Brainstorm Electronics SR-3 Manuale utente

Page 18

Other Brainstorm Products

SR-15+ Time Code Distripalyzer

Combines 3 units in a single space 19” chassis: a time code analyzer,

a 1x5 Time code distributor (w/reshaping on all 5 outputs) and

a pilot tone stripper. The analyzer identifies time code format,

detects errors and monitors video sync and color field alignment. A

comprehensive report can be sent to a printer or computer via the

parallel and RS-232 ports.

SA-1 Time Code Analyzer

Same analyzer as the one found in the SR-15+, in a small portable

package (same as the SR-3). It operates on an external 6VDC sup-

ply and can be used with a battery pack.

SR-26 Dual Time Code Distributor / Reshaper

Cleans up time code and distributes it through 6 individually buffered

outputs. Can be used as 2 separate units: 1x4 (master) + 1x2 (slave)

or as a single 1x6 unit - Same reshaping circuitry as the SR-1 with

individual output level controls & switchable output rise times.

SR-1 Time Code Reshaper

Cleans up unreadable code by eliminating distortions and level fluc-

tuations. Low input threshold (better than -30db) - Reshapes in fast

forward and rewind modes - Balanced or unbalanced input and

output - Adjustable output level - Switchable output rise time (

SMPTE/

EBU

/square wave).

SR-2 Frame rate counter

Same unit as the SR-1 with a 4 digit counter that reads the incoming

time codeʼs frame rate. Ideal to identify the codeʼs format and verify

itʼs stability - Very accurate counter (4 updates per second) also

shows potential problems such as wow and flutter or jitter.

TB-4 Communicator System (wireless talkback remote)

A high-performance infrared remote that allows the producer to acti-

vate the consoleʼs talkback from anywhere in the control room - 4

switchable talkback functions - Rechargeable transmitter - No aim-

ing necessary - Easy to install - Includes transmitter and receiver.

For more information on these products, contact your Brainstorm

Electronics dealer.

SR-3

TIME CODE REPAIR KIT

Operation Manual

Manual written by Brainstorm Electronics, Inc.

form without prior written permission by Brainstorm Electronics, Inc.

Page 17

Specifications

Input Signal:

SMPTE/EBU Longitudinal Time Code

8 Digit Display:

Reads time code & user bits

Digit height: .36”

Front Panel LED indicators:

Format: 24/25/30D/30ND/Color

TC In: indicates signal present

Video ø: indicates valid video reference at video input

Connectors:

1/4” RTS Jack (2): time code input & output

BNC: Video In & loop

2.5mm jack: Power (center pin hot)

TC Output Level:

Adjustable (rear panel pot):

full off to +12dbU balanced; to +6dbU unbalanced.

Termination switch:

75Ω to ground - for video reference

Power:

6 - 9 VDC @ 500 ma

Dimensions:

8

1

⁄

2

⁄2

⁄

” x 5” x 1

5

⁄

5⁄

5

8

⁄8

⁄

”

TIME CODE

INPUTOUTPUT

Level Out

75ΩOff

VIDEOPOWER

INLOOP

Termination

6-9VDC

@ 500ma

1.

Reader Switch:

Alternates between

Time Code and User Bits.

In SET mode, increases the value of

the selected parameter (+).

2.

Fix Video ø Switch:

Time shifts the

regenerated code to align it properly

with the video reference.

In SET mode, decreases the value

of the selected parameter (-).

3.

Reader display:

Reads Time Code

or User Bits & indicates video phase.

4.

TC In

LED

:

Lights up when signal is

present at the Time Code input jack.

5.

Video In

LED

:

Lights up when signal

is present at the Video input jack.

6.

24/25/30ND/30D

LED

’s:

In Repair &

Bypass, indicate format of incoming

code; in Generate mode indicate

format of generated code.

7.

CF

LED

:

Indicates the color status of

the incoming code.

8.

Mode Switch:

Selects the SR-3’s

operations mode: Repair / Generate.

9.

Bypass Switch:

In Repair mode,

bypasses the regenerator;

In Generate mode, starts and stops

the generator.

10.

