Avago develops LNAs for BTS RF front-end design

With the addition of these 1,500MHz to 2,300MHz and 2,300MHz to 4,000MHz LNAs, Avago will complete its next-generation LNA series that covers all cellular bands for GSM, CDMA, UMTS and Wimax, as well as next-generation LTE bands.

The two LNAs target cellular infrastructure base station applications, such as transceiver radio cards, tower-mounted amplifiers (TMAs), combiners, repeaters and remote/digital radio heads.

The wireless infrastructure industry is challenged to provide optimum coverage with the best signal quality in crowded spectrum.

Receiver sensitivity is one of the most critical requirements in a BTS receive path design.

Proper LNA selection, in particular the first-stage LNA, affects the BTS receiver sensitivity performance.

Low noise figure is a key design goal.

Avago can offer a noise figure of 0.48dB at 1,900MHz.

Another key design factor is linearity, which affects the receiver's ability to distinguish between closely spaced wanted and spurious signals.

Third-order intercept, OIP3, is used to specify linearity.

At 1,900MHz and typical operating condition of 5V/51mA, Avago's GaAs enhancement-mode pHEMT process technology gives a noise figure of 0.48dB and an OIP3 of 35dBm.

At 2,500MHz and typical operating condition of 5V/56mA, the noise figure is 0.59dB and OIP3 is 35dBm.

With a low NF and high OIP3, the Avago LNAs offer more design margin for the BTS receiver path than previous amplifiers.

With built-in active bias circuitry, Avago's LNA operating current is adjustable.

This allows designers to make tradeoffs between operating current and output linearity, as measured by OIP3, while maintaining an optimum noise figure.

BTS designers will have the flexibility to meet various design needs and regional requirements with the same Avago LNA.

Since more communication channels must now fit into a transmit/receive card, PCB real estate has become another key design challenge for BTS designers.

Avago chose a QFN package with a small 4mm2 footprint to meet market needs.

The two LNAs share the same package footprint, pinout and external matching network of the existing Avago 900MHz, MGA-633P8 LNA.

A common PCB design can therefore be used for all BTS RF front-end designs that operate in different frequency bands.

This reduces the number of PCB designs needed to supply BTS solutions for different bands and geographic markets.