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AMMC-6222_15 Datasheet, PDF (1/12 Pages) AVAGO TECHNOLOGIES LIMITED – 7 to 21 GHz GaAs High Linearity Low Noise Amplifier
AMMC-6222
7 to 21 GHz GaAs High Linearity Low Noise Amplifier
Data Sheet
Description
Avago Technologies AMMC-6222 is an easy-to-use
broadband, high gain, high linearity Low Noise Amplifier
that operates from 7 GHz to 21GHz. The wide band and
unconditionally stable performance makes this MMIC
ideal as a primary or sub-sequential low noise block or
a transmitter or LO driver. The MMIC has 3 gain stages
and requires a 4V, 120mA power supply for optimal
performance. It has a selectable pin to switch between
low and high current, corresponding with low and
high output power and linearity. DC-block capacitors
are integrated at the input and output stages. Since
this MMIC covers several bands, it can reduce part
inventory and increase volume purchase options The
MMIC is fabricated using PHEMT technology to provide
exceptional low noise, gain and power performance. The
backside of the chip is both RF and DC ground which
helps simplify the assembly process and reduce assembly
related performance variations and cost.
Features
• 2000μm x 800μm Die Size
• Single Positive Bias Supply
• Selectable Output Power / Linearity
• No Negative Gate Bias
Specifications (Vdd = 4.0V, Idd = 120mA)
• RF Frequencies: 7 - 21 GHz
• High Output IP3: 29dBm
• High Small-Signal Gain: 25dB
• Typical Noise Figure: 2.4dB
• Input, Output Match: -10dB
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
Note:
1. This MMIC uses depletion mode pHEMT devices.
Chip Size: 800 μm x 2000μm (31.5 x 78.74 mils)
Chip Size Tolerance: ±10 μm (±0.4 mils)
Chip Thickness: 100 ± 10 μm (4 ±0.4 mils)
Pad Dimensions: 100 x 100 μm (4 x 4 mils)
Attention:
Observe precautions for
handling electrostatic
sensitive devices.
ESD Machine Model (60V)
ESD Human Body Model (150V)
Refer to Avago Application Note A004R:
Electrostatic Discharge Damage and Control