Tektronix, Inc.
PO Box 1000
Wilsonville, OR 97070-1000 USA
1-800-547-8949 (USA and Canada)
1-503-682-7300
EC DECLARATION OF CONFORMITY
Tektronix, Inc.
Video Networking Division
14180 SW Karl Braun Drive
P.O. Box 500
Beaverton, Oregon 97077-0001 U.S.A.
Tektronix, Inc., Video Networking Division, declares on 4 October, 1995, under our sole
responsibility, that the PDR100 Video Disk Recorder to which this declaration relates, is
in conformity with the following standard(s) or other normative document(s):
EMC Directive 89/336/EEC
EC EN55022Limits and methods of measurement of radio interference
characteristics of Information Technology Equipment
EC 50 082-1Electromagnetic compatibility generic immunity standard Part 1:
1992Residential, commercial, and light industry.
Environmental Phenomena Test SpecificationBasic Standard
Radio-Frequency
Electromagnetic Field
27-500 MHz
3V/m (unmodulated)
IEC801-3
Electrostatic Discharge8kV (charge Voltage) IEC801-2
Fast Transients common
mode on Signal lines
AC mains ports
0.5kkV (peak)
5/50 Tr/Th ns
5kHz Rep.
IEC801-4
Frequency
Low Voltage Directive 73/23/EEC
EC EN60950Safety of Information Technology Equipment including Electrical
Business Equipment (includes Appendix ZB)
Copyright 1997 Tektronix, Inc. Wilsonville, Oregon.
Printed in the United States of America or the United Kingdom. All rights reserved. This document
may not be copied in whole or in part, or otherwise reproduced except as specifically permitted
under U.S. copyright law, without the prior written consent of Tektronix, Inc., P.O. Box 1000,
Wilsonville, Oregon 97070-1000 USA.
TEKTRONIX, TEK, and Profile are registered trademarks of Tektronix, Inc. Other trade names used
in this document are trademarks or registered trademarks of the manufacturers or vendors of the
associated products.
Manual Part Number: 070-9040-06
Manual Revision Status
PRODUCT: Profile PDR100 Video Disk Recorders
REV DATEDESCRIPTION
February 1995Original Issue. Manual part number 070-9040-01.
May 1995Manual part number rolls to 070-9040-02.
August 1995Updated to include 4-LTC Ref. Genlock and EMI modifications. Manual part number rolls to 070-9040-03.
October 1995Reorganized and revised extensively. Includes Embedded Audio and Software Rev. 1.3. Manual part
number rolls to 070-9040-04.
September 1996Revised to reflect new CPU board, added CAV Input board information, updated specifications. Manual
part number rolls to 070-9040-05.
August 1997Revised to reflect new LAN and VGA boards. Manual part number rolls to 070-9040-06.
Review the following safety precautions to avoid injury and prevent
damage to this product or any products connected to it.
Only qualified personnel should perform service procedures.
While using this product, you may need to access other parts of the
system. Read the General Safety summary in other system manuals for
warnings and cautions related to operating the system.
Injury Precautions
Use Proper Power
Cord
Ground the ProductThis product is grounded through the grounding conductor of the power
Do Not Operate
Without Covers
Use Proper FuseTo avoid fire hazard, use only the fuse type and rating specified for this
Do Not operate in
Wet/Damp
Conditions
Do Not Operate in an
Explosive
Atmosphere
Avoid Exposed
Circuitry
To avoid fire hazard, use only the power cord specified for this product.
cord. To avoid electric shock, the grounding conductor must be
connected to earth ground. Before making connections to the input or
output terminals of the product, ensure that the product is properly
grounded.
To avoid electric shock or fire hazard, do not operate this product with
covers or panels removed.
product.
To avoid electric shock, do not operate this product in wet or damp
conditions.
To avoid injury or fire hazard, do not operate this product in an explosive
atmosphere.
To avoid injury, remove jewelry such as rings, watches, and other
metallic objects. Do not touch exposed connections and components
when power is present.
Product Damage Precautions
Use Proper Power
Source
Provide Proper
Ventilation
Do Not Operate With
Suspected Failures
Do not operate this product from a power source that applies more than
the voltage specified.
To prevent product overheating, provide proper ventilation.
If you suspect there is damage to this product, have it inspected by
qualified service personnel.
PDR100 Installationix
General Safety Summary
Safety Terms and Symbols
Terms in This
Manual
!
!
!
!
Terms on the
Product
Symbols on the
Product
These terms may appear in this manual:
WARNING:Warning statements identify conditions or practices that can
result in personal injury or loss of life.
CAUTION: Caution statements identify conditions or practices that can
result in damage to the equipment or other property.
These terms may appear on the product:
DANGER indicates a personal injury hazard immediately accessible as
one reads the marking.
WARNING indicates a personal injury hazard not immediately
accessible as you read the marking.
CAUTION indicates a hazard to property including the product.
The following symbols may appear on the product:
DANGER high voltage
Protective ground (earth) terminal
!
!
ATTENTION – refer to manual
Certifications and Compliances
Canadian Certified
Power Cords
FCC Emission
Control
Canadian approval includes the products and power cords appropriate for
use in the North America power network. All other power cords supplied
are approved for the country of use.
This equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to Part 15 of the FCC Rules. These limits
are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial
environment. This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio
communications. Operation of this equipment in a residential area is
likely to cause harmful interference in which case the user will be
required to correct the interference at his own expense. Changes or
modifications not expressly approved by Tektronix can affect emission
compliance and could void the user’s authority to operate this equipment.
xPDR100 Installation
Certifications and Compliances
Canadian EMC
Notice of
Compliance
EN55022 Class A
Warning
This digital apparatus does not exceed the Class A limits for radio noise
emissions from digital apparatus set out in the Radio Interference
Regulations of the Canadian Department of Communications.
Le présent appareil numérique n’émet pas de bruits radioélectriques
dépassant les limites applicables aux appareils numériques de la classe A
préscrites dans le Règlement sur le brouillage radioélectrique édicté par
le ministère des Communications du Canada.
For products that comply with Class A. In a domestic environment this
product may cause radio interference in which case the user may be
required to take adequate measures.
PDR100 Installationxi
Service Safety Summary
!
!
Do Not Service
Alone
Disconnect PowerTo avoid electric shock, disconnect the main power by means of the
Use Care When
Servicing With
Power On
WARNING: These instructions are for use by qualified service
personnel only. To avoid personal injury, do not perform any servicing
unless you are qualified to do so. Refer to all safety summaries before
performing service.
Do not perform internal service or adjustment of this product unless
another person capable of rendering first aid and resuscitation is present.
power cord. or, if provided, the power switch.
Dangerous voltages or currents may exist in this product. Disconnect
power, remove battery (if applicable), and disconnect test leads before
removing protective panels, soldering, or replacing components.
To avoid electric shock, do not touch exposed connections
xiiPDR100 Installation
Chapter
1
Introduction
This manual is part of a set of manuals provided to support installation and operation
of the Tektronix PDR 100 Professional Disk Recorder. The set consists of the User
Manuals along with this Installation manual.
In addition to the PDR100 information, there are installation instructions for the
PDX103 Disk Expansion Unit, and the XLR100 Audio Bypass Unit. Each of these
has its own set of instructions but for ease of installation, mounting and cabling
information has been included in this manual.
Product Description
The PDR 100 is a disk-based video record and playback system yielding a quality
equal to beta machines using metal oxide tape. Aside from the obvious advantage of
not having to load tape, it occupies less rack space and is fully computer controlled.
Record/playback applications for the PDR 100 run on the Windows NTTM operating
system. The system’s total amount of program material storage depends on the
number of hard-disk drives and the video storage rate (number of bytes/field). With
the optional PDX103 Disk Expansion Unit and lowest video storage rate (50,000
bytes/field), it is possible to store up to nine hours of material.
The PDR 100 is mounted on rack slides for installation in either a standard or
“TELCO” rack. The unit is roughly the configuration of a large personal computer
(PC) with 16 Extended Industry Standard Architecture (EISA) slots, one ISA slot, up
to 32 Gbytes of disk storage, and a 32 by 32 CCIR 601 eight-bit routing switch. Three
control interfaces are supported: RS-232, RS-422, and keyboard/ mouse with VGA
output. The PDR 100 RS-422 interface has eight separate ports which require the
RS-422 Connector Panel (supplied with the PDR 100).
The system is controlled by an internal computer card with dedicated (system) hard
disk storage and a 3
three interfaces. A VGA circuit card supports an optional SVGA monitor for use with
the internal system controlling computer. The Microsoft Windows NT
software is loaded on the system hard disk.
1
/
-inch floppy disk drive. It can be addressed through any of the
2
TM
operating
PDR100 Installation1-1
Chapter 1 Introduction
Operation Overview
Program video is input to the system in component serial digital, component analog,
or composite analog format, converted to parallel digital format, and routed to the
Disk Recorder circuit board by the on board video router. The parallel digital signal
is compressed (JPEG) and stored on the hard disk.
Upon recovery, the compressed parallel digital component video is decompressed and
routed to the output circuitry where it is converted back to serial digital or analog
format. The composite output undergoes an additional conversion back to either the
NTSC or PAL format. The composite output circuit board supports up to four
composite program outputs and a monitor channel. The monitor channel can have
time code burned in.
Each video channel can be supported by up to four channels of audio. A separate
audio circuit board is required for each four channels of audio input or output. The
audio signal is stored on a hard disk along with the video. For playback, the audio is
recovered from its storage location and output with the same video signal relationship
it had when recorded.
Control of the hard disks is accomplished by the Disk Recorder circuit boards, which
also provide the JPEG compression/decompression. The Master Disk Recorder can
control as few as 4 and as many as 12 hard disks. A Slave Disk Recorder can be added
to control between 4 and 12 additional hard disks. The total number of hard disks that
can be accommodated by a single PDR 100 (with PDX103 Disk Expansion unit) is
24.
