Universal Slave Driver
User’s Guide
Version 5.0.1
Digidesign Inc.
3401-A Hillview Avenue
Palo Alto, CA 94304 USA
tel: 650·842·7900
fax: 650·842·7999
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Copyright
This User’s Guide is copyrighted ©2000 by Digidesign, a
division of Avid Technology, Inc. (hereafter “Digidesign”), with
all rights reserved. Under copyright laws, this manual may not
be duplicated in whole or in part without the written consent of
Digidesign.
DIGIDESIGN, AVID and PRO TOOLS are trademarks or
registered trademarks of Digidesign and/or Avid Technology,
Inc. All other trademarks are the property of their respective
owners.
All features and specifications subject to change without
notice.
PN 932707422-00 Rev A 5/00
contents
Chapter 1. Introduction
System Requirements
Compatibility Information
About This Guide
USD Synchronization Support
Chapter 2. Installing the USD
Connecting USD to a Computer
Connecting USD to Pro Tools
Connecting AC Power
Connecting Machines, Decks, and Other Devices
Software Installation
Getting Started
Updating USD Firmware
Configuring OMS
Troubleshooting
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
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. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Chapter 3. USD Hardware and Software Overview
USD Front Panel
USD Rear Panel
USD Setup Software
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
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. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Contents
iii
Chapter 4. Using the USD
Control Options
USD Controls in Pro Tools, USD Setup, and Front Panel
Sync Setup
Clock References
Positional References
Generating and Regenerating Time Code
Generating a Window Burn
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
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. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
Chapter 5. Additional Operational Information
Front Panel Generator/Parameter Controls
Managing and Selecting Video Inputs
Using Fader Start
Calibrating the USD Oscillator
Restoring Factory Settings
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
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Appendix A. Additional Synchronization Information
Appendix B. Technical Specs
Appendix C. Wiring Diagrams Pin Assignments
Index
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Universal Slave Driver
iv
chapter 1
Introduction
The Universal Slave Driver (USD) is a multipurpose synchronization device. It supports all major time code and clock reference standards used in audio, video, film,
and multimedia production.
USD with Pro Tools
With Pro Tools MIX/MIXplus and
Pro Tools 24 systems, the USD provides
near-sample-accurate lock to time code
through the DigiSerial Port connection.
System Requirements
Macintosh Pro Tools Systems
• Digidesign-qualified Macintosh computer
• 17-inch or larger color monitor
• A Pro Tools MIX/MIXplus or
Pro Tools 24 system
– or –
• A Pro Tools III system
Standalone Mode
The USD can also be used as a standalone
synchronization converter, time code generator, clock generator and time code character generator. Throughout this guide, the
term “standalone” refers to systems utiliz-
not
ing USD but
USD Setup
USD Setup is a remote control application
for the USD. USD Setup can be used with or
without Pro Tools on any supported Macintosh or Windows computer.
using Pro Tools.
✽
Serial port requirements vary depending on
the type of Pro Tools system. See “USD Serial
Port Requirements” on page 2 for details
Windows Pro Tools Systems
• Digidesign-qualified Windows NT com-
puter
• A Pro Tool MIX/MIXplus or Pro Tools 24
system
Chapter 1: Introduction
1
USD Setup Macintosh and Windows
USD Serial Port Requirements
USD Setup provides standalone software
control of the USD, and firmware updating
capabilities. USD Setup can be used with or
without Pro Tools for complete control of
all USD features. In order to use USD Setup,
you must have the following:
An available serial or Com port (Macin-
◆
tosh and Windows, respectively)
USD Setup is not available when the USD is
connected to a DigiSerial Port
Minimum Macintosh Requirements for
USD Setup
68K and Power Macintosh computers re-
◆
quire Mac OS version 7.5 or higher. Beige
G3 Macintosh computers must run OS 8.5
or higher.
• At least 2 MB of available RAM
• Virtual Memory must be turned off in
the Macintosh Memory Control Panel
• An available serial (modem or printer)
port, or equivalent USB converter. See
“USD Serial Port Requirements” on
page 2 for details.
Minimum Windows Requirements for
USD Setup
• Windows NT 4.0, or Windows 98
• A Pentium-I/90 MHz processor
• An available COM port. See “USD Serial
Port Requirements” on page 2 for details.
Pro Tools MIX/MIXplus and Pro Tools 24
Systems
◆
The USD must be connected to the DigiSerial Port on the Digidesign MIX or d24
card (if multiple, use the card in the lowest
slot).
USD with the G3 and G4
Under certain circumstances, for example
when running the USD Setup utility application, the USD must be connected to a
conventional serial port. Many MIDI devices, as well as Digidesign’s MachineControl™ option, also require connection to a
conventional serial port. Since Power Macintosh G3 and G4 computers do not contain a conventional serial port, where connection to a conventional Macintosh serial
port (modem or printer port) is called for in
this guide, you will need to utilize one of
the following adaptors:
• Stealth Serial Port, made by GeeTh-
ree.com. This adaptor supports firmware
updating of the USD.
• gPort Serial Adaptor, made by Griffin
Technology. This adaptor supports firm-
ware updating of the USD.
• USB Twin Serial Adaptor, model USA-
28x, made by Keyspan. This adaptor does
not support firmware updating of the
USD.
Universal Slave Driver
2
Pro Tools III Systems
The USD must be connected to the mo-
◆
dem or printer port, or equivalent serial
port adaptor
USD Setup
◆
USD Setup requires its own connection
from the USD to your computer for remote
control of the USD:
Macintosh
A serial port (modem or printer,
or equivalent serial port adapter) is required for USD Setup Macintosh.
USD Setup does not work if the USD is connected to a DigiSerial Port.
Windows
A COM port connection is required for USD Setup Windows. USD Setup
does not work if the USD is connected to a
DigiSerial port.
USD Standalone, without Pro Tools
If you are not using Pro Tools but using the
USD in standalone mode, no USD-to-CPU
connection is required unless you need to
do any of the following:
◆
Use the USD for Variable Speed Override
(VSO)
Configure Window burn parameters
◆
Control the USD with USD Setup
◆
If you do not connect USD to a CPU, you
will use the USD front panel to access and
edit parameters. (See “Control Options” on
page 27 for details.)
USD Standalone with Remote Control
For software remote control using the
USD Setup application, see “USD Setup”
on page 3.
USD Cables
USD Serial Cable
cluded to connect the USD to a Macintosh- or Windows-based Pro Tools
DigiSerial Port (Pro Tools MIX, MIXplus,
or Pro Tools 24 systems). This cable can
also be used to connect the USD to r a
Macintosh serial port or equivalent serial
port adaptor.
Windows
USD Setup on Windows requires
a standard 9-pin-to-25-pin modem cable to
connect the USD to a COM port on any
supported Windows computer. This cable
is available from Digidesign through your
Digidesign dealer, or from many computer
supply stores.
•A USD Serial cable is in-
Compatibility Information
Digidesign can only assure compatibility
and provide support for devices it has
tested and approved.
For a list of qualified computers, diskette
drives, SCSI accelerators, serial port convertors and hard drives, refer to the latest
Digidesign compatibility documents, available from Digidesign by fax or on the
Digidesign Web site.
✽
For a list of Digidesign’s contact informa-
tion, see the title page of this guide.
Chapter 1: Introduction
3
About This Guide
The following symbols are used to highlight important information:
This guide assumes you understand the basics of synchronization and time code,
know how to operate devices that send or
receive time code such as a video tape recorder, and how to connect your studio.
Refer to the documentation for your studio
hardware if necessary.
In addition, you should have an understanding of the time code requirements for
your particular project.
Conventions Used in This Guide
Digidesign guides use the following conventions to indicate menu choices and key
commands:
Convention Action
File > Save Session Choose Save Session
from the File menu
Control+N Hold down the Control
N
key and press the
Option-click Hold down the Option
key and click the mouse
button
Right-click (Windows) Click with the right
mouse button
key
✽
User Tips
most from your system.
Important Notices
✽
could affect your data or the performance of
your system.
✽
Cross References
in other Digidesign guides.
are helpful hints for getting the
include information that
point to related sections
USD Synchronization Support
Supported Positional Reference Sources
• LTC
• VITC
• Bi-Phase/Tach
• Internal Time Code Generator
• Serial Time Code (requires Digidesign’s
MachineControl option and Pro Tools
software version 5.0 or higher, and a
video reference signal)
Supported Clock Reference Sources
Universal Slave Driver
4
• Reference Video
• Composite Video Input
• Word Clock
• AES/EBU Null
• Pilot Tone
• Super Clock
• Internal Crystal
• Bi-phase/Tach
•LTC
Output and Generation
• Digidesign Super Clock (256x sample
clock)
• Word Clock (1x sample clock);
• AES/EBU null clock (AES “digital black”)
• VITC (if a video input is present)
•LTC
• MIDI Time Code (MTC)
Other Features
• Front panel controls and a large LED display of time code and parameters
• Integrated control of USD from Pro Tools
• Time Code Character Generator
• Fader start, provided through GPI output, for remote transport control from
select Pro Tools fader movement.
• USD Setup software for Macintosh and
Windows
• USD firmware that can be updated at any
time for future upgrades
Chapter 1: Introduction
5
Universal Slave Driver
6
chapter 2
Installing the USD
For USD with Pro Tools, installation includes the following steps:
• Connect the USD to your Pro Tools system
• Connect your studio
• Install and configure USD software
Complete installation instructions are provided for each of these steps throughout
this chapter.
For standalone USD systems, installation
instructions begin with “Connecting AC
Power” on page 10.
Make sure Pro Tools is already installed and
✽
operating correctly before installing the USD.
Connecting USD to a Computer
Pro Tools systems require a USD-to-computer connection, as explained beginning
in “Connecting USD to a Computer” on
page 7.
For standalone USD systems (without
Pro Tools), firmware updating and
USD Setup require a connection to a Mac-
intosh serial port or Windows COM port.
Firmware updating is explained in “Updating USD Firmware” on page 14.
In addition, USD Setup can be used for software remote control of all USD features.
USD Setup requirements are listed in “Software Installation” on page 13.
About the USD Serial Cable
The USD includes a 4 meter (approximately
12 foot) cable, designed to connect the
USD to a DigiSerial Port on a Macintosh or
Windows Pro Tools MIX/MIXplus or
Pro Tools 24 system, or to a Macintosh serial port (modem or printer).
For Windows NT systems, a standard 9-pin
to 25-pin modem cable is required to connect the USD to a Windows COM port in
order to use USD Setup. Contact your
Digidesign dealer if you need to acquire
one of these cables.
If you choose to use a longer cable, be sure
✽
it supports hardware handshaking. A schematic for these cables can be found in
Appendix C: Wiring Diagrams Pin Assignments
.
Chapter 2: Installing the USD
7
Pro Tools MIX/MIXplus or
Pro Tools 24 Systems
(Macintosh and Windows)
To connect the USD to a Macintosh or
Windows Pro Tools MIX/MIXplus or
Pro Tools 24 system:
1
Make sure the power is switched off for
both the USD and the computer.
2
Connect one end of the cable to the USD
port labelled Mac Serial (whether using a
Macintosh or a Windows computer).
3
Connect the other end of the cable to the
DigiSerial Port on your primary Pro Tools
MIX or d24 card (the Core card).
BI-PHASE / TACH / GPI
PC SERIAL
VIDEO REF
Mac Serial
IN
L
T
C
OUT
I
N
MAC SERIAL
VIDEO
MTC OUT
A
L
T
C
O
U
T
IN
A
E
E
S
S
O
I
OUT
U
N
T
WORD CLOCK
85-264VAC, 47-63HZ, 115 W
IN
9-PIN IN / ACC
OUT
SUPER CLOCK (256X)
9-PIN OUT
USD
CPU
USB Blue and White G3/G4 Example
■
Connect the USD Mac Serial port to the
DigiSerial port.
Connect MachineControl™ (optional)
■
to a GeeThree, Griffin, or Keyspan serial
port adaptor (see “USD Serial Port Requirements” on page 2).
If using MIDI, connect a MIDI interface or
HUI to a GeeThree or Griffin serial port
adaptor (see “USD Serial Port Requirements” on page 2).
DigiSerial Port General Info
Pro Tools MIX and d24 cards feature a
DigiSerial Port. Though this port is identical in appearance to the serial ports on your
CPU, it is designed to only be used for:
• the USD proprietary serial connection.
– or –
• a serial-to-9-pin cable in combination
with the MachineControl™ option for
Pro Tools. This should only be connected
to the DigiSerial Port when there is no
USD present in the system.
to
DigiSerial Port
Connecting USD to a DigiSerial Port
4
Restore power to the USD, and restart
your computer.
Universal Slave Driver
8
(Pro Tools
Audio Interface
cables)
▲
The DigiSerial Port should
not
be used for
connecting MIDI Interfaces or any other serial
device. Attempting to do so will adversely affect Pro Tools performance.
Rules for Using the DigiSerial Port for USD in
Expanded Pro Tools Systems
◆
The active DigiSerial Port will be on the
Digidesign MIX or d24 card connected to
the primary Pro Tools audio interface.
◆
If your system is a Pro Tools MIXplus,
connect your USD to the DigiSerial Port on
the first Pro Tools 24 MIX card (the bus
master card).
If you have a combination of
◆
Pro Tools 24 MIX and Pro Tools d24 cards,
use the DigiSerial Port on the first
Pro Tools MIX card.
◆
If you have more than one d24 card, and
are using only d24 cards (no MIX hardware), use the DigiSerial Port on the first
d24 card in your system.
Pro Tools III Systems
Pro Tools III systems do not have a DigiSerial Port, so a Macintosh modem or printer
port (or serial port adaptor) must be used
for the USD serial connection. (See “USD
Serial Port Requirements” on page 2.)
To connect a USD to Pro Tools III
(no DigiSerial Port):
1
Make sure the power is switched off for
both the USD and the computer.
2
Connect one end of the cable to the Mac
Serial port of the USD.
3
Connect the other end of the cable to either the modem or printer port (or serial
port adaptor) of your Macintosh.
4
Restore power to the USD, and restart
your computer.
5
Connect the rest of your equipment to
the USD as described in the following sections of this chapter.
6
Install USD Setup (see “Software Installa-
tion” on page 13).
USD Setup
USD Setup requires a serial connection
from the USD to a Macintosh or Windows
computer. (For compatibility information,
see “System Requirements” on page 1.)
To connect the USD to a Macintosh computer
without Pro Tools:
1
Make sure the power is switched off for
both the USD and the computer.
2
Connect the USD Mac Serial port to the
modem or printer port, or serial port adaptor, on your computer.
To connect the USD to a Windows computer
without Pro Tools:
1
Make sure there is a COM port available
and enabled (refer to your Windows NT
documentation for information on enabling COM ports, if necessary).
2
Make sure the power is switched off for
both the USD and the computer.
3
Connect the USD PC Serial port to an
available COM port.
▲
USD Setup will not control USD through the
DigiSerial port.
4
Restore power to the USD, and restart
your computer.
5
Connect the rest of your equipment to
the USD as described in the following sections of this chapter.
6
Install USD Setup (see “Software Installation” on page 13).
Chapter 2: Installing the USD 9
Standalone Mode
In standalone mode (when USD is not connected to Pro Tools), no computer or serial
connection is required except for
USD Setup and firmware updating. The
USD Setup software (included) can be used
to control the USD and to update its firmware, through a serial connection to a compatible Macintosh or Windows computer
as explained in “USD Setup” on page 9.
Connecting USD to
Pro Tools
The USD must be connected to Pro Tools as
the clock master.
To connect the USD to a compatible
Digidesign audio interface:
1
Connect the Super Clock Out of the USD
to the Super Clock In (or Slave Clock In) of
your master Digidesign audio interface.
Super Clock Outto DigiSerial Port
IN
L
BI-PHASE / TACH / GPI
78563412785634125/6
MAC SERIAL
PC SERIAL
VIDEO REF
ANALOG OUTPUT ANALOG INPUT AES/EBU OUTPUT AES/EBU INPUT
T
C
OUT
I
N
VIDEO
MTC OUT
A
L
T
C
O
U
T
7/8
IN
A
E
E
S
S
O
I
OUT
U
N
T
WORD CLOCK
1/2
5/6
1/2
3/4
7/8
3/4
SuperClock (Slave Clock) connection from the USD to
a single Pro Tools audio interface
9-PIN IN / ACC
85-264VAC, 47-63HZ, 115 W
IN
OUT
SUPER CLOCK (256X)
9-PIN OUT
Computer 1
Computer 2
8 CH Mode
2 x 4 CH Mode
S/PDIFINS/PDIF
SLAVE CLOCKINSLAVE CLOCK
OUT
OUT
2
If using more than one interface, connect
the Slave Clock output of your primary interface to the Slave Clock input of the second interface, and so on for each
additional Interface (but do not loop Slave
Clock from the last interface back to USD).
Super Clock Outto DigiSerial Port
BI-PHASE / TACH / GPI
PC SERIAL
78563412785634125/6
ANALOG OUTPUT ANALOG INPUT AES/EBU OUTPUT AES/EBU INPUT
78563412785634125/6
ANALOG OUTPUT ANALOG INPUT AES/EBU OUTPUT AES/EBU INPUT
78563412785634125/6
ANALOG OUTPUT ANALOG INPUT AES/EBU OUTPUT AES/EBU INPUT
IN
OUT
MAC SERIAL
VIDEO
VIDEO REF
L
L
A
T
T
E
C
C
S
O
I
I
U
N
N
T
MTC OUT
7/8
7/8
7/8
A
IN
E
S
O
OUT
U
T
WORD CLOCK
1/2
5/6
1/2
3/4
7/8
3/4
1/2
5/6
1/2
3/4
7/8
3/4
1/2
5/6
1/2
3/4
7/8
3/4
9-PIN IN / ACC
9-PIN OUT
8 CH Mode
2 x 4 CH Mode
8 CH Mode
2 x 4 CH Mode
8 CH Mode
2 x 4 CH Mode
Computer 1
Computer 2
S/PDIFINS/PDIF
Computer 1
Computer 2
S/PDIFINS/PDIF
Computer 1
Computer 2
S/PDIFINS/PDIF
IN
OUT
SUPER CLOCK (256X)
OUT
OUT
OUT
85-264VAC, 47-63HZ, 115 W
SLAVE CLOCKINSLAVE CLOCK
SLAVE CLOCKINSLAVE CLOCK
SLAVE CLOCKINSLAVE CLOCK
OUT
OUT
OUT
Super Clock (Slave Clock) “chain” connection from
the USD to multiple 888 24 I/O Audio Interfaces
Connecting AC Power
The USD AC connector accepts an IEC
Standard AC Power Cable. The USD is auto
power-selecting (100V to 240V) and will
automatically work with a standard modular cable to connect to AC power receptacles in any country.
