Digital outputs, Using the digital inputs and outputs, Multi-purpose connector – Philips INCA 320 User Manual

The common grounds of the inputs 1..5 (see also 2.3.3)
are connected to each other. The common ground for the
sixth input is separate.
The minimal required input current for Ion (the current at
which the diode is conducting and emitting light) is 5 mA.
When the diode is conducting and thus emitting light, the
software will interpret this as a binary ‘1’.
The maximum allowed current is 10 mA.

2.3.3.2 Digital

Outputs

The following diagram shows one output.

Common

24V

Signal Out

400

Figure 2-8: Digital Output

The common 24V lines of outputs 1..3 are connected to
each other. Also the common 24V lines of the outputs 4..6
are connected to each other.
When the software writes a binary ‘1’ to the output, the
diode will be conducting and so will the transistor. This will
result in an Ion state.

The maximum output current is 18 mA.

When the Inca is reset, the outputs will be in the state Ioff
(the transistor is not conducting).

2.3.3.3

Using the Digital Inputs and Outputs

The following figure gives an example of how the input can
be used.

Common Ground

Signal In

15V

940

24V

Inca

Figure 2-9: Using the input

The following figure shows an example of how an output
can be used.

Common 24V

Signal Out

400

24V

Inca

Figure 2-10: Using the output

2.3.4 Multi-purpose

connector

Looking at the back of the Inca the connector in the left
bottom corner is a multi-purpose connector. The
connector, a 9 pole micro-D connector, contains

2005-12-12

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