Flywheel Switch:

In Repair mode,

selects the flywheel time;

In Generate mode, selects the field

to be edited.

11.

Video Sync Switch:

11.Video Sync Switch:11.

In Repair

mode, locks the regenerator to ext

video reference;

In Generate mode, locks the

generator to video reference if

available or pulls down rate if ext.

video is not present (i.e. 29.97)

12.

Level Out:

Adjusts the TC output

level from off to +12db.

Active in all modes: Repair,

Generate and Bypass

13.

TC Output:

13.TC Output: 13.

Regenerator output.

14.

TC Input:

14.TC Input:14.

Regenerator input

15.

Power:

2.5mm jack. Requires 6 to

12 VDC with center pin positive.

16.

Termination switch:

16.Termination switch:16.

turns on a

75

Ω

video termination.

17.

Video Input & Loop:

BNC

connectors for video reference.

Page 16

Appendix C: Error Messages

Repair Mode:

NO VIDEO

Video is not present and “Video Sync” is on.

DRIFT

Input code is not synchronous with video refer-

ence and “Video Sync” is on.

VID LOSS

External video reference has been interrupted

and “Video Sync” is on.

SLIP

After a drop out, offset between input code

and regenerator (SR-3) is greater than 1/4

frame.

Generate Mode:

NOT PAL

Video reference is NTSC while SR-3 is set

to generate 25 f/s code with“ Video Sync”

turned on.

NOT NTSC

Video reference is PAL while SR-3 is set to

generate 30 f/s code with “Video Sync”

turned on.

Appendix

Page 1

Introduction

The SR-3 Time Code Repair Kit is a regenerator designed to repair

bad time code. Itʼs three main functions are to repair drop outs,

reduce jitter and correct video phase. It also reads time code,

identifies its format and analyzes its phase with video.

The SR-3 also generates all standard time code formats referenced

to internal crystal or to external video.

Table of contents

• Introduction

...............................................................

.................

1

• Setting up the SR-3

...............................................................

.......

2

Connections

...............................................................

..........

2

Wiring

...............................................................

..................

2

• Modes of Operation

...............................................................

....

3

• Repair Mode

...............................................................

...............

3

Reader display & format

LED

ʼs

...............................................

3

Flywheel Time

...............................................................

........

4

Video Sync

...............................................................

............

5

What does it mean to be in phase with video?

................

5

Checking video phase with the SR-3

...............................

5

Locking the regenerator to external video

......................

6

Correcting video phase

.................................................

6

Bypassing the Regenerator

....................................................

7

Ramp-Up Time

...............................................................

.......

7

• Generate Mode

...............................................................

...........

8

Reader display & format

LED

ʼs

...............................................

8

Starting the generator

...........................................................

8

Preset Start Time

...............................................................

....

8

Changing a preset

...............................................................

.

8

Scrolling through the preset parameters

..................................

9

Frame rates & clock sources

................................................

10

• Output level and waveform

.......................................................

11

• Application Notes

...............................................................

......

12

• Appendix

...............................................................

..................

14

• Specifications

...............................................................

.............

17

Introduction

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FIRST BINARY GROUP

FRAME TENS

SECOND BINARY GROUP

DROP FRAME FLAG

COLOR FRAME FLAG

SECONDS UNITS

THIRD BINARY GROUP

SECONDS TENS

BI-PHASE MARK PHASE CORRECTION BIT

FOURTH BINARY GROUP

MINUTES UNITS

FITH BINARY GROUP

MINUTES TENS

BINARY GROUP FLAG BIT

SIXTH BINARY GROUP

HOURS UNITS

SEVENTH BINARY GROUP

HOURS TENS

UNASSIGNED ADDRESS BIT 58

BINARY GROUP FLAG BIT

EIGHTH BINARY GROUP

SYNC WORD - BIT “ZERO”

SYNC WORD - BIT “ONE”

SYNC WORD - BIT “ZERO”

SYNC WORD - BIT “ONE”

