CS259617B1 - Wiring for remote control of airport lighting systems - Google Patents

Abstract

The circuit includes a transmitter connected by a two-wire line to the receiver. The transmitter consists of a first memory with three switches on the input, which is connected to the first input of the divider, to the second input of which the first generator is connected. The output of the divider is connected via the first converter via a two-wire line to the second converter of the receiver. The converter is connected via a counter, a second memory, an evaluator to an adapter with four outputs. The second generator of the receiver is connected to the second input of the counter and simultaneously to the second input of the evaluator.

Description

BACKGROUND OF THE INVENTION The present invention relates to wiring for remote control of airport lighting systems using a two-wire line that allows several commands to be transmitted and function checked without demanding instruments.

Current airport lighting systems use either multi-core telephone cable or serial transmission. In the first case, there is considerable cost of equipment that is immobile and its repairs are slow and expensive. In the latter case, demanding measuring instruments are required to identify the fault. These disadvantages are eliminated by the circuit according to the invention, which consists of a transmitter which is connected to a receiver via a two-wire line, the first transmitter memory with three inputs for three switches being connected to the first input of the divider, the second input of which is the first generator is connected, while the output of the divider is connected via a first transducer to a second receiver transducer which is connected to a first counter input, the second input of which is connected to the second generator and second evaluator input, the first input of which is connected via the second memory counter output and the evaluator output is connected to the adapter input with four outputs.

The higher effect of the circuitry according to the invention over the prior art circuitry consists in a very simple control of the signal along the entire route, for example by hearing, handset and the like, and it is possible to perform signal quality evaluation. Another advantage is the elimination of accidental disturbances by a simple receiver.

The circuit according to the invention is further described in the accompanying drawings, in which Fig. 1 is a diagram of a transmitter, Fig. 2 is a frequency band of all command combinations, and Fig. 3 is a diagram of a receiver.

The circuit according to the invention consists of a transmitter and a receiver which are connected by a two-wire line. The transmitter consists of a first memory 1, which is connected to the first input of the divider 2, to the second input of which the first generator 4 is connected. The first memory 1 is provided with three inputs for switches A, B, C. connected to the receiver. The receiver scheme is shown in Fig. 3, where the converter 5 is connected to the first input of the counter 6, the second input of which is connected to the second generator 10, which is simultaneously connected to the second input of the evaluator 8. The output of the evaluator 8 is connected to the input of the adapter 9.

Each of the three switches A, B, C gives a specific command. According to the instantaneous state of these switches, a memory 1 is activated, the eight-bit output of which is connected to the control of the programmable divider 2. Each of the eight combinations of commands sent by switches A, B, C corresponds to a certain split ratio to divide the frequency of the first generator 4. to the first converter 3, where it is amplified and galvanically separated from the connecting line between the transmitter and the receiver.

In the second converter 5, which is again galvanically separated from the line, the signal is detected, amplified and converted to the TTL level. The signal is then fed to a counter 6 which is reset to zero at precise time intervals. Prior to resetting, the counter state 6 is played back to the input of the first memory 1, where it is assigned a four-bit output word representing three received commands from switches A, B, C and a transmission quality flag. In order to eliminate transients when changing the combination of commands from switches A, B, C, the four-bit word in the evaluator 8 is compared to the previous one and is only valid for two identical words. In the adapter 9 with four outputs A ‘, B‘, C, K, it is converted to an output DC level of eg 24 VDC. The zero and synchronization signals are produced in the second generator 10.

Fig. 2 shows the frequency bands of all combinations of P commands from switches A, B, C. If the measured frequency value f differs by less than 30 Hz from the rated value, the reception quality signal from the fourth output K of the adapter 9 is activated. more than 30 Hz but less than 50 Hz, the reception quality signal is not activated. The received command combination is valid, but it is necessary to look for a fault, this is the source of interference.

In the practical implementation, the connection line was also used for reverse DC signaling, receiving the most important commands by applying the DC voltage of one or the opposite polarity on the line and its resolution on the transmitting side.

Claims (2)

A wiring for the remote control of airport lighting systems, characterized in that it consists of a transmitter which is connected to the receiver by a two-wire line, the first transmitter memory (1) with three inputs connected to three switches (A, B, C) connected to the first the input of the divider (2) to the second input of which the first generator (4) is connected, while the output of the divider (2) is connected via a first transducer (3) via a two-wire Alignment line to a second transducer (5) (6), to the second input of which the second generator (10) is connected and the second input of the evaluator (8), the first input of which is connected via a second memory (7) to the counter output (6), connected to the input of the adapter (9) with four outputs (A ', B', C ', K). 2 sheets of drawings