The PDX103 is an optional Disk Expansion Unit containing its own power supply
and as many as 16 additional hard disks in a 7-inch (four rack units) high by 25.5-inch
deep, and 19-inch wide unit. The Disk Expansion Unit is delivered with either 8 hard
disks (2 banks of 4 to support 2 Disk Recorder boards in the PDR 100, a single bank
of 8 to support 1 Disk Recorder board), or with 16 hard disks to fully utilize the
capacity of 2 Disk Recorder boards.
1-2PDR100 Installation
Accessories
There are two types of accessories for the PDR100. Standard Accessories are those
items required to place the video disk recorder in service; they are shipped with the
VDR. Optional accessories are those available through Tektronix that will expand
VDR capabilities, simplify the installation, or aid in servicing.
Standard Accessories
The following items were included for shipment with the PDR 100:
• 1 Manual, Users (Tektronix part number 070-9042-XX)
• 1 Manual, Installation (Tektronix part number 070-9040-XX)
• Software Package
• 1 Windows NT instruction book (Tektronix part number 063-2284-XX)
• 1 Keyboard (Tektronix part number 119-4254-XX)
• 1 Mouse (Tektronix part number 119-4330-XX)
• 2 Packages (12 pieces) EMI Suppression Gaskets for BNC Connectors (Tektronix
part number 016-1448-XX)
Accessories
• 1 Cable Assembly, Power (161-0216-00 for US and Japan; 161-0066-09 for
Europe; 161-0066-10 for the United Kingdom; or 161-0066-11 for Australia)
• 1 SCSI Terminator (011-0166-00)
• 1 RS-422 Control panel, with interconnecting cable (039-0028-XX)
• 1 Set of rack-mounting slides
Optional Accessories
The following items are available from Tektronix, Inc. Contact your nearest field
office or distributor for more information.
• SVGA Monitor
• Service Manual (Tektronix part number 070-9041-XX)
• XLR100 Audio Bypass and Breakout Unit
• PDX103 Disk Drive Expansion Unit
• Additional Hard Disk Drives for either PDR100-Series or PDX103
•
Eight-connector DB25-XLR breakout cable for audio or longitudinal time code I/O
(Tektronix part number 174-3249-XX)
• Eight-connector breakout cable, with DB25 connector and tinned leads (Tektronix
part number 174-3481-XX)
PDR100 Installation1-3
Chapter 1 Introduction
1-4PDR100 Installation
Chapter
2
Configuration
The PDR100 Mother board with its connectors for the circuit boards allows the
PDR100 to be configured in a number of ways. Any configuration of the PDR100
consists of circuit boards that are required in all configurations and circuit boards
specific to a particular configuration.
On the Mother board, the connectors are arranged into the EISA bus and Video Router
as shown in Figure 2-1. All of the circuit boards plug into the EISA bus. (Slot J2,
which is on the EISA bus, is limited to ISA only.) A number of the circuit boards, such
as the Master or Slave Disk Recorder and the Input/Output (I/O) boards, require
connection to both the EISA bus and the Video Router, which is provided by slots
J5-J16.
J1J2J5
EISA Bus
J9
J17
J16J14
ISA
Only
Video Router
J105
Figure 2-1. Circuit Board Slot Nomenclature
J116J109J112
9040-2
PDR100 Installation2-1
Chapter 2 Configuration
Configuration Guidelines
The information given here is to help install circuit boards in configurations that differ
from factory configurations. This information can be useful when adding a new
circuit board to the PDR100 and you need to move boards around to make room.
Some of the circuit boards must be installed in specific locations, others are installed
in locations that are dictated by the configuration.
Circuit Board Installation Rules
In order to ensure correct operation of the PDR100, it is necessary to follow some
specific rules involving the installation of the various circuit boards.
• Processor and VGA boards must be installed in Mother board slots J1 and J2
respectively.
• Slots J5 through J16 have access to both the EISA bus and the Video Router;
however, the number of router connections accessible from specific slots varies,
making it necessary to arbitrarily assign some configuration-specific boards to
designated slots.
• Disk Recorder circuit boards must be in Mother board slots J14 (Master) and J15
(Slave).
• Slot J17 on the Mother board is EISA only and is dedicated to the RS-422 board.
• The Reference Genlock circuit board must be installed in Mother board slot J16.
• Analog Composite Output circuit boards (for NTSC or PAL) can only be installed
in Mother board slots J11 or J12.
• Audio circuit boards need to be close enough to their respective input or output
boards to allow clock cabling. In most cases, the audio board will be adjacent to
the input board and no more than two slots away from the output board.
• Serial I/O boards cannot be installed adjacent to Analog Composite Output boards.
2-2PDR100 Installation
Circuit Boards Required for All Configurations
Circuit Boards Required for All Configurations
The following circuit boards are required in every PDR100:
• Processor
• VGA-I/O
• Reference Genlock
• Master Disk Recorder
• RS-422 Interface
Processor
The Processor is always installed in slot J1. It communicates with the outside world
through the RS-422 Interface circuit board (that is installed in J17), RS-232 interface,
VGA, mouse keyboard combination, and if installed, a Local Area Network (LAN)
circuit board.
VGA-I/O
The VGA-I/O board is always installed in slot J2 next to the Processor board. In
addition to the video interface for the monitor, this board provides internal
connections to the PDR100’s RS-232 Serial port, the system hard disk drive, and the
floppy disk drive. There is also a parallel port, the IDE interface for the system hard
disk, and the floppy disk driver.
Reference Genlock
Slot J16 is assigned to the Reference Genlock circuit board. It requires both EISA bus
and Video Router connections. Like its neighbor the RS-422 Interface circuit board,
it is required for all configurations.
Master Disk Recorder
Each Disk Recorder circuit board requires a set of four or eight hard disk drives. This
can be as many as 12 hard disk drives per Disk Recorder, when the PDX103 is also
used. The Master Disk Recorder circuit board is always located in slot J14. It controls
4, 8, or 12 hard disk drives, depending on the number of hard disk drives installed and
whether the PDX103 is in use.
PDR100 Installation2-3
Chapter 2 Configuration
Circuit Boards that Support Configurations
Some of the circuit boards can be loaded into almost any of the slots, while others
must go into specified locations. The slots that are available for configuration-specific
circuit boards are J3 through J13. See Figure 2-2.
J14 through J17 are also dedicated slots, used for the Disk Recorders, Reference
Genlock, and RS422A Interface circuit boards.
Slave Disk Recorder
When the PDR100 is configured for four channel operation, a Slave Disk Recorder
circuit board is required. This circuit board is always located in slot J15.
Analog Composite Input
The Analog Composite Video Input is a two circuit board set requiring two EISA/
Video Router slots (between J5 and J13.) One slot is occupied by the Decoder circuit
board, while the second slot has the one video-channel Input circuit board.
J1J2J5
EISA Bus
J9
J17
J16J14
2-4PDR100 Installation
Processor,
VGA, & RS-422 I/O
Master Disc
Controller
Reference
Genlock
Figure 2-2. Required Circuit Boards for All Configurations
J105
Video Router
J109J112
J116
9040-3
Serial Digital Component Input/Output
A single Serial Digital Component Input/Output circuit board provides two input and
two output channels. Up to two boards (four video channels) can be installed in any
available slot(s) with connections to the Video Router.
Component Analog Video (CAV) Input
The Component Analog Video (CAV) Input board accepts a single source of
component analog video input. The CAV Input board can be installed in any available
slot that includes connection to the Video Bus (slots that include the Video bus are
slots J5-J16).
Analog Composite Output
The Analog Composite Output circuit board supports up to four channels of video.
Only slots J11 and J12 with four Video Router connections can support these circuit
boards.
Audio Input/Output
Each Audio Input/Output circuit board provides four-channel analog audio input and
output. Up to four Audio circuit boards can be installed in a single PDR100. Audio
circuit boards do not require connection to the Video Router, which also allows them
to be used in slots J3 and J4 (EISA only.) However, they do need to be adjacent to a
Video Input or Output for cabling.
Additional Configurations
Additional Configurations
Not all of the available configurations of the PDR100 require the addition of circuit
boards; however, in some cases, both circuit boards and external items are part of the
appropriate configuration. For example, adding a monitor requires both an SVGA
monitor along with the installed VGA circuit board.
Keyboard and Mouse
The processor can be controlled externally using a keyboard and mouse.
Monitor (VGA)
Slot J2 is the location of the VGA circuit board. When an SVGA monitor is used, it
is cabled to the D-type connector on the back of the VGA circuit board.
Local Area Network (LAN)
Interface card for access to a local area network. Requires an EISA slot. It should be
installed in J3.
PDR100 Installation2-5
Chapter 2 Configuration
Typical Configurations
The majority of the PDR100’s will use one of the following typical configurations.
Processor and Disk Recorder circuit boards remain constant throughout the
configurations.
Serial Four-Channel In and Four-Channel Out
This is Option 40 in the standard factory configurations. The Serial I/O circuit boards
have two-channel input and output each; two I/O circuit boards and four audio circuit
boards are required for this configuration. See Table 2-1. This configuration uses
eight hard disk drives and two Disk Recorder (Master and Slave) circuit boards to
support four-channel operation.