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FRAME TENS

SECOND BINARY GROUP

UNASSIGNED ADDRESS BIT 10

COLOR FRAME FLAG

SECONDS UNITS

THIRD BINARY GROUP

SECONDS TENS

BINARY GROUP FLAG BIT

FOURTH BINARY GROUP

MINUTES UNITS

FITH BINARY GROUP

MINUTES TENS

BINARY GROUP FLAG BIT

SIXTH BINARY GROUP

HOURS UNITS

SEVENTH BINARY GROUP

HOURS TENS

UNASSIGNED ADDRESS BIT 58

BI-PHASE MARK PHASE CORRECTION BIT

EIGHTH BINARY GROUP

SYNC WORD - BIT “ZERO”

SYNC WORD - BIT “ONE”

SYNC WORD - BIT “ZERO”

SYNC WORD - BIT “ONE”

Bit No. Bit No.

Figure 7. SMPTE

longitudinal bit assignment

Figure 8. EBU

longitudinal bit assignment

Appendix

SMPTE time code has 30 frames per second and EBU has

25. Both time codes have 80 bits per word. All bits are

identical, except for some of the flags that are different (bits

10, 27 & 59) - see Figures 7 & 8 below.

Page 2

Setting up the SR-3

1. Connections

➫

Time Code Input:

When repairing time code, connect your time code source

Time Code Input:

When repairing time code, connect your time code source

Time Code Input:

(raw time code) to this jack.

When repairing time code, connect your time code source

(raw time code) to this jack.

When repairing time code, connect your time code source

➫

Time Code Output:

This is the output of the generator in all modes (repair,

Time Code Output:

This is the output of the generator in all modes (repair,

Time Code Output:

generate and bypass). Connect this jack to your time code

This is the output of the generator in all modes (repair,

generate and bypass). Connect this jack to your time code

This is the output of the generator in all modes (repair,

destination (reader, synchronizer, tape machine, ...).

generate and bypass). Connect this jack to your time code

destination (reader, synchronizer, tape machine, ...).

generate and bypass). Connect this jack to your time code

➫

Video In & Loop:

Connect composite sync or composite video to the “Video In”

Video In & Loop:

Connect composite sync or composite video to the “Video In”

Video In & Loop:

BNC connector. An additional BNC connector is provided for

Connect composite sync or composite video to the “Video In”

BNC connector. An additional BNC connector is provided for

Connect composite sync or composite video to the “Video In”

looping through as well as a switchable 75Ω termination.

BNC connector. An additional BNC connector is provided for

looping through as well as a switchable 75Ω termination.

BNC connector. An additional BNC connector is provided for

➫

Power:

The SR-3 requires 6 to 9VDC @ 500mA with center pin

positive.

The SR-3 requires 6 to 9VDC @ 500mA with center pin

positive.

The SR-3 requires 6 to 9VDC @ 500mA with center pin

2. Wiring

➫

1/4” Jacks:

Time code input and output jacks are RTS 1/4” jacks

1/4” Jacks:

Time code input and output jacks are RTS 1/4” jacks

1/4” Jacks:

Pins are: Tip = high, Ring = low, Sleeve = ground.

Time code input and output jacks are RTS 1/4” jacks

Pins are: Tip = high, Ring = low, Sleeve = ground.

Time code input and output jacks are RTS 1/4” jacks

Since time code is bi-phase, a reversal of low & high wires

would not cause a problem.

Since time code is bi-phase, a reversal of low & high wires

would not cause a problem.

Since time code is bi-phase, a reversal of low & high wires

The SR-3 works with balanced and unbalanced equipment.

When using unbalanced equipment with the SR-3, wire your

The SR-3 works with balanced and unbalanced equipment.

When using unbalanced equipment with the SR-3, wire your

The SR-3 works with balanced and unbalanced equipment.

cables as described in the diagrams below.

When using unbalanced equipment with the SR-3, wire your

cables as described in the diagrams below.

When using unbalanced equipment with the SR-3, wire your

➫

BNC Connectors:

Use standard 75Ω video cables.

Figure 1. Proper unbalanced wiring diagrams

SR-3 Input

SR-3 Loop (out)

TIP

SLEEVE

RING

TIP

SLEEVE

RING n.c.

