SU1649646A2 - Commutator - Google Patents

Abstract

The invention relates to a pulse technique and can be used for switching DC and AC signals. The purpose of the invention — improving the reliability of a switch — is achieved by eliminating emergency situations arising due to the presence of zero bias of operational amplifiers. In the absence of voltage on bus 14, signals from the outputs of paraphase inverter 7 block diodes 3 and 4, and through resistors 10 and 11 are applied to non-inverting inputs of amplifiers 1 and 2. When the input signal on bus 12 is close to zero, the output of amplifier 2 is formed a negative voltage, and the output of the amplifier 1 is a positive voltage. These voltages bias diodes 5 and 6 in the opposite direction. 1 il.

Description

The invention relates to a pulse technique and can be used for switching DC and AC signals.

The purpose of the invention is to increase the reliability of the switch by eliminating emergency situations arising due to the presence of zero offset of operational amplifiers.

The drawing shows a diagram of the switch.

The switch contains the first and second operational amplifiers 1,2, four diodes 3 ... 6, paraphase inverter 7, the first and second resistors 8, 9, the first and second additional resistors 10, 11, and the input bus 12 is connected to the first pins of the first and the second resistors 8, 9, the second output of the first resistor 8 is connected to the non-inverting input of the first operational amplifier and through the second diode 4 to the direct output of the paraphase inverter 7,

the inverse output of which is connected via the first diode 3 to the second output of the second resistor 9 and to the non-inverting input of the second operational amplifier 2, the output of which through the fourth diode 6 is connected to the output bus 13, the inverting inputs of the first and second operational amplifiers 1, 2 and the first output of the third diode 5 , the second output of which is connected to the output of the first operational amplifier 1. the input of the paraphase inverter 7 is connected to the control bus 14, the inverse output of the paraphase inverter through the first additional resistor 10 conn It is connected to the noninverting input of the first operational amplifier 1, and the direct output through the second additional resistor is connected to the noninverting input of the second operational amplifier 2.

The drawing shows an example of a paraphase inverter 7, the input of which is connected to the emitter of the first

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transistor 15 of the first conductivity type, the base of which is connected via the first limiting resistor 16 to the common bus 17, and the collector is connected to the forward output of the paraphase inverter 7 and through the second limiting resistor 18 to the base of the second j-ranzer 19 of the second conductivity type and the first output of the third limiting resistor 20, the second output of which is connected to the first power supply bus 21 and the emitter of the second transistor 19, the collector of which is connected to the inverted output of the paraphase inverter 7 and through the fourth limiting re The resistor 22 to the second power bus 23.

The switch works as follows.

If there is no control voltage on the bus 14 at the inverted output of the inverter 7, a positive polarity voltage takes place, which is supplied from the power bus 23 through the resistor 22, and the negative polarity voltage from the power bus 21 through the resistors 18 occurs at the direct output. and 20. These voltages are applied to the diodes 3 and 4 in the blocking direction and through a large resistance value of the resistors 10 and 11 to the non-inverting inputs of the operational amplifiers 1 and 2. In the event that the input signal on the bus 12 is close to zero The currents determined by the resistances of the resistors 10 and 11 create a voltage drop across the resistors 8 and 9, under the action of which a negative polarity voltage is generated at the output of the operational amplifier 2, and a positive polarity at the output of the operational amplifier 1. These voltages from the outputs of amplifiers 1 and 2 bias diodes 5 and 6 in the opposite direction. Bus 13 is disconnected from the outputs of opamps 1 and 2. The bias on resistors 8 and 9 can be very small and is determined by the necessary and sufficient value at which the bias sign of amps 1 and 2 from external destabilizing factors is constant.

In this case, the signal at the input of any polarity will not pass to the output if it is in amplitude less than a certain specified value, determined by the value of the specified displacement. Signal of any polarity on

the input bus 12, at a higher offset level, will pass to the output.

If the input signal is positive polarity, then a positive polarity voltage is formed from the output of amplifier 2, the diode b is unlocked, and a voltage equal to the non-inverting voltage is set at the inverting inputs of operational amplifiers 1 and 2.

the input of the operational amplifier 2. At the output of the operational amplifier 1, a voltage of the positive voltage field is also generated, which the diode 5 displaces in the opposite direction.

If the input bus 12 has a negative polarity voltage, then the processes are similar to those considered in this case only in this case the operational amplifier 1 amplifies, and the diode 6 is locked in reverse

voltage generated from the output of the operational amplifier 2.

When it is necessary to turn off the switch, a positive voltage is applied to the control bus 14. At the same time transistors

15 and 19 are saturated, and resistors 9 and 8 through open diodes 3 and 4 are energized by a large voltage greater than or equal in magnitude to the maximum possible input signal on bus 12.

In this case, the polarity of the voltage at the non-inverting inputs is determined only by the polarity of the voltages supplied through the open diodes 3 and 4, and as a result, the voltage from the outputs of the amplifiers 1

and 2 lock diodes 5 and 6, and the output bus 13 is disconnected from the outputs of the operational amplifiers 1 and 2.

The reliability of the proposed switch is higher than that of the known ones, due to the elimination of emergency situations arising due to the presence of a bias zero of operational amplifiers.

Claims (1)

Claims of the invention Switch on auth.St. No. 1525898, about 5 liters, so that, in order to increase reliability, the first and second additional resistors are introduced, the inverse output of the paraphase inverter through the first additional resistor is connected to the non-inverting achol of the first operational amplifier, and the direct output through the second additional resistor is connected to the non-inerted input of the second operational amplifier.   J