Table 2-1. Circuit Boards for Serial Four-CH In/Four-CH Out
SlotBoard NameDedicated
Location
J1ProcessorYesEISA & ISA
J2VGA-I/OYesISA
J3Empty—
J4Empty—
J5Empty—
J6Empty—
J7Empty—
J8Serial I/ONoTwo Video Channels In & Two Video Channels Out
J9AudioNoFour Audio Channels
J10AudioNoFour Audio Channels
J11Serial I/ONoTwo Video Channels In & Two Video Channels Out
J12AudioNoFour Audio Channels
J13AudioNoFour Audio Channels
J14Master Disk RecorderYesControls four, eight, or twelve hard disks
J15Slave Disk RecorderYesControls four, eight, or twelve hard disks
J16Reference GenlockYes
Miscellaneous
J17RS-422 I/OYes
2-6PDR100 Installation
Analog Composite Two Channels In and Four
Analog Composite Two Channels In and Four Channels Out
This is Option 43 in the standard factory configurations. This configuration uses two
analog composite inputs and four analog composite outputs. The configuration is
shown with two Disk Recorder circuit boards and a minimum of eight hard disk
drives. See Table 2-2.
Table 2-2. Circuit Boards for Analog Composite Two-CH In/Four-CH Out
SlotBoard NameDedicated
Location
J1ProcessorYesEISA & ISA
J2VGAYesISA
J3Empty—
J4DecoderNoTwo board set that must be kept together.
J5Composite Analog InputNo
J6AudioNoFour Audio Channels
J7Empty—
J8DecoderNoTwo board set that must be kept together.
J9Composite Analog InputNo
J10AudioNoFour Audio Channels
J11Composite Analog OutputYesRequires four video connections at the Video
J12AudioNoFour Audio Channels
J13AudioNoFour Audio Channels
J14Master Disk RecorderYesControls four, eight, or twelve hard disks
J15Slave Disk RecorderYesControls four, eight, or twelve hard disks
Miscellaneous
Router bus
J16Reference GenlockYes
J17RS-422 I/OYes
Note that there is an Audio circuit board adjacent to each Analog Input circuit boards
for audio input/output. In addition, there are Audio circuit boards in J12 and J13 next
to the Composite Analog Output circuit board to accommodate the third and fourth
audio output channels.
PDR100 Installation2-7
Chapter 2 Configuration
Analog Composite One Channel In and Four Channels Out
This is Option 42 in the standard factory configurations. This configuration takes in
one video channel (with 4-channel audio) and outputs four video channels. It has a
minimum of eight hard disk drives and both Master and Slave Disk Recorder circuit
boards to support four-channel operation. See Table 2-3.
Table 2-3. Circuit Boards for Analog Composite One-CH In/Four-CH Out
SlotBoard NameDedicated
Location
J1ProcessorYesEISA & ISA
J2VGAYesISA
J3Empty—
J4DecoderNoTwo board set that must be kept together.
J5Composite Analog InputNo
J6AudioNoFour Audio Channels
J7Empty—
J8Empty—
J9Empty—
J10AudioNoFour Audio Channels
J11Composite Analog OutputYesRequires four video connections at the Video
J12AudioNoFour Audio Channels
J13AudioNoFour Audio Channels
J14Master Disk RecorderYesControls four, eight, or twelve hard disks
J15Slave Disk RecorderYesControls four, eight, or twelve hard disks
Miscellaneous
Router bus
J16Reference GenlockYes
J17RS-422 I/OYes
Note that there is an Audio circuit board adjacent to the Composite Analog Input
circuit board for audio input. In addition, there are Audio circuit boards on both sides
of the Composite Analog Output circuit board to accommodate three separate
four-channel audio outputs.
2-8PDR100 Installation
Chapter
3
Mechanical Installation
The installation instructions in this chapter are for the PDR100 Video Disk Recorder
and its companion units, the PDX103 Disk Expansion Unit, the RS-422 Connector
Panel, and the XLR100 Audio Bypass Unit. This equipment is designed to be rack
mounted. The PDR100 and the PDX103 are mounted to the rack with rack slides and
face forward in the rack. The RS 422 Control Panel and the XLR100 mount at the rear
of the rack using front panel attaching screws. Figure 3-1 shows an installation that
includes the PDR100 and the PDX 103 mounted in a rack.
Figure 3-1. Typical PDR100 Installation with PDX103 Disk Drive Expansion Unit
The position of the units in the rack must be considered because of their weight. If the
rack is not firmly mounted to the floor or vertically supported, the units should be
located low enough to not cause the rack to tip when the cabinets are pulled out on the
rack mounting slides.
PDR100 Installation3-1
Chapter 3 Mechanical Installation
Rack Dimensions
The PDR100 Disk Recorder, PDX103 Disk Expansion Unit, XLR100, and the
RS-422 Connector Panel are all shipped with hardware for rack mounting. The major
dimensions for all four units are shown in Figures 3-2, 3-3, 3-4, and 3-5. All four units
fit in a standard 19-inch (48.3 centimeter) rack. Spacing inside the front rails of the
rack must be at least 17
tracks used for the PDR100 and the PDX103.
25.463 in
(64.7 cm)
3
/
(45.1 centimeter) inches to allow clearance for the slide-out
4
16.750 in (42.5 cm)
23.000 in
(58.4 cm)
3-2PDR100 Installation
8.720 in
(22.15 cm)
19.000 in (48.3 cm)
Figure 3-2. PDR100 Dimensions for Rack Mounting
Rack Dimensions
17.375 in (44.13 cm)
3.000 in
(7.62 cm)
1.750 in
(4.45 cm)
19.000 in (48.3 cm)
Figure 3-3. Dimensions of the RS-422 Connector Panel for Rack Mounting
16.750 in (42.5 cm)
2.500 in
(6.35 cm)
23.000 in
25.250 in
(66.68 cm)
7.00 in
(17.8 cm)
19.000 in (48.3 cm)
(58.4 cm)
Figure 3-4. Dimensions of the PDX103 for Rack Mounting
PDR100 Installation3-3
Chapter 3 Mechanical Installation
6.000 in
(15.25 cm)
3.500 in
(8.9 cm)
Figure 3-5. Dimensions of the XLR100 Audio Bypass Unit for Rack Mounting
Mounting the PDR and PDX Units
The rack slides mount in any rack that has a front-to-rear rail spacing between 15.50
and 28 inches (39.4 and 71.1 cm). Six inches (15.25 cm) of clearance between the
PDR100 rear panel and any rear cabinet panel is required for connectors and cable
bends. In addition, adequate air flow must be assured around the cabinet to provide
sufficient cooling. (Operating ambient temperature will effect the amount of air
circulation required to keep the PDR100 within its temperature limitations.)
17.250 in (43.8 cm)
19.000 in (48.3 cm)
The rack slide set for each side of the cabinet consists of three major sections and
mounting hardware. Figure 3-6 shows the rack slide for the right side of the cabinet.
10-32 PHS
Screw
Flat
Nut
Bars
Rear
Mounting
Chassis Section
Intermediate
Section
10-32 PHS
Screw
Stop Latch
Hole
Automatic
Latches
Stationary
Section
Flat Nut Bar
NOTE: Right-hand and left-hand stationary section is designated by the
RH and the LH marked on the rails. Stop latch holes should be towards
the bottom when slides are in place. (The right-hand rail is shown above.)
Figure 3-6. Complete Rack Slide Set for Right Side of Cabinet and Rack
3-4PDR100 Installation
Mounting the Slide Tracks in the Rack
Locate the proper rack holes as shown in Figure 3-7. Notice that the hole spacing can
vary with the rack type. When installing the slides in racks with EIA spacing, make
sure that the slides are attached to the 0.5 inch spaced holes.
Mount the rails using the enclosed hardware as shown in Figure 3-6. Figures 3-8 and
3-9 show the front and rear rail mounting details for both deep and shallow racks.
Make sure the stationary sections are horizontally aligned and are level as well as
parallel to each other.
Mounting the PDR and PDX Units
MIL STD 189
SPACING
1.250 in
(3.18 cm)
0.625 in
1.250 in
(3.18 cm)
Figure 3-7. Spacing for Mounting Holes in a Standard Rack
(1.59 cm)
“UNIVERSAL” SPACING
EIA RS310, RETMA
1.250 in
(3.18 cm)
0.500 in
(1.27 cm)
0.625 in
(1.59 cm)
PDR100 Installation3-5
Chapter 3 Mechanical Installation
(Use if the front rail is not tapped)
Figure 3-8. Front Slide Mounting Detail
BAR NUT
BAR NUT
REAR RACK RAIL
Figure 3-9. Rear Slide Mounting Detail
PNH
SCREWS
3-6PDR100 Installation
Installing the PDR100 or PDX103in the Rack Slides
1. Pull the slide-out track section to the fully extended position. See Figure 3-10.
2. Insert the ends of the cabinet chassis sections into the slide-out sections.
3. Push the cabinet toward the rack until the chassis sections lock into the
intermediate sections.
4. Press the stop latches in the intermediate sections and push the cabinet toward the
rack until the latches snap into their holes.
5. Again press the stop latches and push the cabinet fully into the rack.
6. Tighten the front-panel retaining screws.
Mounting the PDR and PDX Units
Rack Slide Adjustments
After installation binding may occur if the slide tracks are not properly adjusted. To
adjust the tracks:
1. Slide the cabinet out about 10 inches.
2. Loosen slightly the screws holding the tracks to the front of the rails, and allow the
tracks to seek an unbound position.
3. Tighten the mounting screws and check the tracks for smooth operation by sliding
the cabinet in and out of the rack several times.
4. Tighten the front panel retaining screws once the cabinet is in place within the rack
to complete the installation.
Stop Latch
Figure 3-10. Rack Slide Stop Latch
PDR100 Installation3-7
Chapter 3 Mechanical Installation
Rack Slide Maintenance
The slide-out sections of the tracks do not require lubrication. The dark gray finish on
the tracks is a permanent lubricating coating. The track sections should be checked
periodically for build-ups of dust or foreign material that might cause them to bind.
Removing the Unit
CAUTION: Be sure all cables are disconnected from the PDR100 or PDX103 prior
!
!
to attempting to remove the unit.
WARNING: Both the PDR100 and the PDX103 are considered to be too heavy for
!
