Hardware/Parallelport/Audio ADC DAC
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== Usage == | == Usage == | ||
− | This board is used in the "[http://wiki.hevs.ch/fsi/index.php5/EMVs/AudioAmp Filiere Promotions for the EMVS]" Day, where the future students can build a | + | This board is used in the "[http://wiki.hevs.ch/fsi/index.php5/EMVs/AudioAmp Filiere Promotions for the EMVS]" Day, where the future students can build a Class-D Audio Amplifier. |
== Audio Amp Test == | == Audio Amp Test == |
Revision as of 16:01, 24 January 2014
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Audio ADC DAC board
The board bases on 2 different chips.
- ADC Chip is a BB PCM1804 full differential analog input 24-BIT, 192-kHz stereo A/D converter.
- DAC Chip is a BB PCM1793 24-BIT, 192kHz Stereo D/A converter.
Version | Photo | Schematics | Description |
---|---|---|---|
V1.0 | Mezza ADC DAC Schematic PDF | ADC & DAC parallelport board |
Both the ADC and DAC Chips are supplied by +5V. These power is generated in two steps from the +3.3V power supply from the FPGA-EBS. In the first step with a steup up from +3.3V to ~+5.5V and in a second step, for the DAC and the ADC separably, a VLDO to +5V.
Usage
This board is used in the "Filiere Promotions for the EMVS" Day, where the future students can build a Class-D Audio Amplifier.
Audio Amp Test
- Use FPGA-EBS v2.x
- Connect the AD-DA board via parallel cable
- Connect the Rotary Switch board via parallel cable
- Connect Mezzanine Audio Adapter board
- Power the FPGA via the Mezzanine connector
- Connect Step-Up with a coax cable
- Connect H-Bridge with the 1 Pin parallel cable
- Connect Step-Up with the H-bridge
- Connect H-Bridge with the Lowpass filter for the Loudspeaker
- Connect the Loudspeaker
- Power Step-up and H-Bridge with +12V - Gnd