- Article
(32) -
Forum
(0) -
Blog
(0)
total search32 articles
| 2001-06-01 | Variational analysis using MMICAD This application note describes how to use MMICAD in determining the sensitivity of designs to variations in a circuit parameter. |
| 2001-06-01 | Using OrCAD for schematic capture from MMICAD This application note outlines the procedures for capturing a schematic from OrCAD and converting it to a MMICAD circuit file. |
| 2001-06-04 | Using MMICAD to synthesize single and coupled transmission lines This application note discusses how to use the MMICAD simulator for synthesis of single and coupled transmission lines. |
| 2001-05-31 | Using MMICAD to design lumped element filters This application note shows how easy it is for users of MMICAD to synthesize a broad range of filter designs. |
| 2001-05-31 | Using MMICAD to design lumped element diplexers This application note shows how FAISYN, MMICAD's filter synthesis module, can be used to help design a lumped element diplexer for a typical receive subsystem application. |
| 2001-05-31 | Using MMICAD to compute Cj(0) This application note discusses how to use MMICAD to compute for the junction capacitance at zero reverse bias voltage [Cj(0)] of a varactor diode. |
| 2001-05-31 | Using MMICAD to calculate minimum noise measure This application note discusses how to use MMICAD to compute for the minimum noise figure of amplifiers or transistors. |
| 2001-05-31 | Using MMICAD as a powerful general purpose mathematical solver (Example 3: Numerical integration, numerical differentiation & custom plots using MMICAD's PARAM mode) This application note discusses how to use MMICAD's parameter mode function for numerical Integration, numerical differentiation and custom plots. |
| 2001-05-31 | Using MMICAD as a powerful general purpose mathematical solver (Example 2: Curve fitting of data points by the least squares method) This application note describes how MMICAD can perform curve fitting of data points by the least squares method. |
| 2001-05-31 | Using MMICAD as a powerful general purpose mathematical solver (Example 1: Solving complex non-linear equations) This application note discusses how to use MMICAD in solving complex nonlinear equations. |
| 2001-05-31 | User-defined models in MMICAD This application note shows how easy it is for designers to incorporate their own device models in MMICAD. |
| 2001-06-01 | User defined outputs and optimization goals in MMICAD This application note shows how easy it is for designers to define customized outputs or optimization goals in MMICAD. |
| 2001-06-01 | Running MMICAD under Windows 3.1 This application note discusses how to operate MMICAD under Microsoft's Windows 3.1 environment. |
| 2001-05-31 | Parameter mode in MMICAD This application discusses MMICAD's ability to sweep a parameter other than frequency. |
| 2001-05-31 | Noise analysis in MMICAD This application note describes MMICAD's ability to analyze complex models incorporating internal noise that are created using a variety of special built-in noise elements, which can be used in networks. |
| 2001-05-31 | Monte Carlo yield analysis using MMICAD This application note discusses the criteria needed to accomplish the forecasting of the production yield of a simulated circuit using MMICAD. |
| 2001-06-01 | Design of voltage controlled oscillators with MMICAD This application note explains the usage of MMICAD for the design of voltage-controlled oscillators (VCOs). |
| 2001-05-31 | De-embedding using MMICAD This application note discusses the special feature of MMICAD to de-embed networks. |
| 2001-05-31 | Configuring your PC for optimal speed with MMICAD This application note is intended to assist the MMICAD user in configuring his computer to achieve optimal speed. |
| 2001-06-01 | Configuring OrCAD for schematic capture from MMICAD This application note describes how to configure the OrCAD schematic capture module to link with the MMICAD simulator. |
| 2001-06-01 | Conditional optimization using MMICAD This application note discusses the pitfalls and problems encountered by the designers when using CAD software to optimize circuits, and how MMICAD may resolve the problem. |
| 2001-06-01 | Computer aided testing with MMICAD [Series #4: Automated data acquisition from an automatic network analyzer (ANA) and programmable power supplies] This application note provides a step-by-step description of how to automate Computer Aided Testing (CAT) with MMICAD for acquisition of data. |
| 2001-06-01 | Computer aided testing with MMICAD [Series #2: Data acquisition from an automatic network analyzer (ANA)] This application note describes data acquisition control from a network analyzer using OPTOTEK MMICAD simulation tool. |
| 2001-06-01 | Computer aided testing with MMICAD (Series #3: Using MMICAD to control programmable power supplies & other control devices) This application note discusses how to use MMICAD to address control devices, such as programmable power supplies, attenuators, relays, switches and other control components. |
| 2001-06-01 | Computer aided testing with MMICAD (Series #1: Setup and configuration) This application note details the step-by-step configuration of MMICAD for Computer Aided Testing (CAT). |
| 2001-06-01 | Yield forecasting of active microwave devices This application note describes how to perform yield forecasting of active microwave devices using the FETPro MESFET simulator in conjunction with MMICAD. |
| 2001-05-31 | Using PARAMETER SWEEP to design a new class of varactor diode This application note shows how the built-in PARAMETER SWEEP function of MMICAD can be used to help design a varactor diode with linear tuning characteristics. |
| 2001-06-01 | Technology-level simulation of active microwave circuits This application note discusses the underlying basis of, and need for, technology-level simulation of active microwave circuits incorporating FETs. |
| 2001-06-01 | Maximizing your productivity This application note details several of the user-friendly aspects of MMICAD that can improve the effectiveness of a designer's "CAD time" with a PC. |
| 2001-06-04 | Designing Chebyshev band pass filters This application note is intended to demonstrate the options available in FAISYN that relate to the design and specification of bandpass filters, and to re-acquaint the user with some of the general characteristics of Chebyshev filters. |
Bloggers Say
See what engineers like you are posting on our pages.
All rights reserved.