SU1119039A1 - Voltage limiter - Google Patents

Abstract

A VOLTAGE LIMITER containing an operational amplifier whose output is connected via a diode. to the output of the limiter, a series-connected limiting resistor and a load resistor connected between the limiter input and a zero potential bus and connected to the output of the limiter connected through the first scale resistor to the inverting input of the operational amplifier, the second scale resistor whose first output is connected to the inverting the input of the operational amplifier, and the source of the reference voltage, which is characterized by the fact that, in order to increase the limiting accuracy, the output of the Nogo voltage connected to the noninverting input of the operational amplifier, and the second (L terminal of the second scaling resistor is connected to zero potential bus. Stock Stock

Description

The invention relates to analogs of computing and radio engineering. Adjustable voltage limiters are known in which a second amplifier LI 3 and C2D are introduced to increase the accuracy of the limit level. The disadvantage of these limiters is the increased hardware costs (two amplifiers are necessary for their implementation). The closest to the proposed device is a limiter with an adjustable limitation level, built on a single amplifier, in which, to improve the accuracy of the channel of clamping the limiting level, the amplifier is connected to the load via a nonlinear element (diode) and the input of the amplifier is connected respectively to the first and second resistors to the source of the reference voltage and load Sz. A disadvantage of the known devices is the presence of an additive error in its operation in the mode of signal transmission due to the direct passage of a signal from a source of reference voltage through the first and second resistor to the output. The purpose of the invention is to increase the accuracy of the limit. The goal is achieved by heme that in a voltage limiter containing an operational amplifier whose output is connected via a diode to the output of the limiter, serially connected limiting resistor and load resistor connected between the limiter input and the zero potential bus and connected to the common output with the output limit l, connected through the first large-scale resistor to the inverting input of the operational amplifier, the second large-scale resistor, the first output of which is connected to the inverting input of the operation and the source of the reference voltage, the output of which is connected to the non-inverting input of the operational amplifier, and the second output of the second large-scale resistor is connected to the zero potential bus. The drawing shows a functional voltage limiter circuit. The voltage limiter contains the operational amplifier 1, 39 load resistor 2, the source 3 of the reference voltage, the limiting resistor 4, the first large-scale tire: the torus 5, the second large-scale resistor 6, a diode 7 connected to the output of the operational amplifier 1, the non-inverting input of which is connected with the source 3 of the reference voltage, and the inverting input is connected to the common output of the scale resistors 5 and 6 connected between the output of the voltage limiter and the zero potential bus. Parallel to the scale resistors 5 and 6, the resistor 2 is switched on. The limiter works as follows. The input signal v is fed to a direct-link voltage divider consisting of a series-connected limiting resistor 4 and a load resistor 2. The limiting latching channel contains a voltage source 3 connected to the non-inverting input of operational amplifier 1, a voltage divider connected parallel to load resistor 2 and consisting of series-connected large-scale resistors 5 and 6, the common output of which is connected to the inverting input of operational amplifier 1 and a diode 7 connected between the output of the operational amplifier 1 and the common terminal of the limiting resistor 4 and the load resistor 2. When the limiter is operating in the signal transmission mode, the diode 7 is closed. In this case, the negative feedback circuit of amplifier 1 is open and. he is in saturation. The output voltage of the limiter with a negligibly small effect of the input and output impedance of the amplifier is determined by the expression: J (.) BbX-RRR + Ro () / Z "de R and 2 resistances of resistors 6 and 5 respectively RO - resistance of limiting resistor 4 , UQ - input, voltage; and - the voltage across the amplifier 1; RD - reverse resistance of the diode 7; r is the relative error of the limiter due to the resistance of diode 7. The influence of the error -j- with a sufficiently large reverse resistance from the research institute of diode 7 is negligible. When the output signal reaches the set limit level, diode 7 opens. In this case, the output voltage is defined by the expression: 4 ((-.) () V Ro () "oRi ((". "2} (where r is the direct resistance of diode 7; I is the output resistance of the amplifier 1. Sufficient large gain factor V amplifier „039 where the error of the voltage limiter during its operation in the fixing mode of the limiting level. As you can see, when selecting a sufficiently large amplifier gain, the effect of the error is negligible. Thus, the error of the voltage limiter in its operation Both modes are negligible and tend to zero. with increasing R (when operating in signal transmission mode) and gain I (when operating in fixing mode of limiting level). In the known limiter, the error of f is not eliminated. At the same time, the hardware costs of the proposed device and the prototype are the same.

Claims (1)

VOLTAGE LIMITER, containing an operational amplifier, the output of which is connected through a diode. to the output of the limiter, connected in series with the limiting resistor and the load resistor connected between the input of the limiter and the zero potential bus and connected to a common output with the output of the limiter connected through the first scale resistor to the inverting input of the operational amplifier, the second scale resistor, the first output of which is connected with an inverting input of the operational amplifier, and a reference voltage source, characterized in that, in order to increase the limitation accuracy, the output of the reference source voltage is connected to a non-inverting input of the operational amplifier, and the second output of the second large-scale resistor is connected to the zero potential bus. SU „,, 1119039 t 1119039