To connect AC power to the USD:
■
Plug one end of a power cable into the
USD AC connector, and plug the other end
into a wall outlet or other power source.
Universal Slave Driver
10
Connecting Machines, Decks, and Other Devices
The following sections describe connections required for different applications.
Connecting a Video Source
Connecting LTC
The USD provides LTC input and output
connectors.
To Input LTC to the USD:
■
Connect the LTC signal from your machine, synchronizer or other source to the
USD LTC In port.
For the USD to resolve to house sync:
■
Connect the house sync/black burst sig-
nal to the USD Video Ref In port.
This is a non-terminated loop-through
connection. If the Video Ref Thru connector is not used, then you must terminate it
using the supplied 75-ohm precision terminator resistor
For the USD to resolve directly to an incoming
video signal:
■
Connect the video signal to the USD
Video In port. This port is self-terminated
inside the USD chassis.
Character Generator for Window Burn
The USD can also generate a Window burn
while using the same video source signal as
the video reference. The following is one
example setup for a window burn.
To use the USD Time Code Character
Generator to make a window burn:
1
Connect your video signal to the USD
Video Ref In port.
2
Use another BNC cable to connect the
USD Video Ref Thru port to the Video In
port.
3
Connect the USD Video Out port to
other video devices.
To output LTC from the USD:
■
Connect the USD LTC Out to your exter-
nal device(s).
Connecting Word Clock Devices
The USD has Word Clock input and output,
and both can be used simultaneously.
To input Word Clock to the USD:
■
Connect the Word Clock signal from
your DAT machine or other device to the
USD Word Clock In.
Word Clock device #1
Word Clock out
Word Clock in
BI-PHASE / TACH / GPI
IN
OUT
MAC SERIAL
PC SERIAL
VIDEO
VIDEO REF
MTC OUT
Word Clock device #2
A
L
L
T
C
I
N
IN
A
E
T
E
S
C
S
O
O
I
OUT
U
U
N
T
T
WORD CLOCK
Connecting the USD to Word Clock devices
To supply Word Clock from the USD:
■
Connect the USD Word Clock Out to the
device Word Clock input.
85-264VAC, 47-63HZ, 115 W
IN
9-PIN IN / ACC
OUT
SUPER CLOCK (256X)
9-PIN OUT
Word Clock out
Word Clock in
Chapter 2: Installing the USD 11
Keep in mind that Word Clock contains no
positional information; if you want devices
to play or record in sync, you’ll still need to
provide them with a positional reference.
☞
The USD can generate time code to provide
positional reference to other devices. See
“Generating and Regenerating Time Code” on
page 44 for more information.
Connecting AES/EBU Devices
To use AES/EBU clock reference:
Connect the device’s AES/EBU output to
■
the USD’s AES/EBU input.
AES out
BI-PHASE / TACH / GPI
IN
L
T
C
OUT
I
N
MAC SERIAL
PC SERIAL
VIDEO
VIDEO REF
MTC OUT
AES in
A
L
IN
A
E
T
E
S
C
S
O
O
I
OUT
U
U
N
T
T
WORD CLOCK
85-264VAC, 47-63HZ, 115 W
IN
9-PIN IN / ACC
OUT
SUPER CLOCK (256X)
9-PIN OUT
Connecting the USD to an AES/EBU device
To supply AES/EBU clock reference from the
USD:
■
Connect the USD AES/ABU output to the
AES/EBU input on a DAT machine or other
digital device.
Connecting MIDI Devices
The USD MTC Out port provides MTC derived from conversion (from LTC, VITC
and Bi-Phase) or MTC generation to synchronize MTC-compatible consoles, sequencers, lighting systems and other devices.
The MTC output from the MTC Out always
matches the time code address displayed
on the USD front panel.
OMS, Pro Tools, and the USD
When a CPU is connected to the USD Mac
Serial port, Pro Tools does not need any additional connections to facilitate MTC sync
or communication (it is handled through
the proprietary Mac Serial-to-DigiSerial
Port or modem/printer port connection).
With Pro Tools 4.1 and earlier, a MIDI Interface and OMS were required for
Pro Tools to recognize the USD as a “generic” synchronization device.
If you need to supply MTC from the USD to
another MTC-compatible device, connect
the device as described below.
To connect an MTC-compatible device to
receive MTC from USD:
Connect the USD MTC Out port to the
■
appropriate MIDI input on the device using
a standard MIDI cable.
L
T
C
O
U
T
A
IN
A
E
E
S
S
O
I
OUT
U
N
T
To MIDI Interface input
85-264VAC, 47-63HZ, 115 W
IN
9-PIN IN / ACC
OUT
SUPER CLOCK (256X)
WORD CLOCK
9-PIN OUT
MIDI Interface
MIDI/MTC outputs
MTC out
Digidesign Universal Slave Driver
IN
L
BI-PHASE / TACH / GPI
PC SERIAL
T
C
OUT
I
N
MAC SERIAL
VIDEO
VIDEO REF
MTC OUT
Connecting the USD MTC output to a MIDI Interface
input
Pro Tools and MTC
Pro Tools does not receive MTC from the
USD through its connection to the USD
Mac Serial or PC Serial port (see “Connecting USD to a Computer” on page 7). The
signal does not include standard MIDI time
code, but is instead a high-quality, proprietary time code signal designed for
Pro Tools. Therefore, a MIDI Interface is
only required with Pro Tools version 4.1 or
earlier.
Universal Slave Driver
12
Additional MIDI Requirements
Macintosh-based systems using Pro Tools
version 4.1 or earlier will also need to define an OMS device for the USD so that it
can provide MTC to other OMS-compatible
devices. See “Configuring OMS” on
page 15 for further instructions.
Software Installation
The following sections provide software installation instructions for different
Pro Tools systems and standalone operation.
☞
The location and availability of all parameters is explained in “Control Options” on
page 27.
Pro Tools MIX/MIXplus and
Pro Tools 24 Systems
■
Check to make sure you have already installed the most recent USD options for
your system, from your Pro Tools Installer
CD-ROM or the Digidesign Web site.
Optionally, USD Setup can be installed to
provide access to the complete set of USD
parameters, and provide remote control of
USD independent of Pro Tools.
Optionally, USD Setup can be installed to
provide access to the complete set of USD
parameters, and for remote control of USD
independent of Pro Tools.
USD Setup
To install USD Setup:
1
Make sure the USD is connected to your
computer as described in “Standalone
Mode” on page 10.
2
Insert the disk containing the latest USD
software, or navigate to its location if you
downloaded the update.
3
Launch the installer and follow the onscreen instructions.
Standalone
No software is required for standalone
mode except to update the USD firmware
or to use USD Setup software. See
“USD Setup” on page 13 for more information.
Firmware updates are made available by
Digidesign to add capabilities to your USD.
These updates can be downloaded from our
Web site or obtained from your Digidesign
dealer.
Pro Tools III Systems
Check to make sure you have already in-
■
stalled the most recent Pro Tools and USD
Setup software from your Pro Tools Installer CD-ROM.
Getting Started
This section includes software configuration instructions applicable to
Pro Tools/USD systems.
Chapter 2: Installing the USD
13
Software Configuration for
Pro Tools and USD
Software Configuration for
USD Setup
Pro Tools provides USD initialization, configuration and firmware update controls.
To configure USD for Pro Tools MIX, MIXplus
and Pro Tools 24 systems:
1 Start up your system beginning with
hard drives, then the USD, then
MIDI/other studio equipment and then the
CPU.
2 Launch Pro Tools.
3 Choose Setups > Peripherals, and click
Synchronization.
4 In the Synchronization Device pop-up,
select Universal Slave Driver.
5 Select DigiSerial Port for the (Synchroni-
zation) Port.
Once USD is selected as the Synchronization device, the USD Enable controls at the
bottom of the window become active.
To configure USD Setup:
1 Make sure the USD is connected to your
computer according to the instructions in
“Connecting USD to a Computer” on
page 7.
2 Launch USD Setup.
3 Choose Preferences > USD Setup Prefer-
ences.
4 If not already selected, choose the appro-
priate serial port for your USD-to-CPU connection.
5 Close the Preferences window.
Updating USD Firmware
The USD contains a flash EEPROM that allows you to update the firmware in your
unit at any time. As Digidesign continues
to create improvements for USD, you can
update your unit without having to send it
back to the factory or replace any chips.
Pro Tools Peripherals dialog, configured for the USD
on DIgiSerial Port
Universal Slave Driver
14
Pro Tools and USD Setup can download
up-to-date firmware to your USD.
▲ To acquire the latest firmware, please con-
tact Digidesign Customer Service, or visit the
Digidesign Web site.
Displaying the Current Firmware Version
To display the current USD firmware version
number from Pro Tools:
■ See the display in the USD Setup section
of the Peripherals > Synchronization window.
To display the current USD firmware version
using the front panel:
■ Current firmware version is shown dur-
ing power up in the time code LED display.
To display the current USD firmware version
in USD Setup:
■ The current firmware version is shown in
the USD Setup > Preferences window.
Updating Firmware
To update USD firmware using USD Setup:
1 Make sure the USD is connected to the
computer as explained in “USD Setup” on
page 9.
2 Choose Preferences > USD Preferences.
3 Click Update USD Firmware.
4 Follow the instructions on-screen to
complete the update.
To update USD firmware from Pro Tools:
1 Choose Setups > Peripherals and click
Synchronization.
2 Make sure you have already configured
the Synchronization Device and Port options for USD.
Pro Tools Peripherals window
3 Click Update USD Firmware. (If this op-
tion is not available, see “Software Configuration for Pro Tools and USD” on
page 14.)
4 Follow the instructions on-screen to
complete the update.
Configuring OMS
(Macintosh Only)
If you are not using the USD Mac Serial port
to connect USD to a DigiSerial Port or CPU
serial port, then you will need to define an
OMS device for Pro Tools so that Pro Tools
can receive MTC from the USD. This applies only to Pro Tools 4.1 and earlier.
An OMS device is not required for the USD
to output MTC.
▲ OMS should not be configured for any USD-
specific purposes whenever the USD Mac Serial port
Macintosh serial port, Doing so would duplicate (and adversely affect) timing information
between the USD and your computer already
provided through the Mac Serial port.
This section assumes you have a basic
working knowledge of OMS or FreeMIDI
and their operating conventions, including
connecting MIDI interfaces, creating documents, configuring drivers, and defining
and connecting MIDI devices. If you need
to review this information, refer to your
OMS or FreeMIDI documentation.
is connected to a DigiSerial Port or
Chapter 2: Installing the USD 15
OMS settings for the USD:
1 Create a new device for the USD.
2 Enable both Receives and Sends MIDI
Time Code.
3 Deselect Receives/Sends MIDI Beat
Clock, and Receive/Sends MIDI Machine
Control.
4 Deselect all Receive Channels for the
USD and click OK to close the New Device
window.
OMS definition for the USD
5 In the main OMS Setup window, connect
the USD device to the appropriate MIDI interface.
6 Since the USD does not have a MIDI in-
put port, OMS Setup does not require a
software connection coming from the
MIDI interface and going to the USD icon.
Click the arrowhead of the line directed towards the USD icon to deactivate this connection.
7 If necessary, select the appropriate MIDI
port for USD.
Troubleshooting
This section describes common synchronization problems and some possible solutions.
Status LEDs
The status LEDs (LOCKED and SPEED CAL)
on the USD Front Panel may help you isolate potential problems. See “11. Status
LEDs” on page 19 for details about these indicators and their meaning.
Use the Current TC field in Pro Tools Session
Setup Window as a Reference
The Current TC field in the Session Setup
Window indicates whether or not USD is
receiving positional reference. If this field
appears to be inactive when inputting time
code to the USD, check your hardware device settings, serial connection to your
computer, and your software settings.
Current TC
Current Time Code display
Universal Slave Driver16
chapter 3
USD Hardware and Software Overview
USD Front Panel
UNIVERSAL SLAVE DRIVER
CLOCK REFERENCE FRAME RATE
VIDEO
LTC
DIGITAL
PILOT
BI-PHASE/TACH
INTERNAL/VSO
44.1 kHz
48 kHz
PULL UP
PULL DOWN
SET
DOWN
1234 5 678 910 11
Figure 1. USD Front Panel
Controls and Displays
All USD local controls are on its front
panel; the rear panel is reserved for connectors only. This section identifies each front
panel switch and display.
For information on rear panel connectors
and setup, see Chapter 2: Installing the USD.
1. AC Mains Power Switch
Down ( | ), USD power is on; Up ( O ), power
is off.
POSITIONAL REFERENCE
LTC
VITC
BI-PHASE
RUN/STOP
UP
CLEAR
GENERATE
30
29.97
25
24
DF
LOCKED
SPEED CAL
REMOTE MODE
2. Clock Reference Switch
Selects the USD clock reference, with green
LEDs.
Clock References
VIDEO
LTC
DIGITAL
PILOT
BI PHASE/TACH
INTERNAL/VSO
3. Clock Reference LEDs
Green LEDs display the active clock reference, as selected with the Clock Reference
Switch.
Chapter 3: USD Hardware and Software Overview 17
4. Sample Rate LEDs
6. LED Time Code Display
Green LEDs show the current USD sample
rate.
The table below shows how the four Sample Rate LEDs indicate the current USD
sample rate.
USD LED Displays and Sample Rates
USD LEDs ON Sample Rate
44.1 kHz 44.100 kHz
48 kHz 48 kHz
44.1 kHz and
PULL UP
44.1 kHz and
PULL DOWN
48 kHz and
PULL UP
48 kHz and
PULL DOWN
44.144kHz
44.056kHz
48.048 kHZ
47.952 kHz
PAL format and PULL UP/DOWN
The USD Pull Up and Pull Down features
are not designed to perform conversions
between 24 fps and 25 fps.
This 7-segment, multifunction LED is the
USD time code and parameter display.
Time Code The current positional refer-
ence (internal or external), is displayed in
hours:minutes:seconds:frames. Decimal
points indicate additional time code information:
• Odd/even field distinction is indicated
using a decimal point to the right of the
frames display. A lit decimal point to the
right of frames indicates an even-numbered field; no decimal point indicates
odd-numbered.
• When the USD is in Auto Switch
LTC/VITC mode, the decimal point to
the right of “minutes” illuminates.
Parameters and Values When configuring
the USD with the Set, Run/Stop and other
parameter controls, the LED display shows
parameter names, values, and other data.
☞ For a table identifying each LED abbrevia-
tion and function, see “Parameters” on
page 55.
7. Positional Reference Switch
5. Set, Down, Up, Run/Stop+Clear Generator/Parameter Controls
These four momentary switches provide direct access to many USD functions, including time code generator settings,
PAL/NTSC selection, sample rate and more.
The LED display shows the current mode,
or currently selected parameter or setting.
Universal Slave Driver18
Selects the USD positional reference.
Choices include:
LTC
VITC
Auto Switch LTC/VITC
BI PHASE
GENERATE
8. Positional Reference LEDs
Yellow LEDs display the active positional
reference.
In Auto Switch LTC/VITC mode, both the
LTC and VITC LEDs light while the USD
determines which source it will use. Either
the LTC or the VITC LED will remain lit to
indicate the chosen positional reference.
9. Frame Rate Switch
Selects the time code frame rate and format
(drop-frame or non drop-frame). The active
choice is displayed by the Frame Rate LEDs.
10. Frame Rate LEDs
Display the current USD frame rate.
Frame Rates 30, 29.97, 25, or 24 fps are in-
dicated by four green LEDs
Drop/Non-drop Format is indicated by a
single orange LED labelled DF (a lit DF LED
indicates drop frame, unlit indicated nondrop frame).
11. Status LEDs
Show the current state of the USD in relation to clock references. Indicators include:
Locked This red LED lights solid when the
USD is locked to the selected clock reference. LOCKED flashes if the selected clock
reference source is missing or out of lockable frequency range.
Speed Cal (Speed Calibration) This yellow
LED indicates when all output clocks are at
a frequency that corresponds with the chosen sample rate. Speed Cal flashes when-
ever there is a mismatch between the chosen sample rate and the actual output
sample rate.
For example, if the Clock Reference is set to
LTC, and being fed by LTC from an analog
tape that is running somewhat off-speed,
this indicator will flash quickly (if too fast)
or slowly (if too slow). The Speed Calibration LED will be lit steadily only if the output clock (remember, USD is generating an
output clock from incoming LTC) is within
±0.025% (250 parts per million) of the chosen sample rate. If the speed is greater than
+0.025%, the indicator will flash quickly; if
the speed is less than –0.025%, the indicator will flash slowly.
Relatively new professional ATRs should be
able to play back with a speed deviation of
less than –0.025%. Some ATRs, even when
calibrated properly, may not run accurately
enough to allow the Speed Calibration to
remain lit without flashing.
The Speed Calibration LED compares actual output sample rate to desired sample
rate. This LED does not reflect the speed of
motion of the chosen Positional Reference.
However, it would bear a relationship to
the Positional Reference if both Positional
Reference and Clock Reference were set to
LTC.
Remote Mode This green LED lights when
the USD is set to Remote-Only /Front Panel
Lockout Mode. For more information see
the section “About Remote-Only Mode” on
page 29.
Chapter 3: USD Hardware and Software Overview 19
USD Rear Panel
BI-PHASE / TACH / GPI / PILOT
PC SERIAL
VIDEO REF
MAC SERIAL
INTERNALLY
IN
TERMINATED
OUT
VIDEO
MTC OUT
L
L
T
T
C
C
O
I
U
N
T
A
A
E
S
I
N
IN
E
S
O
OUT
U
T
WORD CLOCK
9-PIN IN / ACC
9-PIN OUT
IN
OUT
SUPER CLOCK (256X)
85-264VAC, 47-63HZ, 115 W
12 345 678 9 10 11 1213141516171819
Figure 2. USD Rear Panel
1. Bi-Phase/Tach/GPI/Pilot port
With a properly wired cable, this serves as
accessory port inputs for Bi-Phase, Tach,
and Pilot signals. This connector is also
used for GPI input, output (including Fader
Start), and thru signals.
• Connect a 75-ohm terminator (included
with the USD) to the unused loopthrough connector (Video Reference
Thru on the back panel)
– or –
• Ensure that another, terminated, video
device is fed from the loop-through con-
Connector: Female DB-25
☞ Refer to Appendix C: Wiring Diagrams Pin
Assignments
for wiring information and other
specifications for this port.
nector.
Connector: Female BNC
4. Video Reference Thru
A parallel, unbuffered connection output
2. PC Serial port
A bidirectional (in/out) port is designed for
use exclusively with a PC-compatible host
computer.
