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Coupling Matrix Synthesis Software Crack Tools

Coupling Matrix Synthesis Software Crack Tools 7,9/10 8502 reviews

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CMS - Filter & Coupling Matrix Synthesis Software

  • A tool tailored for RF/Microwave filter engineers, system designers and students

  • Gives an exact overview of main filter parameters in seconds without complex circuit models and modeling

  • Designed by filter engineers for filter engineers

Current CMS release: Ver 5.0

Guided Wave Technology's Coupling Matrix Synthesis (CMS) software facilitates synthesis of N+2 coupling matrices for Chebyshev bandpass filtering functions, with arbitrary finite-position transmission zeroes.

The CMS software allows placement of complextransmission zeroes, which opens up for group delay shaping.

Main features in Ver 1.0
filter orders up to 12
arbitrary placement of transmission zeroes
complex transmission zeroes - e.g. group delay shaping and analysis
extended parameter plotting options - e.g. mag/ phases of S11 and S21, group delay, table listing
s-parameter file (s2p) generation e.g. as input in system simulator
topology matrix definition of filter circuits - no topology limitations
advanced graph and marker functions - e.g. marker lines & mouse courser read-out
easily re-scalable axes
excellent overview - input and output parameters are viewed at the same time
saving and loading of designs
fast response
integrated manual
intuitive and very user friendly interface
Features added in Ver 2.0:
Check plot of synthesized characteristics, i.e. ability to compare design goal with actual obtained characteristic
The values in the coupling matrix may be edited and the corresponding S-parameter curves plotted.
Coupling matrix values may be displayed in different formats - e.g. bandwidths/ resonance frequencies
Features added in Ver 3.0 & 3.1:
Monte-Carlo Analysis on couplings
Extended Coupling Matrix editing functions by mouse right-click - e.g. sign change, coupling zeroing, etc.
Coupling Matrix export to text file for use in e.g. circuit simulators
Features added in Ver 4.0:
Circuit diagram representation of coupling matrix for better overview.
Loaded Q and stored energy plots for all resonators. Necessary tool for power handling analysis.
Features added in Ver 4.1
Limit lines/filter masks option for fast overview of filter performance
Error indicator showing quality of synthesized filter characteristics
Cursor read-out of stored energy and loaded Q's
Features added in Ver 4.2
Pass/Fail indicators for fast overview of filter compliance
Calculation of load mismatch influence on stored energies
Extended number of topologies in circuit diagram catalog
Features added in Ver 4.3
Deviation from linear phase plot added
Extended coupling matrix editing (e,g, 'slider' for stepless variation of couplings)
Import of coupling matrices
Plot window made scalable by dragging the mouse
Max number of points increased to 801
Features added in Ver 4.4
Max filter order increased from 12 to 14
Features added in Ver 5.0
Spice netlist generation for export of CMS designs into circuit simulators like ADS, Microwave Office, etc.
Extended Marker read-out functionality
The ability to edit coupling coefficients may be used for:

  • zeroing of very weak couplings in order to see if they can be omitted in a physical filter

  • change of coupling signs

  • investigation of other N+2 coupling matrices e.g. in the literature

  • analysis of where unintended couplings may arise from in a physical filter (often seen as extra notches or asymmetry in measured characteristics).

  • sensitivity analysis of critical couplings

Below: Monte-Carlo analysis on coupling coefficients.
Same variation applied on three different topologies

The software gives a fast and accurate overview of

  • Insertion loss

  • Isolation

  • Group delay

  • Phase

  • Coupling coefficients

  • Stored energy per resonator

versus

  • Filter order

  • Return loss

  • Resonator unloaded Q

  • Transmission zero positions

  • Topology

Stored energy plots for each resonator is 'a must' for power handling analysis


 CMS is intended for engineers, system designers, sales people, teachers, students and others who are engaged in design and analysis of microwave filters from both component and system point of views.
The software is intuitive and simple to operate and requires only basic knowledge about filters and filter terms.

The resonance characteristic of a single resonator in CMS is 100% symmetric and couplings are assumed constant versus frequency. The calculated characteristics are therefore most accurate for narrow band filters (< 10 %) with resonating elements which have symmetric characteristics.

Check out accuracy and utility with the following examples:

1:

Triplet dielectric resonator filter

2:

8 pole cross coupled combline filter

3:

Group delay shaping - introduction+advanced

4:

Topology investigation by Monte-Carlo Analysis

5:

Coupling Coefficient Signs - Change of


April 2010

6a:

Narrow-band Microwave Bandpass
Filter Design by Coupling Matrix Synthesis

6b:

The full MWJ article - original document

7:

Exporting Spice Netlist of CMS filter to circuit simulator

8:

X-couplings in filters - How do they work?

