This special edition of the Cadence® AWR® Design Magazine showcases the latest V15 release of the Cadence AWR Design Environment® platform, and highlights recent application notes and on-demand content.
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Knowing how to set the RLC circuit in parallel resonance, as we explain in this blog, is the key to good bandpass filter design.
WiFi printed circuit board technology from the beginning up to present day
You can optimize your signal chain to receive and transmit maximum peak envelope power with the right circuit simulator.
The use of a ceramic chip antenna vs. a PCB trace antenna depends on your individual design requirements and spatial constraints.
Selecting ferrite chokes and clamps to minimize RFI in your design is an important part of any fabrication process.
EMI and RFI can impede your circuit’s integrity and sour the capability of both your PDN and your anticipated signal strength.
Here are some simple circuits that can be designed up to GHz RF oscillators and how to include these oscillator circuits in your PCB layout.
Your car keys wirelessly unlock your car when you get near it. Your phone connects to Air Pods while you listen to Spotify at the gym or stream the latest hit TV show.
Understanding the various techniques needed for high speed and RF PCB routing requirements is the key to designing successful high speed printed circuit boards.
Analog multipliers and RF modulators aren’t the only applications available, but are some of the common uses for both multipliers and modulators.
As RF devices usually require higher order filters, using an RF bandpass filter simulation can greatly aid the design process.
Keep your signal integrity high: the right matching network will help ensure impedance matching in RF circuits.
Signal integrity is a big concern in RF boards. Suppress noise, clock skew, and manage impedance properly with RF PCB routing guidelines.
Create, integrate, and update RF/microwave circuits with digital/analog circuits in the Allegro PCB Designer environment.