CML Micro Design Services

Technical tutorials on a range of microwave and mm-wave design topics from the Design Services Team at CML Micro (formerly PRFI).

Ka-band PA Module using Low-Cost SMT Packaged GaN PAs

Ka-band PA Module using Low-Cost SMT Packaged GaN PAs
Noise Power Ratio (NPR) - What is it, How Can I Simulate it and How do I Measure it?

Noise Power Ratio (NPR) - What is it, How Can I Simulate it and How do I Measure it?
How to Measure Noise Power Ratio (NPR)

How to Measure Noise Power Ratio (NPR)
Automating IP3 Measurements

Automating IP3 Measurements
The Benefits of Thermal Imaging for Microwave Module Development

The Benefits of Thermal Imaging for Microwave Module Development
How to Measure IP3

How to Measure IP3
Automated Measurement and Evaluation of 6-bit Amplitude and Phase Control Modules

Automated Measurement and Evaluation of 6-bit Amplitude and Phase Control Modules
How to Package mmWave MMICs

How to Package mmWave MMICs
Optimising Supply Voltage in GaN PA Design

Optimising Supply Voltage in GaN PA Design
The Advantages of Star Mixers Compared to Quad Diode Rings as Double Balanced Microwave Mixers

The Advantages of Star Mixers Compared to Quad Diode Rings as Double Balanced Microwave Mixers
5G Modulation Simulation of 28GHz 5G PA in Keysight ADS

5G Modulation Simulation of 28GHz 5G PA in Keysight ADS
FEM simulation in Keysight ADS

FEM simulation in Keysight ADS
Technical Discussion on mmWave Packaging

Technical Discussion on mmWave Packaging
PRFI Overview

PRFI Overview
An SMT Packaged 4-Channel mm-Wave PA for 5G Applications

An SMT Packaged 4-Channel mm-Wave PA for 5G Applications
A fully-integrated 3.5GHz single-chip GaN Doherty PA for sub-6GHz 5G

A fully-integrated 3.5GHz single-chip GaN Doherty PA for sub-6GHz 5G
Dual channel SMT packaged PA for operation in Europe's 26GHz Pioneer Band for 5G

Dual channel SMT packaged PA for operation in Europe's 26GHz Pioneer Band for 5G
Power amplifier MMICs for mmWave 5G

Power amplifier MMICs for mmWave 5G
The Design and Evaluation of a Plastic Packaged Single-Chip FEM for 28GHz 5G

The Design and Evaluation of a Plastic Packaged Single-Chip FEM for 28GHz 5G
Cost-Effective Input Matched GaN Transistor for S-band Radar Applications

Cost-Effective Input Matched GaN Transistor for S-band Radar Applications
Design of a dual-band PA for mmWave 5G

Design of a dual-band PA for mmWave 5G
What technology developments are needed for millimetre-wave 5G?

What technology developments are needed for millimetre-wave 5G?
Mm-wave Components and Technologies for 5G Applications

Mm-wave Components and Technologies for 5G Applications
GaN PA Hints and Tips

GaN PA Hints and Tips
An X-band MMIC PA designed on a UMS GaN Process using Keysight ADS

An X-band MMIC PA designed on a UMS GaN Process using Keysight ADS
Technical Discussion - Custom MMIC Design

Technical Discussion - Custom MMIC Design
Technology Challenges and Emerging Trends for mm-wave 5G

Technology Challenges and Emerging Trends for mm-wave 5G
A 28GHz, 4-channel Phase Adjustable Power Amplifier IC for 5G front-ends

A 28GHz, 4-channel Phase Adjustable Power Amplifier IC for 5G front-ends
Understanding IP2

Understanding IP2
The Design of a Broadband MMIC Frequency Doubler

The Design of a Broadband MMIC Frequency Doubler