Copland DAC 215


The heart of the Copland DAc 215 is an excellent D/A converter with multiple S/PDIF inputs, PCM, and DSD capabilities using the ES9018 Reference 32-bit DAC in quad-mono configuration, 8 mono to 2 stereo configuration


Copland DAC 215

Copland DAC 215


The digital revolution has made music easily accessible.

Thanks to the convenience and impressive sound quality of computer sourced digital music files, many audiophiles consider their personal computer or laptop as their primary audio source.

Connected to a computer the Copland DAC 215 will process audio data of extremely high resolution and the playback quality will be defined mainly by the data itself.

The heart of the Copland DAC 215 is an excellent D/A converter with multiple S/PDIF inputs, PCM, and DSD capabilities using the ES9018 Reference 32-bit DAC in quad-mono configuration, 8 mono to 2 stereo configuration.

Combining four in-phase and four opposite-phase converters per channel, the statistical properties of the signals are taken to advantage; the signal power of the phases correlate and add-up in constructive addition, whereas the noise power of the phases are de-correlated, improving the signal to noise ratio of the resulting analogue waveform.

The class-A buffering technology of the analog filtering sections is borrowed from the highly acclaimed Copland CD-players and composed by discrete transistors producing a stunning sound quality with an unconstrained mobility and acceleration.

The DA215 incorporates an asynchronous USB input, tree S/PDIF digital inputs, an analogue input, two analogue outputs (fixed and variable) and a complete pre-amplifier with analog volume control and front panel headphone output featuring vacuum tube gain stages.

You can use the DAC215 for headphones playback.

However, you can also use it as a high-end pre-amplifier with volume control, using the amplifier RCA outputs.

The volume control and pre-amplifier functionality can be bypassed for pure DAC mode.

The DA215 USB input implementation is one of the most advanced available, featuring USB 2.0 PCM 24/32 bit data transfer to 384 kHz, including native DSD64 and high resolution DSD128.

The input is converted to i2s and it is connected directly to the DAC chip.

Once connected, the computer recognises the DAC and routes the digital audio data to it, bypassing the source device’s internal audio circuitry.

The asynchronous USB-B port connects to the computer’s USB-A port.

No power is taken from the computer.

The regulated power supply for the USB input section has its own winding of the power transformer and the noisy computer line is completely interrupted by the use of digital Isolators.

USB Driver for Windows (V.2.03)

Dedicated USB driver software is necessary to install on PC for Windows.

No drivers are required for Macs and Linux

Specifications Copland DAC 215

Copland DAC 215 Specifications

DAC Digital Inputs:
USB Audio: PCM 44.1~384K (24/32bit),
DSD 2.8~5.6MHz (64~128X)

Windows Vista /7 /8 /10   (32/64bit)

Mac-OS X and Linux with UAC2 without drivers

S/PDIF Input: 1 x COAX / 2 x Optical.
PCM 44.1~192K (32bit)

DAC Analogue Output:

RCA. 2.0 V rms. @ 0dBFS

Frequency response: 20Hz~20 kHz (+/-0.2dB)

SNR DAC > 120dB

THD < 0.004%

Head Amp:

Valves:  2 x ECC88 / 6DJ8 / 6922

Output Head Amp /  Headphones:   max. 8.5 V rms

Output impedance / Headphones:   5.0 Ω

Output impedance / Line out / RCA : 100 Ω

Frequency response: 20Hz~100 kHz (+/-0.5dB)
SNR: 90 dB
THD < 0.02%
Gain Head Amp: 10 dB
Power AC 110~120V or 220~240V
(50/60Hz) * Factory Settings
Power Consumption: 25W
Weight: 3.8Kg
Dimensions: 200 x 280 x 115 mm. W x D x H

Additional information


Black, Silver



Copland is a Danish audio company that was established in the mid-1980s by Olé Möller. Their main product line include both valve and solid-state amplifiers. ... The first products were the CT401 and CT501 amplifiers, which won praise for their build and sound quality. The company also introduced a Digital Room Correction (DRC) system, which uses time-domain based techniques to generate anti-reflection signals to counteract room resonances and cancellations. It is based on Dynaton's DDRC module

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