!
one person to remove. PDR100 exceeds 70 pounds when equipped with eight hard
disks. PDX103 weight is similar.
1. Loosen retaining screws and pull cabinet outward until all three slide sections
latch.
2. Press both track stop latch buttons (visible in the stop latch holes) and carefully
slide the cabinet free of the tracks.
Mounting the RS-422 Connector Panel and XLR100
The RS-422 Connector Panel and XLR100 Audio Bypass are designed to mount at
the back of the rack. They are held in place by four pan head screws. The RS-422
panel is one rack unit high with the mounting holes spaced 1.250 inches (3.175 cm)
apart. The XLR100 panel is two rack units high with holes spaced 3.000 inches (7.62
cm) apart. For rack hole spacing see Figure 3-7. This connector panel has no cooling
requirements; it contains all passive circuitry. The Audio Bypass Unit has no special
cooling requirements, but does require mains power to operate.
3-8PDR100 Installation
Electrical Installation
Power Source
The PDR100, PDX103, and XLR100 are designed to operate from a single-phase
power source having one of its current-carrying conductors at or near earth ground
(the neutral conductor). Only the line conductor is fused for over-current protection.
Systems that have both current carrying conductors live with respect to ground, such
as phase-to-phase in multi-phase systems, are not recommended as power sources.
Mains Frequency and Voltage Ranges
The PDR100, PDX103, and XLR100 operate at line frequencies of 50 or
60 Hz at nominal mains voltages from 100 to 240 Vac. Table 3-1 lists the power cord
options available.
Table 3-1. Power Cord Options for the PDR100, PDX103, and XLR100
Power PlugDescription
Standard 120 V, 3-prong power plug on a 2.5 meter long
power cord. For use with common ground systems in
North America.
Electrical Installation
Option A1 Universal European 220V/16A power plug on
a 2.5 meter long power cord.
Option A2 United Kingdom 240V/15A power plug on a
2.5 meter long power cord.
Option A3 Australian 240V/10A power plug on a 2.5
meter long power cord.
PDR100 Installation3-9
Chapter 3 Mechanical Installation
Cabling for All Applications
In order to install the PDR100, it is necessary to connect a number of cables. Most of
the cabling is straightforward; however, there are some subtleties that need to be
considered.
To ensure compliance with EMI certification requirements, the mesh washers
supplied must be used when connecting BNC connectors to the rear panel. Install the
washers as shown in Figure 3-11.
Figure 3-11. Installing Mesh EMI Washers
9040-1
3-10PDR100 Installation
PDR100 Rear Panel Connections
There are a number of rear-panel connections that must be made to use the PDR100.
Each connector on the rear panel will be discussed with any required terminations.
Figure 3-12 shows the connections required from the four circuit boards mounted in
slots 14 through 17. Slot 17 has the RS-422 Interface circuit board. Slot 16 contains
the Reference Genlock circuit board. Slot 15 is reserved for the Slave Disk Recorder
circuit board. Slot 14 has the Master Disk Recorder circuit board. Boards must be in
the assigned slots for the PDR100 to operate correctly.
The SCSI interface(s) in the PDR100 Video Disk Recorder must be terminated on the
PDR100 rear panel to operate correctly. If a PDX103 is used, the SCSI interface is
terminated at the SCSI connectors on the expansion unit. (See “Extending the SCSI
Bus” on page 3-17.) One terminator is supplied with the PDR100 as a standard
accessory if just a Master Disk Recorder circuit board is installed; two terminators are
supplied if there is also a Slave Disk Recorder circuit board installed.
Ω
End-Line Termination
75
PDR100 Rear Panel Connections
SCSI Termination
House Reference (Black Burst)
RS-422 Cable to RS-422
Connector Panel
Longitudinal Time Code Cable
Figure 3-12. Connections and Terminations for Slots 14 - 17
Connecting the Reference Genlock
The Reference Genlock circuit board is in slot 16. It has two BNC connectors that
form a bridging high impedance loop-through for the house reference signal. The
reference signal is used to synchronize the 27 MHz video clock and to provide the
field reference. The bridging loop-through connection is compensated for a 75Ω line,
which means that the line must be terminated, at some point, in its characteristic
impedance to operate correctly. See Figure 3-12.
9040-11
PDR100 Installation3-11
Chapter 3 Mechanical Installation
Connecting Linear Time Code
There are eight Longitudinal Time Code (LTC) interfaces (four inputs and four
outputs) incorporated in the DB25 connector on the rear panel of the Reference
Genlock circuit board. Table 3-2 lists the pin assignments for the DB25 connector.
An eight-connector DB25-XLR breakout cable (shown in Figure 3-13 is available as
an optional accessory. The XLR connectors are labeled to correspond with the inputs
and outputs listed in Table 3-2.
NOTE: The DB25-XLR breakout cable is also used to connect the Audio circuit
board to the XLR100 as described on page 3-14.
Table 3-2. Pin Assignments for the DB25 - XLR Adaptor Cable
Power-On Indicator Pin 13 when used with Audio card
+ Signal-SignalCommon
3-12PDR100 Installation
9040-5
Figure 3-13. Breakout Cable for the PDR100
Connecting the RS-422 Connector Panel
Connecting the RS-422 Connector Panel
The RS-422 Interface is located in slot 17. This is an EISA-only slot. The rear-panel
connector is the receptacle for the cable from the RS-422 Connector Panel, which
provides eight addressable RS-422 ports. See Figure 3-14.
RS-422 Communications (Ports 1-8)
Figure 3-14. Cable Connection Between the PDR100 and RS-422 Connector Panel
9040-10
PDR100 Installation3-13
Chapter 3 Mechanical Installation
Connecting the XLR100 Audio Bypass Unit
The Audio Input/Output circuit cards can be located in most slots from 3 to 13. Audio
cards are labeled by Banks. Each of the rear panel audio I/O connectors provides four
inputs and four outputs from and to a bank of audio through the XLR100 Audio
Bypass Unit. See Figure 3-15. Connections shown here are for four full banks of
audio. In addition, any cable that adapts the 25-pin sub-miniature D-type (DB-25)
connector to XLR connectors can also be used.
Figure 3-15. Audio Cabling Between the XLR100 and the PDR100 Audio I/O Cards
Pin number assignments for the PDR100 rear-panel Audio DB-25 connectors are
shown in Table 3-2, “Pin Assignments for the DB25 - XLR Adaptor Cable,” on
page 3-12.
In addition to the audio bypass unit, an eight-connector breakout cable can be used to
bring the audio signals into the PDR100 audio interface. Figure 3-13 shows one of
two optional cables. The XLR connectors are labeled to correspond with the Input and
Output Channels shown in Table 3-2. The other cable is 20 feet long with a DB25
connector and tinned leads.
3-14PDR100 Installation
9040-4
Connecting to a Local Area Network (LAN)
Slot J3 is an EISA slot that is the most convenient location for the Local Area
Network circuit board. If the PDR100 was ordered with Option 1L, it will have the
LAN circuit board in that slot. See Figure 3-16.
Connecting the XLR100 Audio Bypass Unit
J17J13J16
Figure 3-16. Location of the Local Area Network (LAN) and VGA Circuit Boards
Connecting to an SVGA Monitor
Slot J2 is an ISA-only interface. It is used by the PDR100 for the SVGA monitor
interface. It accepts a standard VGA cable with a DB-15 connector from the monitor.
See Figure 3-17.
J11J9
J12
J10
J15 J14J6J7
LAN (Local Area Network)
J8
VGA for SVGA Monitor
J4 J3 J2
J5
J1
9040-6
PDR100 Installation3-15
Chapter 3 Mechanical Installation
Connecting the Keyboard and Mouse
The keyboard and mouse provide direct communication with the processor in slot J1.
Two sets of plugs are provided; however, some early models only have the connectors
on the Processor card. If both sets of connectors are present, it is recommended that
the set on the PDR100 rear panel be used, they have additional EMI suppression built
in. Connectors for the mouse and keyboard are identical 6-pin types. Be sure that they
are plugged into the correct connectors.
NOTE: Connect only one keyboard and one mouse to the PDR100.
J11J9
J13
J12
J14J6J7
J10
J8
J4 J3 J2
J5
J1
Keyboard
(recommended)
Mouse
(recommended)
SVGA
Monitor
Figure 3-17. Connectors for the Keyboard, Mouse Cabling to the PDX103
Parallel
Port
VGA Circuit
CPU Circuit
Board
Board
Mouse
Keyboard
9040-7
3-16PDR100 Installation
Extending the SCSI Bus
The PDX103 extends one or both SCSI buses to include four or eight additional hard
disk drives. The extended bus must be terminated, just as the internal bus is
terminated.
To connect the disk drives in the PDX103, run a SCSI cable from the PDR100
SCSI A (and, where applicable SCSI B) connector to the PDX103 rear panel
connector. Note that there are four connectors on the rear panel, two for each of the
SCSI channels. See Figure 3-18.
Connecting the XLR100 Audio Bypass Unit
Loop-throughLoop-through
SCSI BSCSI A
Figure 3-18. Rear Panel Drawing of the PDX103 Showing the 4 SCSI Connectors
One connector for each channel serves as the input while the other is then terminated
with the passive termination. See Figure 3-19. The termination is the same one
shipped with the PDR100, which must now be on the PDX103 end of the SCSI bus.
9500-2
Figure 3-19. Passive SCSI Bus Termination
PDR100 Installation3-17
Chapter 3 Mechanical Installation
When the PDX103 is added, connect it as shown in Figure 3-20.
J17J13J16
J15 J14J6J7
SCSI Termination
Figure 3-20. Cabling in a PDX103 Disk Drive Expansion Unit
J12
SCSI ASCSI B
J11J9
J10
J8
J4 J3 J2
J5
J1
9040-16
3-18PDR100 Installation
Cabling for Specific Video Standards
Cabling for Specific Video Standards
The PDR100 supports a number of video standards by having several variations of
input and output circuit cards that can be installed. Some of the more common
applications and the cabling to support them are discussed in the pages that follow.
