CS197014B1 - Connectionm for automatic extract of the remote measuring on the selection - Google Patents

Description

The invention relates to a circuit for automatically displaying length measurement for selection, eg for the transmission and writing of less important values from power substations to control rooms.

Typically, unoccupied bit groups in remote measurement and signaling devices carrying permanently measured quantities are used to transmit length measurement to choice. In this case, the address of the measured point is transmitted in one group of bits and the measured value in the other group. Switching of the measured places is done either manually by means of the remote control or a cycler is installed in the station, which automatically overfills the measured places and sends their addresses. This cycler can be started or returned to the starting address using the remote control device. The disadvantage of the first method with manual selection is the considerable burden of workers, who at regular intervals select one measurement at a time and record the values in the log. In the second method, a control computer is usually used for evaluation. This solution is for the lowest level control rooms, where the use of measurement for choice prevails, unbearable costly and labor intensive.

The wiring according to the invention, which is intended to cooperate with the cycler, greatly simplifies the automatic remote measurement dump selection. Its essence lies in the fact that the outputs of individual communication paths are connected to an input switch, its output is connected to the input of the receiver of length measurement and signaling, the output of the receiver measurement is further

197 014 of the measuring and signaling is connected to the inputs of the falling counter, whose clock input is connected to the output of the first gate, to which the clock input of the rising counter is connected, the first input of the first gate is connected to the clock frequency source to the output of the first flip-flop, the first input of which is connected to the output of the second gate, the transmit pulse output of the remote metering receiver and signaling is connected to the first input of the second gate and to the uplink counter reset input; connected to the flip-flop reset input and the start input of the typewriter controller, the inputs of which are connected to the outputs of the ascending counter and the outputs are connected to the typewriter. A multiplexer may be connected between the output of the first gate and the clock input of the downlink counter, such that its first input is connected to the output of the first gate and its output is connected to the clock input of the downlink counter, the inputs of the first and second divider the outlets are connected to the second and third inputs of the multiplexer, a selected portion of the signaling outputs of the remote measurement receiver and the signaling can be connected to the address inputs of the multiplexer. Furthermore, an input for controlling the decimal point of the typewriter controller can be connected to the address inputs of the multiplexer. The second portion of the remote measurement and signaling receiver outlets can be connected to the input to the end character decoder and to the first comparator input, the first comparator output is connected to the clock input of the repeat counter and the second input of the remote control device. and the clock counter of the address counter, the counter counter outputs are connected to the second comparator input, the address counter reset input is coupled to the end character decoder output, the first sum gate gate 8 to the first command decoder input, and the repeat counter reset input. the second input of the command decoder and the second input of the summation gate 1a, the summation gate output is connected to the clock input of the station counter whose outputs are connected to the third input of the command decoder whose outputs are connected to the input y of the remote control device, the fourth command decoder input is coupled to the station counter reset input and the time decoder output whose input is coupled to the digital clock output.

The circuit according to the invention automatically converts the measured values into physical units without the use of a control computer. This will result in substantial savings in investment and operating costs. The device is simpler, more reliable and has little space, maintenance and air conditioning requirements.

An exemplary embodiment of the present invention is illustrated in the drawing, which is a bio wiring diagram. The drawing shows that the outputs of the individual communication paths are connected to the input switch 1, its output is connected to the input of the receiver of length measurement and signaling, the measurement output of the receiver of remote measurement and signaling is connected to the inputs of the downcomer 2 » connected to the output of the first gate 11, to which is further connected the clock input of the uplink counter, the first input

197 014 of the first gate 11 is connected to the clock source 13, the second input of the first gate 11 is connected to the output of the flip-flop 12, the first input S of which is connected to the output of the second gate 15 by the first input of the second gate 15a and the reset input of the uplink counter 5, the outputs of the downstream counter 3 are connected to the inputs of the zero indicator 4, the output of which is connected to the reset input R of the flip-flop 12 and the start input of the typewriter 6; counters 2 and outputs are connected to a typewriter 7. A multiplexer 8 is connected between the output of the first gate 11 and the clock input of the downlink counter 2 so that its first input is connected to the output of the first gate 11 and its output is connected to the clock input of the downstream counter 3. to the output of the first gate 11 are further connected at the steps of the first divider 8 and the second divider 10, the output of the first divider 2 is connected to the second input of the multiplexer 8 and the output of the second divider 10 is connected to the third input of the multiplexer 8 and the selected portion of the signaling outputs Further, the address inputs of the multiplexer 8 are connected to an input for controlling the decimal point position of the typewriter 6 controller. The second portion of the signals of the remote measurement and signaling receiver 2 is connected to the input of the end character decoder 14 and to the first input of the comparator 17, the first output of the comparator 11 is connected to the clock input of the repeat counter 18 and the second input to the remote control device 24. and the second input of the second gate 15 and the clock input of the address counter 16, the outputs of the address counter 16 are connected to the second input of the comparator 21, the reset counter of the address counter 16 is connected to the output of the decoder. commands and and the reset input of the repeat counter 18, the output of the repeat counter 18 is connected to the second input of the decoder 19 and the commands and to the second input of the summing gate 23. the output of the summing gate 23 is connected to the clock input of the counter 22 The command input decoder 19 is coupled to the reset counter of the station counter and the output of the time decoder 20, the input of which is connected to the output of the digital clock 21.

