(d)
discrete inputs The discrete input circuit is designed for an optional signal of both "GND/OPEN" or "OPEN/28V" polarities. (Ref. Fig. 011) The block diagram shows the basic configuration :
-
the discrete input signals of sections 1 and 3 are implemented on one hybrid component (4 discrete inputs)
-
the discrete input signals of sections 2 and 4 are implemented on one hybrid component (4 discrete inputs)
-for every input channel, the hybrid component contains passive
low pass filter, a bus driver and a test signal driver. the discrete inputs are filtered by a low pass RC filter with a typical time constant of 15 ms.
(e) discrete outputs The discrete output interface is designed for "GND/OPEN" signals. Electromechanical non-latching relays are used to achieve optimum isolation between the FCDC and the outside electronics (Ref. Fig. 012) One set of relay contacts is reserved for test purpose.
ARINC 429 Interface (I/O 1-3 or I/O 2/4)
Figure 010
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Block Diagram of Discrete Inputs
Figure 011
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Basic Discrete Output Circuit
Figure 012
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(2) I/O section 5 The I/O section 5 is designed to meet the requirements of various A/C subsystems. In addition to the types of interfaces implemented in section 1 to 4, analog input signals have to be received and converted by this section. (Ref. Fig. 013) The block diagram shows the organization and data flow in this section. These components are :
-
ARINC 429 inputs
-
ARINC 429 outputs
-
discrete inputs
-
discrete outputs
-analog inputs.
(a)
ARINC 429 inputs/outputs The implementation of the ARINC 429 input/output channels is identical to the configuration of section 1 to 4.
(b)
Analog input interface The block diagram shows the interface with major components: (Ref. Fig. 014)
-Multiplexer
-Differential Amplifier
-Analog/Digital converter.
The time period for a complete conversion cycle of an input
signal is approx 35 microsec.
(c) Discrete inputs/outputs There are only minor differences concerning the discrete input/output interfaces as compared with section 1 to 4. 20 discrete inputs are implemented on 3 hybrid components (2 components of 8 inputs and 1 component of 4 inputs). The discrete input signals are protected by an extra filter module.
Block Diagram of I/O - Section 5
Figure 013
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Block Diagram of Analog Input Interface
Figure 014
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E. Input/Output Protections The FCDC contains filtering components for the input/output and supply lines which protect the unit against unlimited destruction or permanent degradation in case of :
-spurious application of 28VDC or 115VAC signals on ARINC connector pins
-effect of lightning strikes
-imported electrical noise. The filters also protect against the exportation of electrical interference from the FCDC to other electronic equipment within the A/C. To achieve this objective, each input/output line is provided with the appropriate components. Particular attention is given to the internal wiring segregation : wiring between the ARINC connector and the different I/O sections.
6. Operation
_________
FCDC functions :
A. Data Concentration Based on data received from ELACS, SECS and various other sources, the FCDC generates and transmits the following digital information to the ECAM system :
-the position and availability of flight control surfaces
-failure signals.
The FCDC commands also the illumination of the lights indicating the
priority between side sticks. But the side sticks priority logic is
implemented inside the ELAC and SEC.
B. Maintenance Functions
The above information is also transmitted to the Centralized Fault
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