Connector: Female DB-25
for any video source connected to the
Video Reference In port; allows black burst
or other video reference to be passed to another device. Continues to output whatever signal is present at the Video Reference
In port, regardless of whether or not the
USD is powered up.
3. Video Reference In
Receives a signal from an NTSC/PAL video
source, such as a black burst (house sync)
generator or a standard video signal, for
clock reference and window burn purposes.
Connector: Female BNC
▲ If the USD is the last device in the video
sync chain, a BNC Terminating Plug (supplied)
must be attached to this connector.
This jack is configured as an un-terminated
loop-through. Therefore, you must either:
Universal Slave Driver20
5. Mac Serial Port
A bidirectional (in/out) port designed for
use exclusively with the DigiSerial Port
found on all Pro Tools MIX and d24 cards,
or to a modem/printer port on a compatible Macintosh host computer.
Connector: Female mini DIN-8 (8-pin)
6. Video In
Receives a signal from an NTSC/PAL video
source for clock or VITC positional reference input, or for generating a window
burn. This connector is internally terminated at 75 ohms.
generated in Generate mode, in which case
MTC output follows generator run/stop.
Intended to supply MTC from the USD to
external sequencers or other MIDI devices.
Connector: Female standard, DIN 5-pin
9. LTC In
Receives a Linear Time Code (LTC) source,
balanced or unbalanced analog, for clock
and positional reference. This port is often
used to receive LTC from an audio track on
an external deck or the address track of a
VTR.
Connector: Female XLR-style 3-pin
Connector: Female BNC
7. Video Out
If the Positional Reference is set to Generate and the Clock Reference is set to one of
the two video inputs, this will output a
copy of the video signal appearing at the
Video Reference input. Under all other
combinations of Positional and Clock Reference settings, this will output a copy of
the video signal appearing at the Video In
input.
In either case, this output might additionally carry VITC and/or Window Burn information if those features are enabled.
Connector: Female BNC
8. MTC Out
Outputs MIDI Time Code (MTC), only. No
other MIDI data appears at this output.
MTC output can be regenerated while the
USD is locked to any supported positional
reference and clock reference, or internally
(Pin 2 “+” or “hot,” Pin 3 “–” or “cold”)
10. LTC Out
Outputs linear time code, in balanced or
unbalanced analog audio format.
Connector: Male XLR-style 3-pin
(Pin 2 “+” or “hot,” Pin 3 “–” or “cold”)
When the LTC Out port is connected in
unbalanced mode, Pin 3 must be
grounded. See Appendix C: Wiring Diagrams
Pin Assignments for wiring details.
11. AES/EBU In
Receives an AES/EBU digital audio signal,
for clock reference purposes only. The USD
utilizes only the signal's clock information,
not the audio information. If digital audio
information is present at this input, it will
be ignored and not passed through to the
AES/EBU digital output connector.
Connector: Female XLR-style 3-pin
(Pin 2 “+” or “hot,” Pin 3 “–” or “cold”)
Chapter 3: USD Hardware and Software Overview 21
12. AES/EBU Out
18. Super Clock Out
Outputs a silent (all bits OFF) AES/EBU audio signal whose sample rate exactly
matches the USD Word Clock BNC output.
Connector: Male XLR-style 3-pin
(Pin 2 “+” or “hot,” Pin 3 “–” or “cold”)
13. Word Clock In
Receives (1x sample rate) Word Clock, for
clock reference purposes only. Often used
with external digital consoles and digital
tape machines.
Connector: Female BNC
14. Word Clock Out
Outputs 1x sample rate Word Clock information, for clock reference purposes only.
Can be generated internally.
Connector: Female BNC
15. 9-pin In/Acc
This port is not active.
16. 9-pin Out (9-pin Pass-through)
This port is not active.
17. Super Clock In
Receives Super Clock (256x sample rate) information. Used for 256x clock reference
purposes only (also known as Slave Clock).
Connector: Female BNC
Outputs Super Clock (256x sample rate) information for Digidesign Audio Interfaces,
for clock reference purposes only. Can be
generated internally, or can be converted
from an external clock reference. Also
known as Slave Clock.
Connector: Female BNC
19. AC Power In
Receives AC mains power, 85 to 264 volts,
47 to 63 Hz (auto switching).
Connector: IEC Standard AC Power Cable
(3-conductor)
USD Setup Software
The following is an overview of the
USD Setup application for Macintosh and
Windows. System and installation requirements for USD Setup can be found in “Software Installation” on page 13.
Using Help
To activate Help:
■ From the Help menu choose the Show
Help command, or click on the question
mark button in the upper-right corner of
the USD Setup window.
To deactivate Help:
■ From the Help menu, select the Hide
Help command, or click on the question
mark button in the upper-right corner of
the USD Setup window.
Universal Slave Driver22
Overview of USD Setup Controls
The following section identifies each control of USD Setup. Details on configuring
parameters can be found in
Chapter 4: Using the USD.
2. Clock Reference
Selects the USD clock reference, which include:
Video (Video Reference Input)
Video (Video Input)
Linear Time Code (LTC),
Digital (AES/EBU)
Digital (Super Clock)
Digital (Word Clock)
Pilot Tone
Bi-Phase/Tach
Internal/VSO
3. Sample Rate
Selects the USD sample rate (or the
Pro Tools session sample rate, if applicable).
4. Positional Reference
USD Setup
1. Time Code Window
The time code display mirrors the LED
Time Code Display on the USD front panel,
displaying (in hours:minutes:seconds:frames) the time code address of the
current positional reference.
Display of Odd/Even Fields When the USD
is reading odd-numbered fields, the separator changes from a normal colon (:) to a period (.); when it’s reading even-numbered
fields, the punctuation returns to a colon
(:). Odd/even status is only available while
reading VITC, and only when VITC is
within a speed range from zero to about
50% of playback speed.
Selects the USD positional reference, which
include:
Linear Time Code (LTC)
Vertical Interval Time Code (VITC)
Auto Switch LTC/VITC
Bi-Phase/Tach
Generate
5. Frame Rate
Selects the frames-per-second (fps) rate of
external (or internally generated) time
code:
30 fps
30 fps drop-frame
29.97 fps
29.97 fps drop-frame
25 fps
24 fps
Chapter 3: USD Hardware and Software Overview 23
6. Status
8. Freewheel Duration
Shows the current state of USD Setup software in relation to the USD and external
devices.
Resolver Locked Lights when the USD is
locked to the chosen external clock reference, or to its Internal clock reference.
Speed Calibration Lights when the USD
system clock and all output clocks are at a
frequency that corresponds with the chosen sample rate. Capable of indicating mismatch of pull-up, pull-down and frame
rate.
☞ For details about Speed Calibration charac-
teristics, see “11. Status LEDs” on page 19.
Generator Running
regenerating time code at its video, LTC,
and MTC outputs in sync with the incoming positional reference source. Also lit
whenever the USD is generating time code
internally.
Connected to USD Lights when USD Setup
is the front-most window and is communicating with the USD.
Waiting for USD Lights when USD Setup is
the frontmost window and is unable to
communicate with the USD.
Port Relinquished Lights when USD Setup
is not the frontmost window or is unable to
allocate a serial port with which to communicate with the USD.
Lights when the USD is
7. LTC Output Level
Adjusts the analog audio level of the USD
LTC output, from –24 dBu to +9 dBu.
Sets the period of time for which the USD
will continue to supply positional reference data after an external source is interrupted or stopped. (Also referred to as Time
Code Freewheel in Pro Tools.)
9. Video Format
Indicates the format (NTSC or PAL) for
both the incoming and outgoing video signals.
NTSC is used in North and South America,
Japan, and certain other parts of the world.
PAL is used in most of Europe, Asia, and Africa. Users of SECAM video (for France, Russia, and certain other parts of the world)
should select PAL.
10. VITC Read Lines
Determines which line pair of incoming
video signal is used for the VITC source.
When set to Auto, the USD will search for
the first valid line pair automatically. Alternatively, this value can be set to specific
VITC line pairs.
11. VITC Generate Lines
Determines the line pair of the outgoing
video signal onto which the USD inserts
VITC. Normally, this should be left at the
default (and preferred) setting of 14/16.
12. VITC Insertion Enabled
When selected, VITC will be inserted into
the outgoing video signal—assuming that a
video signal is present at a USD video input, and that the USD is in a valid mode for
Universal Slave Driver24
inserting VITC. The only invalid positional
reference modes are VITC or Auto Switch
LTC/VITC. The USD can’t read VITC and
generate new VITC at the same time.
13. Pitch Memory Enabled
When selected, the USD will remain at a
pitch (sample rate) that corresponds to the
last known incoming time code speed.
When deselected, the USD will revert to the
selected sample rate. This feature enables
the USD to learn the time code form a specific source during successive lockups, so
lock up times can be optimized.
If Pitch Memory is disabled and the selected external clock reference is not available, then the USD will revert to the nominal, selected internal sample rate setting.
16. Bi-Phase/Tach Parameters
Used for specialized applications that involve film or other equipment that output
Bi-Phase/Tach information. These parameters must be set to match the Bi-Phase or
tach source to achieve lock. See “Positional
Reference and Bi-Phase/Tach” on page 38
for more information.
17. Generator/Bi-Phase Preset
Serves two functions, as determined by the
current USD mode:
Generate mode Sets the time code start
time directly by clicking in the
Hrs:Min:Sec:Frm fields and typing in a
value. The Tab key will cycle though the
fields.
– or –
14. Idle MTC Enabled
Controls MTC Output during idle (play
stopped). When enabled, MTC is continuously output. When not enabled, MTC output is muted when playback is idle. See
“MTC Output and Idle Muting” on page 51
for details.
15. Window Dub
Settings for the USD character generator/window dubbing features. (These controls are also available from within the
Pro Tools Peripherals dialog.)
Complete Window Dub instructions are
provided in the section “Generating a Window Burn” on page 51.
Bi-Phase/Tach Mode Zeros the time code
counter, to allow the USD to generate time
code in relation to the pulses of the incoming Bi-Phase/Tach information. Establishes
a time code start point (first frame of a reel,
for example).
18. Variable Speed Override (VSO)
Used to varispeed the rate of the USD internal crystal-referenced clock (±699 cents; a
cent is one-hundredth of a semitone). VSO
is available at any positional reference setting, but only when the clock reference is
Internal/VSO.
Chapter 3: USD Hardware and Software Overview 25
Universal Slave Driver26
chapter 4
Using the USD
Control Options
The USD can be controlled in three ways:
• from within Pro Tools
• using the front panel controls
• using USD Setup
Which methods you will use depends on
the type of Pro Tools system being used, if
any, and its serial connection between the
USD and your system
Pro Tools MIX/MIXplus and
Pro Tools 24 Systems
DigiSerial Port-equipped systems can use
Pro Tools and the front panel to control
USD. USD Setup can optionally be used for
access to specific features described
throughout this chapter.
Pro Tools III Systems
Pro Tools III and other systems without a
DigiSerial Port connection can use
Pro Tools and the front panel, or
USD Setup software.
Standalone
Remote installations (no connections to a
computer) will use the USD front panel
switches and displays.
USD Standalone with Remote Control
For software remote control from a supported Macintosh or Windows computer,
USD Setup provides access to all USD parameters.
For a listing of USD parameters supported
in each method, see “USD Controls in
Pro Tools, USD Setup, and Front Panel” on
page 28.
Chapter 4: Using the USD 27
USD Controls in Pro Tools, USD Setup, and Front Panel
USD Controls in Pro Tools, USD Setup, and the Front Panel
Available from/in:
Parameters Pro Tools Front Panel USD Setup
Firmware Update
Clock References
Positional References
Sample Rates
Frame Rates
LTC Output level
Freewheel duration
Video Format
(NTSC/PAL)
VITC Read Lines
VITC Generate Lines
VITC Insertion Enable
Pitch Memory
Window Dub
Bi-Phase/Tach
Gen/Bi-Phase Preset
GPI
VSO
Pull Up/Down
Idle MTC Enabled
yes (Peripherals/Sync) no yes
all (Session Setup) all, except Video In
versus Video Ref in
all (Session Setup) all all
all (Session Setup) all all
all (Session Setup) all all
no yes yes
yes (Session Setup) yes yes
no yes yes
no yes yes
no yes yes
no yes yes
no yes yes
all (Peripherals/Sync) on/off only yes, all
no yes yes
Generator, no Bi-Phase yes yes
yes no no
yes (Session Setup) no yes
yes (Session Setup) yes yes
no yes yes
all
Universal Slave Driver28
About Remote-Only Mode
T
(USD Setup Only)
When the default Remote-Only Mode
(Front Panel Lockout) is enabled in the
USD Setup Preferences window, none of
the USD front panel switches will be operational. The Remote Only LED will be lit.
• Changing Window Burn Size, Vertical
Position, Horizontal Position, and Color
• GPI (General Purpose Interface) functions
• Choosing between Video In or Video Ref
In connector for the Clock Reference
source
• Variable Speed Offset (VSO)
To exit Remote-Only mode from the front
panel:
■ Simultaneously press and hold down the
Clock Reference, Positional Reference, and
Frame Rate front panel switches.
This will disengage the USD from RemoteOnly mode. This is useful when the host
computer is not easily accessible to override Remote-Only Mode.
✽ Pro Tools USD controls always provide ac-
cess to most USD parameters.
Using the Front Panel Generator/Parameter Switches
The Generator/Parameter Controls are labelled SET, DOWN, UP, and
RUN/STOP/CLEAR. In addition to their primary generator functions, these switches
provide front panel access to most USD parameters.
Features Not Accessible from the USD’s Front
Panel Controls
The front panel provides access to all USD
features except the following (which can be
controlled using Pro Tools or USD Setup):
• Remote-Only Mode/Front Panel Lockout
• Firmware update
For a listing of available parameters, refer to
“USD Controls in Pro Tools, USD Setup,
and the Front Panel” on page 28.
44.1 kHz
48 kHz
PULL UP
PULL DOWN
SET
Generator/Parameter Switches
DOWN
RUN/STOP
UP
CLEAR
POSI
Set
The SET switch has three primary functions:
When time code is displayed Pressing Set
once changes the Display from time code to
parameter names.
When a parameter name is visible Pressing
Set once will change the Display to show
parameter values.
When a parameter value is visible Pressing
Set once will set that parameter value, and
will return the Display to time code.
Down and Up
These switches scroll through parameter
names and values (whichever is currently
displayed):
Chapter 4: Using the USD 29
When a parameter name is visible
Pushing
the Down and Up switches scrolls through
the parameter names (for example, from
SET GEn to VIdEo SY).
When a parameter value is visible These
switches scroll through the available parameter values.
Depending upon the last state of the USD,
you may see a readout other than SE7 GEn.
To scroll parameter choices:
■ Press Up or Down as needed to scroll
through available parameters. Holding the
switch scrolls through the parameters.
When entering time code values Pressing
these two switches simultaneously tabs
through the hours:minutes:seconds:frames
fields.
Run/Stop/Clear
This switch has two functions, depending
upon the current mode:
While generating time code Pressing
RUN/STOP starts or stops the time code
generator when USD is in Generator Preset
mode.
While time code is being displayed Clear re-
sets the counter whenever time code is visible in the LED Time Code display.
Otherwise, the RUN/STOP+CLEAR switch
serves as a Cancel button (Clear mode).
Edit Mode
To enter Parameter/Value Edit mode:
■ Push Set (when time code numbers are
visible in the LED Time Code Display). One
press will display the first parameter name,
“Set Gen,” (for the time code generator:)
The (default) first page of Generator Parameter
controls
To select a parameter to edit:
■ When the desired parameter is displayed,
press Set. This will access that parameter’s
current setting.
To edit parameter values:
■ With parameter values displayed, press
Up or Down to cycle through the available
values.
Examples
Example 1: Using Set, Down and Up to adjust
LTC Gain
As an example, the following steps explain
using the USD front panel controls to
change the Linear Time Code output level.
LTC Gain is the example parameter, but
the basic steps are similar for most parameters.
To select a parameter name and change its
respective parameter values:
1 Time code numbers should be visible and
not blinking in the LED Time Code Display. If you don’t see them, press the Set
switch until you do.
2 Press the Set switch. The LED Time Code
Display will switch from showing time
code numbers to a parameter name. The
first name is Set Generator (SE7 6En), although you may see a different name, depending upon the USD’s last settings.
Universal Slave Driver30
3 Press the Down or Up switches until the
LED Time Code Display shows LTC Gain
(L7C 6AIn).
4 Press the Set switch again. The LED Time
Code Display will now show the current
parameter value for LTC Gain in dBu values.
5 Press the Down or Up switches to scroll
through the available parameter options.
Values will scroll (in 3 dBu steps). Hold
down either Down or Up to fast-scroll.
6 When the desired parameter value is dis-
played, press the Set switch again.
With just a few exceptions these steps remain the same for all USD parameters.
☞ For a complete listing of all the front panel
Generator/Parameter controls, see
Chapter 5: Additional Operational Information.
Example 2: Standalone Sample Rate
Configuration
The following is an example of abbreviated
front panel instructions, this time showing
how to set the USD sample rate.
To set the USD sample rate from the front
panel:
1 Press Set, then scroll using the Up and
Down switches to display SPL FrEc.
2 Press Set again, then use the Up and
Down switches to scroll through available
sample rates (shown in the LED display).
See “4. Sample Rate LEDs” on page 18 for
more information about USD sample rates
and displays.
3 When the required rate is displayed,
press Set to confirm it as the current USD
sample rate.
Sync Setup
This section describes how to configure the
USD for the specific requirements of your
system or current project. Instructions are
organized by task, and cover Pro Tools,
front panel and USD Setup control procedures, as supported. (A complete list of control options for each method can be found
in “USD Controls in Pro Tools, USD Setup,
and Front Panel” on page 28.)
◆ For clock reference instructions, see
“Clock References” on page 32.
◆ For Positional Reference instructions, see
“Positional References” on page 38.
◆ To utilize Generate/Regenerate modes
see “Generating and Regenerating Time
Code” on page 44.
◆ For window burn instructions see “Gen-
erating a Window Burn” on page 51.
Frame Rate Settings
If using Pro Tools, the USD frame rate will
follow the session frame rate setting in the
Session Setup window.
The USD frame rate can be also set from the
front panel.
To set the USD frame rate from the front
panel:
■ Press the FRAME RATE switch to cycle
through available frame rates. A lit DF LED
indicates drop-frame.
Chapter 4: Using the USD 31
Clock References
When used with an external clock reference, the USD functions as a resolver—so
that Pro Tools and other devices can be
synchronized, or resolved, to a common
clock source.
