Το Weiss DAC502 mkII ειναι ενας ψηφιοαναλογικος μετατροπεας και ενισχυτης ακουστικων,Roon Ready. Balanced and unbalanced outputs (XLR and RCA). Η βασικη διαφορα της mkII version ειναι το διαφορετικο, καλυτερο αναλογικο τμημα.
Black | Διαθεσιμότητα: 4-10 ημέρες | 12990.00€ | |
Silver | Διαθεσιμότητα: 4-10 ημέρες | 12990.00€ |
ΔΩΡΕΑΝ ΑΠΟΣΤΟΛΗ ΣΕ ΟΛΗ ΤΗΝ ΕΛΛΑΔΑ
Το Weiss DAC502 mkII ειναι ενας ψηφιοαναλογικος μετατροπεας και ενισχυτης ακουστικων,Roon Ready. Balanced and unbalanced outputs (XLR and RCA). Η βασικη διαφορα της mkII version ειναι το διαφορετικο, καλυτερο αναλογικο τμημα.
Εγγυηση Αντιπροσωπειας. Δυνατοτητα δοσεων.
The DAC501 / DAC502 are our new state of the art D/A Converters with an unprecedented level of sophistication and versatily.
The DAC502 uses a larger frame but else sports the same features as the DAC501. Except for an an additional 4 pin headphone socket at the back of the unit.
With the DAC50x we are creating a new paradigm for what used to be a black box device. A typical D/A Converter is a "set and forget" device. Not so with the DAC50x. It adds a number of interesting signal processing features and sports a variety of digital inputs. Balanced, unbalanced and headphone outputs are provided.
Weiss Engineering has a 30 year history in D/A Converter design. In that time span we have learned a thing or two about converter design. The DAC50x is the essence of our experiences.
DAC501 and DAC502 are Roon Ready.
The DAC501-4ch and DAC502-4ch versions are now also available. The "4ch" indicates that those units will be 4-channel playback capable besides the standard 2-channel operation.
In addition they sport the latest D/A Converter chip for a no-compromise performance.
Standard DAC501 and DAC502 units can be upgraded to the DAC501-4ch or DAC502-4ch version respectively.
Main Features
Mechanics
The DAC50x uses a stainless steel chassis with a solid 10 mm aluminium front plate.
Power Supply
A powerful non-switching power supply is used. All sensitive voltages have their own regulators which are separated between left and right channels. The result is an analog output free of “digital noise” and channel crosstalk. The power switch activates a semiconductor relay which only switches on or off at zero crossings of the mains voltage. This assures a glitch free power switching. The two mains transformers are toroidal types. Mains voltage selection is done automatically by measuring the mains voltage before power is applied to the rest of the electronics.
Synchronization
An internal high precision / low jitter clock generator is responsible for clocking the D/A converter section. The sampling frequency of that generator is fixed at about 195kHz. The input signals are converted to the 195kHz sampling frequency for optimal signal quality. This scheme also helps significantly in reducing any jitter related effects. All standard sampling frequencies up to 384 kHz plus DSD x64 and x128 are supported.
Digital Inputs
Accepted formats:
Signal Processing
The following DSP algorithms are currently implemented:
Analog Outputs
Discrete output stages for both line and headphone outputs are employed.
The output levels can be set in a coarse manner with 4 steps to adapt for the amplifier or headphone connected. The levels can be set independently for line and headphone outputs.
No sound degrading servo mechanisms are used.
Front panel controls
Back panel elements
IR Remote Control
Web Interface
Specifications
Power
Mains voltage: 100…120 V or 200…240 V, automatic voltage selection?
Fuse rating: 500 mA slow blow at 100…120 V, 250 mA slow blow at 200…240 V?
Power consumption: 25 VA max.?
Power consumption in standby: 2.2 VA max.
Size DAC501
Depth: 30 cm
Width: 18,8 cm
Height: 6,6 cm
Height with feet: 7,2 cm
Size DAC502
Depth: 30 cm
Width: 45 cm
Height: 6,6 cm
Height including feet: 7,4 cm
Available Color
Silver, Black
Digital Inputs
(1) XLR connector
(1) RCA connector
(1) TOSLINK connector (optical)
(1) USB type B connector
(1) RJ45 Ethernet connector
All inputs accept professional or consumer standard , i.e. accept AES/EBU or S/PDIF signals?. Sampling frequencies: 44.1 kHz, 48 kHz, 88.2 kHz, 96 kHz, 176.4 kHz or 192 kHz on any of the inputs. USB and Ethernet also support 352.8 kHz, 384 kHz, DSD64 and DSD128
Maximum input word-length: 24 / 32 Bits
Digital Outputs
none
Analog Outputs
(2) XLR connectors (hot on pin 2), short circuit proof output circuitry, DC coupled, low output impedance
(2) RCA connectors, short circuit proof output circuitry, DC coupled, low output impedance
(1) 6.3mm Jack socket for headphones, DC coupled, low output impedance
At the DAC502 only: (1) 4 pin XLR socket for headphones, DC coupled, low output impedance
The output level is selectable via the LCD menu or the web interface; four settings are provided as shown below:
XLR Output with a 0 dBFS sine wave input:
0 dB setting: 6.8 Vrms +18.9 dBu
-10 dB setting: 2.2 Vrms +8.9 dBu
-20 dB setting: 0.68 Vrms -1.1 dBu
-30 dB setting: 0.22 Vrms -11.1 dBu
These levels are achieved with a 0.0 dB setting for the level control on the LCD screen.
