Circuit Element Optimizer

XFdtd's Unique Full-Wave Matching Circuit Optimization Method

Matching network for a dual band antenna. Circuit elements for optimization connect copper pads.

Full-Wave Matching Circuit Optimization (FW-MCO) is performed by XF's Circuit Element Optimizer.  This capability selects the optimal component values for matching network layouts, printed circuit boards, antennas, filters, or other RF structures.  Since the FDTD simulation method is used, the multitude of electromagnetic phenomena affecting the RF structure and components is accounted for, such as the coupling between the driven antenna and nearby copper traces.

Goals and Component Values

The Circuit Element Optimizer characterizes the RF structure using full wave FDTD simulation, then selects optimal component values based on the following user defined goals:

  • Radiation efficiency

  • System efficiency

  • S-parameters

Matching network for a dual band antenna. Circuit elements for optimization connect copper pads.

Although traditional components include capacitors, inductors, and resistors, modern applications utilize more advanced components to achieve design requirements. The Circuit Element Optimizer supports the following types of components:

  • Fixed resistor, capacitor, inductor

  • Ideal resistor, capacitor, inductor

  • Realistic capacitor, inductor with user-defined equivalent series resistance

  • Standard *.s2p file definitions downloaded from component manufacturer

  • Passive tunable integrated circuits (PTIC or “tuners”) in the MDIF format of *.s2p files

Each component can take on a discrete range of values, representing the parts available from a component supplier.

Operating Modes

RF circuits are often used in different modes of operation, for example a mobile phone in free space versus one held in a hand. The Circuit Element Optimizer is able to recognize and consider multiple modes of operation when selecting component values. This results in tuner values that are optimized for individual modes and fixed L or C components that are best for all modes.


Additional Information



On-demand Webinar: Intro to XF's Circuit Element Optimizer

This webinar introduces the CEO capability and provides an example of how it is used. A GPS/Bluetooth antenna and an LTE antenna are used for the demonstration.

Video: Demonstration of Full-Wave Matching Circuit Optimization in XFdtd

Demonstration of Full-Wave Antenna Matching Circuit Optimization, including the antenna matching circuit design flow and CEO's analysis of a PCB layout.

Video: XFdtd and Optenni Lab Integration for Matching Circuit Design

This brief video shows the highlights of the XF and Optenni workflow integration using a GPS and Bluetooth mobile device antenna.