Datasheet DAC2 ADC Pro


Datasheet DAC2 ADC Pro


The HiFiBerry DAC2 ADC Pro is a high-resolution digital-to-analog and analog-to-digital converter for the Raspberry Pi (newer models with 40 pin GPIO connector). This is a special sound card for the Raspberry Pi, optimised for one specific use case: the best audio playback and recording quality. It is specifically designed for applications that do not only need playback, but also recording functionalities.


  • Stereo input and output
  • Dedicated 192kHz/24bit high-quality Burr-Brown DAC
  • Dedicated 192kHz/24bit high-quality Burr-Brown ADC
  • Hardware volume control for DAC and ADC. You can control the input and output parameters using “alsamixer” or any application that supports ALSA mixer controls.
  • Support for the HiFiBerry DSP add-on
  • Connects directly to the Raspberry Pi, no additional cables needed
  • No soldering, comes as a pre-fabricated kit. You just plug it onto the Raspberry Pi, it is conform to the Raspberry Pi hardware-attached-on-top (HAT) specification.
  • Compatible with all Raspberry Pi models with a 40-pin GPIO connector
  • Directly powered from the Raspberry Pi, no additional power supply
  • Three ultra-low-noise linear voltage regulators for optimal audio performance
  • Low-jitter dual-domain clock for optimised clock decoupling from the Raspberry Pi
  • Mic bias voltage for the use with electret microphones
  • No anti-aliasing filter in the input path for best recording bandwidth
  • HAT compliant, EEPROM for automatic configuration
  • Gold plated RCA output connectors
  • Comes with all components required to mount it. We include 4 M2.5x12mm spacers to fix the board onto the Raspberry Pi



Note that the actual board might look a bit different. Layout and components might change without further notice. We do not guarantee a specific PCB layout or specific components.

Connectors and Jumpers

1Analog input
2Analoge output
3Analog output
4I2S data (not for end users)
5Microphone bias jumper (you need to close both jumpers to provide a microphone bias voltage)
6Analog input

Balanced/un-balanced input connector J4

This 6-pin connector can be used to connect a balanced input (e.g. XLR or 6.5mm jacks). Pin 1 is on the left bottom corner.

in R-12in R+
in L+56in L-

Output connector P5

This connector can be used to connect to external components, e.g. an amplifier. The output is connected in parallel to the RCA jacks. Pin 1 is on the top left.



Maximum input voltage2.1Vrms4.2Vrms for balanced input
Maximum output voltage2.1Vrms
ADC signal-to-noise ratio110dbtypical
DAC signal-to-noise ratio112dbtypical
ADC THD+N-90dbtypical
DAC THD+N-93dbtypical
Frequency response10Hz-70kHz(-3dB)
Input gain-12db to 32dB
Power consumption<0.3W
Sample rates44.1-192kHz


Overlay for config.txt:

Mixer controls

ADC Left InputSelects the input for the left channelFor on-board (unbalanced) input use VINL1[SE]
for balanced input use {VIN1P, VIN1M}[DIFF]
ADC Right InputSelects the input for the right channelFor on-board (unbalanced) input use VINR1[SE]
for balanced input use {VIN2P, VIN2M}[DIFF]
ADC Mic BiasEnables/disables microphone bias voltageDefault: ‘Mic Bias off’, only set to ‘Mic Bias on’ if your microphone requires a bias voltage.
ADCConfigures the input gain of the analog inputUse low gains for line-level sources like CD players or similar and high gains for inputs like microphones
DigitalMain output volume controlThis will control the volume of the analog output

Example: Configure input for balanced input and maximum input gain (e.g. to connect a dynamic microphone)
amixer sset "ADC Mic Bias" "Mic Bias off"
amixer sset "ADC Left Input" "{VIN1P, VIN1M}[DIFF]"
amixer sset "ADC Right Input" "{VIN2P, VIN2M}[DIFF]"
amixer sset ADC 40db

Example: Configure input for onboard input with low gain (e.g. to connect a CD player or similar)
amixer sset "ADC Mic Bias" "Mic Bias off"
amixer sset "ADC Left Input" "VINL1[SE]"
amixer sset "ADC Right Input" "VINL1[SE]"
amixer sset ADC 40db

While there are lots of other ALSA mixer control, most of these access internals of the DAC and ADC chips on the board and
should not be changed.



Additional documentation

Last updated: April 16, 2024