Serial Digital (CCIR 601)
Connecting Serial Video In and Video Out
The Serial Video Interface, which can be installed in any slots between J5 and J13,
has two inputs and two outputs. The inputs are terminated in 75Ω. They are not
bridging loop-through connectors. No external termination is required. Up to two
Serial Video Interface circuit boards can be installed in a PDR100 unit to provide four
video channels. See Figure 3-21. This illustration shows two serial digital interfaces
with accompanying audio, to provide four video inputs and outputs. The software
scans the bus from right to left as viewed from the back of the PDR100, and assigns
the board numbers in that order. The video connectors are labeled as the software
would initially configure them. Note that each Serial Digital circuit board has its two
companion audio circuit boards to its left.
Audio
Bank 4
Serial Digital
Input 2A
Serial Digital
Input 2B
Serial Digital
Output 2A
Serial Digital
Output 2B
Figure 3-21. Connections for 601 Serial Digital Video and Analog Audio
Audio
Bank 3
601 Serial
Digital Video 2
Audio
Bank 2
Audio
Bank 1
Serial Digital
Input 1A
Serial Digital
Input 1B
Serial Digital
Output 1A
Serial Digital
Output 1B
601 Serial
Digital Video 1
NOTE: Serial digital boards with embedded audio capability do not have
companion audio boards.
PDR100 Installation3-19
Chapter 3 Mechanical Installation
Connecting the Audio In and Audio Out for Serial Video
Each Analog Audio circuit board supports four channels of audio input or output. The
channels or banks of audio are labeled A through D. Two internal clock cables
synchronize the Audio circuit board to its associated Serial Video circuit board.
(There are two boards assigned to each Serial Video circuit board for this application.)
The Audio circuit boards accept DB-25 connector-equipped cables. In order to
interface with standard XLR connectors, either a “breakout box,” such as the
Tektronix XLR100 Audio Bypass Unit, or a special cable that provides eight XLR
connectors from a single DB-25 connector will be required. The adaptor cable can
also be ordered from Tektronix. See “Optional Accessories.”
Analog Composite (NTSC or PAL)
Connecting Composite Video Input
The composite input circuitry requires two circuit board slots. One slot is used for the
input circuitry and one for the composite decoder circuitry. The Input circuit board
requires connection to the Video Router, while the Decoder circuit board does not;
however, they must reside in adjacent slots. In addition, an Analog Audio circuit
board is required and must be located next to either the Video Input or Decoder circuit
boards. Since a Decoder board requires only an EISA bus connection, it can be
installed in slot J4 with an Analog Audio circuit board in slot J3, and the Video Input
circuit board in slot J6 (which is on the Video Router.)
The configuration shown in Figure 3-22 is three video inputs and four video outputs.
Note that the Video Input circuit boards have high impedance bridging loop-through
inputs, which require termination in 75Ω, or the characteristic impedance of the video
program line. Note also that there is an Audio circuit board for each Video Input
circuit board, and they are shown numbered as the software would initially configure
them. The circuit boards are scanned from right to left, by the software, and assigned
numbers accordingly.
Connecting Composite Analog Video Output
There are four channels of Composite Analog Video Output along with one Video
Monitor output. The Video Monitor Output is channel four video with Time Code
burn in available. See Figure 3-22. The outputs have a characteristic impedance of
75Ω, and require external termination. Note that there is an adjacent Analog Audio
circuit board to provide output audio. Only two slots in the Video Router J11 and J12
have the required four in video connections; therefore, these are the only two slots that
can have the Composite Analog Video Output circuit board.
Connecting the Audio In and Audio Out for Analog Composite Video
Each Analog Audio circuit board supports four channels of audio input or output.
Two internal clock cables provide the audio circuit board with the clock to
synchronize it to the associated video I/O circuit board, either Input or Output. The
Audio circuit boards accept DB-25 connector equipped cables. In order to interface
with standard XLR connectors either a “breakout box,” such as the Tektronix
XLR100 Audio Bypass Unit, or a special cable that provides eight XLR connectors
from a single DB-25 connector will be required. The adaptor cable can also be ordered
from Tektronix (see “Optional Accessories”).
3-20PDR100 Installation
Analog Composite (NTSC or PAL)
Audio
Bank 4
Analog
Composite
Output 1A
Analog
Composite
Output 1B
Analog
Composite
Output 1C
Analog
Composite
Output 1D
Analog
Composite
Output 1D
With Time Code
Burn-In
Figure 3-22. Connections for the Analog Composite Operation
Composite
Analog
Composite
Video
Output 1
Analog
Video
Input 3
Audio
Bank 3
Channel 3
Decoder
Analog
Composite
Video
Input 2
Channel 2
Decoder
75
Composite
Ω
Audio
Bank 2
Termination
Analog
Video
Input 1
Channel 1
Decoder
Audio
Bank 1
PDR100 Installation3-21
Chapter 3 Mechanical Installation
Internal Jumpers, Switches, and Audio Cables
The PDR100 is designed to provide as much flexibility as possible. To accomplish
this, plug jumpers and DIP (dual in-line package) switches have been designed in to
allow for a number of operating conditions. The factory settings are optimum for most
applications. However, it is always possible that the PDR100 may be required to
operate in a slightly altered operating environment.
The following paragraphs provide the information on how plug-jumpers and the DIP
switches for each of the circuit boards can be re-configured or returned to the correct
positions if they have been moved.
Processor Circuit Board
Jumpers on the Processor circuit board allow the board to be used in a variety of
systems. Figure 3-23 shows the jumper locations and the factory settings for use in
the PDR100.
E9
E10
Off On
E1
E13E12
Figure 3-23. Processor Circuit Board Showing the Jumper Locations
E11
E8
E7 E2E3 E4
E5
E6
9040-14
3-22PDR100 Installation
Processor Circuit Board
Table 3-3 lists each jumper and its function. The shaded listings are the factory
settings for the jumpers. A position of “On” or “Off” indicates whether or not the
jumper is installed. A position of “1-2” or “2-3” indicates the pins on which the
jumper is installed.
Table 3-3. Processor Board Jumper Settings
JumperPositionFunction
E1OffNo Interrupt
1-2IRQ11
2-3IRQ10
E2On/XT Keyboard
OffPS/2 or /AT Keyboard
E3OnManufacturing Test
OffNormal Mode
E4
OnColor Display
OffMonochrome Display
E51-2Disable BIOS 12 Volts
2-3Enable FLASH programming
E6
E7
E8OnDual CPU
E9OnSelect 133MHz clock speed
E10
E111-2CPU takes priority on EISA bus.
E12
E13
OnConnect mounting bracket to CPU ground.
OffDisconnect mounting bracket from CPU ground.
OnSerial Port Mode: DTE (connect to a modem -/AT standard)
OffSerial Port Mode: DCE (connect to a CPU)
OffSingle CPU
Off
On
2-3EISA master takes priority on EISA bus - EISA bus throughput increased
1-2Select 512K Cache
2-3
1-2
2-3
PDR100 Installation3-23
Chapter 3 Mechanical Installation
VGA-I/O Circuit Board
Jumpers and DIP switches on the board configure it for use in various systems. Figure
3-24 shows the jumper and DIP switch locations and the factory settings for use in the
PDR100.
E5
J1
E11
E10
E6E7E8
E9
SW1SW2
Figure 3-24. Jumper and DIP Switch Locations and Settings on the VGA-I/O Circuit Board
E1
E2
E3
E4
9845-1
3-24PDR100 Installation
Jumper Settings
Table 3-4 lists each jumper and its function. The shaded listings are the factory
settings for the jumpers. A position of “On” or “Off” indicates whether or not the
jumper is installed. A position of “1-2” or “2-3” indicates the pins on which the
jumper is installed.
Table 3-4. VGA-I/O Board Jumper Settings
JumperPositionFunction
E1OnSupport 2.88M Floppy
E2
E3
E4
VGA-I/O Circuit Board
OffNo 2.88M Floppy
1-2Selects IRQ4 for Serial Port COM1
2-3Selects IRQ3 for Serial Port COM1
1-2Selects IRQ3 for Serial Port COM2
2-3Selects IRQ4 for Serial Port COM2
1-2Selects IRQ7 for the Parallel Port
2-3Selects IRQ5 for the Parallel Port
E5Off
E6
E7
E8OnIRQ9 Enabled
E9OnVideo Dot Clock Enabled
E10
E11
DIP Switch Settings
The VGA-I/O board has two 6-position DIP switches to define various functions. The
switch settings are shown in Figure 3-24. The tables that follow list the settings by
function.
The RS-422 circuit board is a standard circuit card for a commercial PC. Because this
board is designed for a number of different operating systems it has some designed in
flexibility. See Figure 3-25. All factory settings of the DIP switches are identified.
This circuit card has two sets of DIP switches, an eight-position switch used to select
the IRQ, and a four-position switch that selects the I/O address and extended memory
enable. The factory default settings for the PDR100 are all off, except for position
eight (which selects IRQ 15).
This switch is all off except for position eight. See Figure 3-26. The factory selected
setting is IRQ 15.
Switch Position
IRQ Selected345910111215
Four-Position DIP Switch
This switch is all off (see Figure 3-27). Positions one and two set the I/O address,
position three enables extended memory, and position four is not used. The factory
selected settings are:
• 1 and 2 off (I/O address in hexadecimal, 200, 204)
The Reference Genlock circuit board has three plug jumpers. One, J4, disables the
burst-lock loop for test purposes. J7 and J8 were used to develop a programmed part,
and should always remain in the factory-installed positions. See Table 3-11.