Selecting a Clock Source
To choose a clock reference from Pro Tools:
■ Choose Display > Session Setup Window,
then select a setting from the Clock Reference pop-up menu.
Configuring the USD Clock Reference from Pro Tools
To choose a clock reference using the front
panel controls:
■ Push and release the Clock Reference
switch to cycle the USD through its available clock references.
To choose a clock reference using USD
Setup:
■ Select a setting from the Clock Reference
pop-up menu.
Clock Reference Options
The following sections provide specialized
instructions for each clock reference
choice.
Video Clock Options
Depending upon how the USD is configured, this clock reference may be the Video
Ref In or the Video In connector (for more
details, see “Limitation When Using Front
Panel Clock Reference Switch” on page 32).
For House Sync/Black Burst Use the USD
Video Ref Input.
For Incoming Video Use the Video In con-
nector.
Serial Time Code with MachineControl
MachineControl-equipped Pro Tools systems can utilize serial time code. When using MachineControl with serial time code
as the positional reference, the USD must
be locked to Video Ref. In this scenario, the
USD is set to Generate mode to indicate
that positional information is acquired by
Pro Tools directly over the 9-pin cable, not
through the USD. Consult the MachineCon-
trol User’s Guide for complete serial time
code information.
Limitation When Using Front Panel Clock
Reference Switch
When you choose Video using the frontpanel Clock Reference switch, the USD uses
the signal at the Video Ref In connector. To
choose the signal at the Video In connector
as your clock reference, you must use
USD Setup or Pro Tools.
Universal Slave Driver32
If you have only a single video source, and
since USD uses different video inputs depending on configuration, you may want
to follow the wiring tip below to ensure
that you have full functionality in all configurations:
To work with a single video source:
1 Connect the video signal to Video Ref In.
2 Run a short BNC jumper cable from the
Video Ref Thru connector to the Video In
connector.
3 Connect the Video Out signal to the
video input of your “destination” VTR or
video editing system.
The issue of which video connector is used
also matters when choosing a positional
reference. For instance, when the USD is in
Generate mode and Video is the current
clock reference, the time code reference for
the generator is always from the Video Ref
In connector.
However, if you select a positional reference other than Generate, then the signal
at the Video In connector is used.
☞ For more video signal information, refer to
“Video and VITC Signals” on page 67 in Appendix A.
Digital AES/EBU, Word Clock and Super Clock
To resolve Pro Tools/USD to external
AES/EBU, Word Clock or Super Clock:
From Pro Tools
■ Select the appropriate digital clock refer-
ence from the Clock Reference pop-up in
the Pro Tools Session Setup window.
Using the front panel controls
1 Press the front panel Clock Reference
switch to select Digital as the clock reference.
2 Press Set.
3 Press Up or Down until Digital Reference
(dI6 rEF) is displayed in the LED.
4 Press Set again. The LED Time Code Dis-
play displays the current digital reference,
which will be:
• AES/EBU (AES-E8U), or
• Super Clock (256 CLOC), or
• Word Clock (I CLOC)
5 Use the Down and Up switches to select
the desired digital clock.
6 When the desired option is displayed,
press Set.
Using USD Setup
■ Select the appropriate Digital clock refer-
ence option from the Clock Ref pop-up
menu.
If the chosen clock reference source is unavailable, or the current configuration is
not valid, the Locked LED on the far-right
of the USD front panel will flash.
Additional Digital Clock Information
AES/EBU
The USD AES In connector only
recognizes and uses the clock portion of an
incoming AES/EBU audio signal. All audio
information will be ignored and will not be
passed to the USD AES Out connector.
Chapter 4: Using the USD 33
Word Clock (1x)
Word Clock is a digital
clock reference signal that runs at 1x sample rate, which is the same rate as the clock
signal carried within an AES/EBU or S/PDIF
data stream. However, devices that support
Word Clock have separate, dedicated BNCstyle Word Clock connectors that carry no
audio information of their own. A wide variety of professional audio devices have
Word Clock connectors, including digital
mixing consoles, DASH-standard digital
multitrack tape recorders and MDMs (modular, digital multitrack recorders).
When transferring digital audio to
Pro Tools from a device that doesn't support Super Clock (256x), make sure to resolve the USD to Word Clock.
LTC and Clock Reference
LTC can provide both positional and clock
information as part of the time code signal.
LTC cannot be read when the reference
deck is stopped or playing back at slow
speeds, or at fast wind speeds (roughly 10x
playback speed).
To resolve the USD to Linear Time Code:
Using Pro Tools:
■ Choose Display > Session Setup and se-
lect LTC from the Clock Reference menu.
Using the front panel controls:
■ Using the Clock Reference switch, select
LTC as the clock reference.
Super Clock (256x) Super Clock (or Slave
Clock) is Digidesign’s proprietary hi-speed
clock that runs at 256x the sample rate. All
Digidesign audio interfaces are equipped
with Super Clock inputs and outputs because its 256x rate makes it less susceptible
to jitter than Word Clock (1x).
In most situations, the USD should supply
the master Super Clock signal to Digidesign
audio interfaces. You should resolve the
USD to Super Clock any time you are transferring digital audio from one Digidesign
workstation to another.
☞ For additional digital clock signal informa-
tion, see “Digital Clock Signal Types” on
page 69.
Using USD Setup:
■ Select Linear Time Code (LTC) from the
USD Setup Clock Ref pop-up menu.
Additional LTC Information
LTC can be recorded, or striped, to an analog audio tape track to provide the source
of both positional and clock reference
(when routed back through the USD after
striping). LTC can also be recorded onto
and played back from a VTR audio, address
or cue track.
If you are working with house sync in your
facility and want to use LTC for positional
reference (only), see “Positional Reference
Options” on page 39.
☞ For further information on LTC signals, see
“LTC Signals” on page 67.
Universal Slave Driver34
Pilot Tone
The USD can resolve to an external Pilot
Tone signal for clock reference, for synchronizing to (or transferring audio from)
certain types of open-reel audio tape recorders. Pilot Tone is basically a 60 Hz
(NTSC) or 50 Hz (PAL) sine wave tone. Pilot
Tone is used on location film shoots to establish a common sync reference between
a film or video camera with a portable 1/4”
analog ATR. Pilot Tone contains no positional information; it provides only clock
reference.
USD decides whether to use 60 Hz or 50 Hz
as the pilot tone reference frequency according to the setting of the Video Format.
When set to PAL, the pilot tone frequency
is assumed to be 50 Hz. When set to NTSC,
60 Hz is assumed.
To resolve the USD to Pilot Tone:
From Pro Tools:
■ In the USD Setup area of the Pro Tools
Session Setup window, click on the Clock
Reference pop-up and choose Pilot Tone.
Using the front panel controls:
1 Connect your Pilot Tone reference source
to the USD Bi-Phase/Tach/GPI/Pilot port.
2 Using the front panel Clock Reference
switch, select Pilot.
Using USD Setup:
If the Pilot Tone reference source is not
valid for any reason (such as a poor connection or other signal transmission problem), the Locked LED on the far-right of
the USD front panel will flash on and off.
☞ For additional Pilot Tone information, see
“Pilot Tone” on page 70 in Appendix A.
Bi-Phase/Tach and Clock Reference
The USD is able to resolve to Bi-Phase/Tach
information for use as a clock reference. BiPhase/Tach can synthesize positional reference, but you must provide a reference start
address (see “Bi-Phase Position Trimming”
on page 44 for other requirements).
To configure Bi-Phase/Tach for the USD clock
reference:
Using USD Setup:
1 Select Bi-Phase/Tach under USD Setup’s
Clock Ref pop-up menu.
2 Select the appropriate Pulse Per Frame
and Input Signals parameters, as described
in “Bi-Phase/Tach Starting Frame” on
page 42 and “Bi-Phase/Tach Signal” on
page 43.
Typically, when you use Bi-Phase/Tach as
the clock reference you will also be using it
as the positional reference (see “BiPhase/Tach Positional Reference” on
page 42.).
1 Connect your Pilot Tone reference source
to the USD’s Bi-Phase/Tach/GPI/Pilot port.
2 Select Pilot Tone under the USD Setup’s
Clock Ref pop-up menu.
Chapter 4: Using the USD 35
Using the front panel controls:
1 Using the front panel Clock Reference
switch, select BI PHASE/TACH.
2 Select the appropriate Pulse Per Frame
and Input Signals parameters, as described
in “Bi-Phase/Tach Starting Frame” on
page 42 and “Bi-Phase/Tach Signal” on
page 43.
▲ If the Bi-Phase/Tach reference clock source
is not valid for any reason (such as a poor connection or other signal transmission problem),
the Locked LED on the far-right of the USD
front panel will flash.
To select Bi-Phase/Tach as the positional
reference from Pro Tools:
■ In the USD Setup area of Pro Tools Ses-
sion Setup window, click on the Clock Reference pop-up and select Bi-Phase.
Additional Bi-Phase/Tach Information
Bi-Phase/Tach is used with mag machine,16-, 35- and 70mm projectors, flatbed editing systems and other types of motor-driven film equipment. Bi-Phase
(sometimes called Quadrature Sync) and
Tach information are similar, though they
do differ.
Bi-Phase A Bi-Phase signal consists of two
square waves, which are generated directly
by a device’s transport mechanism, and
which are 90° out-of-phase with one another. As a Bi-Phase-generating device
plays it outputs a steady stream of square
waves that the USD can use as its clock reference, at nearly any speed including
still/paused.
The USD uses the phase relationship between the two square waves to determine
the device’s direction (forward or reverse).
However, this is relevant only when the
USD is using the Bi-Phase signal as a positional reference.
Tach A Tach signal is a variation of Bi-
Phase. With Tach’s two signals, one is used
only as the direction indicator, while the
other is used as the velocity, or rate, indicator.The USD uses this rate signal when resolving to Tach as a clock reference.
There are several different standards for the
number of pulses-per-frame for Bi-Phase or
Tach devices. Using USD Setup’s Pulse Per
Frame setting, you can set the USD to operate from 2 to 254 pulses per frame to match
the PPF rate of the external device’s BiPhase/Tach encoder.
☞ For additional Bi-Phase/Tach signal informa-
tion, see “Bi-Phase/Tach” on page 70 in Appendix A.
Internal Clock, Generating and Regenerating
The USD can use its own, crystal-referenced, internal clock as a master clock
source. When USD Clock Reference is set to
Internal:
• Word clock, Super clock, and AES/EBU
digital clock outputs are simultaneously
driven from the internal crystal reference.
– and –
• If the Positional Reference is set to Generate, generated LTC, MTC, VITC count,
and Window Dub outputs are resolved to
the same internal crystal reference.
Universal Slave Driver36
To resolve the USD to its internal clock:
Using USD Setup
From Pro Tools
■ In the USD Setup area of Pro Tools Ses-
sion Setup window, select Internal from the
Clock Reference selector.
Using the front panel controls
■ Use the front panel Clock Reference
switch to select Internal.
Using USD Setup
■ Select Internal/VSO from the USD Setup
Clock Ref pop-up menu.
Variable Speed Override (VSO)
You can varispeed the rate of the USD’s
crystal-referenced internal clock, to finetune the speed and subsequent pitch of
Pro Tools and any device receiving its clock
reference from the USD.
Maximum VSO range is ±699 cents (±6
semitones). VSO is available at any positional reference setting. VSO is not available from the front panel controls, but can
be controlled directly from Pro Tools and
USD Setup.
To varispeed the rate of the USD’s internal
clock:
Using Pro Tools
1 Choose Windows > Session Setup, and
expand the Session Setup window to full
view.
2 Click to enable VSO (an “X” indicates
VSO is enabled).
3 Adjust the varispeed value using the on-
screen slider.
1 In the USD Setup’s Variable Speed Over-
ride section, check the VSO Enabled box.
An “X” indicates that varispeeding is enabled.
The Variable Speed Override section
2 Use the sliders to adjust the varispeed
values in semitone or cent increments. The
actual output word-clock frequency is
shown near the sliders.
– or –
3 Enter the value in semitones and cents
using the editable fields. If the varispeed
value results in an output frequency (sample rate) that is below 35 kHz or above 50
kHz, the frequency display turns red, and
the actual output frequency is limited to
this value.
4 When finished, click the Set button to
enable the changes.
Using Pitch Memory
Pitch Memory, when enabled, holds the
output sample rate steady even when the
Clock Reference has disappeared or gone
out of lock range. If not enabled, the output sample rate will return to the nominal
rate (for example, exactly 44.1 kHz) when
the Clock Reference disappears or goes out
of lock range.
With Pitch Memory enabled, Pro Tools
continues to play and record at the resolved sample rate even if the Clock Reference source disappears. You might want to
disable Pitch Memory while performing
Chapter 4: Using the USD 37
analog recordings so as to have the recording made at the true nominal sample rate
(for example, exactly 44.1 kHz.)
If Pitch Memory is disabled and the selected external clock reference is not available, then the USD will revert to the nominal, selected internal sample rate setting.
To configure Pitch Memory (Hold) from the
front panel:
1 Using the Set, Down, and Up switches,
select Pitch Hold (PICH HLd):
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the two parameter values:
• On (On); or
• Off (OFF).
3 Use the Down and Up switches to switch
between the parameter values.
Using USD Setup:
■ Click Pitch Memory Enabled.
When you have chosen your desired option, press Set. The LED Time Code Display
will return to showing time code numbers.
The USD will retain the setting, even when
the unit is powered off and on again, until
changed
Positional References
Positional Reference relates to the USD
time code readers and generator, and to the
Bi-Phase reader.
Whereas the clock connections and Clock
Reference setting serve to keep your system's components all operating at exactly
the same rate over time, the Positional Reference is the facility for working with a particular time address.
The Positional Reference setting serves to
place the USD into a reading or generating
mode. While in a reading mode, time addresses may be obtained from LTC, VITC,
or Bi-Phase. While in the generate mode,
the USD simultaneously generates LTC,
VITC, and MTC.
Positional Reference and BiPhase/Tach
Time code and positional reference are not always directly synonymous. In this guide
the terms are used interchangeably except
while referring specifically to BiPhase/Tach, as noted in the following sections.
Selecting a Positional Reference
To select a positional reference from
Pro Tools:
1 Open the Session Setup window.
2 Choose a reference setting from the Posi-
tional Reference pop-up menu.
Universal Slave Driver38
To select a positional reference using the
front panel:
■ Press the Clock Reference switch to cycle
the USD through its available clock references.
To select a positional reference using USD
Setup:
■ Choose a reference setting from the Posi-
tional Reference pop-up.
To use LTC as the USD’s positional reference:
From Pro Tools:
■ In the USD Setup area of the Session
Setup window, choose LTC from the Positional Ref pop.
Using the front panel controls:
■ Using the front panel Positional Refer-
ence switch, select LTC.
▲ Be sure to select the appropriate frame
rates whenever you use LTC or VITC as your positional reference.
Positional Reference Options
The following sections provide additional
information and configuration instructions for each available Positional Reference format.
Linear Time Code (LTC)
LTC is often striped onto an ATR or VTR audio track. Professional VTRs typically have
an address or cue track, intended for LTC. If
you are working with a standard audio
tape, you’ll almost certainly be working
with LTC; if you’re working with a videotape, you may be able to work with either
LTC or VITC, or both.
LTC can also be generated as an interpolation of Absolute code. This is how time
code DAT machines, DA-88, and many digital VTRs work. In any case, LTC is delivered to USD as a series of audio pulses, regardless of how it is stored or generated.
Using USD Setup:
■ Select Linear Time Code (LTC) under
USD Setup’s Positional Ref pop-up menu.
Ensure that you’ve selected the appropriate
clock reference, sample rate, frame rate,
and freewheel duration. Also make sure the
LTC signal is routed properly to the USD
LTC In connector.
Freewheel Duration
Freewheel duration (time code freewheel)
configures USD for a maximum number of
frames it should continue generating if
time code drops out or is otherwise interrupted. Freewheel settings are ignored
when USD is in Internal/Generate mode.
Example of Time Code Freewheel
In a 30 fps Pro Tools session, if Freewheel
Duration/Time Code Freewheel is 28
frames, the USD will continue to generate
until either the incoming time code signal
is restored, or until 28 frames elapse,
whichever occurs first.
LTC can function simultaneously as a positional reference and a clock reference.
Chapter 4: Using the USD 39
To set freewheel duration from Pro Tools:
1 Choose Display > Session Setup.
2 In the Time Code Freewheel section, en-
ter a number of frames for time code freewheel.
To set freewheel duration from the front
panel:
1 Press Set, then use the Up or Down
switches to show Freewheel Length (FrEE
LEn) in the LED display.
2 Press Set again to access freewheel dura-
tion choices.
3 Use the Up and Down switches to scroll
through available choices (lowest is “4 F4”
or four frames, highest is “40 Fr” or 40
frames).
4 When the desired freewheel duration is
displayed, press Set.
VITC is less prone to tape drop outs, and in
this sense, is inherently more reliable than
LTC. VITC can be embedded into any
video signal, including digital video signals
(tape or nonlinear), without requiring an
extra audio track to carry time code.
Tape Protection Mode and VITC
In order for VITC to be read when a videotape is paused, the picture must remain visible. However, to save wear-and-tear on
video heads, after a few minutes of
still/pause mode, many VTRs will automatically drop into stop mode—which means
the tape will be disengaged from the video
heads, and VITC can no longer be read off
the tape. To continue reading VITC, you
may need to reengage still/pause, or press
play and re-shuttle the tape to the desired
frame.
To set freewheel duration using USD Setup:
■ Choose the desired amount from the
Freewheel Duration menu.
VITC and Positional Reference
VITC is a commonly used positional reference in professional audio post-production. Since VITC is time code information
that is embedded as part of the video signal, VITC can be read when the VTR is
paused or crawling slowly. When working
with Pro Tools, this means that VITC can
be used for Auto-Spotting regions to particular video frames.
Universal Slave Driver40
Clock Considerations for VITC
To avoid tape protection mode problems
and ensure constant clock referencing, use
the Video Ref In as your clock reference instead of Video In, whenever possible.
When using Video Ref In (and house sync),
if the video picture disappears the USD will
remain resolved to the black burst signal at
the Video Ref In connector.
To use VITC as the USD positional reference
using Pro Tools:
1 Open the Session Setup window.
2 Use the Positional Reference pop-up
menu to select VITC.
To use VITC as the USD positional reference
using the front panel:
■ Use the front panel Positional Reference
switch to select VITC.
To use VITC as the USD positional reference
using USD Setup:
■ Choose Vertical Interval Time Code
(VITC) from the Positional Ref pop-up
menu.
Additional VITC-Related Settings
USD Settings
Make sure to set the appropriate clock reference, sample rate, frame rate,
and freewheel duration.
