Search found 3727 matches

by mediatechnology
Tue Jun 18, 2019 9:52 am
Forum: The Peabody Lounge
Topic: Justice: Gibson’s Bakery v. Oberlin College
Replies: 4
Views: 50

Re: Justice: Gibson’s Bakery v. Oberlin College

Hopefully this won't be appealed but it likely will.

IF I were the Plaintiff and I actually collected the $33 million settlement I would do the following:

1) Sign an extended lease on the store if I didn't own it.
2) Close the store.
3) Leave an empty abandoned storefront.
4) Retire.
by mediatechnology
Fri Jun 14, 2019 8:35 pm
Forum: The Peabody Lounge
Topic: Justice: Gibson’s Bakery v. Oberlin College
Replies: 4
Views: 50

Justice: Gibson’s Bakery v. Oberlin College

“People have no idea on how much stress this has had on our family and business for almost three years. But from the beginning, we just didn’t understand why they were punishing us for something we had nothing to do with.” https://legalinsurrection.com/2019/06/punitive-damage-verdict-against-oberli...
by mediatechnology
Fri Jun 14, 2019 5:10 pm
Forum: Build
Topic: Phono Transfer System Construction Information
Replies: 117
Views: 99208

Re: Phono Transfer System Construction Information

What termination values would your friend need for the MC input?

One of the tests I want to run on the DL-103 are the square wave response versus Rterm.
I'm currently using 100Ω.
by mediatechnology
Fri Jun 14, 2019 7:08 am
Forum: Build
Topic: Phono Transfer System Construction Information
Replies: 117
Views: 99208

Re: Phono Transfer System Construction Information

I need to document how to use the shield drive. It's different depending on whether a pot or A/B gain switch is used. I would put the MC preamp on the RIAA EQ "Phono" (Input 1) since it has a gain trim stage in the flat pre-EQ path to adjust channel balance. (Though the MC preamp board does have a t...
by mediatechnology
Thu Jun 13, 2019 6:10 pm
Forum: Build
Topic: Phono Transfer System Construction Information
Replies: 117
Views: 99208

Re: Phono Transfer System Construction Information

Firstly where to do the switching. As laid out the RIAA switching board expects one input to be from phono and the other as a return from the DAW. Temptation 1 is to put the two phonos into those inputs (as he will never use the inverse RIAA and if using the Behringer will always do RIAA in that). ...
by mediatechnology
Wed Jun 12, 2019 11:04 am
Forum: Pro Audio Design
Topic: A Discussion About True Power Summing for Stereo Compressors
Replies: 65
Views: 71722

Re: A Discussion About True Power Summing for Stereo Compressors

I think I figured out a simple way to do this. Put two 10KΩ linear pots ahead of the RMS detector inputs to control detector level. Hook the pots up in a potentiometric (3 wire) connection so one is reversed to the other. The wipers go to the coupling caps in series with the RMS input. The hot side ...
by mediatechnology
Wed Jun 12, 2019 10:15 am
Forum: Pro Audio Design
Topic: A Discussion About True Power Summing for Stereo Compressors
Replies: 65
Views: 71722

Re: A Discussion About True Power Summing for Stereo Compressors

Using the DI path to key the acoustic is a neat trick.
by mediatechnology
Tue Jun 11, 2019 6:56 pm
Forum: Pro Audio Design
Topic: A Discussion About True Power Summing for Stereo Compressors
Replies: 65
Views: 71722

Re: A Discussion About True Power Summing for Stereo Compressors

I think he's talking about splitting, for example, a Bass DI and Bass Mic into a two-channel comp. The source is not a stereo pair but a split instrument feed where one channel's sidechain keys the other based on a variable weight. @doug I think you could run one channel with lower input level so it...
by mediatechnology
Tue Jun 11, 2019 5:11 pm
Forum: Pro Audio Design
Topic: A Discussion About True Power Summing for Stereo Compressors
Replies: 65
Views: 71722

Re: A Discussion About True Power Summing for Stereo Compressors

Good question.
Since they're summing currents I wonder if a scaling current mirror to change the weight(s) would work.
Or a current-in current out VCA (218X) to vary the weight of one or more detectors before summing their currents.