Difference between revisions of "LavryGold DA924"
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*Mixing | *Mixing | ||
*Mastering | *Mastering | ||
| − | === | + | ==Connections== |
| − | + | ===Analog outputs=== | |
The DA924 has electronically [[balanced]] XLR outputs which can be configured for [[unbalanced]] operation using internal jumpers. The unbalanced RCA (IEC) outputs output a lower level signal more suitable to consumer level equipment. The rear panel trimmers adjust both XLR and RCA output level with the following range with a peak digital input level of 0dBFS: | The DA924 has electronically [[balanced]] XLR outputs which can be configured for [[unbalanced]] operation using internal jumpers. The unbalanced RCA (IEC) outputs output a lower level signal more suitable to consumer level equipment. The rear panel trimmers adjust both XLR and RCA output level with the following range with a peak digital input level of 0dBFS: | ||
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The XLR output is Pin 2 "+" and Pin 3 "-" for normal signal [[polarity]] when the front panel Polarity setting (“INVERT” switch and LED indicator) is “Off.” Thus, for the DA924 with balanced or unbalanced XLR Pin 2 "+" connections, the signal polarity is "normal" or "non-inverted." Changing the front panel Polarity setting to “INVERT” (LED indicator illuminated) will result in inverted signal polarity for balanced and unbalanced Pin 2 "+" connections, as well as RCA (IEC) connections. | The XLR output is Pin 2 "+" and Pin 3 "-" for normal signal [[polarity]] when the front panel Polarity setting (“INVERT” switch and LED indicator) is “Off.” Thus, for the DA924 with balanced or unbalanced XLR Pin 2 "+" connections, the signal polarity is "normal" or "non-inverted." Changing the front panel Polarity setting to “INVERT” (LED indicator illuminated) will result in inverted signal polarity for balanced and unbalanced Pin 2 "+" connections, as well as RCA (IEC) connections. | ||
| − | + | ===Digital input=== | |
There are (3) stereo digital audio inputs on the rear panel of the DA924- (2) XLR/AES inputs which can accept either AES/EBU or SPDIF/IEC inputs. SPDIF/IEC sources can be connected using simple wired adapters or adapter cables (no transformer is required or recommended for cable lengths that conform to recommendations for coaxial 75 Ohm consumer digital audio cables). The IEC input can accept SPDIF (IEC 60958 type II) stereo digital audio inputs. | There are (3) stereo digital audio inputs on the rear panel of the DA924- (2) XLR/AES inputs which can accept either AES/EBU or SPDIF/IEC inputs. SPDIF/IEC sources can be connected using simple wired adapters or adapter cables (no transformer is required or recommended for cable lengths that conform to recommendations for coaxial 75 Ohm consumer digital audio cables). The IEC input can accept SPDIF (IEC 60958 type II) stereo digital audio inputs. | ||
| − | + | ===Synchronization=== | |
The DA924 always locks to the incoming digital audio signal and provides excellent immunity from jitter in the incoming signal degrading the DA conversion. For input signal with a sample frequency of 44.1 or 48 kHz, the Lavry exclusive CrystalLock™ mode provides the ultimate in jitter immunity from consumer sources such as a CD player. For digital audio inputs with 88.2 or 96kHz SF, an advanced three-stage PLL provides excellent jitter immunity. | The DA924 always locks to the incoming digital audio signal and provides excellent immunity from jitter in the incoming signal degrading the DA conversion. For input signal with a sample frequency of 44.1 or 48 kHz, the Lavry exclusive CrystalLock™ mode provides the ultimate in jitter immunity from consumer sources such as a CD player. For digital audio inputs with 88.2 or 96kHz SF, an advanced three-stage PLL provides excellent jitter immunity. | ||
| + | |||
| + | ===AC Power=== | ||
| + | The power selector of the DA924 must be set to the proper AC power voltage before AC power is applied. | ||
| + | |||
| + | See [[LavryGold voltage setting]] for details on the AC power voltage setting and accessing the fuses. | ||
==Operating tips== | ==Operating tips== | ||
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* The DA924 employs a linear power supply and generates a fair amount of heat in normal operation; so do not mount the unit in a manner that does not provide adequate ventilation. Ideally, no other equipment should be mounted one rack space above and below the unit. Factors such as the ambient temperature and range of temperature variation will affect how much space is needed to provide adequate ventilation. | * The DA924 employs a linear power supply and generates a fair amount of heat in normal operation; so do not mount the unit in a manner that does not provide adequate ventilation. Ideally, no other equipment should be mounted one rack space above and below the unit. Factors such as the ambient temperature and range of temperature variation will affect how much space is needed to provide adequate ventilation. | ||
===Software=== | ===Software=== | ||
| − | The current revision of software which is visible on the PROM on the Main board is: V1.1 | + | The current revision of software which is visible on the label of the PROM on the Main board is: V1.1 |
==Links== | ==Links== | ||
*[http://lavryengineering.com/pdfs/lavry-da924-manual.pdf DA924 Manual] | *[http://lavryengineering.com/pdfs/lavry-da924-manual.pdf DA924 Manual] | ||
Latest revision as of 15:07, 11 June 2014
Product Image
Product Description
The LavryGold DA924 is a high-end stereo DA converter intended primarily for Mixing and Mastering applications; with balanced professional level XLR outputs as well as unbalanced consumer level RCA (IEC) outputs. The output level is adjustable using rear panel trimmers. There are two AES/XLR and one SPDIF RCA (IEC) input that accept stereo digital audio inputs.