Connections and Sources Make sure that
your VITC-striped video signal, if any, is
routed to the USD Video In connector (not
the Video Ref In connector). If you use a
black burst signal as clock reference connect it to the Video Ref In connector.
You should consider using Video Ref as
your Clock Reference (rather than Video
In) when working with VITC because a
black-burst signal at the Video Ref input
will always be there, unlike the video signal
at Video In, which may disappear if the
videotape disengages.
VITC cannot be read at high speeds (shuttle
speeds, for example) while LTC can, and
LTC cannot be read at slow speeds (while
VITC can be read at slow speeds, and when
parked). Auto Switch LTC/VITC provides
the best of both LTC and VITC reading
without having to manually switch settings.
To select Auto Switch LTC/VITC using
Pro Tools:
1 Open the Session Setup window.
2 Choose Auto Switch (LTC/VITC) from
the Positional Reference pop-up menu.
To select Auto Switch LTC/VITC using the
front panel:
■ Press the Positional Reference switch to
select Auto Switch LTC/VITC (indicated
when both the LTC and VITC LEDs are simultaneously lit).
To select Auto Switch LTC/VITC using USD
Setup:
■ Choose Auto Switch LTC/VITC from the
Positional Ref pop-up menu.
Make sure to select the appropriate clock
reference, sample rate, frame rate, and freewheel duration options.
Auto Switch LTC/VITC Positional Reference
In Auto Switch mode, the USD switches automatically between LTC and VITC depending upon which is delivering the best
time code signal. This is indicated on the
front panel by the LTC and VITC positional
reference LEDs (both will be lit), and by a
decimal point between the minutes and
seconds. on the front panel time code display.
Auto Switch LTC/VITC Requirements
• Make sure the LTC signal is routed properly to the USD’s LTC In connector;
• Make sure the VITC-striped video signal
is routed properly to the USD’s Video In
connector (not the Video Ref In connector);
Chapter 4: Using the USD 41
• Make sure to have or stripe matching
code on both your LTC and VITC tracks
(and your on-screen video window burn,
if any).
• Make sure to select Auto or the correct
line pair for VITC Read.
☞ For additional information and examples of
Auto Switch LTC/VITC, see “Auto-Switch
LTC/VITC” on page 68 in Appendix A.
Serial Time Code
To use Bi-Phase/Tach for positional
reference, from Pro Tools:
■ Select Bi-Phase from the Positional Refer-
ence menu, located in the Session Setup
window.
To use Bi-Phase/Tach for positional
reference, from the front panel:
■ Using the front panel Positional Refer-
ence switch, select Bi-Phase/Tach.
To use Bi-Phase/Tach for positional reference, from USD Setup:
For MachineControl-equipped Pro Tools
systems, serial time code can be selected for
positional reference. This option is configured from the Pro Tools
Peripherals > Synchronization window. Refer to the MachineControl User’s Guide for
configuration instructions and requirements.
Bi-Phase/Tach Positional Reference
Strictly speaking, Bi-Phase/Tach signals are
clock reference signals, and do not contain
positional information of their own. However, they do contain enough information
for the USD to calculate positional information.
To calculate positional reference from BiPhase/Tach requires that the USD be given
a starting frame address, and a specific
pulses-per-frame value. Each of these related settings are explained in the following sections.
1 Select Bi-Phase/Tach under USD Setup’s
Positional Ref pop-up menu.
2 Set the starting frame as described in “Bi-
Phase/Tach Starting Frame” on page 42.
3 Set other Input Signals options, as appro-
priate.
Selecting Bi-Phase/Tach input signals
Bi-Phase/Tach Starting Frame
In order to use the Bi-Phase/Tach signal as a
positional reference, the USD also needs to
know the time code address for a particular
frame of film. This positional relationship
is established by parking the film device at
a particular frame and setting the USD to
the equivalent time code value using the
Bi-Phase/Tach Starting Frame parameter.
▲ Bi-Phase start frame can not be set from
within Pro Tools.
Universal Slave Driver42
To set the starting frame for Bi-Phase/Tach
from the front panel:
1 Select Set Gen (SE7 6En), using the Set,
Down, and Up switches.
2 Press the Set switch again to display time
code numbers; one of the time code fields
(hours:minutes:seconds:frames) will be
flashing.
3 Press the Down or Up switch to scroll
through the current parameter.
4 To set a time code setting and advance to
the next field, press and release the Down
and Up switches simultaneously.
5 Repeat until you have finished setting
the USD to the desired generator start time.
6 When you are done, press the Set switch
again. The LED Time Code Display will
stop flashing, and will show the start time
you have just set.
To set Bi-Phase/Tach start frame using
USD Setup:
1 In the Generator/Bi-Phase Preset section,
type in the time code value of the starting
frame, in hours:minutes:seconds:frames.
Bi-Phase/Tach Signal
To define the direction for a Bi-Phase/Tach
input signal using the front panel:
1 Using the Set, Down, and Up switches,
select Bi-Phase/Tach Input Signal (bIPH
5I6):
2 Press the Set switch. The LED Time Code
Display will switch to display one of the
four parameter values:
A LEAd b Bi-Phase: FWD = A leads B —
Here, when the A square wave is ahead of
the B square wave, the direction of the BiPhase signal is understood to be “Forward.”
b LEAd A Bi-Phase: FWD = B leads A —
Here, when the B square wave is ahead of
the A square wave, the direction of the BiPhase signal is understood to be “Forward.”
r–n–d LO Tach: FWD = B is Low. Here, when
the B signal is in a “low” state, the rate and
direction (“r–n–d”) of the Tach signal is understood to be “Forward.”
Setting the Generator/Bi-Phase Preset
2 When you have entered the proper start-
ing frame, click Set.
r–n–d HI Tach: FWD = B is High. Here,
when the B signal is in a “high” state, the
rate and direction (“r–n–d”) of the Tach signal is understood to be “Forward.”
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set.
Chapter 4: Using the USD 43
Bi-Phase/Tach Pulses-per-frame (PPF)
There are several different standards for the
number of pulses-per-frame output by BiPhase or Tach devices. Using USD Setup’s
Pulse Per Frame setting, you can set the
USD to operate from 2 to 254 pulses per
frame. The setting should match the PPF
rate of the external device’s Bi-Phase/Tach
encoder.
To set the pulses per frame value for a BiPhase/Tach signal using the front panel:
1 Using the Set, Down, and Up switches,
select Bi-Phase/Tach Pulses Per Frame (bIPH
PPF):
2 Press the Set switch again. The LED Time
Code Display will switch to display the current PPF value.
3 Use the Down and Up switches to scroll
through the parameter values (range is
from 2 to 255 pulses per frame). Holding either switch will scrolls at a faster speed.
4 When you have chosen your desired op-
tion, press Set.
Generating and Regenerating Time Code
The USD generates LTC, VITC, and MTC simultaneously, obtaining time addresses
from a variety of sources:
• When the Positional Reference is set to
Generate, the USD generates LTC, VITC,
and MTC from an internal time address
clock. This is referred to as Generator Preset mode.
• When the Positional Reference is LTC,
VITC, or Bi-Phase, the USD generates
LTC, VITC, and MTC based on the time
address of one of those sources. This is
sometimes called re-generation or transla-
tion. For the USD, this is referred to as
Read/Regeneration mode.
☞ For information about using serial time code
with Pro Tools, refer to the
User’s Guide.
Read/Regeneration Mode
MachineControl
Bi-Phase Position Trimming
While using bi-phase as your positional reference, you can trim the Bi-Phase-to-time
code translation at any time. Each press of
the Up switch will advance the time address one frame. Each press of the Down
switch will retard the time address by one
frame. Remember how many presses
you've accumulated so that you can go
back and trim the starting address you previously programmed in.
Universal Slave Driver44
In this mode, the USD regenerates time
code based upon external positional reference information (LTC or VITC time code,
or a Bi-Phase/Tach signal). Subject to certain conditions, three types of time code
(LTC, VITC, and MTC) are simultaneously
regenerated from the selected positional
reference.
Requirements for Read/Regeneration of LTC,
VITC and MTC
The external positional reference must
LTC
be moving at normal, 1x forward speed
(±8%).
VITC The positional reference must be LTC
or Bi-Phase/Tach, at any readable speed,
forward or reverse, or when the positional
reference is set to Generate. The USD will
not regenerate VITC if the positional reference is VITC.
MTC In order for the USD to regenerate
continuous MTC, the external positional
reference must be moving at normal, 1x
forward speed (±8%). Outside of this speed
range and direction, MTC is generated in
bursts every 200 milliseconds. This allows
MTC-slaved devices to read VITC or BiPhase properly in either direction, and at
speeds down to zero. The USD begins regenerating MTC as soon as it again detects
a valid positional reference signal.
✽ To optionally mute idle time MTC output,
see “MTC Output and Idle Muting” on
page 51.
Generator Preset Mode
In this mode, the USD generates time code
internally from a start time based upon the
Generator Preset Time. Using either
USD Setup or the front panel controls, you
can start, stop, resume, and reset time code
generation.
When generating time code in Generator
Preset Mode, the USD time code generator
is resolved (locked) to one of three possible
sources, based upon the following Generator Reference rule.
Generator Reference Rule
◆ If the Clock Reference is set to Internal,
LTC, Pilot Tone, Bi-Phase/Tach, Digital
(AES/EBU), Digital (Super Clock), or Digital
(Word Clock), then the time code generator will lock to the selected clock reference.
– or –
◆ If the Clock Reference is set to one of the
two video inputs (Video Ref In or Video In),
then the time code generator will reference
the Video Ref In connector.
24 fps and Frame Rate Restrictions
If the positional reference is LTC or VITC,
USD will regenerate time code addresses
that match the incoming time code addresses. If the positional reference is a BiPhase/Tach signal, the USD will generate
time code addresses starting at the Bi-Phase
preset start time. (See “Bi-Phase/Tach Starting Frame” on page 42 for more information.)
24 FPS cannot be used as the USD time
code format when the Positional Reference
is set to Generate and the Clock Reference
is either one of the two video inputs.
Furthermore, under these same conditions,
if the video format is set to NTSC, only
29.97 FPS and 29.97 DF FPS may be chosen
as the time code format, and, if the video
format is set to PAL, only 25 FPS may be
chosen as the time code format.
These restrictions are removed when not in
Generate mode.
Chapter 4: Using the USD 45
Pro Tools Systems
Pro Tools provides controls for virtually all
USD generator controls. Instructions for
basic SMPTE or MTC generating can be
found in the Pro Tools Reference Guide. Spe-
cial instructions for any situations are included in the following sections.
✽ See “Control Options” on page 27 for de-
tails on the USD control access.
Generator Start Time
To set the generator start frame from
Pro Tools:
■ Configure the Session Setup window as
appropriate for your system and the current project. Refer to the Pro Tools Reference
Guide for specific instructions.
When you are done, press the Set switch
again. The USD will retain the setting, even
when the unit is powered off and on again,
until it is changed.
LTC Generation/Regeneration
Regenerating LTC
The USD will regenerate LTC whenever the
external positional reference is moving at
normal, 1x forward speed (±10%).
Make sure LTC is correctly routed as explained in Chapter 2: Installing the USD. In
addition, be sure to check and adjust the
level of the USD LTC output signal, if necessary. See “Example 1: Using Set, Down
and Up to adjust LTC Gain” on page 30 for
instructions. If necessary, adjust the input
level for the destination device.
To set the generator start frame from the
front panel:
1 Select Set Gen (SE7 6En), using the Set,
Down, and Up switches.
2 Press the Set switch again. One of the
time code fields displayed will be flashing.
3 To lower or raise the currently flashing
parameter press the Down or Up switch.
Hold down either switch to scroll
down/up.
4 To set a time code setting and advance to
the next field, press and release the Down
and Up switches simultaneously.
5 Repeat until you have finished setting
the USD to the desired generator start time.
Universal Slave Driver46
To regenerate LTC using Pro Tools:
■ In the Session Setup window, select any
external positional reference (except Generate).
To regenerate LTC using the front panel:
■ Using the USD Positional Reference
switch, select the desired external positional reference (do not select Generate).
The USD regenerates LTC as soon as it receives a valid positional reference signal.
To regenerate LTC using USD Setup:
■ Select the desired external positional ref-
erence from the Positional Reference popup (any choice except Generate).
Generating LTC
In Generator Preset mode, the USD can
generate LTC using either an external or internal clock reference. This allows the USD
to function as a complete standalone time
code generator.
Make sure LTC is correctly routed and that
all your other gear is properly configured
before you begin. See “Example 1: Using
Set, Down and Up to adjust LTC Gain” on
page 30 for USD LTC instructions. If necessary, adjust the input level for the destination device.
To generate LTC using Pro Tools:
1 In the Session Setup window, choose
Generate from the Positional Reference
pop-up menu.
2 Activate “Online Mode” in Pro Tools
3 Start Pro Tools recording or playback.
Pro Tools commands the USD to begin generating LTC with time addresses synchronized to the session timeline.
To generate LTC using the front panel
controls:
1 Using the USD’s Positional Reference
switch, select Generate.
2 Configure the desired time code start in
hours:minutes:seconds:frames using the
Set, Up and Down switches. See “Generator
Start Time” on page 46 for instructions.
3 To begin generating, press and release the
Run/Stop+Clear switch.
To generate LTC using USD Setup:
1 In USD Setup’s Positional Ref pop-up
menu, select Generate.
2 In USD Setup’s Generator/Bi-Phase Preset
window, type in the desired time code start
time, in Hrs:Min:Sec:Frm. To reset, click
Zero.
3 To begin generating, click Run.
4 When you have finished generating the
desired length of LTC, click Stop.
VITC Generation/Regeneration
When you use the USD to regenerate or
generate VITC, you’ll be inserting VITC
into an existing video signal. The input is
derived according to the following rule.
VITC Video Source Rule
Since USD has two video inputs (Video In
and Video Ref In), the following rule describes which of these two signals VITC is
applied to.
• If the Positional Reference is set to Generate and the Clock Reference is set to either of the two video inputs, then VITC
will be applied to the video signal at the
Video Ref In connector and fed to the
Video Out connector.
• Under all other combinations of Positional Reference and Clock Reference,
VITC will be applied to the video signal
at the Video In connector and fed to the
Video Out connector.
In addition, the USD will not insert new
VITC while reading VITC from an external
source. This is a safety feature to prevent
the loss of existing VITC in the video
Chapter 4: Using the USD 47
stream. Thus, VITC is never inserted when
the Positional Reference is set to VITC or
Auto Switch LTC/VITC.
Example Video Input Configuration
One common situation is transferring
video from a source VTR (or a nonlinear
video editing system) to a destination VTR
(or a nonlinear video editing system). The
video source signal is connected to one of
the USD’s video input connectors according to the VITC Video Source rule.
The USD Video Out signal is connected to
the destination device. The USD is then
able to stripe the second VTR’s videotape
with VITC. (At the same time, you might
also want to insert a window burn, as described in “Window Burn Display Options”
on page 53.)
▲ Unlike LTC, the USD can regenerate VITC
with both forward and reverse time code addresses.
To prevent destruction of the original VITC
code, the USD will not re-apply (regenerate) VITC onto the same video stream from
which it is reading VITC.
LTC If you want to use LTC as a positional
source, do not select Auto Switch
LTC/VITC.
To regenerate VITC based on an external
positional reference from the front panel:
1 Connect the video source to the USD
Video Ref connector and loop to the USD
Video Input connector.
2 Select VITC Insertion (VI7C In5), using
the Set, Down, and Up switches.
3 Press the Set switch again. The LED Time
Code Display displays one of the two parameter values (On or OFF).
4 Use the Down and Up switches to switch
between the parameter values.
5 Press Set to select VITC Insertion.
6 Make sure you have selected the appro-
priate format (NTSC or PAL, depending on
your project). For instructions, see “Video
Format/System” on page 60.
7 Use Set, Up and Down to access the VITC
Generate Lines (6En LInE) parameter. Press
the Set switch again. The default line pair
is14/16, which is also the SMPTE-recommended setting.
8 Use the Down and Up switches to scroll
through the parameter values and select a
new VITC line pair, if necessary. When you
have chosen your desired line pair, press
Set. The LED Time Code Display will return
to showing time code numbers.
9 Select valid clock and positional refer-
ences.
External In order for the USD to regenerate
VITC based on an external positional reference, you’ll need to select both a clock reference and a positional reference.
Universal Slave Driver48
The USD will now regenerate VITC and insert it onto the video signal (as soon as it receives a valid positional reference signal).
To regenerate VITC based on an external
positional reference using USD Setup:
1 Ensure that the USD is connected in-line
with a video source and video destination.
2 Ensure that VITC Insertion Enabled is
checked in the USD Setup window, and
that you have selected the appropriate format (NTSC or PAL).
3 Use the VITC Generate Lines menu to
configure the line pair, if necessary.
4 Select the appropriate clock reference, us-
ing USD Setup’s Clock Reference menu.
5 Select either LTC or Bi-Phase/Tach from
the USD Setup Positional Reference pop-up
window:
The USD will now regenerate VITC and insert it onto the video signal (as soon as it receives a valid clock reference signal and positional reference signal).
Internal VITC Generation
The USD can also generate VITC internally,
using its integral time code generating feature. In this mode (Positional Reference
switch = Generate) you can use either an
external clock reference, or the USD’s internal crystal as a clock reference with a variable start time.
When generating VITC internally, if the insertion is not timed based upon an up-
stream video reference you may encounter
repeated or skipped VITC frames. Be sure to
check “VITC Timing Rule” on page 50 and
“VITC Video Source Rule” on page 47.
To generate VITC internally using the front
panel controls:
1 Ensure that the USD is connected in-line
with a video source and video destination.
2 Select VITC Insertion (VI7C In5), using
the Set, Down, and Up switches. For detailed instructions, see “VITC Insertion” on
page 56.
3 Use the Down and Up switches to display
VITC Insertion on/off.
4 When on is selected, press Set.
5 Select VITC Generate Lines (6En LInE),
using the Set, Down, and Up switches.
6 Press the Set switch again. The default
line pair is 14/16, which is also the SMPTErecommended setting.
7 Use the Down and Up switches to scroll
through the parameter values. When the
desired line pair value is displayed, press
Set.
8 Using the Positional Reference switch, se-
lect Generate.
9 Set the time code start time. See “Gener-
ator Start Time” on page 46 for instructions.
10 Arm the destination VTR to record
video, so that VITC can be inserted into the
video signal, and be recorded on the destination videotape.
11 Make sure that your chosen clock refer-
ence is actually present and running, then
press the USD Run switch.
The time code addresses will begin to increment.
