MAAMSS0067
Low Noise, Low Distortion Amplifier
MACOM’s MAAMSS0067 is a GaAs PHEMT MMIC amplifier in a lead-free 4 mm 20-lead PQFN package. The MMIC design is configured as a pair of cascode PHEMT amplifiers for broadband performance. It is designed for integration in a 75 ? push-pull, low distortion, amplifier circuit. The device is ideally suited for use in CATV, DBS, and HDTV applications where low noise figure and low distortion are required.
Product Specifications
- Part Number
- MAAMSS0067
- Description
- Low Noise, Low Distortion Amplifier
- Min Frequency(MHz)
- 50
- Max Frequency(MHz)
- 1000
- Gain(dB)
- 12.2
- Output P1dB(dBm)
- 24.00
- OIP3(dBm)
- 32.0
- Bias Current(mA)
- 190
- NF(dB)
- 3.3
- Package
- 4mm PQFN-20LD
- Package Category
- Plastic Surface Mount
- Rohs
- Yes
Features
- Low Distortion
- RoHS* Compliant Version of MAAMSS0003
- 260°C Reflow Compatible
- Halogen-Free “Green” Mold Compound
- 100% Matte Tin Plating over Copper
- Lead-Free 4 mm 20-Lead PQFN Package
- Single Positive Supply
- Push Pull Design
- Low Noise Figure
Applications
- Wired Broadband
Technical Resources
Datasheet
Application Notes
- S-Parameter S2P File Format Guide
- Known Good Die Delivery Specification
- Tape and Reel Packaging and Orientation for Surface Mount Components
- Tape and Reel Packaging for Surface Mount Components
- Surfacing Mounting Instructions - Footprint Guidelines
- Bonding, Handling, and Mounting Procedures for Chip Diode Devices
- CR-15 Package Handling and Mounting Procedure
- Bonding, Handling, and Mounting Procedures for Millimeterwave PHEMT MMICs
- Moisture Effects on the Soldering of Plastic Encapsulated Devices
- Surface Mounting Instructions for PQFN Packages
- An Examination of Recovery Time of an Integrated Limiter/LNA (IEEE Microwave Magazine - Mar 2004)
- ESD Protection of Broadband GaAs CATV and FTTx Amplifiers
- Ceramic Surface Mount Amplifiers
- GaAs MMIC Low Noise Amplifiers (SOIC-8 Platform)
- Electrical Characterizations of Packages for use with GaAs MMIC Amplifiers
- RF Small Signal Design Using Two-Port Parameters (supplied with the permission of Motorola)