Bond Wires as Interconnect Technology

Accurate modeling of the bonding wires is essential to successfully utilize semiconductor bare dies and achieve a large scale of integration of modern microwave front ends. WIPL-D Microwave provides a complete design environment where electromagnetic and circuit simulation can be efficiently applied to examine…

The goal of a circuit-EM co-simulation is to alleviate the computational complexity decomposing the complete system into parts that need to be simulated using full-wave approach, and parts that would be modeled by predefined library components. The major benefit is that any antenna or…

Three models of filter will be designed and analyzed using WIPL-D powerful built in feature Filter Designer. Filter Designer is user-friendly, wizard-like GUI with straightforward two-stage filter. It is intended for automated design of lowpass, highpass, bandpass and bandstop filters of Chebyshev and Butterworth…

Design of various microwave circuits using semiconductor devices can be carried out utilizing WIPL-D Microwave. Many types of diodes, such as PIN and Schottky diodes, or transistors operating in a linear regime, can be simulated by inserting into a schematic a suitable equivalent circuit…

The analysis and simulation of a six-port receiver for 24 GHz QPSK signal usign WIPL-D Microwave design environment has been demonstrated. The set of simulation tools available within the program allows not only for the accurate and reliable design of the individual components comprising…

The accurate modeling of the effects occurring at high microwave frequencies is the key to successful design of a Wilkinson power combiner/divider. WIPL-D Microwave provides a complete environment required for a design of these circuits including circuit and electromagnetic co-simulation. Example of a design…