Chapter 4: Using the USD 49
To pause or stop VITC from the front panel:
■ Press and release the Run/Stop/Clear
switch when you want to pause or stop the
generating process.
To generate VITC Internally using USD Setup:
1 Ensure that the USD is connected in-line
with a video source and video destination.
2 Ensure that VITC Insertion Enabled is se-
lected in the USD Setup window, and that
you have selected the appropriate format
(NTSC or PAL).
3 If necessary, select onto which line pair
you’ll be generating VITC using the VITC
Generate Lines pop-up menu.
4 Select the appropriate clock reference, us-
ing USD Setup’s Clock Ref selector.
5 From the Positional Ref selector, select
Generate.
6 In the Generator/Bi-Phase Preset win-
dow, type in the desired time code start
time, in Hrs:Min:Sec:Frm. To reset to
00:00:00:00, click Zero.
7 Click Set. Typically, at this point you
would arm the destination VTR to record
video, so that VITC can be inserted into the
video signal, and be recorded on the destination videotape. Make sure that your chosen clock reference is actually present and
running, and that it is synchronized with
the incoming video signal
8 Click Run to start. The time code ad-
dresses will begin to increment.
9 Click Stop when you want to pause or
stop the generating process.
✽ Regardless of whether you are generating or
regenerating, an active video signal will need
to be present at one of the USD’s video inputs.
If in doubt, always check if the machine is
paused, stopped or unlaced.
VITC Timing Rule
The following rule is in effect whenever
you are generating or regenerating VITC.
◆ Inserted VITC should be monotonic, re-
gardless of whether it is being regenerated
or generated.
By monotonic, we mean that the VITC
should be smoothly ascending or descending, with no repeated or skipped frame addresses. In order to achieve monotonicity,
the external positional reference (while regenerating) or the clock source (in Generator Preset Mode) must be synchronous
with the video signal onto which the VITC
is being inserted.
Example of VITC Timing Rule
As an example, if you are using LTC as a positional reference from a 3/4-inch U-Matic
VTR, then that VTR should be referenced to
the same video signal that you are applying
to the USD. As another example, in Generator Preset Mode (Positional Reference =
Generate), a clock reference of Internal is
not a good choice, simply because the
USD’s internal crystal runs asynchronously
with respect to the supplied video signal,
and thus repeated or skipped frame addresses are sure to eventually occur.
Universal Slave Driver50
MTC Generation/Regeneration
MTC (MIDI Time Code) is a serial digital
signal. In many ways, you can think of it as
an inaudible type of LTC, that can be used
by various MIDI devices.
MTC is available from the USD MTC Out
connector, which is a standard DIN-style 5pin female MIDI connector.
To use MTC, you’ll need to connect MTC
Out to a MIDI In connector of a device that
can recognize and use MTC. Typically, this
would be a console, sequencer, synthesizer
or sampler keyboard, a drum machine or
other device.
3 Press Up or Down to toggle Idle MTC to
the Off setting.
4 Press Set again to exit and return USD to
its previous state.
To mute idle-time MTC output using
USD Setup:
1 Launch USD Setup.
2 Deselect the Idle MTC Enabled option.
Idle MTC, muted
MTC Output and Idle Muting
MTC is normally output whenever LTC is
output. Whenever LTC output stops, USD
will continue to output MTC in bursts of
one frame every 200 milliseconds. This allows any connected MIDI-reading device
to be continuously updated as to the position of VITC or Bi-Phase (either of which
might be operating at slow or still speeds).
Thus, you can still use a connected MIDI
device for Auto-Spotting from VITC or BiPhase.
Optionally, this constant output can be set
to mute when time code (LTC) is idle.
To mute idle-time MTC output from the front
panel:
1 Use the front panel Set, Up and Down
switches to display Idle MTC (IdLE 7C).
2 Press Set to display the current state (On
or Off).
Idle MTC controls in USD Setup
Generating a Window Burn
The USD offers time code character generation (also known as window burn or dubbing). This superimposes onto a video signal a small area called a window dub (or
window burn, or time code window) that
displays time code in hours:minutes:seconds:frames.
Video image with window burn
Chapter 4: Using the USD 51
A window dub can be very helpful for anyone involved in audio-for-picture, since it
gives you an instant, visual cue as to where
you are in time.
When working with Pro Tools, for instance, you can use a window dub to help
locate a particular video frame that has
been cued by the director for a particular
sound effect. Or, if you’re using Pro Tools
and you want to spot a region to the same
video frame at which you’ve paused your
videotape, you can enter the time code
reading you see in the window dub into the
Auto Spot dialog. (This is especially useful
if your only time code reference from the
tape is LTC, as Auto-Spot requires VITC.)
The USD's character generator obtains its
time code address from the chosen Positional Reference.
Window Dub Requirements
Existing Video Signal
The USD can only
burn a window dub onto an existing video
signal. This means that at least one video
“source” signal (from a VTR, nonlinear editing system, or other video device) must be
present at one of the USD’s video input
connectors (Video In or Video Ref In).
When generating a window dub, the two
VITC Timing and VITC Video Source Rules
apply.
USD Output The signal from the USD’s
Video Out connector must be routed to a
video “destination” (such as another VTR
or nonlinear editing system).
To burn a window dub onto a video signal from
Pro Tools:
1 Choose Setups > Peripherals and display
the Synchronization page.
2 Assuming USD is enabled already, the
Window Dub controls should be available.
Configuring USD Window Dub from Pro Tools.
3 Click Enable Dub Window.
4 Configure the Window burn appearance
settings: Size, Vertical Position, Horizontal
Position, and Color. (See “Window Burn
Display Options” on page 53 for details.)
5 After configuring the dub window set-
tings, click OK to close the Peripherals window.
To configure Window Dub using USD Setup:
1 In the Dub Window section of USD
Setup, select Window Enabled.
2 Specify the appearance of the window
dub with the pop-up menus for Vertical Position, Horizontal Position, and Color.
(See“Window Burn Display Options” on
page 53 for details.)
Universal Slave Driver52
3 Ensure that all the proper video connec-
tions have been made, and that you’ve selected the correct positional reference.
After you have completed these steps,
you’ll burn a window dub—with time code
addresses based upon the selected positional reference—onto any video signal
that’s passing through the USD.
To turn off window dubbing:
■ Deselect Window Enabled.
To enable window dub using the front panel
controls:
1 Using the Set, Down, and Up switches,
select Burn Enabled (burn EnA).
2 Press the Set switch again. The LED Time
Code Display will switch to display the current On or Off setting for Window Burn.
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set.
The time code character generator can now
burn time code addresses based upon the
selected positional reference, onto any
video signal that’s passing through the
USD.
If you need to change the appearance of
the window dub—in terms of size, vertical
position, horizontal position, and color—
you’ll need to use Pro Tools or USD Setup.
These parameters cannot be adjusted from
the USD’s front panel controls.
Window Burn Display Options
If you need to change the appearance of
the window dub—in terms of size, vertical
position, horizontal position, and color—
you’ll need to use Pro Tools or USD Setup.
These parameters cannot be adjusted from
the USD’s front panel controls.
Size Sets the relative size of the window
dub. The choices are Small or Large. The
default setting is Large.
Vertical Position Sets the vertical position
of the window dub, relative to the bottom
of the video picture. The choices range
from 10% From Bottom to 50% From Bottom, in 10% increments. The default setting is 20% From Bottom.
▲ “10% from Bottom” vertical position is out-
side the standard “safe title” area, which
means it may not be visible on some video
monitors.
Horizontal Position
relative horizontal position within the
video picture. The choices include Extreme
Left, Left, Center, Right and Extreme Right.
The default setting is Center.
▲ The “Extreme” horizontal positions are out-
side the standard “safe title” area, which
means they may not be visible on some video
monitors.
Color
Sets the color of the time code numbers in the window dub, and the color of
the window dub’s background. The choices
include White on Black Bkgnd; Black on
White Bkgnd; White on Video Bkgnd; or
Black on Video Bkgnd. (Video Bkgnd
means that the window dub’s background
is transparent, so that the time code num-
Sets the window dub’s
Chapter 4: Using the USD 53
bers are displayed directly on top of the
video signal, without a contrasting background box.) The default setting is White
on Black Bkgnd.
☞ Default Window Burn settings are listed in
“Restoring Factory Settings” on page 65.
Universal Slave Driver54
chapter 5
Additional Operational Information
Detailed instructions for the multi-func-
Front Panel Generator/Parameter Controls
This section details the parameter features
available from the multi-function SET, UP,
DOWN and RUN/STOP, CLEAR switches.
(Referred to as Set, Up, Down and Run).
Generator start, stop and related functions
of the Set, Up, Down and Run switches are
explained in “Generating and Regenerating Time Code” on page 44.
tion Generator/Parameter switches can be
found in the section “Using the Front Panel
Generator/Parameter Switches” on
page 29.
USD LED display of abbreviated parameter names
USD LED Parameter
SE7 6En Set Generator Start Time
dI6 rEF Digital Reference
SPL FrEC Sample Freq (Rate)
VI7C InS VITC Insertion
rdr LInE (VITC) Reader Line
Parameters
The USD 7-segment LEDs are not able to
show all upper and lower case characters
properly, and in some cases use numerals
to represent letters (such as “5” to represent
“S” or “s”). The following table identifies
each of these abbreviations.
To select USD front panel parameters:
1 Press Set.
2 Use the Up and Down switches to scroll
through available parameters, described
below.
6En LInE (VITC) Generate Line
burn EnA Window Burn On/Off
FrEE LEn Freewheel Duration
L7C 6AIn LTC Output gain
PICH HLd Pitch Hold On/Off
bIPH PPF Bi-Phase Pulse-per-frame
bIPH SI6 Bi-Phase Signal Configuration
VIdEO SY Video System/Format
(NTSC/PAL)
IdLE 7C Idle MTC On/Off
Chapter 5: Additional Operational Information 55
Set Generator Start Time
See the section “Generator Start Time” on
page 46 for configuration instructions.
Digital Clock Reference
The USD can use one of three possible digital clock references—AES/EBU, Super
Clock (256x), or Word Clock (1x).
The table below shows USD Sample Rate
indication with the four Sample Rate LEDs:
USD LED displays and Sample Rates
USD LEDs ON Sample Rate
44.1 kHz 44.100 kHz
48 kHz 48 kHz
44.1 kHz and
PULL UP
44.1 kHz and
PULL DOWN
44.144kHz
44.056kHz
See the section “Digital AES/EBU, Word
Clock and Super Clock” on page 33 for
complete configuration instructions.
Sample Rate/Frequency
Selecting this parameter name lets you
choose the USD’s sample rate.
48 kHz and
PULL UP
48 kHz and
PULL DOWN
48.048 kHZ
47.952 kHz
PAL format and Pull Up/Down
The USD Pull Up and Pull Down features
are not designed to perform conversion between 24 fps and 25 fps.
VITC Insertion
When selected, VITC will be inserted onto
the outgoing video signal—assuming that a
video signal is present at one of the USD
video inputs, and that the USD is in a valid
mode for inserting VITC.
To configure the USD to insert VITC using the
front panel:
1 Select VITC Insertion (VI7C InS) using
the Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display On or
Off.
Universal Slave Driver56
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set.
You may also need to select the line pairs
that you will generate VITC on, using the
VITC Generate Lines parameter (6En LInE).
VITC Read Lines
This setting determines which line pair of
incoming video is used for the VITC source.
To choose the VITC read lines:
1 Select VITC Read Lines (rdr LInE), using
the Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the parameter values:
• Auto (ALL-LInE)—where the USD will
search all lines and select the first valid
line pair automatically
– or –
• one of the following:
10/12
11/13
12/14
13/15
14/16
15/17
16/18
17/19
18/20
19/21
20/22
3 Use the Down and Up switches to scroll
through the parameter values.
4 When you have chosen your desired op-
tion, press Set.
VITC Generate Lines
This setting determines the line pair of the
video signal at the Video Out connector
onto which the USD inserts VITC. Normally, this should be left at the default setting of 14/16.
To choose the VITC generate lines:
1 Select VITC Generate Lines (6En LInE),
using the Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the parameter values:
10/12
11/13
12/14
13/15
14/16 (SMPTE recommended setting)
15/17
16/18
17/19
18/20
19/21
20/22
3 Use the Down and Up switches to scroll
through the parameter values.
4 When you have chosen your desired op-
tion, press Set. The LED Time Code Display
will return to showing time code numbers.
The USD will retain the setting, even when
the unit is powered off and on again, until
it is changed.
Chapter 5: Additional Operational Information 57
Window Dub/Burn
Freewheel Length/Duration
By enabling this setting, you can superimpose a window dub onto an incoming
video signal.
The front panel lets you enable window
dub but not adjust any window options.
To enable or disable the USD’s window dub
from the front panel:
1 Select Burn Enabled (burn EnA), using
the Set, Down, and Up switch.
2 Press the Set switch again.
3 Use the Down and Up switches to toggle
between on/off.
4 When you have chosen your desired op-
tion, press Set. The LED display will return
to showing time code numbers. The USD
will retain the setting, even when the unit
is powered off and on again, until it is
changed. See “Generating a Window Burn”
on page 51 for Pro Tools and USD Setup
window dub instructions.
Default Window Dub Settings
The USD time code character generator defaults to the following display settings.
Parameter Default
Size Large
Freewheel Length sets the period of time
for which the USD will continue to regenerate time code when incoming time code
is interrupted.
See “Freewheel Duration” on page 39 for
an explanation of this feature. The following describes the choices list in the front
panel.
To set the freewheel duration:
1 Select Freewheel Length (FrEE LEn), us-
ing the Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the parameter values:
4 Fr
8 Fr
12 Fr
16 Fr
20 Fr
24 Fr
28 Fr
32 Fr
36 Fr
40 Fr
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set.
Vertical Position 20% from bottom
Horizontal Position Center
Color White numerals on a
black background.
Universal Slave Driver58
LTC Output Level/Gain
Pitch Memory/Hold
Adjusts the audio level of the USD’s LTC
output, from –24 dBu to +9 dBu.
See “Example 1: Using Set, Down and Up to
adjust LTC Gain” on page 30 for step-bystep LTC gain instructions.
To set the LTC output level:
1 Select LTC Gain (L7C 6AIn), using the
Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the parameter values (shown in USD LED
as “dbu,” referring to actual dBu levels):
9 dbu
6 dbu
3 dbu
0 dbu
–3 dbu
–6 dbu
–9 dbu
–12 dbu
–15 dbu
–18 dbu
–21 dbu
–24 dbu
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set. The LED Time Code Display
will return to showing time code numbers.
The USD will retain the setting, even when
the unit is powered off and on again, until
changed.
Pitch Memory is useful when resolving
USD to off-speed, free-running LTC. When
Pitch Memory is enabled, the USD will remain at a pitch (sample rate) that corresponds to the last known clock reference
speed. Without Pitch Memory/Hold, USD
reverts to the selected sample rate.
✽ Turn off Pitch Memory if you want to digitally
transfer to another device and to ensure the
receiving device gets the correct sample rate.
Also, turn pitch memory off if you are doing an
analog transfer to Pro Tools and want to ensure that the recording is made at the exact
sample rate set by the session set up window.
To enable or disable the USD’s pitch memory
feature:
1 Select Pitch Hold (PICH HLd), using the
Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the two parameter values:
On (On)
Off (OFF).
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set. The LED Time Code Display
will return to showing time code numbers.
The USD will retain the setting, even when
the unit is powered off and on again, until
it is changed.
Chapter 5: Additional Operational Information 59
Bi-Phase/Tach Pulses Per Frame
This selection is used for specialized applications that involve film or other equipment that output Bi-Phase/Tach information. The parameter values set the number
of Bi-Phase/Tach pulses per frame of time
code.
formation. Here, the parameter values will
be used to define the direction of the BiPhase/Tach signal.
For complete instructions, see “BiPhase/Tach Signal” on page 43.
To set the pulses per frame value for a BiPhase/Tach signal:
1 Select Bi-Phase/Tach Pulses Per Frame
(bIPH PPF), using the Set, Down, and Up
switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display the current parameter values, from 2 to 255 pulses
per frame. The readout will look something
like this:
0002
3 Use the Down and Up switches to scroll
through the parameter values. Pressing and
releasing the switches will change the
value by just one pulse per frame. Pressing
and holding the switches will scroll at a
faster speed.
4 When you have chosen your desired op-
tion, press Set. The LED display will return
to showing time code numbers. The USD
will retain the setting, even when the unit
is powered off and on again, until it is
changed.
Bi-Phase/Tach Input Signal
This selection is also used for specialized
applications that involve film or other
equipment that output Bi-Phase/Tach in-
Video Format/System
Selects the format (NTSC or PAL) for both
the incoming and outgoing video signals.
NTSC The standard for North and South
America, Japan, and certain other parts of
the world
PAL Used in most of Europe, Asia, and Af-
rica. Users of SECAM video (for France, Russia, and certain other parts of the world)
should select PAL.
▲ Please be sure you have selected the cor-
rect format! The USD will not warn you if you
have chosen the wrong one.
To select the desired video system:
1 Select Video System (VIdEo SY), using the
Set, Down, and Up switches.
2 Press the Set switch again. The LED Time
Code Display will switch to display one of
the two parameter values:
• NTSC (n75C)r
• PAL (PAL)
Universal Slave Driver60
3 Use the Down and Up switches to switch
between the parameter values.
4 When you have chosen your desired op-
tion, press Set.
The LED Time Code Display will return to
showing time code numbers. The USD will
retain the setting, even when the unit is
powered off and on again, until it is
changed.
MTC Idle Mute
MTC is output constantly whenever the
USD is generating time code. Optionally,
this constant output can be set to mute
when time code (LTC) is idle.
To mute idle-time MTC output from the front
panel:
1 Use the front panel Set, Up and Down
switches to display Idle MTC (IdLE 7C).
2 Press Set to display the current state (On
or Off).
3 Press Up or Down to turn Idle MTC off.
4 Press Set again to exit and return USD to
its previous state.
For USD Setup instructions for Idle MTC,
see “MTC Output and Idle Muting” on
page 51.
Managing and Selecting Video Inputs
The USD has two independent video inputs, referred to as “Video In” and “Video
Ref” on USD’s rear panel. These let you use
one of the video inputs as a Clock Reference (the resolver sample clock master reference) and use the other input for working
with VITC time code and the character
generator (window dub).
Don't worry if you have just a single video
source. The USD provides a very simple
method for connecting your single video
source to both of the video inputs. See “Using Video Inputs with VITC and the Character Generator” on page 62.
In a typical video setup, you will supply a
reference video signal (black burst or color
bars) to your VCR and to the USD Video Ref
input. You will then connect the VCR's
video output to the USD Video In input. Finally, the USD Video Out will be fed to
your picture monitor and/or another VCR.
