![RME HDSP 9632 [83/87] Qs quad speed](/img/pdf.png)
RME HDSP 9632 [83/87] Qs quad speed
![RME HDSP 9632 [83/87] Qs quad speed](/views2/2009491/page83/bg53.png)
User's Guide HDSP System HDSP 9632 © RME
83
33.4 QS – Quad Speed
Due to the small number of available devices that use sample rates up to 192 kHz, but even
more due to a missing real world application (CD...), Quad Speed has had no broad success so
far. An implementation of the ADAT format as double S/MUX (S/MUX4) results in only two
channels per optical output. Devices using this method are few.
In earlier times the transmission of 192 kHz had not been possible via Single Wire, so once
again sample multiplexing was used: instead of two channels, one AES line transmits only one
half of a channel. A transmission of one channel requires two AES/EBU lines, stereo requires
even four. This transmission mode is being called Quad Wire in the professional studio world,
and is also known as S/MUX4 in connection with the ADAT format. The AES3 specification
does not mention Quad Wire.
The SPDIF (AES) output of the HDSP 9632 provides 192 kHz as Single Wire only.
33.5 AES/EBU - SPDIF
The most important electrical properties of 'AES' and 'SPDIF' can be seen in the table below.
AES/EBU is the professional balanced connection using XLR plugs. The standard is being set
by the Audio Engineering Society based on the AES3-1992. For the 'home user', SONY and
Philips have omitted the balanced connection and use either Phono plugs or optical cables
(TOSLINK). The format called S/P-DIF (SONY/Philips Digital Interface) is described by IEC
60958.
Type AES3-1992 IEC 60958
Connection XLR RCA / Optical
Mode Balanced Un-balanced
Impedance 110 Ohm 75 Ohm
Level 0.2 V up to 5 Vss 0.2 V up to 0.5 Vss
Clock accuracy not specified
I: ± 50ppm
II: 0,1%
III: Variable Pitch
Jitter < 0.025 UI (4.4 ns @ 44.1 kHz) not specified
Besides the electrical differences, both formats also have a slightly different setup. The two
formats are compatible in principle, because the audio information is stored in the same place in
the data stream. However, there are blocks of additional information, which are different for both
standards. In the table, the meaning of the first byte (#0) is shown for both formats. The first bit
already determines whether the following bits should be read as Professional or Consumer
information.
Byte Mode Bit 0 1 2 3 4 5 6 7
0 Pro P/C Audio? Emphasis Locked Sample Freq.
0 Con P/C Audio? Copy Emphasis Mode
It becomes obvious that the meaning of the following bits differs quite substantially between the
two formats. If a device like a common DAT recorder only has an SPDIF input, it usually under-
stands only this format. In most cases, it will switch off when being fed Professional-coded data.
The table shows that a Professional-coded signal would lead to malfunctions for copy prohibi-
tion and emphasis, if being read as Consumer-coded data.
Nowadays many devices with SPDIF input can handle Professional subcode. Devices with
AES3 input almost always accept Consumer SPDIF (passive cable adapter necessary).
