SU1039034A1 - Analog signal electronic switch - Google Patents

Description

Fundamentals are related to e-technology, namely, e-switching technology, and can be used to construct measurement circuits. An electronic switchboard of anapop signals is known, containing an electronic switch and an operational amplifier, covered by a resistive feedback, and the input of the operational amplifier is connected via an electronic switch to the input bus of the device. However, this device has a narrow range of switching voltages and low accuracy. The closest to the proposed technical essence and circuit implementation is a switch of Signal Signals containing a series-connected first resistor, a first electronic key, a second electronic key and a second resistor, an operational amplifier with two power sources, the control unit whose outputs are connected to control inputs the first and second electronic switches, respectively, the first of the first resistor is connected to the input bus, the non-inverting input of the operational amplifier is connected to the point Connection of the first and second electronic keys 2. However, the known device also has a narrow range of switching voltages and low accuracy. The purpose of the invention is to expand the range of switching voltages and increase the accuracy of switching. To achieve this goal, an analog signal electronic switch containing a series-connected first resistor, a first electronic key, a second electronic key and a second resistor, an operational amplifier with two power sources, a control unit whose outputs are connected to the control inputs of the first and second electronic keys , the first terminal of the first resistor is connected to the input bus, non-inverting in the course of the op-amp connected to the junction point of the first and second keys s, introduced a resistive voltage divider connected between the output of the operational amplifier and a point of power source compound, a non-inverting input of the operational amplifier Con chen to the middle point of the resistive voltage divider and a second terminal of the second resistor connected to the point soedvneni power sources. In addition, the common output of the operational amplifier is connected to the connection point of the power supplies. In the drawing: e is a 1T electronic commutator circuit (analog signals. Analog signal source 1 with output resistance (resistor) is connected to); (single bus 3, which is connected through a series-connected resistor 4 and electronic switch 5 to the non-inverting input of the operating voltage amplifier 6. The connection point of the electronic switch 5 and the non-inverting in: soda operating amplifier b is connected in series with the electronic switch 7 and the resistor 8 is connected to the common terminal 9. Between the output bus is operating In addition, a resistor voltage divider of resistors 10 and 11 is connected to the midpoint of which the inverting input of the operational amplifier 6 is connected. The negative terminal of the power supply 12 is connected to the common terminal 9 of the voltage amplifier 6. The power supply 13 is connected to the common output 9 of the operational amplifier 6. The output of the operational amplifier 6 is connected to the output bus 14 of the electronic switch of the analog signals and to load 15. The control inputs of the electronic switches 5 and 7 are connected to 16 controls. The device works as follows. Suppose that when the signal from the control unit 16 is applied to the control inputs of the electronic switches 5 and 7, the latter are turned on, and the instantaneous current value is directed from the source 1 of the analog signals to the input bus 3 of the electronic switch. Then the current from the source 1 of the analog signals will flow towards the output of the electronic switch through the output resistance (resistor) 2 of source 1, input bus 3, resistor 4, first electronic switch 5, second electronic switch 7, resistor 8, through the & output 9 operating amplifier 6, voltage 12 and 13 power supply, 1 input resistance of operating voltage 6, output shiu 14, through load 15 and common bus to source 1. Electric 31O3 circuit consisting of source 1, analogue electrical switch catch inagruzki 15, was closed. From the control unit 16, a control signal is supplied to the control input of the electronic key 7, which is equal in level to the control signal of the electronic key 5. Moreover, this control signal at the controllable input of the electronic key 7 is not interrupted in time. The electronic keys 5 and 7 fto are chosen to be practically identical to the technical parameters and the same switched current flows through them in magnitude. This ensures that the voltage drops on the electronic keys 5 and 7 are equal in the on state. Since che. The resistors 2.4 and 8 also pass through the same switching current, then the voltage drop across the resistors 2 and 4p. but the voltage drop across the resistor 8. The voltage drop on the electronic key 7n resistor 8 is applied to the input of the operative amplifier 6 voltage, which amplifies it twice. This provides a virtually zero voltage drop between the source 1 and the output bus 14 of the device. The entire level of the switched analog signal O of source 1 is transferred to load 15, which is true when the output impedance of the operational amplifier 6 is much smaller than the sum of the resistances of resistor 7 and 8. When applying a blocking voltage to the control input of the electronic switch 5 from control unit 16 off. The electronic key 7 remains on. The resistance between the load 15 and the source 1 in this case is equal to the resistance of the electronic key 5 in the open state. In the proposed electronic switch of analog signals, the expansion of the range of switched voltages is achieved due to the fact that the output level: the voltage of the operational amplifier 6 is reduced to twice the value of the voltage drop on the electronic switch 7 and the resistor 8 in the on state. The same fact is associated with an increase in the accuracy of switching of an analog signal. Thus, the proposed electronic switchboard analogue 1X signals should be used in electronic switching technology in all those cases when it is necessary to increase the switching accuracy and extend the range of switched signals.

Claims (2)

(57-) 1. ANALOGUE ELECTRONIC SWITCH, comprising a first resistor, a first electronic key, a second electronic key and a second resistor in series, an operational amplifier with two power sources, a control unit whose outputs are connected to the control inputs of the first and second electronic keys, respectively , the first output of the first resistor is connected to the input bus, the non-inverting input of the operational amplifier is connected to the connection point of the first and second electronic keys, which means that , in order to expand the range of switching voltages and improve the accuracy of switching, a resistive voltage divider is inserted into it, connected between the output of the operational amplifier and the connection point of the power sources, the inverting input of the operational amplifier is connected to the midpoint of the resistive voltage divider £, the second output of the second resistor is connected to the point power supply connections. 2. The switch by π. 1, due to the fact that in order to increase the reliability of operation, the general output of the operational amplifier is connected to the connection point of the power sources.