Using Video Inputs as Clock Reference
The USD lets you choose either of its video
inputs as the Clock Reference for generating system clocks. There is no performance
advantage to choosing one input over the
other. Pro Tools and USD Setup allow you
to freely select either input.
If you plan to control your USD only from
its front panel, then there is a flexibility advantage in using the Video Ref input as
your Clock Reference. This is because
there's no way to select the Video In connector as the Clock Reference when using
the front panel controls. When you use the
Chapter 5: Additional Operational Information 61
front panel Clock Reference switch to select VIDEO as the Clock Reference, it's referring to the Video Ref connector, and
never to the Video In connector.
To avoid the chance of this limitation getting in your way, we suggest that you connect your reference video feed (from a
black burst or colorbar generator) to the
Video Ref input, and use this input as your
Clock Reference whenever you want sample clocks locked to video.
Using Video Inputs with VITC and the
Character Generator
Unlike selecting a video input to use for
Clock Reference, you don't have freedom
to arbitrarily choose which input to use for
VITC and character generator functions.
The rule defining which video input is used
for VITC and character generator functions
is simple, and is explained in the following
sections and in Figure 3.
◆ If the Clock Reference is one of the two
video inputs, and the Positional Reference
is Generate, then VITC and character generator functions are applied to the video arriving at the Video Ref input connector.
This helps you avoid re-patching video cables whenever you want to stripe a videotape with your reference black burst or
color bars, along with internally generated
time addresses for VITC (and/or LTC,
and/or CG dub window). In Figure 3, this
scenario is identical to “Route A.”
Video Routing
Video Ref In
Video In
LTC
AES/EBU
Word Clock
Super Clock
Pilot Tone
Bi-phase/Tach
Clock Reference
Setting
Figure 3. Video Input Flow diagram
Universal Slave Driver62
A
B
Time Code and
Window Dubbing
Circuit
Video routing is automatically switched within the
Universal Slave Driver, according to the Positional Reference
and Clock Reference settings:
• Route A — Positional Reference = Generate;
Clock Reference = Video Ref In or Video In
• Route B — Any other combination of Positional Reference
and Clock Reference settings
Sample Clock
Resolver Circuit
Video Output
Word Clock Output
Super Clock Output
AES/EBU Output
The clock reference (labelled Sample Clock
Resolver Circuit in Figure 3 on page 62) is
selectable at all times. You can decide
which input signal to use to generate the
digital clock signal.
However, when the clock reference is set to
Video, the positional (time code) reference
circuitry (labelled Time Code and Window
Dub Circuit in the illustration) is not switchable. This is because the positional (time
code) reference circuitry is always used to
derive time code, whether the USD is reading incoming time code or generating new
time code. Even in Generate mode, the
USD needs to use this circuitry to detect the
frame edge of the video, in order to generate time code.
Using Fader Start
The USD provides six GPI outputs in total,
two TTL-level and four relays. Together,
this combination of outputs makes it possible for the USD to provide Fader Start capability.
☞ Utilization of Fader Start has specific wiring
requirements. See “GPI Relay Wiring for FaderStart” on page 88.
Fader Start allows faders in Pro Tools to
trigger external devices to play and stop.
To implement Fader Start, Pro Tools maps
the first two visible auxiliary input channels in a session to GPI Relay outputs 0 and
1 (first being left-to-right in the Mix window, top-to-bottom in the Edit window).
Example Fader Start Application
In a typical scenario, the Fader Start feature
controls playback of a CD player. The CD
player outputs are routed into a Pro Tools
stereo Aux Input. As the Aux channel fader
is moved above -120 dB, playback of the
CD player is automatically triggered. Likewise, as the fader is moved below -120 dB,
playback is automatically stopped.
✽ To rearrange tracks, drag the Track Name
plate left or right in the Mix window, or up or
down in the Edit window. Refer to your
Pro Tools Reference Guide if you need addi-
tional information.
To configure Pro Tools tracks for Fader Start
Play and Stop:
1 Use the New Track dialog to create two
new auxiliary input tracks. If you already
have aux tracks, you will use the first and
second (top-most in the Edit window, leftmost in the Mix window).
2 When the first visible aux input in a
Pro Tools session is above -120 dB, GPI Relay output 3 (Fader Start #1) will be enabled; otherwise, it will be disabled.
Similarly, when the second visible aux input in a Pro Tools session is above -120 dB,
GPI Relay output #4 (Fader Start #2) will be
enabled; otherwise, it will be disabled.
If you rearrange channel strips in the
Pro Tools Mix or Edit windows, the two
GPI outputs will update dynamically to reflect the current state. The Fader Start
channel must be in a Show Track state (not
hidden).
Refer to “GPI Relay Wiring for Fader-Start”
on page 88 for additional GPI information.
Chapter 5: Additional Operational Information 63
Calibrating the USD Oscillator
USD’s accuracy is possible because it contains a low-jitter, high-stability temperature controlled crystal oscillator.
The USD provides a feature for calibrating
the frequency of the on-board crystal oscillator. This allows USD to be used as an extremely accurate frequency reference while
in Internal/VSO mode.
With normal usage, the USD should never
require recalibrating. Each unit is factory
calibrated to within +/- 5 ppm (parts per
million).
You may want to recalibrate the USD in the
following situations:
• If greater than 5 ppm accuracy is required
• If the unit needs to be matched to a
unique (nonstandard) frequency
• To precisely compensate for component
aging
• To restore the original factory setting
✽ Oscillator recalibration does not occur dur-
ing firmware updating or when resetting the
USD to factory defaults (see “Restoring Factory Settings” on page 65).
Warm Up USD Before Recalibrating
Before you begin the calibration procedure,
power on the USD and allow it to warm up
for at least five minutes. The temperature
of the room (or chassis) isn’t critical during
the calibration procedure. However, if you
need better than 3 ppm accuracy, it is recommended that you allow the USD to
warm up for at least 30 minutes and that
the chassis be at normal operating temperature.
To restore the USD’s oscillator calibration to
its factory setting:
1 Press Set, then press Up until Video Sys-
tem (VIdEo SY) is displayed in the LED
readout.
2 With the LED Time Code Display show-
ing VIdEo SY, press and hold the Up switch.
While you continue to hold that switch,
press the Clock Reference switch momentarily, and then release both switches. The
LED Time Code Display will read:
Oscillator Resolution and Stability
The USD calibration units are in 1/64th of a
sample period. What this means is that the
USD can theoretically be calibrated to
about 1/3 of a ppm. The unit will maintain
calibration across a wide range in temperature. Long-term drift should be less than
1 ppm per year due to aging of the crystal.
To put this in perspective, most digital
audio products are accurate to within 20 to
50 ppm and drift with temperature. The
Universal Slave Driver64
3 Press the Set switch again. The LED Time
Code Display will switch to display the current parameter value, which shows a sample rate frequency deviation from –0999 to
0999.
4 Take note of the Oscillator Calibration
value printed on the factory sticker, on the
USD bottom panel.
5 Use the Down and Up switches to scroll
through the parameter values. Pressing and
releasing the switches will change the
value by just one incremental value. Pressing and holding the switches will scroll at a
faster speed.
6 When you reach a value that matches the
sticker’s value, stop scrolling and press Set.
The LED Time Code Display will return to
showing time code numbers. Your USD is
now properly calibrated.
The next time you press Set, the LED Time
Code Display will again show O5C CAL. If
you then press the Down switch, you’ll disengage the Oscillator Calibration parameter name. To change the setting once again,
you’ll need to repeat steps 1 through 6.
Restoring Factory Settings
The USD can be reset to its default factory
settings. See “USD Defaults” on page 65 for
default values.
To reset all parameters to default settings:
1 Switch off power to the USD and wait at
least 10 seconds.
2 Hold down the Up and Down front panel
switches and switch on power to the USD—
do not release the Up and Down switches
until the display reads FAC-CFG.
USD Defaults
Parameter Name Default
Set Generator Start Time
Digital Reference
Sample Freq (Rate)
VITC Insertion
(VITC) Reader Line
(VITC) Generate Line
Window Burn On/Off
Freewheel Duration
LTC Output gain
Pitch Hold
Bi-Phase Pulse-per-frame
Bi-Phase Signal
Video System/Format
(NTSC/PAL)
Idle MTC Enabled
Window Burn options:
Variable Speed Offset
(VSO)
00:00:00:00
AES-EBU
44.1 kHz
On
All
14 - 16
On (Enabled)
8 frames
3 dBu
Off
0100
A Lead B
NTSC
On
Enabled
Size: Large
Vertical Position: 20%
from Bottom
Horizontal Position:
Center
Color: White on Black
background
Off
▲ Resetting factory settings does not reset
the USD oscillator. See “Calibrating the USD
Oscillator” on page 64 for information.
Chapter 5: Additional Operational Information 65
Universal Slave Driver66
appendix a
Additional Synchronization Information
Simple Setups In a modest setting with one
Video and VITC Signals
Black Burst and House Sync
A black burst signal is essentially a “position-less” video signal. As with any
“shared” video signal, you’ll want to ensure that your video feed comes from a
properly buffered and distributed source,
such as a video distribution amplifier, or
the video reference/black burst output of
another device in the house sync chain.
Resolving to video instead of house/black
There are several reasons why you would
resolve the USD to a video signal rather
than house sync.
or two VTRs, Pro Tools and the USD, using
the video signal as the clock reference is often satisfactory. In these situations, proper
sync can be achieved using the video signal
as clock reference.
Why VITC is Unavailable for Clock Reference
VITC itself does not provide clock information directly as part of its time code information, only positional information. However, since VITC is always embedded into a
video signal, that video signal can be used
as a clock reference by selecting Video Input as the clock reference (or Video Ref In if
your facility has house sync).
When House Sync is Unavailable Resolve to
a video signal whenever you are synchronizing Pro Tools (or other device) to video,
and you either:
• do not have a black burst generator
– or –
• your setup includes equipment that lacks
house sync/black burst input and synchronization capability (including consumer grade VCR, or some entry-level
PC-based editing systems).
LTC Signals
Because it’s an analog audio signal, LTC can
sometimes be susceptible to either tape
dropouts (tape shedding), or to level mismatches between the LTC source and the
LTC input. The USD’s freewheeling feature
allows you to compensate for brief time
code dropouts. However, if you have serious dropouts, you may not be able to sustain accurate synchronization.
Appendix A: Additional Synchronization Information 67
If you plan to use LTC as a Clock Reference
(whether or not you are also using it as a
Positional Reference), you will need to ensure that your LTC is recorded at as high a
level as possible without distortion, and
that there are no dropouts longer than
1/80th of a frame.
The USD reads LTC most reliably when fed
with a LTC signal of at least -12 dBu (and
preferably 0 dBu to +3 dBu.)
Working with Analog Machines
It is good practice on a 24-track analog tape
machine to record time code on Track 24 at
a reference level of -10 dBu (or lower), with
Track 23 left blank as a “guard” track. This
practice avoids crosstalk “bleed” that can
occur between the time code track and otherwise adjacent audio tracks. Time code
(which is a mid-frequency alternating
pitch square wave) is very sensitive to
crosstalk from adjacent tracks, and conversely you don’t want audible time code
leaking onto your audio tracks.
If your ATR is under the control of a synchronizer, you must make sure that the
synchronizer and USD are both locked to
the same reference source (such as, typically, from a video black burst generator.)
Auto-Switch LTC/VITC
Auto-Switch LTC/VITC lets USD automatically select between these two (time code)
sources.
LTC and VITC both provide useful and
unique capabilities. For instance, it is impossible to read LTC off a paused videotape. Consequently, using only LTC,
there’s no way you can use Pro Tools to
perform Auto-Spotting of regions when the
tape is paused. However, VITC continues to
be read as long as the picture remains visible, so it can be used as a positional reference when the VTR is paused. On the other
hand, VITC cannot be read at fast winding
speeds (except by broadcast-quality VTRs);
LTC can be read at fast winding speeds, as
long as its signal remains within the highend frequency response of the ATR or VTR.
Examples of Auto-Switch LTC/VITC
◆ The USD will switch to LTC for posi-
tional reference during hi-speed searching
and cueing, for example, or whenever the
tape speed is too high to read VITC.
◆ The USD will switch to VITC if LTC stops
or is unavailable. This will include, for example, if a tape is paused or parked.
◆ If both LTC and VITC are available, the
USD chooses which one to use based on
the speed of playback. The switch-over
point is approximately 75% of full 1x playback speed. Above 75% playback speed,
LTC is favored; below 75% speed, VITC is
favored.
Universal Slave Driver68
If a dropout occurs, the USD waits until the
freewheel duration has expired before attempting to switch over to the opposite
source. If neither source is available, the
USD will stop reading time code.
Using just Word Clock, it is possible to create a “chain” of digital devices in your studio by picking one source as the Word
Clock master, and configuring other
sources as Word Clock slaves.
AES/EBU
Digital Clock Signal Types
A reference clock signal is part of any digital recording system. It is required because
whenever digital audio information is
mixed together or passed between devices,
the playback samples must be aligned with
the recording samples. In some cases (such
as with AES/EBU or S/PDIF digital interfaces), the clock signal is embedded in the
data stream itself. In other cases, such as
SDIF, the clock signal is carried as an entirely separate signal from the digital audio
sample data.
The USD is able to resolve to three different
types of digital audio clock information:
AES/EBU, Word Clock, and Super Clock
(256x Slave Clock).
Word Clock
Many professional digital audio products—
including open-reel multitrack tape recorders, digital mixing consoles, and the Tascam DA-88 modular digital multitrack—
have Word Clock (1x sample rate) connectors.
Word Clock allows the DA-88 (and other
Word Clock-compatible devices) to send or
receive external clock information which
controls the sample rate, which in turn
(where applicable) controls the play and
record speed.
Some professional digital audio products
use AES/EBU “null clock” (which is an
AES/EBU data stream that contains only
clock information only and no audio information) as a system clock reference source.
These systems rely upon a single AES/EBU
master clock source that is distributed
throughout a digital audio facility, in much
the same way that house sync is distributed
throughout a video facility. If you are connecting the USD to such a system, you will
want to use the USD AES/EBU input as the
clock reference connection, so that all system components are referenced to the
same time base.
In some cases (such as using the USD as a
standalone clock resolver or time code generator without a digital audio workstation),
you may wish to use an audio DAT machine (or other similar device) as a source
of AES/EBU null clock, and resolve your
system to this reference source. In this case,
the audio sample data in the AES/EBU data
stream is stripped off, and only the clock
information is used.
Super Clock
Super Clock (or Slave Clock) is Digidesign’s
proprietary hi-speed Word Clock that runs
at 256x the sample rate. It is required by
Digidesign Pro Tools systems to synchronize audio interfaces (up to the limits of
each system) to a single, highly-accurate
Appendix A: Additional Synchronization Information 69
clock from USD. Pro Tools audio interfaces
must always be connected to this separate
Super Clock signal chain.
Bi-Phase/Tach
Strictly speaking, Bi-Phase/Tach signals are
clock reference signals, and do not contain
positional information of their own. However, they do contain enough information
for the USD to calculate positional information.
Bi-Phase/Tach signals use two square waves
to generate pulses that can function as a
clock reference. The two square waves are
90° out-of-phase, in a pattern that resembles this:
Calculating the direction of a Tach signal is
slightly different. As you may recall, Tach
also uses two signals. The “A” signal is a
square wave that provides clock information; the “B” signal is in a steady state (high
or low) that indicates the direction. Unfortunately, not all Tach-generating equipment uses the B signal in the same way.
Fortunately, the USD’s Input Signals options allows you to choose the appropriate
method (Tach: Fwd = B is Low, or Tach:
Fwd = B is High).
This explains how the USD can use a BiPhase/Tach signal to deduce the direction,
and how it also uses the signal as a clock
reference—as long as USD is told the starting frame of the first clock signal.
Square Wave A
Square Wave B
With a Bi-Phase signal, the USD can deduce
the direction (forward or reverse) of the signal based upon which wave is read “high”
relative to the other. For instance, with
some film equipment, when the device is
running forward, it will generate a Bi-Phase
signal where the “A” wave leads the “B”
wave—that is, where the A wave peaks before the B wave peaks. When the device is
in reverse, the B wave will lead the A wave.
However, some film equipment works in
the opposite manner, which is why the
USD’s Input Signals option lets you make
the appropriate selection (Fwd = A leads B,
or Fwd = B leads A).
Universal Slave Driver70
Pilot Tone
The USD can resolve to an external Pilot
Tone signal for synchronizing to (or transferring audio from) certain types of openreel audio tape recorders.
In general, Pilot Tone is a sine wave reference signal running at the “line frequency”
or “mains frequency,” meaning the same
frequency transmitted by the AC line voltage from the local power utility.
Pilot Tone is used on location film shoots
to establish a common sync reference between a film or video camera with a portable 1/4” analog ATR (such as those made by
Nagra or Stellavox). On location, Pilot
Tone is derived by clock referencing the
camera to the local AC line frequency
(which is 60Hz or 50Hz depending on the
country of origin), and this same frequency
is then used to clock-reference the ATR.
The result is that both the camera and the
ATR will run at the same speed.
You can think of Pilot Tone as a kind of inexpensive and readily available “house
sync” for location production. Increasingly, it’s being replaced by time code,
since new-generation film cameras as well
as many portable DAT recorders are time
code-capable.
Please note that Pilot Tone contains no positional information; it is simply a clock
reference. Most 1/4-inch machines have a
center track for time code or pilot.
