MGA-65606_15 Datasheet, PDF(1/14 Page) AVAGO TECHNOLOGIES LIMITED

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MGA-65606_15 Datasheet, PDF (1/14 Pages) AVAGO TECHNOLOGIES LIMITED – Low Noise Amplifier

MGA-65606

Low Noise Amplifier with switchable Bypass/Shutdown Mode

in Low Profile Package

Data Sheet

Description

Avago Technologiesâ MGA-65606 is an economical, easy-

to-use GaAs MMIC Low Noise Amplifier (LNA) with Bypass/

Shutdown mode. The LNA has low noise and high linearity

achieved through the use of Avago Technologiesâ propri-

etary 0.25 ïm GaAs Enhancement-mode pHEMT process.

The Bypass/Shutdown mode enables the LNA to be

bypassed during high input signal power and reduce

current consumption. It is housed in a low profile 2.0 x 1.3

x 0.5 mm3 6-pin Ultra Thin Package. The compact footprint

and low profile coupled with low noise, high linearity make

the MGA-65606 an ideal choice as a low noise amplifier for

mobile and CPE receivers in the WiMAX and WLL (2.5 â 4)

GHz band.

Component Image

2.0 x 1.3 x 0.5 mm3 6-lead Ultra Thin Package

Note:

Package marking provides

65X

orientation and identification

â65â = Product Code

âXâ = Month Code

Pin Configuration

Features

ï·ï Low current consumption

ï·ï Adjustable bias current

ï·ï Simple matching network

ï·ï Broadband operation (2.5 â 4) GHz

ï·ï Low Noise Figure

ï·ï Low current consumption in Bypass Mode, <100 ïA

ï·ï Fully matched to 50 ohm in Bypass Mode

ï·ï High Linearity (LNA and Bypass Mode)

ï·ï Low profile package

Typical Performance

3.5 GHz; 3V, 10mA (Typ):

ï·ï 15.3 dB Gain

ï·ï 1.05 dB Noise Figure

ï·ï +5.7 dBm Input IP3

ï·ï -2.4 dBm Input Power at 1 dB gain compression

ï·ï 4.2 dB Insertion Loss in Bypass Mode

ï·ï 17 dBm IIP3 in Bypass Mode (Pin = -20 dBm)

ï·ï <100 ïA current consumption in Bypass mode

Pin 1 (Vbias)

Pin 6 (Vsd)

Pin 2 (RFin)

GND

Pin 5 (RFOut)

Pin 3 (Gnd)

Pin 4 (Vdd)

Applications

ï·ï Low noise amplifier for WiMAX, Wireless Local Loop.

ï·ï Other ultra low noise applications in the 2.5 â 4 GHz

band.

TOP VIEW

Simplified Schematic

VBias

Bias /

Attention: Observe precautions for

Control

handling electrostatic sensitive devices.

ESD Machine Model = 50 V

RF IN

ESD Human Body Model = 300 V

Refer to Avago Application Note A004R:

LNA

Electrostatic Discharge, Damage and Control.

6 VSD

RF OUT

Vdd

▷