The device will output the measurement automatically after the interval set in the time decoder 20 has elapsed. An impulse from the time decoder 20 resets the station counter 22 and sends a command to start the cycler via the command decoder 19 and the remote control device 24. The signal from the selected station comes via input switch 1 to the input of the remote measurement and signaling receiver 2. After evaluating the correctness of the telegraph tag, the measurement output of the remote measurement and signaling receiver 2 will be encoded with the measured quantity (in this case, in binary code) and the signaling output will display the address of the first measured location in the bits. The comparator 17 compares the address of the measured site with the state of the address counter 16. With the equivalence of both numbers, a pulse appears on the second output of comparator 17, which increments the counter by one unit

197 014 addresses and sets the output Q of flip-flop 12 to the unit. The measured value is written to the downlink counter and the clock frequency is passed through the open gate 11 to the multiplexer input 8, to the input of the first divider 2 of the second divider 10 and to the clock uplink of the uplink counter 5. Portion of signaling bits connected to the multiplexer 8 address inputs determines whether the clock input of the downlink counter 6 is received by the clock frequency directly or via the first or second divider. Both counters start counting and when the down counter status is zero, the output of the zero indicator 4 shows a pulse that resets the flip-flop 12. This completes the conversion of the numeric code to the physical units. At the same time, the typewriter controller 6 is started, which writes the measured value via the typewriter J.

The signaling bit count, which is intended for transmitting a measurement constant and can be used to control the position of the decimal point, can also be introduced into the typewriter controller 6. Writing the measured value on a typewriter completes the processing of one measuring point and the device waits for the arrival of further information from the station and then repeats the whole procedure.

If a measurement comes from the station and the address exceeds the state of the address counter 16, it means that the transmission has been interrupted and some measurement has been omitted. In this case, ae detects a pulse at the first output of comparator 17. This pulse causes a command decoder 19 and a remote control device 24 to send a command to return the cycler at the station to its initial position. The cycler is now retransmitting all measurements from the beginning, but the addresses are lower than the state of the Address Counter 16. With each transmission, a pulse occurs at the third output of comparator 17, which is not connected and these measurements are ignored. Only when the address is equal to the state of the address counter 16, the measurement is output and the device continues in the normal way. This recurrence occurs only exceptionally, but it is necessary to avoid repeated cycling at one station in the event of a failure. Therefore, the number of repetitions is controlled by the repetition counter 18, and if the selected number in one station exceeds the device, the device automatically goes to the next station.

After the last measured value has been transmitted, the agreed end character, eg aamé logic ones, is sent in the address bits. At the output of the end character ae decoder 14, a pulse occurs that resets the address counter 16, the repeat counter 18, and increments the station counter 22 by one. The command decoder lff commands the remote control device 24 to start the cycler at the next station and repeats the procedure until the transmission from the last station is complete.

The connection can be used eg in power engineering to transfer less important information from stations to regional dispatching centers, but also in other fields.

Claims (4)

1. A wiring for automatic listing of remote metering to an option, characterized in that an input switch (1) is connected to the output of the individual communication channels, its output is connected to the input of the remote measurement and signaling receiver (2). a counter (3) whose clock input is connected to the output of the first gate (11), which is further connected to the clock input of the uplink counter (5), the first input of the first gate (11) is connected to the clock source (13), the second input of the first gate (11) is connected to the output (Q) of the flip-flop (12), the first input (S) of which is connected to the output of the second gate (15); by the first input of the second gate (15) and the reset input of the uplink counter (5), the outputs of the downlink counter (3) are connected to the inputs of the zero indicator (4) whose tup is connected to the reset input (R) of the flip-flop (12) and the start input of the typewriter (6) whose inputs are connected to the outputs of the upward counter (5) and the outputs are connected to the typewriter (7). Wiring according to claim 1, characterized in that a multiplexer (8) is connected between the output of the first gate (11) and the clock input of the downlink counter (3) so that its first input is connected to the output of the first gate (11) and its output is connected to the clock input of the downlink counter (3), the inputs of the first divider (9) and the second divider (10) are connected to the output of the first gate (11), the output of the first divider (9) is connected to the second input of the multiplexer the output of the second splitter (10) is connected to the third input of the multiplexer (8) and the selected portion of the signaling outputs of the remote measurement receiver (2) is connected to the address inputs of the multiplexer (8). Connection according to claim 2, characterized in that an input for controlling the decimal point of the typewriter (6) is connected to the address inputs of the multiplexer (8). 4. Connection according to claim 1, characterized in that the second part of the signal outputs of the remote measurement and signaling receiver (2) is connected to the input of the end-character decoder (14) and to the first comparator input (17). clock input of repetition counter (18) and second input of remote control device, second comparator output (17) is connected to second input of second gate (15) and clock input of address counter (16), output of counter counter (16) is connected to second input the comparator (17), the reset input of the address counter (16) being connected to the output of the end character decoder (14), and the first input of the summing gate (23), to the first input of the decoder (19) the output is connected to the second input of the command decoder (19) and the second input of the summing gate (23), the output of the summing gate (23) is connected to the clock input of the counter (22) ) a station whose outputs are connected to a third command decoder input (19) whose outputs are connected to the inputs of a remote control device (24), the fourth command decoder input (19) is connected to a station counter reset input and a time decoder output (20) , the input of which is connected to the output of the digital clock (21).