SU1064218A1 - Device for voltage tolerance checking - Google Patents

Abstract

DEVICE OF ADMISSION MONITORING VOLTAGE, containing two differential amplifiers connected by - outputs to the inputs of the LII element, the output of which is connected to the output of the device, and the inverse 1 input of the second and direct input the first differential the amplifiers are connected to the sources of reference voltages, made in the form of a resistive voltage divider, so that, in order to simplify the device, the key A control element, the control input of which is connected to the output of the OR element, and the signal inputs of the key element are connected to the terminals of the average resistive voltage divider. (L

Description

The invention relates to electrical measuring equipment and is intended for use in telemetry automation and instrumentation. It is known a voltage tolerance control device containing two differential amplifiers, the outputs connected to the inputs of the OR element, two voltage dividers connected in series and connected to the input of the source of the reference voltage ij. The disadvantage of this device is low noise immunity. Indeed, when the monitored and reference voltages are close in magnitude, one of the amplifiers is on the verge of tripping, resulting in ripples in at least one of the indicated voltage sources can lead to multiple triggers of the comparison circuit. The closest to the present invention is a control tolerance device containing two differential amplifiers, rib connected by outputs to the inputs of the OR element, the output of which is connected to the output of the device, a. Inverted input with a second and direct input. First differential amplifiers are connected to the input bus by an inverted input. current controlled by the signal from the output of the element OR G2T. A disadvantage of the prior art device is its complexity due to the presence of the formation unit and the current generator. The purpose of the invention is to simplify the device. The goal is achieved by the fact that the voltage tolerant control device contains two differential amplifiers connected by outputs to the inputs of the OR element, the output of which is connected to the output of the device, and the inverse input of the second and direct input is connected to the input bus the first input and the second input the second differential amplifiers connected to the reference voltage sources, made in the form of a resistive voltage divider, the key element of the control input is introduced One of which is connected to the output of the OR element, and the signal inputs of the key element are connected to the terminals of the middle resistor divider resistor (En. Fig. 1 is a functional diagram of the tolerance control device; Fig. 2 shows the time diagrams of its operation. The tolerance control device contains two / differential amplifiers 1 and 2, connected by outputs to the inputs of the element OR 3. The first variable resistor 5, the resistor 6 and the second variable are connected to the input 4 of the voltage source of the device. resistor 7. The output of the first variable resistor 5 is connected to the inverted input of the first differential amplifier 1, and the output of the second variable resistor 7 to the direct input of the second differential amplifier 2. Resistor 6 is bridged by key element 8, the control input of which is connected to output 9 of the device and to the output of the element OR 3. The signal input 10 of the device is connected to the combined direct input of the first differential amplifier 1 and the inverse input of the second differential amplifier 2. The device operates as follows at once. The reference voltage levels Uj and i depend on the state of the key element 8, i.e. when the key element 8 is closed, the voltage from the output of the variable resistor 5 has a smaller value (U), and the voltage Uj, from the output of the variable resistor 7 is greater (out), with the key open, the element 8 has a voltage and has a larger value ( ), and the voltage uj is a smaller value. (and). The presence of reference voltages at the inputs of differential amplifiers 1 and 2 (positive polarity of the voltages) leads to the fact that at the first stage with a zero controlled signal at the output of amplifier 1, the zero state (U4), at the output of amplifier 2 is a single state (U), therefore, at the output of the element OR 3, the unit state (Uj) and the key element 8 are closed. I. . , At the time of comparing the monitored signal Y / s and the differential amplifier 2 from a single state goes to zero. At the output of the element OR 3 O, and the key element: ment 8 is opened. The reference voltage and decreases to u2. Simultaneous signal changes: an increase in the current value of the monitored reduction of the reference U results in an avalanche switching process of the differential amplifier 2. In the second stage of the device operation, when the current value of the monitored signal is in the tolerance zone, i.e. between reference levels and. and, the key element 8 is open and the comparison of the growing value of the monitored signal U occurs with a large reference level U. If they coincide, the differential amplifier 1 goes into a single state at the output and through the element (3 OR key element 8 closes the Reference voltage variable resistor 5 is reduced to the switching process is avalanche-like. At the third stage of the device operation, when the current value of the monitored signal begins to decrease and reaches a lower value Uj of the reference the voltage from the output of the variable resistor 5, the differential amplifier 1 switches to the zero state and the key element 8 opens. The reference voltage1 increases to U. The current value of the monitored signal decreases and the reference voltage on the differential amplifier 1 simultaneously increases. leads to an avalanche process of switching it. At the fourth stage of operation of the device, when the current value of the monitored signal, while continuing to decrease, reaches a lower value and the reference voltage from the output of the variable resistor 7, the differential amplifier 2 switches to a single state. Key element 8 closes. The reference voltage increases to Uj. The switching process of the differential amplifier 2 also proceeds as an avalanche. Technical and economic efficiency of the proposed device is to reduce the cost of its manufacture (for the organization of the known device requires more equipment

Claims (1)

ACCESSORY VOLTAGE CONTROL DEVICE, containing two differential amplifiers connected to the outputs of the element OR, the output of which is connected to the output of the device, and the inverse input of the second and direct input of the first differential amplifiers are connected to the input bus, the inverse input of the first and direct input of the second differential amplifiers are connected to sources of reference voltages made in the form of a resistive voltage divider, t and which, in order to simplify the device, a key element is introduced into it, the control input of which is connected to the output of the OR element, and the signal inputs of the key element are connected to the terminals of the middle o resistive voltage divider. | _ J;