Set Up

Page 14

Appendix B: Longitudinal bit assignment

There is one time code word for each frame. Each word of

longitudinal time code (LTC) is divided into 80 equal segments

called bits, numbered 0 to 79.

These bits are mainly grouped by

four into Binary Coded Decimal words to form decimal numbers

(0 to 9). Twenty six of these bits are assigned to the Time Address

information (frames, seconds, minutes and hours); thirty two are

assigned to the Binary Group information (user bits); sixteen are

used for sync (sync word) and the remaining six are used for flags

or are still unassigned.

0767268 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60 64 68 72 76 0 4 8 1264

Sync

Word Sync

Word

Frame

Units Frame

Tens Second

Units Second

Tens Minute

Units Minute

Tens Hour

Units Hour

Tens

User

Bits User

Bits

Frame

Units Frame

Tens

ONE SMPTE FRAME

Figure 6. SMPTE Word

Address: 05:38:14:29 - User Bits: 00000000 - drop & color flags set

Appendix

Appendix A: Eight Digit Display

The eight digit display is mainly used to read Time Code and

User Bits. In repair mode, it reads the input signal; in generate

mode, the output. It is also used for the following:

Software version number

When the SR-3 is first turned on, the reader displays the

software version number for a few seconds.

Error Messages

Error descriptions appear in the display as soon as they

are detected - (see appendix D pg. 16)

Video Phase

While pressing and holding the “FixVideo ø” button, the

reader indicates which bit of the time code word lines up

with video Field 1 Line 5 (“V” drive). This feature is only

available when “Video Sync” is on - (see Video Sync

pg. 5).

Page 3

Modes of Operation

The SR-3 has 2 modes of operation: Repair and Gener-

ate. The “Mode” switch to the right of the display toggles

between the 2 modes and the 2 ledʼs above the switch indi-

cates which mode is currently selected.

Depending on the selected mode, some of the front panel

buttons have different functions. The functions for the Gen-

erate mode are indicated in reversed lettering on the front

panel. For example, the “Bypass” switch (in the Repair mode)

becomes the “Start” switch in the Generate mode.

Repair Mode

In Repair mode, the SR-3 continuously regenerates the input

time code, locked to either the source code or to external

video, performing repairs in the process, specifically drop

outs, jitter and video phase.

When the SR-3 is in the Repair mode, the “Repair”

LED

to the

right of the display is on. If it is off, press the “Mode” switch

to turn it on.

1. Reader display & Format

LED

ʼs

The 8 digit display reads Time Code or User Bits. Use the

“Reader” switch to the left of the display to select one or the

other. The 2

LED

ʼs to the left of the display indicate which is

currently selected (TC/UB).

The 5

LED

ʼs under the reader display give additional informa-

tion on the input signal:

• TC In: This

LED

indicates that signal is present at the TC input

jack

Repair Mode

Page 13

Infinity flywheel time

Infinity flywheel time is helpful when you need to add new

time code after the original code has stopped.

It is also helpful if the original code has become so corrupted

and useless that you need to replace it and you only want to

use the original code to give the SR-3 a starting number.

If you need to stay in sync with the source code, do not use

infinity unless the source code is synchronous with video. Set

to infinity, the SR-3 disregards the time code input after 15

frames of bad code and, from that point, a drift would most

likely occur between the source time code (input) and the

regenerated time code (output). However, if the SR-3 stays

locked to video and the source code is synchronous, no drift

will occur.

When repairing synchronous code, always turn on “Video Sync”

One of the problems the SR-3 can help reduce is jitter. When-

ever the source time code is synchronous with video, you

should feed the video reference into the SR-3 and activate

“VideoSync”. Video is a much more stable clock than time

code and helps reduce jitter substantially.

Application Notes

Page 4

• Vid In: This

LED

indicates that valid video is present at the

video input jack.

•24/25/30ND/30D: Only one of these

LED

ʼs is on at the

same time. It indicates the format of the repaired code.

• CF: This

LED

indicates the color status of the incoming code.

It is on if the color flag is set (bit 11); it is off if the flag is not

set.