Factory-installed positions are marked with a ] symbol, on the circuit board. J1, J3,
J5, and J6 are connectors for the system clock (27 MHz) that can be used as additional
audio play clocks.
The Reference Genlock board also has a four-position dip switch (see the insert in
Figure 3-28) used to enable 600 Ω termination for each of the LTC inputs (input
impedance in the “open” position is 20 kΩ. The four rockers on the switch are shipped
from the factory in the “open” position as marked on the switch. To enable the 600 Ω
termination for any LTC channel, shift the rocker for that channel to the enable
position. The channel number for each rocker is screened on the board (NOT on the
switch--the numbers on the switch are reversed).
Figure 3-28. Reference Genlock Circuit Board with Termination Switch
and Jumper Locations
3-30PDR100 Installation
Master Disk Recorder Circuit Board (Required
Master Disk Recorder Circuit Board (Required Slot J14)
The Master Disk Recorder circuit board has a number of square-pin connectors that
are used for test purposes. None of these plugs should have jumpers on them. See
Figure 3-29.
Figure 3-29. Master Disk Recorder Circuit Board Showing Square-Pin Test Points
PDR100 Installation3-31
Chapter 3 Mechanical Installation
Slave Disk Recorder Circuit Board (Optional J15)
The Slave Disk Recorder circuit board has two sets of square-pin connectors that are used
for test purposes. None of these plugs should have jumpers on them. See Figure 3-30.
Figure 3-30. Slave Disk Recorder Circuit Board Showing Square Pin Test Points
3-32PDR100 Installation
Serial Digital I/O Circuit Board
The Serial Digital I/O board is optional, and can occupy various slots from J6-J13.
The Serial Digital I/O circuit board has a number of plug jumpers in order to
accommodate a number of operating circumstances. In addition it has six connectors
that are used to route clock signals to the Audio I/O circuit boards. See Figure 3-31.
The Serial Digital I/O board with embedded audio capability does not have all the
jumpers shown in Figure 3-31. The connectors for clock signals are present on the
board, but there are no clock connections to make since there can be no Audio boards
in use at the same time as the embedded audio Serial Digital I/O board.
Serial Digital I/O Circuit Board
SYSTEM
CLOCK
CH2
CH1
J23
J22
J15
J14
J13
J12
Figure 3-31. Serial Digital I/O Circuit Board Showing Plug Jumpers
J40
J35
J2
J34
J41
J6
J1
J9
J8
J4
J3
PDR100 Installation3-33
Chapter 3 Mechanical Installation
Table 3-12. Serial Digital I/O Plug Jumpers
JumperNamePositionFactory-
Installed
J1Monitor PointPin 1Internal Clock 2
Pin 2Ground
J2Monitor PointPin 1Internal Clock 1
Pin 2Ground
J3Serial Video
Input 1 VCO
Frequency
J4Serial Video
Input 2 VCO
Frequency
J6Audio Clock
Test Points
J8Serial Channel
1 Video
Present
1-2Test Position to set VCO free
2-32-3Operate
1-2Test Position to set VCO free
2-32-3Operate
1-2OpenAudio Clock 2 Test Point
3-4OpenAudio Clock 1 Test Point
1-21-2Normal Operation
2-3Video 1 Present pulled low to
3-4Video 1 Present pulled high
Operation
run frequency.
run frequency.
Pin 1 (Clock) Pin 2 Ground
Pin 3 (Clock) Pin 4 Ground
adjust VCO free run frequency
forces video clock output
J9Serial Channel
2 Video
Present
J34Serial Video
Output 1 VCO
Frequency
J35Serial Video
Output 2 VCO
Frequency
J40Monitor PointPin 1VCO Frequency for Serial
J41Monitor PointPin 1VCO Frequency for Serial
1-21-2Normal Operation
2-3Video 2 Present pulled low to
adjust VCO free run frequency
3-4Video 2 Present pulled high
forces video clock output
1-2Test Position to set VCO free
run frequency.
2-32-3Operate
1-2Test Position to set VCO free
run frequency.
2-32-3Operate
Output 2
Pin 2Ground
Output 1
Pin 2Ground
3-34PDR100 Installation
Serial Digital I/O Circuit Board
Audio Clock Outputs
The Serial I/O outputs both record and play clocks to the Audio I/O circuit boards. Plugs
for J12, 13,14, and 15 are record clocks J22 and J23 are system clocks that are used as the
play clocks. See Figure 3-32. Note that in this configuration J13 and J14 are the record
clocks, while J22 and J23 are connected as the play clocks.
Note that the clock signals are plugged in with the play clock connected to the front
connector, on the Audio I/O circuit board, and that the record clock plugged into the back
connector.
Play Clocks
Record Clocks
Figure 3-32. Clock Connections from Serial Digital I/O to Audio Interface Boards
PDR100 Installation3-35
Chapter 3 Mechanical Installation
Analog Composite Input Circuit Board
The Analog Composite circuit board is optional, and can occupy various slots from
J3 to J13.
The Analog Composite circuit board, which is paired with the Decoder circuit board,
has seven plug jumpers and a four-position DIP switch for test and development
purposes. See Figure 3-33. In addition, J14 and J15 output clock signals related to the
incoming video signal (audio record clocks). This circuit board does not output the 27
MHz system clock that is required for audio playback.
J12
J15
J14
J6
J5J2
J4
J3
J11
DIP
Switch
Figure 3-33. Analog Composite Input Circuit Board Showing Plug Jumpers
DIP Switch Settings
The four-position DIP switch is used only for development purposes. All switches are
set to the open position for normal operation.
Audio Clock Signals
The two clock outputs are from the incoming video signal and, therefore, can only be
used as record clocks. In most applications there will only be one Audio circuit board
per Analog Composite Input circuit board (single video channel per board). Audio
output clock is the System Clock (27 MHz) and is provided by the Analog Composite
Output circuit board; audio output is usually from a separate Audio circuit board
adjacent to the Analog Composite Output circuit board. Figure 3-34 shows the cable
connection for a single Audio I/O circuit board.
3-36PDR100 Installation
Analog Composite Input Circuit Board
Table 3-13. Analog Composite Input Plug Jumpers
JumperNamePositionFactory- InstalledOperation
J12Code DevelopmentAll OpenNo JumperOperating Position
J6Code DevelopmentAll OpenNo JumperOperating Position
1-2Developmental Position
J5Test Jumper
2-3JumperedOperating
1-2Developmental Position
J2Test Jumper
2-3JumperedOperating
1-2Developmental Position
J3Test Jumper
2-3JumperedOperating
J4Test Jumper
1-2JumperedOperating
2-3Developmental Position
Figure 3-34. Audio Clock Cabling for Analog Composite Input
PDR100 Installation3-37
Chapter 3 Mechanical Installation
Decoder Circuit Board
The Decoder circuit board, which is paired with the Analog Composite Input circuit
board, is optional and can occupy various slots from J3 to J13.
The Decoder circuit board has three plug jumpers for test purposes. See Figure 3-35.
J2
J3
J1
Table 3-14. Decoder Plug Jumpers
JumperNamePositionFactory-
J1Test Jumper1-2JumperedOperating
J2Test Jumper
J3Test Jumper
a.
Decoder board with the -01 or higher suffix level are compatible only with Analog Composite Input
boards 671-3081-02 or higher, and require software Version 1.3 or higher.
2-3Developmental Position
1-2JumperedOperating
2-3Developmental Position
No JumperOperating position for board 671-3083-00
1-2JumperedOperating position for board 671-3083-01
2-3Developmental Position
a
Analog Composite Output Circuit Board
Analog Composite Output Circuit Board
The Analog Composite Output board is optional, and can occupy slot J11 or J12.
The Analog Composite Output circuit board has eight plug jumpers for test purposes
only. See Figure 3-36. In addition, this circuit board can output four system clocks (27
MHz) that are used as audio play-back clocks by the Audio I/O circuit board. System
Clock signals are output from J4, J5, J2, and J7.
JumperedJumperedDAC Output to Filter
OpenOpen
JumperedJumperedDAC Output to Filter
OpenOpen
JumperedJumperedDAC Output to Filter
OpenOpen
JumperedJumperedDAC Output to Filter
OpenOpen
J3
J6
J15
J14
PDR100 Installation3-39
Chapter 3 Mechanical Installation
Table 3-15. Analog Composite Output Plug Jumpers (Continued)
JumperNamePositionFactory- InstalledOperation
J3Channel 1 Filter
Output
J6Channel 2 Filter
Output
J15Channel 3 Filter
Output
J14Channel 2 Filter
Output
Audio Clock Signals
The only clock signals available on the Analog Composite Output circuit board are
system clocks (27 MHz). There are four identical buffered clock signals available,
enough to have one clock signal for each of the output channels. In most cases not all
will be used. The example shown in Figure 3-37 has only one Audio I/O circuit board,
which is located adjacent to the Composite Analog Output circuit board. With longer
cables, the clock signals can be routed to other Audio I/O circuit boards located some
distance from the Analog Composite Output circuit board.
Figure 3-37. Audio Clock from Analog Composite Output Circuit Board
3-40PDR100 Installation
Component Analog Video Input Board
The Component Analog Video (CAV) Input board is optional and can be installed in
any unused board slot that includes connection to the Video Bus (slots that include the
video bus are slots J5-J16). The CAV Input board must be installed close enough to
the audio card so that the audio clock cables will make connection. If your VDR has
an Analog Composite Output card, that card must be installed in slot 11 or 12.
The Component Analog Video (CAV) Input board accepts a single source of
component analog video input, which it converts to digital component video
conforming to SMPTE 125M (525-line) or EBU 3267 (625-line). The board then
transfers the digital video to the VDR’s video router bus.
