SU842775A1 - Interface - Google Patents

Description

(54) DEVICE FOR PAIRING

The invention relates to a technique that decides the appropriate interfacing of discrete information sensors with a data processing device or with a control computer when submitting information about excited sensors of objects. A device for interfacing is known comprising a reading unit, a local control unit, a combining unit, an information pre-accumulating unit, a pulse shaping unit whose input is connected to the input of the device, and an output is connected to the first input of the accumulating unit, the second input is connected to the first output. the control unit, whose inputs are connected to the second inputs of the device, and the second output to the first input of the switching unit, the first input of which is connected to the output of the accumulation unit, and the output to the first input of the reading unit, the second the input of which is dinine with the third output of the control unit, and the outputs are the outputs of device 1. The disadvantage of the known device is low speed when entering information into the control computer. Of the known devices, the closest to the proposed technical entity is an interface device comprising a control unit, a register, a comparison unit, a sensor current state counter, AND elements, a distributor, an information output unit, an address counter, an address decoder, a switch, the first inputs of which are connected to the inputs of the device, the second inputs are connected to the outputs of the address decoder, the inputs of which are connected respectively to the first inputs of the AND elements and to the outputs of the address counter whose input is connected to the the output of the control unit, the second output of which is connected to the first input of the output unit, the output of which is the output of the device, and the second input is connected to the output of the switch and to the input of the pulse distributor, the output of which is connected respectively to the second inputs of the AND elements states, the second inputs of which are connected to the outputs of the I elements, and the outputs to the first inputs of the comparison and register unit, the second input of which is connected to the third output of the control unit, and the outputs to the second inputs of Comparison, the output of which is connected to the input of the control unit 2.

The lack of a known device is low throughput due to the fact that

the states of at least one sensor transfer the states of all sensors. This reduces the speed of the device and determines the presence of information redundancy during transmission.

The purpose of the invention is to increase the capacity of the device.

This goal is achieved in that the device containing the first register, the switch, the information inputs of which are connected to the corresponding inputs of the device, and the address inputs with the corresponding outputs of the address divertor, the comparison circuit and the address counter connected by the outputs to the corresponding inputs of the address decoder, and inputs - with the peer output of the synchronization node, the second output of which is connected to the control input of the first register, whose information outputs are connected to the first group of inputs cxe№i compared to, A second register and two encoders are entered, the second and third groups of inputs of the comparison circuit are connected respectively to the outputs of the address decoder and with the output of the second register, information inputs of the first register and the first encoder, and the group of outputs to the inputs of the second encoder and control inputs the first encoder, the outputs of which are respectively the second and first outputs of the device, the information inputs of the second register are connected to the corresponding outputs of the switch, and the control input is connected to the second output of the node sync.

Fig, 1 shows the block diagram of the device; Fig 2 is a functional diagram of the synchronization node.

The device contains inputs 1 of the device, to which double signals are received, characterizing the states of the sensors, switch 2, comparison circuit 3, address decoder 4, address counter 5, synchronization node 6, registers 7 and 8, the first encoder 9 / whose functional purpose is generating machine code. sensor states that changed their state during the polling cycle, and at the output of the encoder 9 two codes are formed, one of which corresponds to the zero (unexcited) state of the sensor and the other to the single this) the state of the sensor, the first outputs 10 of the communication of the device with the controlling computer, the second encoder 11, the functional purpose of which is to form at the output of the computer code the address of the sensor that changed

during the polling cycle, its state, the second outputs 12 of the device. The synchronization unit 5 contains a clock frequency generator 13 and a frequency divider 14, determining the end of the polling cycle, the first 15 and the second 16 outputs.

The device works as follows.

Signals of sensors are supplied to inputs 1, zero potential (if the sensor is not excited) and a single potential (if the sensor is excited). The generator 13 delivers from the output 15 to the input of the counter 5 pulses polling sensors. At the outputs of counter 5, binary codes of addresses of the polled sensors are generated in order of increasing numbers. Address codes that are fed to the inputs of the decoder 4 are converted into signals that are sequentially taken from the outputs of the decoder 4 in time. Each signal corresponds to a polling of the state of the corresponding sensor. This signal alternately connects inputs 1 through switch 2 to the inputs of register 8, and if the sensor is in the excited state, a unit will be written into the corresponding cell of register 8

In the initial state, the register 8 cells will record all zeros, and the register 7 cells will record the state of all sensors during the previous polling cycle

If during the next cycle.-polling the state of the sensor changes (one or several), then with the signal corresponding to the polling of the sensor that changed its state / in the corresponding cells of registers 7 and 8 different symbols will be written (O and 1 or 1 and 0) . Then the comparison circuit 3, having received from the decoder 4 a signal permission to compare the states of the corresponding cells of registers 7 and 8, outputs, at the same output, the unit potential through which the encoder 9, based on the analysis of the state of the given cell of the second register 8, to the control computer through Outputs 10 are issued a machine status code of the sensor, which has changed its state, and at the same time from the same output from the output cxeNW 3 of the comparison, the second encoder 11 outputs 12 to the control computer machine od sensor address has changed its state. When the divider 14 counts the frequency of the generator 13 of the polling pulse of the last sensor (which corresponds to the end of the full polling cycle), a pulse is sent from the second output 16 of the node to the control inputs of registers 7 and 8; register 7, as well as erasing the contents of the register 8, and the device will be prepared for the next survey cycle.

Thus, the device provides an increase in throughput by reducing delays in the transmission of sensors, and eliminating the issuance to the control computer of information about sensors that have not changed their state.

Claims (2)

1. Authors certificate of the USSR 352270, cl. G 06 F 3/04, 1970. 2. Authors certificate of the USSR 548856, cl. G 06 F 3/04, 1977 (prototype). one