All notable changes to this project will be documented in this file.
The format is based on Keep a Changelog and this project adheres to Semantic Versioning. This project defines the API as the set of high-level functions performed by the user. For example, 1.0.0 will have three capabilities: impedance testing, TS fitting of speaker data, and modeling of speaker performance using TS parameters. Any adition to removal of high-level capabilities would be a change to the API.
- Daily Debian Packaging and Windows AppVeyor builds (triggered by [build] in commit tag)
- Impedance tester works!
- More stable and accurate impedance fitting algorithm
- Fitting algorithm now uses frequency dependent Re and Le
- Updated to Qt5
- Lots of visual formatting & UI improvements
- Moved user data from AppDataLocation to DocumentsLocation
- none
- Speaker Modeler:
- "holding" plots so you can see more than one speaker's model at a time
- Impedance Fitter
- Includes frequency dependent Re and Le
- Exporting fit data to speaker modeler
- Speaker Modeler
- Input any T/S, Qs, and box parameters and it will calculate and plot theoretical impedance & SPL
- Can calculated B2 closed box and QB3-B4-C4 ported enclosure parameters from T/S
- Save/Load driver specification files
- Save/Load impedance magnitude and phase data as ZMA/ZDA files
- Impedance Tester
- can output a chirped sine wave from 20Hz to 20kHz to any available output device. (Turn down your speaker volume if you are testing this on amplified speakers, this is intended for circuit testing not for listening -- although you can listen to it.)
- Simultaneously records two-channel input data from any input device while chirped sine is played. Calculates and displays frequency components of one of the channels