Instruction manual

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SYNC HD Guide74

Using just Word Clock, it is possible to create a

“chain” of digital devices in your studio by pick-

ing one source as the Word Clock master, and

configuring other sources as Word Clock slaves.

Bi-Phase/Tach

Bi-Phase and Tach are used with mag ma-

chine,16, 35, and 70 mm projectors, flatbed ed-

iting systems and other types of motor-driven

film equipment. Bi-Phase (sometimes called

Quadrature Sync) and Tach information are sim-

ilar, though they do differ.

Bi-Phase A Bi-Phase signal consists of two square

waves, which are generated directly by a device’s

transport mechanism, and which are 90° out-of-

phase with one another. As a Bi-Phase-generat-

ing device plays it outputs a steady stream of

square waves that the SYNC peripheral can use

as its clock reference, at nearly any speed includ-

ing still/paused.

The SYNC peripheral uses the phase relationship

between the two square waves to determine the

device’s direction (forward or reverse). However,

this is relevant only when the SYNC peripheral

is using the Bi-Phase signal as a positional refer-

ence.

Tach A Tach signal is a variation of Bi-Phase.

With Tach’s two signals, one is used only as the

direction indicator, while the other is used as

the velocity, or rate indicator. The SYNC periph-

eral uses this rate signal when resolving to Tach

as a clock reference.

There are several different standards for the

number of pulses-per-frame for Bi-Phase or Tach

devices. You can set the SYNC peripheral to

match the PPF rate of the external device’s Bi-

Phase/Tach encoder from Pro Tools, or using the

SYNC Setup software utility’s Pulse Per Frame

setting (Windows only).

Strictly speaking, Bi-Phase/Tach signals are clock

reference signals, and do not contain positional

information of their own. However, they do

contain enough information for the SYNC pe-

ripheral to calculate positional information.

Bi-Phase/Tach signals use two square waves to

generate pulses that can function as a clock ref-

erence. The two square waves are 90° out-of-

phase, in a pattern that resembles this:

With a Bi-Phase signal, the SYNC peripheral can

deduce the direction (forward or reverse) of the

signal based upon which wave is read “high” rel-

ative to the other. For instance, with some film

equipment, when the device is running forward,

it will generate a Bi-Phase signal where the “A”

wave leads the “B” wave—that is, where the A

wave peaks before the B wave peaks. When the

device is in reverse, the B wave will lead the A

wave.

However, some film equipment works in the op-

posite manner, which is why the SYNC periph-

eral Input Signals option lets you make the ap-

propriate selection (Fwd = A leads B, or Fwd = B

leads A).

Calculating the direction of a Tach signal is

slightly different. As you may recall, Tach also

uses two signals. The “A” signal is a square wave

that provides clock information; the “B” signal

is in a steady state (high or low) that indicates

the direction. Unfortunately, not all Tach-gen-

erating equipment uses the B signal in the same

Bi-Phase/Tach signals

Square Wave A

Square Wave B