Suggested subsequent amplifier input impedances:
0 dB setting: 900 Ω or higher
-10 dB setting: 100 Ω or higher
-20 dB setting: 60 Ω or higher
-30 dB setting: 60 Ω or higher
RCA Output with a 0 dBFS sine wave input:
0 dB setting: 3.4 Vrms +12.9 dBu
-10 dB setting: ?1.1 Vrms +2.9 dBu
-20 dB setting: 0.34 Vrms -7.1 dBu
-30 dB setting: 0.11 Vrms -17.1 dBu
These levels are achieved with a 0.0 dB setting for the level control on the LCD screen.
Suggested subsequent amplifier input impedances:
-10 dB setting: 50 Ω or higher
-20 dB setting: 30 Ω or higher
-30 dB setting: 30 Ω or higher
Headphone Output:
(1) stereo 1/4-inch jack connector, DC coupled. The output level is selectable via the LCD menu; four level settings are provided as shown below:
Headphone output with a 0 dBFS sine wave input:
0 dB setting: 6.8 Vrms +18.9 dBu
-10 dB setting: ?2.2 Vrms +8.9 dBu
-20 dB setting: 0.68 Vrms -1.1 dBu
-30 dB setting: 0.22 Vrms -11.1 dBu
These levels are achieved with a 0.0 dB setting for the level control on the LCD screen.
Suggested headphone impedances:
0 dB setting: 200 Ω or higher
-10 dB setting: 30 Ω or higher
-20 dB setting: 10 Ω or higher
-30 dB setting: 4 Ω or higher
The same parameters apply to the 4 pin headphone output of the DAC502 as well.
Synchronization
Via the input signal in case of the AES/EBU and S/PDIF inputs. Via the internal oscillator in the case of USB and Ethernet inputs
D/A Converter chip
Over-sampling multi-bit sigma-delta converter
Two converters per audio channel
Measurements Main Output
The measurements below have been taken at the following conditions (unless noted otherwise): 1 kHz measurement frequency, maximum selectable output level, 192 kHz sampling frequency (Fs), 22 kHz measurement bandwidth, unweighted, 0 dBr equals the output level at 0 dBFS input.
Frequency Response:
Fs = 44.1 kHz, 0 Hz…20 kHz: within ±0.25 dB
Fs = 88.2 kHz, 0 Hz…20 kHz: within ±0.25 dB
Fs = 88.2 kHz, 0 Hz…40 kHz: within ±0.8 dB
Fs = 176.4 kHz, 0 Hz…20 kHz: within ±0.25 dB
Fs = 176.4 kHz, 0 Hz…40 kHz: within ±0.8 dB
Fs = 176.4 kHz, 0 Hz…80 kHz: within ±2.5 dB
Total Harmonic Distortion plus Noise (THD+N):
-111 dBr (0.0003 %) at −3 dBFS input level
-125 dBr (0.000056 %) at −40 dBFS input level
-125 dBr (0.000056 %) at −70 dBFS input level
Linearity:
At 0 dBFS to −120 dBFS input level: less than ±0.2 dB deviation from ideal
Spurious components (including harmonics):
At 0 dBFS input level, maximum output level, 1 kHz, all components at less than −110 dB
At 0 dBFS input level, maximum output level, 4 kHz, all components at less than −110 dB
Crosstalk:
Better than 110 dB, 20 Hz…20 kHz
Interchannel Phase Response:
±0.3° 20 Hz…20 kHz
±0.6° 20 Hz…80 kHz
Measurements Headphone Output
The measurements below have been taken at the following conditions (unless noted otherwise): 1 kHz measurement frequency, maximum selectable output level, 192 kHz sampling frequency (Fs), 22 kHz measurement bandwidth, unweighted, 0 dBr equals the output level at 0 dBFS input.
Frequency Response:
Fs = 44.1kHz, 0 Hz…20 kHz: within ±0.25 dB
Fs = 88.2kHz, 0 Hz…20 kHz: within ±0.25 dB
Fs = 88.2kHz, 0 Hz…40 kHz: within ±0.8 dB
Fs = 176.4 kHz, 0 Hz…20 kHz: within ±0.25 dB
Fs = 176.4 kHz, 0 Hz…40 kHz: within ±0.8 dB
Fs = 176.4 kHz, 0 Hz…80 kHz: within ±2.5 dB
Total Harmonic Distortion plus Noise (THD+N):
−112 dBr (0.00025 %) at −3 dBFS input level
−121 dBr (0.000089 %) at −40 dBFS input level
−121 dBr (0.000089 %) at −70 dBFS input level
Linearity:
At 0 dBFS to −120 dBFS input level: less than ±0.4 dB deviation from ideal
Spurious Components (including Harmonics):
At 0 dBFS input level, maximum output level, 100 kΩ load, 1 kHz, all components at less than −110 dB
At 0 dBFS input level, maximum output level, 600 Ω load, 1 kHz, all components at less than −110 dB
At 0 dBFS input level, maximum output level, 300 Ω load, 1 kHz, all components at less than −110 dB
At 0 dBFS input level, maximum output level, 100 kΩ load, 4 kHz, all components at less than −110 dB
At 0 dBFS input level, maximum output level, 600 Ω load, 4 kHz, all components at less than −110 dB
At 0 dBFS input level, maximum output level, 300 Ω load, 4 kHz, all components at less than −110 dB
Crosstalk:
Better than 105 dB, 20 Hz…20 kHz
Interchannel Phase Response:
±0.2° 20 Hz…20 kHz
±0.5° 20 Hz…80 kHz