Tweet
I recently took in a DIY-RE Colour Palette 500 series module, one of many products that mate up with the variety of API-format ‘lunch box power supply units that might have API 550 EQ’s, Compressors, and a wide range of non-API modules on the market these days. DIY-RE is DIY Recording Equipment, which offers very nice quality modules in kit form that you can build up following their decent destructions to guide those who at least know how to solder and follow directions, and if lucky to get it done right, it should work.
This Colour Palette module has three slots on the PCB, which had a 15IPS module, a TM79 module and a DOA-RED25 module. The 15IPS module has a 50Hz 2-pole HP Filter with a nominal 3dB head bump at 60hz, and a stacked array of diodes ahead of the gain stage. It produces soft symmetrical clipping along with the head bump typical of 15IPS tape machines. The TM79 module is interesting, in that it has a pair of small bridging transformers 1:2 to 2:1 between gain stages, with a pair of MosFET clamps in series across the middle of the xfmrs. It clips asymmetrically, offering a much different harmonic structure when driven hard. The DOA-RED25 module has a discrete Op Amp module, same pinout as an API 2520 Discrete Op Amp on board, which when overdriven, yields hard clipping. So, this module is set up with three pots, one per module to dial in the amount of overdrive you want, followed by a gain makeup pot.
The gain makeup pot should be +/- 6dB, with a 12dB range. But, I find it instead only having a 10dB range, and while mid-position on it’s detented pot is Unity Gain, it instead has -6.5dB attenuation at full CCW and +3.5dB at full CW.
My client, who’s one of the guitarists on the Late Late Show on CBS, managed to mix up a pair of output xstrs on the discrete op amp, and a of resistors elsewhere, so easy fixes. I only got a chance to play with the module this past weekend to see just what it does.
Began with powering it up, connecting my bipolar 15V supplies, balanced in and balance out connectors to the 15 pin edge connector, all having EZ-Hook connections. After verifying no surprises, I fed it 400Hz 0dBu signal and saw output on the main module, before plugging in any of the ‘colour’ modules. One by one, each worked fine. I took screen shots of the unit under signal drive, first at 500hz, then at 100Hz, showing the Distortion Waveform with the Overdriven sine signal, as well as it’s harmonics on the spectrum analyzer.
Then, set up the Bode Plotter to run frequency response plots on the modules, first at unity, then under 2dB Overdrive, then at 3.5dB Overdrive. Of course you can really crank up the drive, but it doesn’t have the correct resistor values in the Gain makeup stage.
I'll have to add the schematics on the next post, as I've hit the limit on this post.
I did get some of the schematics, though not that for the RED-25 Discrete Op Amp. I might get around to drawing it up if I have enough time before my client comes by to pick it up.
This Colour Palette module has three slots on the PCB, which had a 15IPS module, a TM79 module and a DOA-RED25 module. The 15IPS module has a 50Hz 2-pole HP Filter with a nominal 3dB head bump at 60hz, and a stacked array of diodes ahead of the gain stage. It produces soft symmetrical clipping along with the head bump typical of 15IPS tape machines. The TM79 module is interesting, in that it has a pair of small bridging transformers 1:2 to 2:1 between gain stages, with a pair of MosFET clamps in series across the middle of the xfmrs. It clips asymmetrically, offering a much different harmonic structure when driven hard. The DOA-RED25 module has a discrete Op Amp module, same pinout as an API 2520 Discrete Op Amp on board, which when overdriven, yields hard clipping. So, this module is set up with three pots, one per module to dial in the amount of overdrive you want, followed by a gain makeup pot.
The gain makeup pot should be +/- 6dB, with a 12dB range. But, I find it instead only having a 10dB range, and while mid-position on it’s detented pot is Unity Gain, it instead has -6.5dB attenuation at full CCW and +3.5dB at full CW.
My client, who’s one of the guitarists on the Late Late Show on CBS, managed to mix up a pair of output xstrs on the discrete op amp, and a of resistors elsewhere, so easy fixes. I only got a chance to play with the module this past weekend to see just what it does.
Began with powering it up, connecting my bipolar 15V supplies, balanced in and balance out connectors to the 15 pin edge connector, all having EZ-Hook connections. After verifying no surprises, I fed it 400Hz 0dBu signal and saw output on the main module, before plugging in any of the ‘colour’ modules. One by one, each worked fine. I took screen shots of the unit under signal drive, first at 500hz, then at 100Hz, showing the Distortion Waveform with the Overdriven sine signal, as well as it’s harmonics on the spectrum analyzer.
Then, set up the Bode Plotter to run frequency response plots on the modules, first at unity, then under 2dB Overdrive, then at 3.5dB Overdrive. Of course you can really crank up the drive, but it doesn’t have the correct resistor values in the Gain makeup stage.
I'll have to add the schematics on the next post, as I've hit the limit on this post.
I did get some of the schematics, though not that for the RED-25 Discrete Op Amp. I might get around to drawing it up if I have enough time before my client comes by to pick it up.
This is where the linear thread view can hinder.
Comment