Match n Freq 5.12.4
Pulse shaping filter program that finds the pole-zero locations of a transfer function, H(s), for a matched filter. H(s) equals a -desired- signal (Yout) divided by a given input signal (Yin). Both Yout and Yin are functions of frequency.
Group delay may also be calculated to compliment a given data set, thus, providing a flat group delay. Minimizing Intersymbol Interference in a read/write channel for disc drives by shaping and slimming an isolated readback pulse was the main objective for writing this program.
For more info, see Kost, R. and P. Brubaker; `Arbitrary equalization with simple LC structures`; IEEE Transactions on Magnetics, Nov. 1981, pp 3346-3348 or visit http://www.digitalcalculus.com/demo/matched-filter.html .
Another improved productivity example do to using Calculus (level) programming.
Version: 5.12.4
License: Shareware
Download: Match n Freq v. 5.12.4
This entry was posted
on Thursday, June 9th, 2011 at 12:30 pm and is filed under Education.
Match n Freq 5.12.3
Pulse shaping filter program that finds the pole-zero locations of a transfer function, H(s), for a matched filter. H(s) equals a -desired- signal (Yout) divided by a given input signal (Yin). Both Yout and Yin are functions of frequency.
Group delay may also be calculated to compliment a given data set, thus, providing a flat group delay. Minimizing Intersymbol Interference in a read/write channel for disc drives by shaping and slimming an isolated readback pulse was the main objective for writing this program.
For more info, see Kost, R. and P. Brubaker; `Arbitrary equalization with simple LC structures`; IEEE Transactions on Magnetics, Nov. 1981, pp 3346-3348 or visit http://www.digitalcalculus.com/demo/matched-filter.html .
Another improved productivity example do to using Calculus (level) programming.
Version: 5.12.3
License: Shareware
Download: Match n Freq v. 5.12.3
This entry was posted
on Wednesday, December 15th, 2010 at 8:14 am and is filed under Education.
Match n Freq 5.12
Pulse shaping filter program that finds the pole-zero locations of a transfer function, H(s), for a matched filter. H(s) equals a -desired- signal (Yout) divided by a given input signal (Yin). Both Yout and Yin are functions of frequency.
Group delay may also be calculated to compliment a given data set, thus, providing a flat group delay. Minimizing Intersymbol Interference in a read/write channel for disc drives by shaping and slimming an isolated readback pulse was the main objective for writing this program.
For more info, see Kost, R. and P. Brubaker; `Arbitrary equalization with simple LC structures`; IEEE Transactions on Magnetics, Nov. 1981, pp 3346-3348 or visit http://www.digitalcalculus.com/demo/matched-filter.html .
Another improved productivity example do to using Calculus (level) programming.
Version: 5.12
License: Shareware
Download: Match n Freq v. 5.12
This entry was posted
on Thursday, January 21st, 2010 at 1:41 pm and is filed under Education.