For more information on the LavryGold DA924 click here
For general information see digital to analog converter.
Features
- 96kHz, 88.2kHz, 48kHz, 44.1kHz sampling rates with available CrystalLock™
- 40-50kHz wide mode sampling rates
- Multi-bit architecture with 24 bits, non-sigma delta
- Increased low level accuracy
- Fast transient response - no oversampling at 88.1kHz and 96kHz, single stage interpolation at 44.1kHz and 48kHz
- Critical electronic components are thermally stabilized for consistently accurate conversion
- Automatic calibration internally adjusts to aging components, maintaining unit performance over time
- Digital jitter removal
- Professional and consumer input and outputs
- Balanced / unbalanced - internally jumper configurable XLR outputs
- Direct output coupling - no relay in signal path
- Absolute Polarity Inversion
- Automatic scanning of inputs
- Unequalled detail and performance
Applications
- Mixing
- Mastering
Connections
Analog outputs
The DA924 has electronically balanced XLR outputs which can be configured for unbalanced operation using internal jumpers. The unbalanced RCA (IEC) outputs output a lower level signal more suitable to consumer level equipment. The rear panel trimmers adjust both XLR and RCA output level with the following range with a peak digital input level of 0dBFS:
- When set for balanced operation, the XLR output can be adjusted from 12dBu to 22dBu.
- When set for un-balanced operation, the XLR output can be adjusted from 6dBu to 16dBu.
- The RCA (IEC) unbalanced output level is adjustable between +8dBu and -2.5dBu.
The XLR output is Pin 2 "+" and Pin 3 "-" for normal signal polarity when the front panel Polarity setting (“INVERT” switch and LED indicator) is “Off.” Thus, for the DA924 with balanced or unbalanced XLR Pin 2 "+" connections, the signal polarity is "normal" or "non-inverted." Changing the front panel Polarity setting to “INVERT” (LED indicator illuminated) will result in inverted signal polarity for balanced and unbalanced Pin 2 "+" connections, as well as RCA (IEC) connections.
Digital input
There are (3) stereo digital audio inputs on the rear panel of the DA924- (2) XLR/AES inputs which can accept either AES/EBU or SPDIF/IEC inputs. SPDIF/IEC sources can be connected using simple wired adapters or adapter cables (no transformer is required or recommended for cable lengths that conform to recommendations for coaxial 75 Ohm consumer digital audio cables). The IEC input can accept SPDIF (IEC 60958 type II) stereo digital audio inputs.
Synchronization
The DA924 always locks to the incoming digital audio signal and provides excellent immunity from jitter in the incoming signal degrading the DA conversion. For input signal with a sample frequency of 44.1 or 48 kHz, the Lavry exclusive CrystalLock™ mode provides the ultimate in jitter immunity from consumer sources such as a CD player. For digital audio inputs with 88.2 or 96kHz SF, an advanced three-stage PLL provides excellent jitter immunity.
AC Power
The power selector of the DA924 must be set to the proper AC power voltage before AC power is applied.
See LavryGold voltage setting for details on the AC power voltage setting and accessing the fuses.
Operating tips
- The output level of the DA924 is calibrated at the factory for +24dBu with a peak digital audio input level of 0dBFS. If your studio uses +18dBu = 0dBFS (which is the same as “-14dBFS = 0dBVU = +4dBu); you will need to decrease the output level using the rear panel trimmers. Similarly; consumer audio equipment may require the output level to be decrease from the factory setting to avoid clipping the input of the consumer level equipment when fed from the RCA (IEC) outputs. This is less likely as the RCA/IEC output level is lower than the XLR output by design, and most consumer audio equipment can accept a peak level of +8dBu (~+6dBV).
- The DA924 has a sophisticated self-calibration system that initializes every time the unit is powered. There are two stages of self-calibration; one which normally takes longer than the other. The first stage is initialization of the temperature-controlled “oven” which maintains the temperature of critical circuit elements. Once the “oven” temperature has stabilized, the second stage of calibration begins and ensures accurate conversion, even as components age. If the power is cycled after the DA924 has been in operation, the first stage is normally “skipped” or completes rapidly and only the second stage calibration ensues.
- The DA924 employs a linear power supply and generates a fair amount of heat in normal operation; so do not mount the unit in a manner that does not provide adequate ventilation. Ideally, no other equipment should be mounted one rack space above and below the unit. Factors such as the ambient temperature and range of temperature variation will affect how much space is needed to provide adequate ventilation.
Software
The current revision of software which is visible on the label of the PROM on the Main board is: V1.1