Specifications

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3000 series eurocard switchers.ib.rev21.doc Page 12 of 36 16/10/2007

Switching Logic:

Control logic for each switcher module is performed by a Programmable Logic Array (PLA) which has been

programmed for the required operations. This component will only function correctly when loaded with the correct

program and is therefore only available through IRT.

Each module of the switcher group has two control connectors on its rear assembly.

They are labelled PL 4 and PL 5. For descriptive purposes, PL 4 is called the “input” connector and PL 5 the

“output” connector.

The pins on these connectors have the following functions:

PL 4 PL 5

1A +12 Vdc NC

1B Ground Ground

2A Data 4 Data 4

2B Data 3 Data 3

3A Data 2 Data 2

3B Data 1 Data 1

4A Data 0 Data 0

4B Switch pulse in Switch pulse out

5A Busy out Busy in

5B Unlatch in Unlatch out

The CPS-9000 / 9001 remote control panel also has PL 4 and PL 5 but Pins 1A on both connectors are joined and

are the power supply pins for the panel. This is to allow the power supply to continue to the next control panel

where more than one panel is required. This is necessary, as the CPS-9000 / 9001 does not have its own power

supply, but derives its power from the first connected switcher.

The CDC-3060 logic control module only has a PL 4.

The 5 bit codes on Pins 2A to 4A represent the input selected. This code is in BCD (Binary Coded Decimal) where

the Data 0 to 3 represent the binary numbers 0 to 9 (Inputs 1 to 10 if Data 4 is 0 or Inputs 11 to 20 if Data 4 is 1).

The unlatch out signal is asserted by a switcher if any of its front panel switches is operated or if its unlatch in

signal is asserted. The presence of an unlatch in signal causes any switcher to release control of the data lines (if it

had control of them).

A switcher signals that it has control of the data lines by asserting busy out. Busy out also ripples busy in.

The operation of a push-button ripples unlatch to modules farther down the chain, causing any of them with control

of the bus to release it, and in so doing clear the busy line.

As soon as the requesting module sees its busy in line clear, it takes control of the bus and asserts its busy out. The

busy out signal then ripples up the chain causing any other modules release control (if they had it).

Sync path:

The switchers may be operated in either a local or remote sync mode in order to allow simultaneous switching of

different signals in multilevel applications.

This implies that the matrix will not switch until a sync pulse is received. When this is not provided externally, a

local sync needs to be provided.

The AVS-3010 / 3011 provides this sync from the video’s vertical pulse (see AVS-3010 sync path for details).

All other modules generate a local sync by means of a free running oscillator followed by a monostable (AAS-3020,

AAS-3021, DDS-3030 & DDS-3031 -- U 10, DVS-3040 & DVS-3041 -- U 8). This provides pulses approximately

every 25 ms.

The “localsync” signal is passed to the PLA via link LK 4, which allows a choice of internal or external sync to the

switcher logic. The chosen sync is echoed to “vertout” which is available on the PL 5 remote connector for slaving

other switchers. See Configuration section for details.

1B 2B 3B 4B 5B