SU934488A1 - Electric connection testing device - Google Patents

Description

(W) DEVICE FOR CONTROL OF ELECTRICAL CONNECTIONS

Claims (2)

The device for monitoring electrical connections is related to computer technology and automation and may find application in testing electrical connections of radio-electronic equipment under production conditions. A device for checking electrical installation is known, comprising a galvanic communications recorder connected to a survey register, a control unit, input, output, and memory nodes whose output is connected to an influence register, a switch connected to the galvanic communication recorder l. The disadvantage of this device is its complexity and a long time checking the monitored object. . The closest technical solution to the proposed is a device containing a block for specifying the connection control sequence, a contact address maker, a result decoder, an error output block, a field of monitored connections D 2. A disadvantage of the known device is low efficiency and the inability to check circuits of any length. The purpose of the invention is to increase equipment utilization. The goal is achieved by the fact that the device for controlling electrical connections, which contains the block for setting the sequence of control of connections, the output of which is connected to the first input of the contact address generator, the first output of which is connected through the result decoder to the input of the error output block, the field of monitored connections, three registers are entered , address decoder, decoder group, switch group, two OR elements, two AND elements, NOT element, pulse shaper, the second shaper output contact addresses are connected to the first inputs of the AND elements and the first OR element, whose output through the pulse shaper is connected to the second inputs of the AND elements and the first input of the first register, the output of which is connected to the first inputs of the group decoders, the outputs of which are connected to the first inputs of the switches groups whose outputs through the second element 1LI are connected to the second input of the contact address generator, the third output of which is connected to the second input of the first element OR, with three At the input of the first element I and through the element NOT with the third input of the second element I, the output of which is connected to the first input of the second register, the outputs of which are connected to the second inputs of the respective switches of the group, the fourth output of the contact address generator is connected to the third inputs of the switches of the group, the second the input of the first register and the input of the address decoder, the output of which is connected to the second input of the second register and to the first. the input of the third register, the outputs of which are connected to the second inputs of the group's coders, the output of the first element I is connected to the second input (the house of the third register. The drawing shows a block diagram of the device. The device contains the unit 1 for setting the connection control sequence, the driver 2 contact addresses , the decoder 3 results, block 4 error output, field 5 monitored connections, registers 6-8, decoder 9 addresses, a group of decoders 10, a group of switches 11, elements OR 12, 13, elements AND U, 15, ele, ment NOT 1b, shaper 17 imp The device operates according to the program, (representing a sequence of points of the circuits of the tested connections and recorded on the program carrier. All the points of the tested connections are divided into electrical circuits at each of which includes points galvanically connected to each other. The code of each point the tested connections contain the address of the contact group (for example, the connector number) and the address of the contact within the group. The location of the points within the circuit is arbitrary; after the code of the last point of the circuit, the code End chains. The device works as follows. The control sequence of the connections using block 1 is inserted into the driver 2. Each circuit is first checked for an open circuit by checking the connections between all adjacent points of the circuit. The lack of communication between adjacent points is recorded by the decoder 3 and block k as a fault. An open circuit. After checking all the circuits for an open circuit, the search for extra connections is performed by checking all possible connections between points, each of which belongs to different chains. The presence of a connection between the points of the circuits is registered as a failure of the connection. In the process of monitoring electrical connections, the elementary verification of two points occurs as follows. The former 2 supplies the address of the contact group of the action to the input of the decoder 9. At the same time, signals are sent to the OR 12 element and the AND 1 element. The signal from the OR 12 element triggers the shaper 17) whose output signal AND Ik records to the register 8 the state of the output signals of the decoder 9, which determines the selected contact contact group. Next, the driver 2 supplies the address of the polling contact group to the input of the decoder 9. Simultaneously from the imaging unit 2, a signal is sent to the OR element 12 and the AND 15 element, the second input of which receives the enabling signal from the NOT 16 element. The signal from the OR 12 element starts the imaging unit 17, the output signal of which through the And 15 element writes the output state to the register 7 signals of the decoder 9 which determines the selected group of polling contacts. Shaper 2 supplies address 6 to address 6. Simultaneously from the imager 2, a signal is sent to the element OR 12, the output signal of which starts the imager 17, the output signal of the formation 17 records in the register 6 the address of the contact contact. In this case, the states of the registers 6, 7 do not change due to the presence of a inhibit signal at the inputs of the elements 14, 15 s of the former 2. Next, from the former 2, the address of the polling contact is supplied to the switches 11. The signal from one of the outputs of register 8 turns on the power of the corresponding decoder 10, which receives the address address contact code from the register 6 output. From the output of the included decoder 10, a single signal acts on the field 5 The signal from one of the register's first turns 0 than 7 turns on the power the corresponding switch 11 and connects its inputs to the corresponding group of contacts of the controlled connection field 5 If there is a connection between the points to be checked, the test result signal from the output of the corresponding switch Ator .11 through the element OR 13 enters the driver 2, otherwise the specified signal is missing. The introduction of a new unit to the device layout favorably distinguishes the proposed device from the known one, since it is important to control electrical circuits of arbitrary length by simultaneously connecting to the selected output of the decoder only a limited number of inputs of the interrogation switch, taking into account the maximum permissible branching ratio of the decoder output. exposure at the worst combination of compounds of the inspected object. In addition, turning off the power supply to the inactive sections of the impact decoder and polling switch significantly reduces power consumption and reduces the dimensions of the unit and device as a whole. Claims An apparatus for monitoring electrical connections, containing a unit for specifying a sequence of control connections, the output of which is connected to the first input of the address generator contacts, the first output of which is connected via the result decoder EZZ with the input of the error output block, the field of monitored connections, about and In order to increase equipment utilization, three registers have been entered into it, an address decoder, a decoder group, a switch group, two OR elements, two AND elements, a HE element, a pulse driver, and the second output form of contact addresses is connected to the first inputs And elements and the first OR element, the output of which through the pulse shaper is connected to the second inputs of the AND elements and the first input of the first register, the output of which is connected to the first inputs of the group decoders, the outputs of which through the field of monitored connections are connected to the first inputs of the group switches, the outputs of the latter through the second element OR are connected to the second input of the contact address generator, the third output of which is connected to the second input of the first OR element, to the third input of the first AND element, and through the element NOT to the third input of the second element And, the output of which is connected to the first input of the second register, the outputs of the latter are connected to the second inputs of the corresponding switches of the group, - the fourth output of the address generator con cycles connected with the third inputs of the switches of the group, with the second input of the first register and with the input of the address decoder, the output of which is connected to the second input of the second register and the first input of the third register, whose outputs are connected to the second inputs of the group decoder, the output of the first element I is connected to the second input third register. Sources of information taken into account during the examination 1. USSR author's certificate ff, cl. G 06 F, 1978. 2. USSR author's certificate number 723590, cl. G 06 F, 1978 (prototype).