SU1406762A1 - Multichannel switching device - Google Patents

Abstract

The invention relates to electronic switching technology and can be used, for example. in information and measurement systems. The purpose of the invention is to increase the reliability of the switch. The device contains in each measuring channel 1 element 2И 2 and KNOP-key 3. Kliyu black channel 7 includes KKPGT-key 8, counting trigger 9, elements AND 10 - 15, elements OR 16 - 18, D-triggers 19-22 and comparators 23 and 24. In the switch process, if the output bus 5 is closed at any constant voltage, within the specified range, the measurement channels 7 are disabled. After the closure is removed, the switch recovers its operation. 1 tab. Y- S (/. From "5 Od Od 1C

Description

The invention relates to electronic switching technology and can be used in information-measuring systems, automation systems and control systems.

The purpose of the invention is to increase the reliability of a multi-channel switch by disconnecting the measuring channels when the output bus 10 of the device closes over a wide voltage range - achieved by introducing two additional D-triggers, each of AND, OR and two comparators, into the calibration channel, thanks to 15 which produces signals that prohibit the passage of switched signals through the keys of the measuring channels, as a result of which the possibility of the flow of large 20 short-circuit currents and paspyiue is eliminated key elements.

The drawing shows a functional diagram of a multi-channel switch 25.

The device contains in each measuring channel 1 an element 2 and 2 and a CMD key 3, the input of which is connected to the input bus 4 channels, and the output 30 is connected to the output bus 5 of the switch. The first inputs of the 2I elements of each measuring channel 1 are connected to the corresponding control bus 6, and the outputs to the control 35 inputs of CMD-keys 3 of the same measuring channels 1.

. The calibration channel 7 contains an additional CMD-key 8, a counting trigger 9, six elements AND 10-15, 40 three elements OR 16-18, four D-triggers 19-22 and two comparators 23 and 24. Non-inverting input of the first 23 and inverting input The second 24 comparators are connected respectively to the bus 25 of the maximum voltage source and bus 26 of the minimum voltage source. The control bus 27 of the calibration channel 7 is connected to the control input of the additional KSCHP key 8, the input of which is connected to the output of the counting trigger 9, and the output is connected to the output bus 5 of the switch. Tact bus 28 is connected to the input of the counting trigger 9, 55 and the bus 29 choice r.ezhima - to one of the inputs of the second element ILIi 17.

The multichannel switch works as follows.

During normal operation of the switch, elements 2 and 2 in each measuring channel I do not prevent 3 control signals from the control buses 6 from passing to the control input of a KMDP-key. At the same time, the switched signal passes to the output bus 5 from the input bus 4 of the corresponding measurement channel 1 switch.

With a positive signal on the control bus 27, the calibration channel 7, the measurement channels 1 are disconnected from the output bus 5. The frequency of the signals coming in; they go to the clock bus 28 twice the frequency of the signals coming to the control bus 27 of the calibration channel 7. D-Trig 19-22 are triggered by the positive edge of the pulses arriving at the clock inputs, and the counting trigger 9 is triggered by the negative edge of the clock pulses. When analog signals are switched, a single signal is supplied to mode selection bus 29, with no overload protection for the output bus.

When switching digital signals to the mode selection bus 29, a zero signal is applied. This protects the switch from closing the output bus 5 to a constant voltage determined by the allowable voltage levels for 0-flip-flops and comparators.

During normal operation of the switch

during the positive signal on

I

The bus 27 of the control of the calibration channel 7 enters the input of the additional KMDP-key 8 from the output of the counting trigger. 9, a meander that passes to the output bus 5. At the first D-flip-flop 19, it is recorded or confirmed 1, and the second D- trigger 20 - O. At the forward output of the first 19 and the reverse output of the second 20 D-flip-flops, a high signal level is set. From the output of the first comparator 23, the inverse square wave is recorded in the third D-flip-flop 21, and from the output of the second comparator, the meander is recorded in the fourth D-flip-flop 22. As a result, the output of the first element OR 16 sets a high signal level, which, together with the high level of the output signal the third element And 12 allows the passage of control pulses

measuring channels, which start after changing the signal on control bus 27 from high to zero. In this case, the outputs of the first

10 and the second 11 elements And the third element OR 18 will be zero signals and the 0-flip-flop 21 and 22 will remain in a state that degrades the operation of the measuring channels.

When the output bus 5 of the switch closes into the first 19 and second 20 D-flip-flops, the same information is recorded, as a result of which the zero signal at the output of the third element And 12 prohibits the passage of signals from the control bus 6 of the measuring channels 1,

When the switching pin 5 of the switch closes for a voltage determined by the allowable voltages for the digital elements, levels 1 are set at the output of both coparators 23 and 24, which are written to the third 21 and fourth 22 flip-flops. As a result, a level O is set at the output of the first element OR 16, which prohibits the passage of control pulses of the measuring channels.

Thus, in the event that the output bus 5 of the switch closes to any constant voltage in a given range, the switching on of the measuring channels is prohibited. After clearing the closure, the multichannel switch restores its operability, thus increasing the reliability of the device.

Claims (1)

Invention Formula Multichannel switch, containing measuring channels made on a CMDP key and element 2I, and a calibration channel containing a counting trigger, an additional CMDP key, the first and second D-triggers, the first, second and third elements And, the input of the CMDP key is connected to the input bus of the channel, and the output is connected to the output bus of the switch, the first inputs of elements 2I of each measuring channel are connected to the corresponding control bus, the second inputs of all elements 2I are combined, and the outputs are connected to control inputs KMDP-keys of the same measuring channels, the control input of the additional KMDP-key and the second inputs of the first and second elements And are connected to the control bus of the calibration channel, and the input of the counting trigger And the third inputs of the first and second elements And are connected to the clock bus, the outputs of the counting trigger are connected with the first inputs of the same elements And, the outputs of which are connected to the clock inputs of the first and in, second D-three ger, the information inputs of which are connected to the output bus of the switch, to which the output is also connected, add The KMDP key, whose input is connected to the direct output of the counting trigger, the direct and inverse outputs of the first and second O-flip-flops, respectively, are connected to the inputs of the third AND element, characterized in that, in order to improve reliability, the calibration channel of the switch is additionally entered three AND elements, as well as three OR elements, two D-triggers and a comparator, each of which the output of the second OR element is connected to the combined inputs of the 2I elements of the measuring channels, and the inputs of the second OR element are connected to the bus The mode mouth and the output of the fourth AND element, whose inputs are connected respectively to the output of the third AND element and to the output of the first OR element, the outputs of the first and second AND elements are connected to the inputs of the third OR element, the output of which is connected to the clock inputs of the third and fourth O- flip-flops, informational inputs of which are connected to the comparators' outputs, the direct outputs of the third and fourth D-flip-flops are connected to the first inputs of the fifth and sixth And elements, and the inverse outputs of the same D-flip-flops are connected to the second inputs Amp the fifth and sixth And elements, the outputs of which are connected to the inputs of the first element OR, the inverting input of the first comparator and the non-inverting input of the second comparator are connected to the output bus of the switch, and the second inputs of the same comparators are connected respectively to the buses of the sources of maximum and minimum voltages