2. Flywheel Time

The Flywheel time is the time during which the SR-3 continues

generating code after it has detected an input error, such as a

drop out. If the error has not been resolved by the end of the

flywheel time, the SR-3 stops.

During a drop out, the SR-3 generates code at the same rate

it did just prior to the drop out. After the drop out, the SR-3

slowly resyncs to the incoming code. However, if after a drop

out, the offset between the generator (SR-3) and the input

code is greater than 1/4 frame (± 20 bits), the SR-3 stops

regenerating and displays an error message (SLIP).

The SR-3 has 3 preset flywheel times: 5 Fr / 15 Fr / infinity.

Infinity (∞) is identical to “15fr” except that, if valid code

does not reappear after 15 frames, the SR-3 disregards the

input and continues generating time code at the same rate

until the “Bypass (start)” switch is pressed. Once the SR-3 has

switched to this mode and disregards the input, the “TC In”

led goes off, even if input signal returns.

To change the flywheel time, press the “Flywheel” switch

until the proper time is selected. Flywheel time cannot be

Repair Mode

Page 12

Application Notes

Recording the repaired time code

One way to deal with bad code is to restripe on a new track,

running the damaged code through the SR-3 and recording

its output. This is the simplest solution, but it requires an empty

track and takes a little time.

In this situation, set the Flywheel Time to 15 frames and, if the

original code is synchronous with video, turn “Video Sync”

on, and “Fix Video ø” if necessary.

Repairing “on the fly”

If you donʼt have an empty track or the time to re-stripe your

tape with repaired code, you can insert the SR-3 at the output

of your time code track and repair “on the fly”.

For example, if the time code on your master tape machine is

marginal and your synchronizer looses lock once in a while,

connect the output of your tape machine into the SR-3 and

feed the output of the SR-3 into your synchronizer. In this set

up the synchronizer no longer reads the raw time code off

the tape machine but the repaired code off the SR-3. The SR-

3 automatically switches to bypass in wind or search so you

always have valid code at the output of the SR-3.

SETTING THE PROPER FLYWHEEL TIME: In this set up (repair-

ing “on the fly”), after you stop the master tape machine,

the synchronizer will continue seeing time code until the SR-3

stops. If your synchronizer does not read tallies but only time

code, there will be a delay between the time you stop the

master machine and the time the synchronizer stops the slave

machine.

If you set the flywheel time to 5 frames, this delay will be

virtually unnoticeable. Set the flywheel time to 15 frames

only if you donʼt mind the 1/2 second delay or if you have

a time code error that requires 15 frames flywheel time to be

repaired.

Application Notes

Page 5

changed while SR-3 is running.

3. Video Sync

What does it mean for time code to be in phase with video?

For time code to be synchronous with video, each word of

time code must coincide with one frame of video; to be phased

properly, the beginning of each word must coincide with the

beginning of the video frame it describes.

Each word of time code is made up of 80 bits, numbered

from 00 to 79 (see Figure 2 below). Time code is phased

properly with video when the end of bit 79 of time code lines

up with field 1 line 5 of video (F1L5), ± 1 line.

How can you check video phase with the SR-3 ?



You can monitor the sync between the incoming time code and the

external video reference on the reader display. This feature is only

available if “Video Sync” is on and if video is present:

Press and hold the “FixVideo ø” switch: the reader now shows

which bit of the time code word lines up with video F1L5.

How to interpret the video phase display ?

With properly phased code, the display should read: “bit

79”. In the ʻreal worldʼ however, things are different and

phase will often be slightly off. For example, if the display

reads “bit 68” or “bit 07”, the address track was possibly

0767268 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60 64 68 72 76 0 464

Sync Word Sync Word

ONE TIME CODE FRAME (12:35:08:28)

F2L5 F1L5

Video Field 1 Video Field 2F1L5

ONE VIDEO FRAME

Figure 2. Proper alignment of time code and video

Repair Mode

Page 11

Output Level & Waveform

Output level

The output level is always adjustable, in repair, generate or

even bypass, with the rear panel pot (located next to the out-

put jack). It is adjustable from full off to +12db. This adjusted

level remains constant regardless of input level fluctuations.