Содержание
- Dsp system hdsp 9632 1
- Hammerfal 1
- User s guide 1
- Driver installation and operation windows 2
- General 2
- Connections and totalmix 3
- Driver installation and operation mac os x 3
- Technical reference 4
- General 5
- Hdsp 9632 5
- User s guide 5
- Brief description and characteristics 6
- Introduction 6
- Package contents 6
- System requirements 6
- External connectors 7
- Hardware connectors 7
- Hardware installation 7
- Internal connectors 8
- Accessories 9
- Warranty 9
- Appendix 10
- Ce fcc compliance 11
- Iso 9001 11
- Note on disposal 11
- Driver installation and operation windows 13
- Hdsp 9632 13
- User s guide 13
- Deinstalling the drivers 14
- Driver and firmware 14
- Driver installation 14
- Driver update 14
- Configuring the hdsp 9632 15
- Firmware update 15
- Settings dialog 15
- Settings dialog dds 18
- Clock modes synchronisation 19
- Operation and usage 21
- Playback 21
- Dvd playback ac 3 dts under mme 22
- Notes on wdm 23
- Multi client operation 24
- Digital recording 25
- Analog recording 26
- General 26
- Known problems 26
- Operation under asio 2 26
- Operation under gsif gigasampler interface 27
- Windows 2000 xp 27
- Digicheck 28
- Using more than one hammerfall dsp 28
- General 29
- Hotline troubleshooting 29
- Installation 30
- Channel routing asio at 96 khz 31
- Diagrams 31
- Channel routing wdm at 96 khz 32
- Driver installation and operation mac os x 33
- Hdsp 9632 33
- User s guide 33
- Driver and flash update 34
- Driver installation 34
- Driver update 34
- Flash update 34
- Configuring the hdsp 9632 35
- Settings dialog 35
- Settings dialog dds 37
- Clock modes synchronisation 38
- Mac os x faq 40
- Midi doesn t work 40
- Round about driver installation 40
- Pci card and pci slot compatibility 41
- Repairing disk permissions 41
- Supported sample rates 41
- Various information 41
- Hotline troubleshooting 42
- Diagram channel routing at 96 khz 43
- Connections and totalmix 45
- Hdsp 9632 45
- User s guide 45
- Analog connections 46
- Line inputs 46
- Headphones 47
- Line outputs 47
- Digital connections 48
- Word clock 50
- Word clock input and output optional word clock module 50
- Technical description and usage 51
- Cabling and termination 52
- Operation 52
- Overview 53
- Totalmix routing and monitoring 53
- The user interface 55
- Elements of a channel 56
- Tour de totalmix 56
- Mute und solo 58
- Submix view 58
- Presets 59
- The quick access panel 59
- Preferences 61
- The monitor panel 61
- Editing the names 62
- Hotkeys 63
- Menu options 64
- Level meter 65
- Elements of the matrix view 66
- Operation 66
- Overview 66
- Totalmix the matrix 66
- Advantages of the matrix 67
- Asio direct monitoring windows only 67
- Totalmix super features 67
- Copy routings to other channels 68
- Delete routings 68
- Selection and group based operation 68
- Recording a subgroup loopback 69
- Using external effects devices 70
- Mapping 71
- Overview 71
- Totalmix midi remote control 71
- Operation 72
- Simple midi control 73
- Loopback detection 74
- Hdsp 9632 75
- Technical reference 75
- User s guide 75
- Tech info 76
- Analog 77
- Technical specifications 77
- Digital inputs 78
- Digital outputs 78
- Digital 79
- Lock and synccheck 80
- Technical background 80
- Latency and monitoring 81
- Ds double speed 82
- Aes ebu spdif 83
- Qs quad speed 83
- Noise level in ds qs mode 84
- Steadyclock 84
- Block diagram hdsp 9632 85
- Diagrams 85
- Connector pinouts 86
- Overview channels expansion boards 87
Похожие устройства
- RCF C 5215-94 Руководство по эксплуатации
- Jedia JPA-1360B Руководство по эксплуатации
- IMAGE-LINE FL Studio 20 Producer Edition Руководство по эксплуатации
- DTS FOS 100 SOLO POWER FC Руководство по эксплуатации
- DTS FOS 100 SOLO POWER CT Руководство по эксплуатации
- DTS FOS 100 POWER FC Руководство по эксплуатации
- JBL PMB Pole Mount Bracket Руководство по эксплуатации
- JBL CONTROL 19 CST Руководство по эксплуатации
- JBL ASB6118 Руководство по эксплуатации
- K-ARRAY KK202K Руководство по эксплуатации
- K-ARRAY KK102 Руководство по эксплуатации
- K-ARRAY KAN200+ Руководство по эксплуатации
- K-ARRAY KJ50vb Руководство по эксплуатации
- K-ARRAY KA24 Руководство по эксплуатации
- Dsppa MP-8712 Руководство по эксплуатации
- DPA MMC4018 Руководство по эксплуатации
- CIOKS DC5 Link Руководство по эксплуатации
- CAMEO G Scan 80 LED Gobo Scanner 80W Руководство по эксплуатации
- CAMEO Scuba Руководство по эксплуатации
- CAMEO Flat PAR 1 RGBW IR Bk Руководство по эксплуатации