Thanks Bob,
here's another list:
https://www.d-filter.ece.uvic.ca/see especially for slides
https://www.d-filter.ece.uvic.ca/support-materials.html Chap. 1: Introduction to Digital Signal Processing
Chap. 1: Analog Filters and Applications
Chap. 1: Digital Filters and Applications
Chap. 3: Z Transform and Properties
Chap. 3: Z-Transform Inversion Techniques
Chap. 3: Spectral Representation of Discrete-Time Signals
Chap. 4: Properties of Discrete-Time Systems
Chap. 4: Characterization, Network Representation, and Analysis of Discrete-Time Systems
Chap. 4: Introduction to Time-Domain Analysis of Discrete-Time Systems
Chap. 4: Convolution Summation
Chap. 4: State-Space Representation of Discrete-Time Systems
Chap. 5: Transfer Function of Discrete-Time Systems
Chap. 5: Stability of Discrete-Time Systems
Chap. 5: Time-Domain Analysis of Discrete-Time Systems Using the Z Transform
Chap. 5: Frequency-Domain Analysis of Discrete-Time Systems
Chap. 5: Aliasing in Discrete-Time Systems
Chap. 5: Frequency Response of Digital Filters
Chap. 5: Transfer Functions for Digital Filters
Chap. 6: Fourier Transforms of Impulse Functions and Periodic Signals
Chap. 6: The Sampling Process: Poisson's Summation Formula, Impulse-Modulated Signals
Chap. 6: The Sampling Process: Sampling Theorem, Aliasing, Interrelations
Chap. 6: The Sampling Process: Processing of Continuous-Time Signals by Using Digital Filters
Chap. 8: Direct and Direct Canonic Realizations of Digital Filters
Chap. 8: State-Space, Lattice, Cascade, Parallel, and Transpose Realizations of Digital Filters
Chap. 9: Properties of Constant-Delay Nonrecursive (FIR) Filters
Chap. 9: Design of Nonrecursive (FIR) Filters by Using the Fourier Series Method
Chap. 9: Design of Nonrecursive (FIR) Filters by Using the Fourier Series Method: Design of Interpolators, Differentiators, and Integrators
Chap. 10: Approximations for Analog Filters: Butterworth, Chebyshev, Inverse-Chebyshev, Elliptic, and Bessel-Thomson Approximations
Chap. 10: Analog-Filter Transformations
Chap. 11: Design of Recursive (IIR) Filters: Invariant Impulse-Response Method, the Modified Invariant Impulse-Response Method, and the Matched-z Transformation Method
Chap. 11: Design of Recursive (IIR) Filters by Using the Bilinear Transformation Method
Chap. 12: Design of Recursive (IIR) Filters Satisfying Prescribed Specifications by Using the Bilinear Transformation Method
Chap. 15: Design of Nonrecursive (FIR) Filters by Using the Weighted-Chebyshev Method
Chap. 16: Design of Recursive (IIR) Filters by Using Optimization Methods: Newton Algorithm
Chap. 16: Design of Recursive (IIR) Filters by Using Optimization Methods: Quasi-Newton and Minimax Algorithms
Chap. 16: Design of Recursive (IIR) Filters by Using Optimization Methods: Recursive Filters and Equalizers
with solutions!
Fractional Delay Digital Filters
http://cdn.intechweb.org/pdfs/18566.pdfModern Analog Filter Analysis and Design
http://milas.spb.ru/~kmg/index.htmlhttp://milas.spb.ru/~kmg/files/literatu ... proach.pdfDesigning active analog filters in minutes
http://www.ti.com/lit/an/slyt549/slyt549.pdfBandstop filters and the Bainter topology
http://www.ti.com/lit/an/slyt613/slyt613.pdfHow to compare your circuit requirements to active-filter approximations
http://www.ti.com/lit/an/slyt681/slyt681.pdfActive Low-Pass Filter Design
http://www.ti.com/lit/an/sloa049b/sloa049b.pdfConverting Analog into Digital Filters - beis.de (English link)
https://www.beis.de/Elektronik/Filter/A ... gFilt.htmlfilter design workshop - Electrical and Computer Engineering ...
http://www.ece.uprm.edu/~domingo/teachi ... _170117.pdCourse Website
https://ocw.mit.edu/courses/mechanical- ... fall-2008/https://ocw.mit.edu/courses/mechanical- ... materials/https://ocw.mit.edu/courses/mechanical- ... design.pdfCourse Website:
https://web.stanford.edu/class/ee133/handouts/https://web.stanford.edu/class/ee133/ha ... okbook.pdfWebsite:
https://www.radio-electronics.com/info/ ... torial.phpWebsite
http://site.iugaza.edu.ps/aliafana/169/DSP LECTURES
Chapter 1 (Sampling Theorm)
Chapter 2 (Discrete-Time Signals and Systems) (Not Examined)
Chapter 3 (Z-Transform)
Chapter 4 (DTFS and DTFT)
Chapter 5 (Discrete Fourier Transform DFT)
Chapter 6 ( Fast Fourier Transform FFT)
Chapter X (Analog Filters) (DOWNLOAD)
Chapter 8 (Digital Filters)
Hardware project from England:
https://web.wpi.edu/Pubs/E-project/Avai ... 15-142325/This project comprised the development of a digital music synthesizer capable of performing subtractive synthesis with several stages of audio effects processing. The system was implemented on the Zedboard, a development board with a Xilinx Zynq System-on-Chip, a multifunctional device which features a dual-core ARM microprocessor and Field-Programmable Gate Array (FPGA) logic. The completed synthesizer was capable of producing a wide variety of musical tones, many aspects of which were completely controllable by the user. Overall system control was provided by real-time embedded software running on the ARM microprocessor. Waveform generation and synthesizer effects modules were designed in Verilog and implemented in custom logic using fixed-point digital signal processing techniques.
https://web.wpi.edu/Pubs/E-project/Avai ... esizer.pdfFor those of you that enable cookies and java-script:
https://vk.com/nonamesynthОфициальное сообщество поддержки проекта создания синтезатора.
Official community (forum) to support a project to create a (hardware) synthesizer
vk ist the Russian equivalent to facebook.
Quite a few posts are in English. Interesting glance into the Russian Synth scene,
which even in soviet days was very active. Electronic instruments were rather rare and
usually you could only get one if you had very good connections or were a state-approved
musician. So some people started to build there own one-off instruments from whatever
they could lay their hands on. Parts were traded all across across the red-empire
and a project would require years to complete.
So I was told by a Russian my age whom I met in Munich some years ago and then started looking
into things closer.
Nowadays there is a very active community analog / digital community that often come out
with amazing instruments. I guess we all know Dmitry Sches (Diversion, Thorn) who is from
Minsk / Belarus or may have heard of Polivoks, Aelita etc.
If you were interested:
http://www.ruskeys.net/eng/synths.phpSome of the old gear ist still functional and trades on the secondary market quite well.
There is a small company in Poland that is well known for selling refurbished analog
synths, it's called analogia.pl.
For current output:
http://www.electronicbeats.net/the-feed ... now-about/My favourite state-of-the-art Russian synth is:
https://somasynths.com/lyra-organismic-synthesizer/You all have a good time.
Regards
Phil