Output Waveform

SMPTE & EBU Specs

Per SMPTE and EBU specifications, rise time limiting is used

to minimize crosstalk from time code into audio. A longer

rise time removes more high frequency components from its

waveform. SMPTE specs call for a 25µs rise time; EBU for

50µs. A third waveform is available from the SR-3: square

wave (1µs rise time)

SR-3 Output waveform (rise time)

☛

In Bypass, the rise time is set at approximately 2µs. This

way, high speed code can go through without being filtered.

☛

In Repair and Generate, the output rise time is set at 25µs.

Figure 3.

25 µs rise time

SMPTE specs

Figure 4.

50 µs rise time

EBU specs

Figure 5.

1 µs rise time

Square wave

Output

Page 6

misaligned on the VCR and your synchronizer may show

some slight sub-frame offset (i.e. 03,12, etc) when locked to

code like this. So long as you are within a few bits of 79 and

the bit number stays the same, you should have no problems.

WARNING: If the bit number drifts, time code is not

synchronous and may be useless for your application.

Locking the regenerator to external Video

When “Video Sync” is on, the SR-3 locks the regenerated

code to the incoming video reference. This is recommended

since video is a very stable reference.

• DRIFT: To avoid a drift between the input and the output

time code, video sync is only possible if the source code is

synchronous with video. Therefore if the incoming code is

non-synchronous, the SR-3 indicates “DRIFT” in the display as

a warning.

The SR-3 considers code non-synchronous if time code moves

by more than 5 bits with respect to video F1L5.

• VIDEO LOSS: While “Video Sync” is on, if video is

interrupted, the SR-3 stops and indicates “VID LOSS” in the

display.

• NO VIDEO: When activating ”Video Sync”, if no video

is present, the SR-3 indicates “NO VIDEO” for about one

second and flashes the Video Sync

LED.

Correcting Video Phase

When locked to video, if time code is out of phase, the SR-

3 can shift the regenerated time code so it is in phase with

the video reference (see page 4 - what does it mean to be in

phase with video?).

To correct the video phase, both the “Video Sync” and the

“FixVideo ø” switches must be turned on.

NOTE: The “Fix Video ø” switch can only be activated if the

“Video Sync” switch is on and not while code is running.

Phase correction can only be accomplished if the rate (or

frequency) of the incoming code is synchronous with video. As

Repair Mode

Page 10

Frame Rates & Clock Sources

The SR-3 can generate time code at all standard frame rates,

locked to its internal crystal or to external video.

To lock to external video, turn the “Video Sync” switch on

and connect your video reference to the rear panel BNC con-

nector.

If the “Video Sync” switch is on and no video is present, the “Video

Sync”

LED

blinks and the SR-3 generates code at a rate .1% slower.

This pull-down corresponds to the difference between regular

SMPTE rate (30 f/s) and the NTSC Color rate (29.97 f/s).

The following table shows the different frame rates and clock

sources:

Generate Mode

Page 7

with “Video Sync” described above, if the source code drifts, the

SR-3 indicates a “DRIFT” message in the display.

4. Regenerator Bypass

When bypass is engaged, the input signal is fed directly to the

output without any bit correction or repair.

Manual Bypass

To manually activate the bypass mode, press the “Bypass” switch

so that the

LED

is on.

Auto Bypass:

In the Repair mode, the SR-3 automatically switches to bypass

whenever it detects non play speed code. This way, readable code

is always present at the output, even during search and wind.

When the SR-3 switches to Bypass, the Reader displays the

incoming code. However, the SR-3 is a play speed reader and if

high speed code is running through the SR-3, the Reader wonʼt

display it. When play speed code reappears, the SR-3 switches

back to repair and the Reader displays the regenerated code

again.

5. Ramp-up time

When Video Sync is on, the SR-3 must wait for the tape

transport to reach a stable speed before it can determine

how the incoming code lines up with the video reference.

Until this is established, the SR-3 cannot regenerate code.

Therefore, the SR-3 stays in bypass until the end of a preset

ramp-up time, then switches to Repair.

