CS253956B1 - Connection for multichannel transfer of the analog and two-value quantities - Google Patents

Abstract

Wiring for multichannel transmission analog and two-valued quantities it is intended for long-distance multi-transmission analog and two-valued quantities. Allows remote power to the transmitter over long distances. With its properties it is beneficial for use in underground mines and where it is difficult to provide power for the transmitter and low cost is required i for analogue transmission.

Description

The invention relates to a circuit for multichannel transmission of analogue and binary values over a line between a transmitter and a receiver.

The devices used so far for multi-channel transmission of analog or two-valued quantities are based on the frequency multiplex principle. These devices apply complex tuned circuits, which are expensive to manufacture and maintain. The devices are also of large geometric dimensions. Capacity is limited by usable frequency band, stability and selectivity of tuned circuits. Other radiations are based on the principle of time multiplexing, where the control unit sends the address to the line and the addressed transmitter sends in sepia the states on the individual inputs. The devices are relatively energy intensive, so that their remote feeding is problematic. Also known are devices based on the principle of pulses derived from the course of three-phase voltage. The device does not allow the transmission of analog quantities and the number of transmitted information per line is low * Other devices work on the principle of time multiplexing over a two-wire line, where the line to the transmitting section sends a clock pulse of one polarity in which the transmitting part is conductively interconnected for a given period of time and the information transmitted. The device is not solved for the transmission of analogue information and the solution leads to a complex energy-intensive transmitter.

Disadvantages of the above-mentioned devices eliminate wiring for multichannel transmission of analogue and binary values, consisting of receiver, transmitter, interconnecting line, characterized in that the output of the control unit is connected to the input of the line feeder and at the same time the control unit is interconnected with the signal evaluator. the receiver line is connected to the transmitter feeder input and the output of the transmitter end is connected to the input of the switch signal evaluator, the transmitter feeder output is simultaneously connected to the converter and switch end input,

253 956 The converter output is connected to the switch input by the transmitter input connected to the transmitter feeder output via the control circuit, the transmission input channels are connected to the transmitter switch inputs and the switch output is connected via the transducer input via the converter ·

The device according to the invention will achieve a simple design of the transmitting part also for the transmission of analog signals, which allows the construction of the transmitter with low energy consumption. This will allow the remote power supply of a transmitter with a large number of channels over a small cross-section, even over long distances, and the transmitter will be small in geometric dimensions.

The receiver 1 comprises a signal evaluator 6, a control unit 10 and a power supply line 11. The transmitter 2 consists of a power supply 4 of the end member 2 of the converter 6, control switch 2 ». 8 ·, and the input channels 12 »The interconnection is shown in the figure. The power supply 11 supplies the connecting line 2 with an electrical voltage. The control circuit 8 switches the switch 2 at regular time intervals ^so that it interconnects the first input channel from the input channels 12 to the converter 6. The converter 6 generates a pulse whose time duration is proportional to the magnitude of the voltage applied to its input and the rear edge of the pulse moves the switch 2 ^so > this connects another input channel from the input channels 12 to the converter 6 ·

The terminal member 6 during each odd pulse, i.e. when the switches 12 are connected with an odd numbered input channel 12, increases the power consumption from the line. The signal evaluator 8 evaluates the changes in the power consumption in the interconnection line 2 ^and passes them the time between two changes is converted to an analogue value or if a binary signal is connected to the input channel 12, the status leg, 0 or log, 1 ”on the connected channel 12 will be removed. until the pulse is switched again from the control circuit 8 to the first channel. In the time between the last channel being transmitted and the switching to the first channel, there is no change in demand on the line, this time being longer than the longest time between two changes when switching

253 956

3 is evaluated by the control unit 10 as a synchronization pulse giving information that the first channel will be connected to the transmitter 2.

The devices according to the invention can be used for remote transmission of multiple analog or binary signals over a single line.

Especially suitable for applications where it is convenient to power the transmitter from the receiver over its own transmission line. This feature is particularly valuable when transmitting information from deep mines to the surface?

Claims (1)

Circuit for multichannel transmission of analogue and dual-value variables, consisting of a receiver, a transmitter, a power line, characterized in that the output of the control unit (10) is coupled to the input of the power supply line (11) and the control unit (10) is 9) interconnected, the power supply output of the line (11) of the receiver (1) is connected to the power supply input (4) of the transmitter (2) by the power line (3) and the cannulable output (5) of the transmitter (2) is connected to the input 9) a switch (1), wherein the output of the power supply (4) of the transmitter (2) is simultaneously connected to the input of the canoe member (5), the converter (6) and the switch (7); ), the output of the feeder (4) of the transmitter (2) via the control circuit (8) is connected to the input of the switch (7), the input channels (12) of transmission and output are connected to the inputs of the switch (7) the stage of the switch (7) is connected to the input of the terminal element (5) via the converter (6) ·