9:

Topology and Power Handling


September 2012

10a:

Simplified Power Handling Analysis of
Microwave Filters

10b:

The full MWJ article - original document


July 2018

11

Design of an Ultra-Wideband 'Brick Wall' Filter/pdf-pro-10-serial-key-list.html.

“My PhD students have been using GWT's coupling matrix software for the design of Asymmetric Band pass Filters. The ability to place arbitrary poles has been extremely useful.”

Ian Hunter
Professor and Director of Research
School of Electronic and Electrical Engineering
University of Leeds
UK

“The CMS filter software from Guided Wave Technology has become an invaluable tool in our filter development. Due to its intuitive and simple user interface the task of simulating and predicting filter performances is no longer restricted to a few specialists in our organization.
The speed and accuracy of this tool allows us to investigate more filter topologies than ever, thereby assuring that the best filter solution is always found for a given problem.
A highly recommendable tool”

Kristian Lotz
Group Leader, Filters & Combiners
Combilent A/S

Some customers:

Coupling Matrix Synthesis Software Crack Tools Tool

To find out more about the CMS software - take a look in the manual, or browse the keyword index for subjects.
Download a trial version locked to filter order 5 (size: 10 MB).

Current SW: Ver 5.0
IMPORTANT: Once installed - the demo version of CMS must be run as administrator!
(Right click on CMS icon and choose: 'Run as administrator')
OS requirements:Windows 7*,8* and 10*
Java must be installed on your system (32 bit JRE)

* Verify on your PC that the Demo version runs satisfactorily before purchasing the full version
The program must be run as Administrator (right click on CMS icon).

The full version of the CMS software supports filter orders up to 14 and will be locked to the hardware on your PC.
A single user license for the CMS tool costs US$ 1200.-
Discount and upgrade information.

Please contact us for purchasing instructions.

Oz Soft Genesis Pro: an ultimately powerful virtual synthesizer that you definitely want to download. Three oscillators, many types of synthesis, huge opportunities, monstrous performance and an incredibly huge number of settings. Looks like he can do almost anything.

Coupling Matrix Synthesis Software Crack Tools Windows 10

Independent developer Ammet Ozcan (Ummet Ozcan) introduced the virtual synthesizer Oz Soft Genesis Pro. The plugin unites many types of synthesis, and the developer himself calls the tool an “ultimate software synthesizer.”

Ammet claims to have used dozens and hundreds of software synthesizers, but constantly something was missing from them. For this reason, he decided to create his own synthesizer with a unique sound and a powerful engine that can create almost any signal. The developer describes Genesis Pro as “a digital version of his vision of sound synthesis.” No matter how difficult the description looks, the tool itself turned out to be quite simple to use.

Genesis Pro is designed so that its rich features do not create complexity in the work. The synthesizer interface is simple and familiar to most of these developments. Nevertheless, each knob hides a number of unique settings that are displayed on the central display when the knob is touched. This approach allows you to make the synthesizer convenient for both beginners and experienced users: beginners will have enough interaction with the main regulator, while advanced users can easily get under the hood to customize each element of the instrument. Ozkan notes that the synthesizer is not afraid of complex settings and offers to get into the settings as far as possible.

Coupling Matrix Synthesis Software Crack Tools Download

Oz Soft Genesis Pro is equipped with three main oscillators with different sounds. Each oscillator offers a huge palette of a wide variety of sounds and several types of synthesis: subtractive, sampling, frequency modulation, phase distortion, a combination of different forms of a sound wave. Different syntheses can be used simultaneously or independently, combining and mixing them together. Oscillators are connected with other sections of sound generation and processing – when changing the type of synthesis, the principles of operation of filters and envelopes also change.

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The filters are designed with an emphasis on analog processing and offer eight types of signal filtering as well as saturation capabilities. Finally, the synthesizer is equipped with a rich effects section, consisting of additional filters and customary treatments like distortion, overdrive, delay, reverb and others. According to the developer, the effects do not make the synthesizer sound, but serve only as a tool for final processing and polishing the sound, so the section works somewhat independently of the rest of the Genesis Pro.
Each control can control other elements of the synthesizer. The modulation section offers two low-frequency oscillators with different sound waves (the modulated parameter is marked by a luminous halo around the regulator). In addition, the synthesizer has four ADSR envelopes, a step modulator, and two source-to-destination modulators within the matrix. Users can link any components to each other to change the final sound.