Component Analog Video Input Board
9608-1
Figure 3-38. Audio Clock Cabling from the CAV Input Board
PDR100 Installation3-41
Chapter 3 Mechanical Installation
Audio I/O Circuit Board (Optional, Various Slots from J3-J13)
The Audio I/O circuit board is a purchased circuit card designed with an EISA- bus
interface for use in PC applications. In order to prevent the Processor reconfiguring
the board, a disable jumper, J4, is provided so that the processor will not recognize
the board and attempt to reconfigure it at boot-up. See Figure 3-39.
Clock Inputs
Play
Record
CHA
CHB
CHC
CHD
J4
Plug jumper installed on
J4 keeps the Processor from
attempting to reconfigure at
boot-up.
The audio lines can be terminated for 600Ω impedance or high impedance (20 kΩ).
The impedance is determined by whether there are jumpers installed on the four sets
of pins (one for each channel) on the top of circuit board. When the pins are shorted
together by jumpers, the lines are terminated in 600Ω. The PDR100 is normally
shipped with jumpers installed for 600Ω termination.
3-42PDR100 Installation
Timing the PDR100 to the System
Timing the PDR100 to the System
In a number of applications it will be necessary to time the PDR100 to the system.
The internal reference for the PDR100 is the Reference Genlock. The PDR100 is
shipped with 0 delay in the reference and the output timed to the reference. The
reference delay and the output timing can be set separately; however, if the reference
is moved, the output will be moved a corresponding amount and should only be
adjusted if the range of the Output Delay is insufficient.
Setting the Reference Genlock Delay
The Reference Genlock advance is set from the PDR100 Configuration Tool, which
will only run if the VDR panel is already running. See the “User Manual” for more
information on the VDR panel. The actual setting is in software and is set from the
Configure System menu, by selecting Configure Reference Genlock. When
Reference Genlock is selected, a panel containing three settings is shown on the
screen of the monitor:
Fields, which is initially set to 0.
Lines, which is initially set to 0.
Vernier, which is initially set to 0 advance.
Each of these can be set with the mouse in the select and drag mode.
Setting the Output Delay
The output of the PDR100 can be advanced up to 2
from the Reference Genlock. The output delay is set from the PDR100 Configuration
Tool. The settings are in software and are reached from the Configure System menu,
by selecting Configure Video Output and then selecting the appropriate output. There
are two settings that can be made using the mouse in the select and drag mode:
Line, which is initially set to 0, but can be advanced two lines or delayed 148 lines.
Fine, which is initially set to 0, but can be set to advance or delay at 74 ns per click.
If the Reference Delay has been changed, the Output Delay will also be affected, and
will need to be reset.
1
/2 lines, or delayed up to 148 lines
PDR100 Installation3-43
Chapter 3 Mechanical Installation
Reference—Timing a PDR100
The PDR100 has a few special considerations that should be taken into account when
determining how to time your system.
• The PDR 100 is designed so that a prerecorded output is perfectly timed to the
Genlock Input, when no delay is set on the Video Output.
• Each type of input board has its own internal delay. (This should be compensated
for externally.)
• The PDR100’s Auto-Timing feature only has a pull-in range of ±1 line.
PDR 100
Analog
Composite
Input
Camera
Digital
Component
Input
Output
Genlock
Input
Digital Synchronizer
Input
7.5 Lines
Advanced
Black 1Black 2
Genlock
4 Lines
Advanced
Reference House Black
Genlock
Input
Loop-Thru
SPG 422
Figure 3-40. Illustration of the Setup Required to Properly Time Inputs
Figure 3-40 shows how these points effect PDR100 timing and installation.
9040-12
3-44PDR100 Installation
In the example, the PDR100 has two input sources: an analog composite camera feed
and a digital component synchronizer feed. Notice that the Reference House Black is
the Genlock signal for both the PDR100 and the SPG 422 (a sync pulse generator).
Also notice that the Reference House Black signal is not be used directly as the
genlock signal for PDR100 input sources.
Each input source has its own Genlock source (from the SPG422) that is advanced
from the Reference House Black. The analog composite is advanced 7.5 lines and the
digital component is advanced 4 lines.
NOTE: The input timing requirements for each board are different:
Analog Compositeadvance 7.5 lines
Digital Componentadvance 4 lines
This is the amount of advance required to get the input into the Auto-Timing window.
Once the input is within the Auto-Timing window, then the PDR100 can
automatically lock to the input signal. This allows all signals through the box to be
correctly timed into the system. (Even inputs operating in E-to-E mode.)
What if the Inputs Cannot be Timed
What if the Inputs Cannot be Timed
Operate with Auto-Timing Disabled
If you do not have access to Reference House Black with varying amount of advance,
you have a few options, depending on what operations you need to perform.
If you just want to record material and play it back at a later time, this option works
fine. But if this input is also being fed directly through the PDR100 (operating in
E-to-E mode, feeding this signal to another channel, etc.), the resulting output will not
be correctly timed.
Adjust the Genlock Timing
This will only work if you only have one type of input. You can adjust the Genlock
Input Timing (delay 4 or 7.5 lines) to move the genlock timing until is within range
to lock onto the input.
designed so that output is timed with zero delay to the genlock. If you use this option,
then the output is delayed either 4 or 7.5 lines from the reference. You would then
need additional equipment to advance the output signal (PDR100 only offers a
two-line advance for its outputs) so that it will remain properly timed into the system.
This is not recommended. Remember, that the PDR100 is
PDR100 Installation3-45
Chapter 3 Mechanical Installation
3-46PDR100 Installation
Chapter
4
Software Upgrades
There may be occasional upgrades to the PDR100 software. This chapter outlines
how to update your software and it also lists the traps that you may fall into and how
to get yourself back out again.
Updating the Software
Use the disks that came with your PDR100 or with your Field Upgrade kit. If you
have more than one set of disks, use the one with the higher version number. Follow
the procedures in the Release Notes that accompany the diskettes.
Creating an Emergency Repair Disk
Whenever you upgrade the software, it is strongly recommended that you either
create a new emergency repair disk or upgrade the existing emergency repair disk.
This will minimize the chances that you will need to completely re-load the software
for minor problem.
Making a New Emergency Repair Disk
To make a new emergency repair disk, you need one 3.5" disk. Mark it clearly as the
emergency repair disk for PDR100 serial number xxxxxxx. (It is not necessary that
this disk is already formatted.)
NOTE: The emergency repair disk is PDR100 specific. Make sure that the
emergency repair disk is clearly marked with its PDR100’s serial number.
1. From the File menu in the Program Manager, choose the Run command.
2. Enter rdisk in the Run dialog box.
3. Choose the Create Repair Disk command button.
4. Insert the floppy disk in the A drive and choose OK. The utility then formats the
disk and loads all of the information from the registry.
5. When the operation is complete, choose the Exit command button to leave the
Repair Disk Utility.
PDR 100 Release Notes4-1
Chapter 4 Software Upgrades
Windows NT Operating System is Corrupt
Use the Emergency Repair Disk. (See the Windows NT manual.)
>>> WARNING. The Emergency Repair Disk is PDR100 specific. (The disk shipped with the
PDR100 is the ONLY one that will work with that PDR100.) Keep track of this disk.
>>> WARNING. Repairing the Window NT operating system requires a copy of
Windows NT 3.51. This is NOT included with the PDR100. You must purchase a copy of
this software from your local retailer or call Tektronix Service for help.
1. Verify that you have a source of setup information available (in floppy format). See
the above warning.
2. Insert the Windows NT Setup disk.
3. Restart the PDR100.
4. When the Windows NT Setup Screen appears, press R (repair).
5. When prompted, insert the Emergency Repair disk.
6. The Emergency Repair disk performs the following:
a. Runs CHKDSK.EXE on the WINNT and SYSTEM partitions.
b. Verifies each file in the installation and replaces any that are missing or corrupt.
c. Replaces the System, Security, and Security Accounts Manager hives in the
registry.
d. Reinstalls the Boot Loader (the boot sector, BOOT.INI, etc.).
4-2PDR 100 Release Notes
Appendix
A
Specifications
Electrical Characteristics
The Performance Requirements listed in the Electrical Characteristics apply over an
ambient temperature range of +20°C to +30°C. The Performance Requirement
tolerances listed in the Electrical Characteristics are doubled over the temperature
range of 0°C to +40°C, unless there is a specific exception.
Definition of Terms Used in Specification Tables
The tables that follow contain headings, including Requirements and Supplemental
information, which make it easier to relay the specifications, in numerical values. The
following terms apply to the PDR 100 Characteristics and Descriptions as printed in
the following tables.
Specification - A document or a section of a document that lists and describes
characteristics and performance requirements of equipment and certain program
material.
REQUIREMENT: (Performance Requirement)
characteristic usually in limit form.
SUPPLEMENTAL DATA: - Statements that explain performance requirements or
provide performance information. These are not considered to be statements of
guaranteed performance and are not ordinarily supported by a performance check
procedure.
