CS215530B1 - Connection of circuits for mutual control of arbitrary number of analogue quantities - Google Patents

Description

The invention relates to circuitry for the mutual control of any number of analog quantities, supply voltages of any amplitude of different polarity, with the possibility of galvanic isolation of monitored analog quantities and with particular use for the protection of memory modules in microcomputer and microprocessor control systems.

The hitherto known circuitry for controlling any number of analog quantities, supply voltages, utilizes circuits designed from classical semiconductor components, which considerably complicate the design of control microprocessor systems in terms of functional mounting space. Another disadvantage is the power loss of radiated heat and especially the complication of reliability of the whole control system, which is a necessary prerequisite in the control of technological processes by microcomputer systems in real time.

According to the invention, the connection of circuits for mutual checking of any number of analogue quantities consists in that the first input analogue value is connected to the input of the first optoinsulating element, the second input analogue value is connected to the input of the second optoinsulating element, an optoisolating member, wherein the first output of the first optoisolating member is connected to the first switching circuit input, and that the first output of the second optoisolating member is connected to the second switching circuit input, and that the first output of the third optoisolating member is connected to the third switching circuit input, a first optoisolating member is connected to the first summing circuit input, and that a second output of the second optoisolating member is connected to the second summing circuit input, and that a second output of the third optoisolating member is connected to a third input of the summation circuit, the output of which is connected to a fourth input of the switching circuit, the outputs of which are connected to the input power terminals of the control microprocessor system.

The circuitry according to the invention overcomes the previous disadvantages and drawbacks of the above and has advantages over earlier circuitry. The greatest advantage of the invention is its low power consumption and high reliability. Another advantage is the small mounting space, the possibility of checking galvanically separated analog quantities, the possibility of checking any number of analog quantities, the possibility of checking any amplitude of analog quantities and the possibility of checking any polarity of analog quantities.

Connection of circuits for mutual checking of any number of analog quantities is clear from the drawing.

The circuit according to the invention consists of opto-isolating elements 4, 5, B, which serve as galvanic isolation of input signals X, Y, Z. The input 4 of the first opto-insulating element is connected to an analog input variable X, the input 5 of the second opto-insulating element is connected to an analog input. The input consists of a summation circuit 7 which processes the logic signals applied to its inputs a, b, c, a power switching circuit 8, whose outputs d, e, f are connected to the input power terminals g, h, i of the microprocessor control system 12.

It follows from the figure that the inputs of the opto-isolating elements 4, 5, 6 are connected to the input controlled analogue quantities X, Y, Z, the outputs of these opto-isolating elements 4, 5, 6 being

Claims (1)

Circuit for mutual monitoring of any number of analogue variables, characterized in that the first input analogue variable (X) is connected to the input of the first optoisolating element (4), the second input analogue variable (Y) is connected to the input of the second optoisolating element (5), the third analog input (Z) is connected to the input of the third optoinsulating member (6), the first output of the first optoinsulating member (4) is connected to the first input of the switching circuit (8) and the first output of the second optoinsulating member (5) is connected to the second the input of the switching circuit (8), while the first output of the three inputs of the switching circuit 8. The number of input analog quantities X, Y, Z is given by the number of opto-isolating elements 4, 5, 6. polarity and possibilities of galvanic separation of input analog quantities. Control signals from optoisolating members 4, 5, 6 suitably provided are applied to the inputs of the summation circuit 7. A logically processed control signal from the summation circuit 7 is applied to the control input of the switching circuit 8. The design of the switching circuit 8 is determined by nature and requirements. The outputs of the switching circuit 8 provide power to the input terminals g, h, i of the microprocessor control system. The above-described circuitry according to the invention can be used to check any number of analog quantities against each other. It is particularly suitable for checking the different supply voltages of memory modules in microprocessor control systems. BACKGROUND OF THE INVENTION the optoinsulating member (6) is connected to a third input of the switching circuit (8), the second output of the first optoinsulating member (4) is connected to the first input (a) of the summing circuit (7), the second output of the second optoinsulating member (5) is connected to the input (b) of the summation circuit (7), and the second output of the third optoinsulating member (6) is connected to the input (c) of the summation circuit (7) whose output is connected to the fourth input of the switching circuit (8) d, e, f) are connected to the input power terminals (g, h, i) of the microprocessor control system (12).