiBree, ZigBee, ultrawideband and remote control.
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