- A statement that defines a
PDR100 InstallationA-1
Appendix A Specifications
Table A-1. Serial Digital Video Input/Output
CharacteristicsDescription
Number of InputsSupplemental Data:Two component serial digital
Input TypeSupplemental Data:75Ω
Number of OutputsSupplemental Data:Two component serial digital
Output Timing RangeRequirement:-21/2 H to +148 H
Digital FormatSupplemental Data:CCIR 601 Component 525/625 8 bit data, Scrambled
Bit RateSupplemental Data:270 Mb/s
Source ImpedanceSupplemental Data:75Ω
Return LossSupplemental Data:≥15 dB from 5 MHz
DC OffsetRequirement:0 ±0.5V
Rise and Fall TimesRequirement:400 - 1000ps; 20% to 80% amplitude slew rate
terminated
Supplemental Data:Independent for each output
Supplemental Data:Resolution; 74 ns
Table A-3. Analog Composite Video Output (Continued)
(
Valid for Customer-Installed Composite Output or Digital Component Input/Analog Composite Output)
CharacteristicsDescription
Output Timing RangeRequirement:-21/2H to +148H
Sync and Burst InsertionRequirement:Meets RS-170A, and CCIR RPT 624-3;
Insertion Phase ErrorRequirement:≤1°
Supplemental Data:Independent for each output
Supplemental Data:Resolution; ≈0.3° of 3.58 MHz
Supplemental Data:Timing Stability: 1°
always on
Chrominance Phase Error with
Reference Burst Frequency Change
Chrominance Phase Error with
Requirement:≤1° with an input burst frequency change of
±10 Hz
Requirement:≤1° with a ±3 dB amplitude change
Reference Signal Amplitude Change
DC OffsetRequirement:≤±50 mV
Inserted Sync and Burst Amplitude
Accuracy
Requirement:Sync
NTSC 40 IRE ±1 IRE
PAL 300 mV ±7 mV
Burst
NTSC 40 IRE ±1 IRE
PAL 300 mV ±7 mV
Inserted Sync and Burst SCH Phase
Requirement:0°±5°
Accuracy
Black Level ErrorRequirement:±3.5 mV
Table A-4. Analog Composite Video E-to-E (Direct)
(Valid for Customer-installed Composite Output or Digital Component Input/Analog Composite Output)
CharacteristicsDescription
Program GainRequirement:1 ±3% Direct or AGC Path
Supplemental Data:Typically 1 ±1%
Program Input Gain RangeRequirement:70% to 140% or Better Direct or AGC Path
Supplemental Data:Approximately ±3 dB
Frequency ResponseRequirement:500 kHz to 5.8 MHz ±6%
Signal-to-Noise RatioRequirement:> 50 dB Direct
Chrominance-to-Luminance
Delay Error
Differential GainRequirement:≤3% Direct or AGC Path
Differential PhaseRequirement:≤3° Direct or AGC Path
A-4PDR100 Installation
Direct or AGC Path
Supplemental Data:-3 dB Nominally 6.25 MHz
> 45 dB AGC Path
Requirement:≤30 ns Direct or AGC Path
Supplemental Data:Typically ≤10 ns
Supplemental Data:Typically ≤1%
Supplemental Data:Typically ≤1°
Electrical Characteristics
Table A-4. Analog Composite Video E-to-E (Direct) (Continued)
(Valid for Customer-installed Composite Output or Digital Component Input/Analog Composite Output)
CharacteristicsDescription
K-FactorRequirement:≤3% Direct or AGC Path
Supplemental Data:Typically ≤1%
2T Pulse-to-Bar RatioRequirement:≤3% Direct or AGC Path
Supplemental Data:Typically ≤1%
Output Timing RangeRequirement:-21/2H to +148H
Supplemental Data:Independent for each output
Supplemental Data:Resolution; ≈0.3° of 3.58 MHz
Supplemental Data:Timing Stability: 1°
Sync and Burst InsertionRequirement:Meets RS-170A, and CCIR RPT 624-3; always on
Insertion Phase ErrorRequirement:≤3° Direct or AGC Path
Chrominance Phase Error
with Reference Burst
Frequency Change
Chrominance Phase Error
with Reference Signal
Amplitude Change
DC OffsetRequirement:≤±50 mV Direct or AGC Path
Inserted Sync and Burst
Amplitude Accuracy
Inserted Sync and Burst SCH
Phase Accuracy
Black Level ErrorRequirement:±0.5 mV Direct
Requirement:≤3° with an input burst frequency change
of ±10 Hz Direct or AGC Path
Supplemental Data:Typically ≤1°
Requirement:≤3° with a ±3 dB amplitude change
Direct or AGC Path
Supplemental Data:Typically ≤1°
Requirement:Sync Direct or AGC Path
NTSC 40 IRE ±3 IRE
PAL 300 mV ±21 mV
Burst Direct or AGC Path
NTSC 40 IRE ±3 IRE
PAL 300 mV ±21 mV
Supplemental Data:Typically
Sync
NTSC 40 IRE ±1 IRE
PAL 300 mV ±7 mV
Burst
NTSC 40 IRE ±1 IRE
PAL 300 mV ±7 mV
Requirement:0°±15° Direct or AGC Path
Supplemental Data:Typically 0°±5°
±15 mV AGC Path
PDR100 InstallationA-5
Appendix A Specifications
Table A-5. Program Input Genlock
CharacteristicsDescription
Burst Frequency Lock RangeRequirement:±50 Hz at subcarrier
Supplemental Data:Remains locked or initial lock
Signal Amplitude Lock
Range
Phase Jitter (Analog Input and
Analog Output)
Phase Jitter (Analog Output
Only)
Hum RejectionRequirement:≥32 dB
Recovery TimeRequirement:Fast - Within 35.7 mV in 2 to 3 lines
Switch PointsRequirement:Fast - Medium 30 to 40 dB signal-to-noise
Table A-6. Analog Input/Output
CharacteristicsDescription
Program Input Return LossRequirement:≥40 dB to 5 MHz
Program Output Return LossRequirement:≥40 dB to 5 MHz
Table A-7. Component Analog Video Input
CharacteristicSpecification
Input connectors:BNCx (3) terminating
Requirement:Stays locked to +6 dB and -3 dB
Requirement:≤1°
Requirement:≤0.5°
Medium - Within 35.7 mV in 10 to 30 lines
Slow - Within 35.7 mV in > 30 lines
Supplemental Data:Medium - Slow 20 to 30 dB signal-to-noise
Impedance:75 ohms
Return loss:≥ -40dB to 5.0MHz
Input formats
supported (525/60):
Input formats
supported (625/50):
Reference:Sync on Y/G video input
Betacam
Betacam without setup
Betacam (non-EBU)
MII
MII without setup (SMPTE/EBU-N10)
GBR (700mv no setup)
SMPTE/EBU-N 10
Betacam (non-EBU)
GBR (700mv no setup)
A-6PDR100 Installation
Electrical Characteristics
Table A-8. Component Analog Video Performance
CharacteristicSpecification
A to D conversion:Supplemental Data:10 bits at 27 MSPS on all 3 inputs
Output video data:Supplemental Data:Dynamically rounded (dithered) to 8 bits
Input gain controls:Requirement:Each CAV input is software adjustable ±3dB except
MII, which is software adjustable +2.5/-3dB.
Input Setup ControlsRequirement:±20 mV
Supplemental Data:Software adjustable
Frequency response:Requirement:(Y) ±0.25 dB 0-5.8MHz
(Cb/Cr) ±0.25 dB 0-2.75 MHz
Signal-to-Noise RatioRequirement:> +50dB
Relative timing error:Engineering Note: Y to Cb/Cr, <5ns by design
Cb to Cr, <5ns by design
Measurement accuracy ±5ns
Internal Sync (Y/G input)
timing:
Standards selection:Software selectable 525/625
Gain AccuracyRequirement:All supported input formats translated to ±1% of
K Factor K-2T (Y)
K-4T (B-Y)
K-4T (R-Y)
K Pulse-to-BarRequirement:±1% K factor
Table A-9. Format Voltage Level Definitions for CAVmtrxN Colorbar Matrix Test Clip
Burst Frequency Lock RangeRequirement:PAL,±10 Hz at subcarrier:
Signal Amplitude Lock RangeRequirement:Stays locked to +6 dB and -3 dB
Requirement:Correct color framing for signals having an
average SCH phase ±40°; Lockup ±10°
Supplemental Data:Once locked to color field, it will stay locked
over a range of 0° to ±90°
NTSC, ±20 Hz at subcarrier
Reference Genlock Input Return
Requirement:≥40 dB to 5 MHz
Loss
Table A-12. Time Code
CharacteristicsDescription
InputSupplemental Data:Longitudinal Time Code. AC coupled, differential
input
Input ImpedanceSupplemental Data:20 kΩ. Switch selectable 600 Ω input.
Input AmplitudeSupplemental Data:0.1 V p-to-p, differential, minimum
Maximum Input VoltageSupplemental Data:2.5 V p-to-p, differential, maximum
Table A-13. Analog Audio Mode
CharacteristicsDescription
Through GainRequirement:1 ±1 dB
Supplemental Data:Non-mix mode each of
four channels
Frequency ResponseRequirement:20 Hz to 20 kHz, with between +0.5 dB, -2 dB
maximum deviation from flatness at 48 kHz
sample rate
Input ImpedanceSupplemental Data:600 Ω or 20 kΩ each
channel through
independent jumper
selection
Input/Output Signal LevelsSupplemental Data:Nominal Line Level: 0 dBu
THD+N at 1020 Hz and 60 HzRequirement:-70 dBm (0.031%) at +9dBu input
Table A-14. Power Source
CharacteristicsDescription
Electrical RatingRequirement:100 -240V, 50/60 Hz, 12A maximum
Supply TypeSupplemental Data:Single Phase
Supply ConnectionSupplemental Data:Detachable cord set
Power ConsumptionSupplemental Data:<1000 VA
Nominal Peak Line Level: +9 dBu
Digital Clipping: +18 dBu (16-bit quantization)
PDR100 InstallationA-9
Appendix A Specifications
Environmental Characteristics
Table A-15. Environmental Characteristics
CharacteristicsDescription
Operating TemperatureRequirement:5° to 40°C (+41° to 122°F)
Storage TemperatureRequirement:-40° to 65°C (-40° to 149°F)
Operating AltitudeRequirement:To 15,000 feet (4572 meters)
Mechanical ShockMilitary Specification: Mil-T-28800D, Class 6 (Non-Operating Only)
TransportationRequirement:Qualified under NSTA Test Procedure 1A, Category II
Equipment TypeSupplemental Data:Information Technology
Equipment ClassSupplemental Data:Class I
Installation CategoryRequirement:Category 2 Indoor use only
Supplemental Data:IEC 950 compliant to 2000 meters