Appendix A: Additional Synchronization Information 71
Universal Slave Driver72
appendix b
Technical Specs
General
Nominal Sample Rates 44056 Hz (Pull Down)
44100 Hz
44144 Hz (Pull Up)
47952 Hz (Pull Down)
48000 Hz
48048 Hz (Pull Up)
Frame Rates 30 fps (frames per sec-
ond)
30 fps drop-frame
29.97 fps
29.97 fps drop-frame
25 fps
24 fps
Variable Speed Override ±699 cents (±58.25%) Limited to absolute sample rate
limits of 35.0 kHz and 50.0 kHz
Appendix B: Technical Specs 73
General
Resolver Lock Time LTC: 750 msec
Video: 1.5 sec
Word Clock: 750 msec
Super Clock: 1.5 s (1.0 s typical)
AES/EBU: 750 msec
Bi-phase: 1.0 sec
Pilot: 1.1 sec (60 Hz), 1.3 sec (50 Hz)
Frequency Reference Stability: ±5 ppm from 50 to 131 degrees F
(10 to 55 degrees C)
Aging: ±2 ppm/year typical
Burn-in Window Position: 5 horizontal and vertical positions
Size: Large and small text
Color: Black or white text on white or
black background or keyed
Dimensions Height: 1RU/1.75” (4.45 cm)
Width: 19.0” (48.26 cm)
Depth: 10.5” (26.67 cm)
Weight 5.0 lbs (2.27 kg)
Universal Slave Driver74
General
Vibration Resistance 5 mm displacement, 10 to 55 Hz, each axis
Shock 5 G max
Operating Temperature 32 to 131 degrees F (0 to 55 degrees C)
Storage Temperature -40 to 176 degrees F (-40 to 80 degrees C)
Relative Humidity 0 to 95%, non-condensing
Power Requirements Voltage: 85 to 264 VAC
Frequency: 47 to 63 Hz autoswitching
Wattage: 9.5 W typical, 30 W maximum
Connector: 3-pin, AC and ground (IEC
950:320;3.2.4)
Agency Compliance Meets FCC Part 15 Class A limits, CE EN 55022A, CE EN
60950, CE EN 55082:1, UL 1419 and CSA 22.2
Appendix B: Technical Specs 75
Rear Panel Connectors
Connector Specifications
LTC In Format: SMPTE/EBU 80-bit longitudinal, drop frame/non-
drop frame
Connector: 3-pin XLR female per IEC 268-12
Speed Range: 1/30 to 80X play speed, forward or backward
Level: -24 dBu to +9 dBu, differential (pin 2 hot)
Impedance: 200K ohms
LTC Out Format: SMPTE/EBU 80-bit longitudinal, drop frame/non-
drop frame
Connector: 3-pin XLR male per IEC 268-12
Speed Range: ±10% of play speed
Level: -24 dBu thru +9 dBu RMS, differential (pin 2 hot)
Level Default: 0 dBu RMS, 1.52V p-p ±10mV
Output Impedance: 5K ohms
Load Impedance (min): 600 ohms
Rise/Fall Time: 42us ± 1us measured between 10% and 90% p-p
S/N Ratio: -60 dB RMS at 0 dBu level
Video (Main) In Format NTSC or PAL composite video
Level: 1V p-p
Termination: 75 ohms
Universal Slave Driver76
Rear Panel Connectors
Connector Specifications
Video (Main) Out Level: 1V p-p
Source Impedance: 75 ohms
Video (Ref) In Format: NTSC or PAL composite video
Level: 1V p-p
Termination: 100K ohms
Video (Ref) Out Level: 1V p-p
Termination: 100K ohms
Description: Passive loop-thru of Video Ref in
AES Clock In Level: 5 V p-p at 110 ohms (pin 2 hot)
Connector: 3-pin XLR female per IEC 268-12
AES Clock Out Level: 5 V p-p at 110 ohms (pin 2 hot)
Connector: 3-pin XLR male per IEC 268-12
Word Clock In Level: 0 to .5 V (low), 2.0 to 6.0 V (high)
Connector: BNC Female
Word Clock Out Level: TTL (3.3 V typical)
Appendix B: Technical Specs 77
Rear Panel Connectors
Connector Specifications
Connector: BNC Female
Super Clock In Level: 0 to .5 V (low), 2.0 to 6.0 V (high)
Connector: BNC Female
Super Clock Out Level: TTL (3.3 V typical)
Connector: BNC Female
Bi-phase/Tach/ Connector: 25-pin D-subminiature female (DB25)
GPI/Pilot
Bi-phase/Tach In Frequency Range: 0 to 76.8 KHz
Level: 4.5 to 5.5 V, opto-isolated
Current: 10 mA max
Polarity (bi-phase): Both inputs are software programmable
Polarity (tach): “Direction” polarity is software programmable
Modulo Range: 2 thru 254
Pilot In Level: 100 mV to 5.5 V p-p, differential
Frequency Range: 50/60 Hz nominal
Impedance: 200K ohms
Universal Slave Driver78
Rear Panel Connectors
Connector Specifications
GPI In Description: Four opto-isolator inputs/returns
Level: 4.5 to 5.5 V
Current: 10 mA max
Frequency: Frame-rate max
Latency: Half frame max
GPI Out (TTL) Description: Two TTL-level outputs
Level: TTL (3.3 V typical)
Current: 15 mA
Frequency: Frame-rate max
Latency: Half-frame max
GPI (Relay) Description: Four pairs of SPST contacts, normally open
Load (while switching): .5 A max at 200 VDC
Load (continuous): 1.5 A max at 200 VDC
MIDI Time Code
(MTC) Out
Operate/Release
Time:
Repetition Rate: Frame-rate max
Latency: Half frame max
Current Rating: 15 mA current loop
Rate: 31.25 Kbaud
Connector: 5-pin DIN female
1 ms
Appendix B: Technical Specs 79
Rear Panel Connectors
Connector Specifications
Cable Length: 50 feet (15 meters) max
Mac Serial Format: Apple Macintosh-compatible serial printer port
Connector: 8-pin mini DIN female
Cable Length: 50 feet (15 meters) max
PC Serial Format: PC-compatible RS-232 serial port
Connector: 25-pin D-subminiature female (DB25)
Cable Length: 50 feet (15 meters) max
VITC In Format SMPTE 90-bit, drop frame/non-drop frame
Line Range: 10 to 40 (all-line mode), 10 to 22 (single-line mode)
VITC Out Format: SMPTE 90-bit, drop frame/non-drop frame
Line Range: Two lines, 10 to 20
Universal Slave Driver80
appendix c
Wiring Diagrams Pin Assignments
LTC
The USD’s LTC In and LTC Out connectors
are balanced XLRs with Pin 2 wired “+” or
“hot,” Pin 3 wired “–” or “cold,” and Pin 1
wired to ground (shield). Depending on
whether you are connecting a balanced or
unbalanced signal to these connectors, different wiring configurations are recommended for optimum signal integrity, especially for long cable runs.
If you are connecting a balanced signal to the
USD’s LTC In or LTC Out connectors:
• Pin 1 and ground should be connected at
the input only (not at the output). This
will prevent ground loops between the
shield and the Pin 1 conductor.
If you are connecting an unbalanced signal to
the USD’s LTC In or LTC Out connectors:
• Connect only Pin 2 to the “+” signal;
• Connect both Pins 1 and 3 to ground at
all inputs and outputs.
Refer to the following illustration for the
correct wiring diagrams.
Balanced to Balanced Connection
LTC Out
Connector
12
N.C.
3
Device
+
-
GND
Balanced to Unbalanced Connection
LTC Out
Connector
12
3
Device
+
GND
12
LTC In
Connector
3
LTC In
Connector
3
Device
GND
Device
+
GND
+
-
12
Wiring diagrams for the USD’s LTC In and LTC Out
connectors
Appendix C: Wiring Diagrams Pin Assignments 81
BiPhase/GPI/Pilot
Bi-Phase/GPI/Pilot
Bi-phase/Tach Inputs
Bi-phase/Tach
Universal Slave Driver82
GPI Relay Outputs
GPI Relay Output
GPI (TTL)/MTC Outputs
GPI TTL/MTC Output
Appendix C: Wiring Diagrams Pin Assignments 83
GPI (opto) Inputs
TPI (opto) Input
Universal Slave Driver84
Connector Pin Assignments
Connector Pin Assignments
Mac Serial Port
Pin # Name Description Mac Connection
1
2
3
4
5
6
7
8
Shell
NC No connection Pin 2 (HSKiB)
RTS_IN Request To Send (input to USD) Pin 1 (HSKoB)
RX_OUT Transmitted data (output from USD) Pin 5 input (RXDB-)
GND Chassis ground Ground
TX_IN Received data (input to USD) Pin 3 output (TXDB-)
GND Chassis ground Pin 8 input (RXDB+)
CTS_OUT Clear To Send (output from USD) Pin 7 input (GPiB)
NC No connection Pin 6 (TXDB+)
GND Chassis ground Ground
Appendix C: Wiring Diagrams Pin Assignments 85
Connector Pin Assignments
PC Serial Port
Pin # Name Description
1
2
3
4
5
6
7
8-25
Shell
Bi-phase/Tach/GPI/Pilot Port (Accessory Port)
Pin # Name Description
1
2
3
4
5
GND Connected to chassis ground
TX_IN Received data (input to USD)
RX_OUT Transmitted data (output from USD)
RTS_IN Request To Send (input to USD)
CTS_OUT Clear To Send (output from USD)
NC No Connection
GND Connected to chassis ground
NC No Connection
GND Connected to chassis ground
GPOUT0 GPI TTL-level output 0
GPOUT1 GPI TTL-level output 1
GPOUT0_A GPI Relay 0, contact A
GPOUT0_B GPI Relay 0, contact B
GPOUT1_A GPI Relay 1, contact A
6
7
8
9
10
11
12
13
14
GPOUT1_B GPI Relay 1, contact B
GPOUT2_A GPI Relay 2, contact A
GPOUT2_B GPI Relay 2, contact B
GPOUT3_A GPI Relay 3, contact A
GPOUT3_B GPI Relay 3, contact B
OPTRETURN Return from Bi-phase/Tach opto-isolators
BIPHB_I Input to Bi-phase/Tach opto-isolator B
BIPHA_I Input to Bi-phase/Tach opto-isolator A
GND Chassis ground
Universal Slave Driver86
Connector Pin Assignments
15
16
17
18
19
20
21
22
23
24
25
Shell
PILOT_IN- Pilot tone input, negative
PILOT_IN+ Pilot tone input, positive
RET0 Return from GPI opto-isolator “0”
GPIN0 Input to GPI opto-isolator “0”
RET1 Return from GPI opto-isolator “1”
GPIN1 Input to GPI opto-isolator “1”
RET2 Return from GPI opto-isolator “2”
GPIN2 Input to GPI opto-isolator “2”
RET3 Return from GPI opto-isolator “3”
GPIN3 Input to GPI opto-isolator “3”
VDD +5V DC, fuse protected (see notes below)
GND Connected to chassis ground
USD Serial Cable Pin Assignments
Mini DIN 8-pin Male to Mini
DIN 8-pin Male
12
21
35
44
53
68
77
86
Bi-phase/Tach/GPI/Pilot Port Interfacing Notes
◆ The six opto-isolators are 6N137 devices.
Each port input passes through a 390 ohm
series resistor to the cathode. Each port return comes directly from the anode. The biphase/tach inputs share the same return.
◆ The two TTL-level GPI outputs are driven
by a 74FCT541. Each output passes
through a 220 ohm series resistor.
◆ The fuse is thermally activated. The cur-
rent rating varies between 1.0 A at 60˚C
and 1.5 A at 20˚C. The time to trip varies
with temperature and current. The typical
time to trip at 1.5 A is 5 minutes. Time to
trip at 8 A is 5 seconds. After tripping, the
fuse will return to its low-resistance state
when the current is reduced sufficiently.
Appendix C: Wiring Diagrams Pin Assignments 87
◆ For Tach, the “rate” input is “BIPHA_I”
and the “direction” input is “BIPHB_I.”
The polarity of “BIPHB_I” is software programmable and defaults to “low” for “forward.”
◆ For Bi-phase, the default polarity rela-
tionship between A and B is software programmable. The default setting for
“forward” is “A leads B.” This means that
the rising edge of A (0˚ phase) must precede
the rising edge of B (90˚ phase).
◆ For highest signal quality, use a 25-pin
cable with individually shielded conductors.
GPI Relay Wiring for Fader-Start
The Universal Slave Driver provides a total
of four Relay-level GPI outputs on pins 3/4,
3-10 of the DB25 connector (see the circuit
diagram GPI (TTL)/MTC Outputs).
The GPI Relay outputs are intended to
drive Relay loads only.
GPI TTL WIring
The circuit can drive approximately 2 mA
through a load of 1.6K and maintain a logic
high level of 3.3V. In an application where
the equipment being controlled has more
demanding power requirements, an external buffer or relay circuit mst be used. This
would typically be constructed as part of a
custom electrical interface.
Each GPI TTL output is fully short-circuit
protected via a 220-ohm series resistor.
Before attempting to wire any type of custom interface, always check the electrical
specifications provided by the equipment
manufacturer, including voltage levels,
current, loading and polarity. Incorrect
wiring may damage your equipment, your
USD or cause personal injury.
GPI Triggers
GPI output signals information:
0 (relay) = Play
1 (relay) = Record Ready
2 (relay) = fader start #1
3 (relay) = fader start #2
4 (TTL) = Stop
5 (TTL) = Record
Logical GPI numbers 0 through 3 are associated with GPI relay outputs 0 through 3
(pins 3 through 10). GPI numbers 4 and 5
are associated with GPI TTL outputs 0 and
1 (pins 1 and 2).
Universal Slave Driver88
index
Numerics
14/16 VITC line pair 48
1x 69
256x 22, 69
9-pin connectors 22
A
absolute time code (and LTC) 39
AC Mains Power Switch 17
AC Power In 22
AES/EBU
choosing as clock reference 33
connecting 12
In 21
Out 22
Agency Compliance (FCC) 75
Auto Switch 41
and freewheel duration 69
B
back panel 20
Bi-Phase/Tach 20, 42, 70
controls in USD Setup 25
for mag, flatbed, projectors 35
front panel display of 60
GPI Relay Outputs diagram 83
GPI/Pilot pin assignments 86
input wiring diagram 82
positional reference 42
technical signal information 70
black burst 11
house sync 20
BNC 34
back panel 20
terminator for Video Ref Thru 20
C
character generation (see Window Dub)
clock reference
and resolving 32
choosing digital source 33
front panel LEDs 17
front panel switch 17
selecting a clock source 32
USD Setup 23
Color, for window dub 53
Connected to USD 24
D
DASH 34
DAT signals 69
DB-25 20
DF (LED) 19
DigiSerial Port 2, 8
digital
AES/EBU, Word, Super 69
clock reference front panel 56
clock, setting 33
Down switch 29
drop outs
and auto-switch LTC/VITC 69
and time code freewheel 39
LTC tips 67
F
factory defaults, reset 65
fader start
and GPI wiring 88
overview of 63
using 63
wiring instructions 88
FCC 75
fields (odd/even) indication 23
Index 89
firmware
updating USD 14
flatbed and Bi-Phase/Tach 35
fps 23
frame edge 63
frame rate
configuring, front panel 31
front panel switch 19
USD Setup 23
freewheel duration 24
and auto-switch LTC/VITC 69
front panel display of 58
front panel
Lockout mode 29
switches and displays 17
G
G3 and port connections 8
generate
time code gen/regen 44
Generator
Bi-phase Preset 25
controls 18
controls for 29
Preset Mode 45
Reference Rule 45
Running 24
Generator/Parameter Controls 29
GPI
and fader start 63
back panel connector 20
pinout 82
TTL wiring 88
GPI (opto) Inputs 83
K
kHz (sample rates) 18
L
LED Time Code Display 18
LEDs 17, 18
Locked 19
LED and troubleshooting 19
LTC 11
and clock reference 34
generation/regeneration 46
In (back panel) 21
Out (back panel) 21
output level (USD Setup) 24
output level/gain (front panel) 59
positional reference 39
wiring diagrams 81
LTC Gain 30
M
Mac Serial Port 21
connections for Pro Tools III 9
connections for Pro Tools MIX and 24 8
pin-outs 85
mag and Bi-phase/Tach 36
MIDI Time Code (see MTC)
monotonic VITC
MTC 51
and Idle MTC Output 25
burst mode 51
generation/regeneration 51
Out (back panel) 21
pinout 83
time code output 21
50
H
house sync
connecting 11
I
Idle MTC Enabled
front panel 51
in USD Setup 51
installation
USD and a CPU 7
internal clock 36
Universal Slave Driver90
N
non-drop
display of 19
setting from front panel 31
NTSC
about 24
or PAL, selecting 60
null clock 69
O
OMS 15
oscillator reset 64
P
PAL
about 24
or NTSC, selecting 60
PC Serial port 20
pin-outs 86
phase
see Bi-phase 36
Pilot
back panel port 20
pinout 82
Tone, general 35
Pin 1, 2, 3 (LTC) 81
Pitch Memory 37
enabled (USD Setup) 25
front panel (pitch hold) 59
Port Relinquished 24
positional reference
about 38
front panel LEDs 19
front panel switch 18
selecting 38
USD Setup 23
Pulses Per Frame
configuring 35, 36
front panel 60
Q
Quadrature Sync 36
R
Read/Regeneration Mode 44
reference
clock, digital signal information 69
list of supported 4
regenerating time code 44
relays 63
Remote Mode
about 29
LED for 19
USD Setup and remote-only mode 29
Remote-Only Mode 29
Resolver Locked 24
RUN/STOP+CLEAR 30
S
sample rate
and Speed Cal status display 19
choosing, front panel 31
front panel (sample frequency) 56
front panel LED displays 18
SECAM 24
use PAL 60
serial port
for Macintosh 21
for Windows 20
serial time code
and clock reference 32
special clock information 32
using for positional reference 42
Set Generator Start Time 46
Slave Clock (see Super Clock) 33
Speed Cal
display in USD Setup 24
front panel LED and troubleshooting 19
Status
in USD Setup 24
LEDs 19
Super Clock
256x clock information 34
choosing as clock reference 33
In connector 22
Out connector 22
T
Tach
additional signal information 36
connector, back panel 20
terminated
Video Ref In 20
Video Ref Thru 20
time code
drop outs, freewheeling 39
generating/regenerating 44
serial 32
USD Setup display 23
TTL 83
wiring 88
Index 91
U
Universal Slave Driver 1
checking status in USD Setup 24
control options for 27
front panel operation 17
Up switch 29
updating USD firmware 14
USD (see Universal Slave Driver)
USD Setup
Status 24
time code display 23
window, features 14
V
Variable Speed Override (VSO) 25, 37
Vertical Position 53
video
connecting 11
format, USD Setup 24
managing inputs 61
NTSC and PAL, front panel 60
odd/even field, display of 23
Video In
back panel connector 21
connecting to 11
Video Out 21
Video Ref In
connecting 11
specifying over Video In 32
Video Ref Thru
and terminator for 20
back panel connector 20
connecting 11
VITC
as positional reference 48
connector for positional reference 21
default line pair 48
Generate Lines (USD Setup) 24
Generate Lines, front panel details 57
Insertion Enabled (USD Setup) 24
Insertion, front panel details 56
monotonic 50
positional reference 40
Read Lines (USD Setup) 24
Read Lines, defaults 24
Read Lines, front panel details 57
related settings for 41
timing rule 50
video source rule 47
VSO 25
W
window dub
front panel enable 58
generating 51
setting color 53
vertical position 53
Wiring 81
Word clock
1x clock 34
about 69
choosing as clock reference 33
connecting 11
In connector 22
Out connector 22
Universal Slave Driver92
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