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AMMP-6231 Datasheet, PDF (1/8 Pages) AVAGO TECHNOLOGIES LIMITED – Single Positive Supply Pin
AMMP-6231
18 to 32 GHz GaAs Low Noise Amplifier
Data Sheet
Description
Avago Technologies AMMP-6231 is a high gain, low-noise
amplifier that operates from 18 GHz to 32 GHz. It has a
3 dB noise figure, over 20 dB of gain and designed to
be an easy-to-use drop-in with any surface mount PCB
application. Popular applications include microwave ra-
dios, 802.16 and satellite VSAT or DBS receivers. The fully
integrated microwave circuit eliminated the complex tun-
ing and assembly processes typically required by hybrid
(discrete-FET) amplifiers. The surface mount package
allows elimination of “chip & wire” assembly for lower
cost. The device has 50 Ω input and output match and
is unconditionally stable. The MMIC has fully integrated
input and output DC blocking capacitors and bias choke.
The backside of the package is both RF and DC ground
that simplifies the assembly process. It is fabricated in
a PHEMT process to provide exceptional low noise and
gain performance.
Pin Connections (Top View)
1 23
8
4
Pin Function
1
2
Vdd
3
4
RFout
5
6
7
8
RFin
Features
• 5x5 mm Surface Mount Package
(5.0 x 5.0 x 1.25 mm)
• Integrated DC block and choke
• 50 Ω Input and Output Match
• Single Positive Supply Pin
• No Negative Gate Bias
Specifications (Vd=3.0V, Idd=65mA)
• Broadband RF from 18 to 32 GHz
• High Gain of 20dB
• Low Gain Flatness: ± 1dB
• Typical Noise Figure of 2.8 dB
• Typical OIP3 of 19dBm
Applications
• Microwave Radio systems
• Satellite VSAT, DBS Up/Down Link
• LMDS & Pt-Pt mmW Long Haul
• Broadband Wireless Access
(including 802.16 and 802.20 WiMax)
• WLL and MMDS loops
• Commercial grade military
765
Note: These devices are ESD sensitive. The following precautions are strongly recommended. Ensure
that an ESD approved carrier is used when units are transported from one destination to another. Per-
sonal grounding is to be worn at all times when handling these devices. The manufacturer assumes no
responsibilities for ESD damage due to improper storage and handling of these devices.