Hi, I am using T3-03 mixer and ADM-0126 as LO driver for LO of 1GHz.
It seems like the T3 mixer datasheets are mostly based on using the legacy .
Marki Microwave offers a variety of MMIC amplifiers for use in all areas of RF and microwave systems.
Everything you need to know about noise figure, sensitivity, and low-noise amplifier design.
Answers to frequently asked technical questions about Marki Microwave products and capabilities.
Marki Microwave supports multiple form factors including die, surface mount, and connectorized solutions for the entire RF block diagram from DC to sub-THz frequencies.
A common issue in microwave and RF systems is creating a power splitting network.
Design your next 2–18 GHz microwave receiver with confidence.
In this article we discuss amplifier figures of merit, and along the way you will hopefully develop an intuition for how to select an amplifier for your application based on a datasheet.
Spurious products can quickly overcrowd your output spectrum and destroy the dynamic range of your system if you aren’t careful.
Phase noise is critical to systems, like Electronic Warfare and 5G Communications, requiring precise frequency stability.
Marki Microwave supports multiple form factors including die, surface mount, and connectorized solutions for the entire RF block diagram from DC to sub-THz frequencies.
Marki Microwave provides the current product lifecycle (PLC) status and accompanying documentation for our components as well as recommended replacements where applicable.
Marki Microwave supports multiple form factors including die, surface mount, and connectorized solutions for the entire RF block diagram from DC to sub-THz frequencies.
Marki Microwave supports multiple form factors including die, surface mount, and connectorized solutions for the entire RF block diagram from DC to sub-THz frequencies.