The SR-3 has 3 preset ramp-up times which are selected in

conjunction with the Flywheel time:

FLYWHEEL TIME

RAMP UP TIME

5 Fr

5 fr

15 Fr

15 Fr 15 Fr

1.5 sec

∞

3 sec

Under most circumstances, the 5Fr setting should be used. The

other settings should be used with slow transports.

Repair Mode

VIDEO

EXT

SELECTED

FRAME

CLOCK

SYNC

VIDEO

FORMAT

RATE

SOURCE

Off

n/a

30ND

30

Internal Xtal

30DF

30

Internal Xtal

25

Internal Xtal

24

Internal Xtal

On

None

30ND

29.97

Internal Xtal

30DF

29.97

Internal Xtal

25

24.97

Internal Xtal

24

23.97

Internal Xtal

On

NTSC

30ND

29.97

Ext. Video

30DF

29.97

Ext. Video

25

No Output *

N/A

24

23.97

Ext. Video

On

PAL

30ND

No Output **

N/A

30DF

No Output **

N/A

25

Ext. Video

24

No Output **

N/A

* with message “NOT PAL” in display

** with message “NOT NTSC” in display

Page 9

To exit the SET mode and store the new preset in memory, hit

the “Start” button. This can be done at any time so you donʼt

have to scroll through all the parameters if you donʼt need

to edit them. After you exit the SET mode you can press the

“Start” button again to start the generator.

Scrolling though the preset parameters

If the reader is on TC when entering the SET mode, you can

edit the start time and the format; if it is on UB, you can edit

the user bits.



Adjusting Start Time & Format:

Set the reader to TC and press the “Flywheel (Select)” button:

• The Start Time has 4 fields: Hours, Minutes, Seconds and

Frames. Tap the “Flywheel (Select)” button to move from one

field to the next and, using the + and - keys, adjust each one

as needed.

After the Frames field, tapping the “Flywheel (Select)” button

one more time moves you to the Format.

• While setting the format, the

LED

corresponding to the

selected format is blinking. The standard formats are: 24, 25,

30ND, 30D. Tap the + or - button repeatedly until the desired

format

LED

blinks.

Pressing the “Flywheel (Select)” button again moves you out

of the SET mode and stores the new preset in memory



Adjusting User Bits:

Set the reader to UB and press the “Flywheel (Select)”

button:

• Each digit of the User Bits is adjusted separately. Tap the

“Flywheel (Select)” button to move from one digit to the next

and, using the + and - keys, adjust each one as needed.

After the eighth digit, hitting the “Flywheel (Select)” button

again moves you out of the SET mode and stores the new

preset in memory.

NOTE: When starting the generator, the display automatically

switches back to TC.

Generate Mode

Page 8

Generate Mode

In the Generate mode, the SR-3 can generate all standard

formats and frame rates, referenced to internal crystal or to

external video.

To set the SR-3 to generate time code hit the “Mode” switch

until the “Generate”

LED

is on.

Reader Display & Format

LED

ʼs

In the Generate mode, the reader displays the output time

code. It can read Time Code or User Bits. Use the “Reader”

switch to select. TC or UB. The format

LED

switch to select. TC or UB. The format LEDswitch to select. TC or UB. The format

ʼs indicate which for-

mat is generated.

Starting the Generator

To start the generator, hit the “Start” button. To stop the

generator, hit the “Start” button again. The Start

LED

is on

solid when the generator is running and flashing when it is

stopped.

Preset Start Time

The SR-3 always holds a preset in memory. This preset

includes: Start Time, User Bits and Format.

Whenever you start the generator, it begins counting from

the preset start time, no matter where you last stopped. To

start from another number, you need to change the preset.

Changing the preset

To change the preset, hit the “Flywheel (Select)” switch. This

brings you into the SET mode. -

NOTE

: You can only enter the

SET mode when the generator is stopped.

While in the SET mode, the selected parameter blinks. You

can scroll through the different parameters by tapping the

“Flywheel (Select)” switch and adjust them by using the +

and - buttons.

Generate Mode

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