CS232016B1 - Connection for contacless erasing of a integrating amplifier with galvanic separated erasing circuit - Google Patents

Description

BACKGROUND OF THE INVENTION The invention relates to a circuit for contactless resetting of an integrating amplifier with a galvanic isolation of a reset circuit.

In control and measurement technology, amplifiers with integrated feedback are very often used. Frequent requirement for their use in various circuits of electrical circuits is their resetting. This requirement is addressed in many ways · The simplest resetting of the integrator is by discharging the integration capacity through the relay contact. This method allows galvanic isolation of the neutral circuits. Its drawback is that the relay operates slowly, so it cannot be used with fast integrators. Fast integrators are zero-contacted using non-contact transistors, field-controlled transistors, two-phase diodes, etc. With these zeroing methods, the galvanic connection of the zeroing circuits and the integrating amplifier circuit, which complicates the control of the zeroing elements, is sometimes defective.

These drawbacks are largely eliminated by the circuitry for the non-contact resetting of the integration amplifier with the galvanic isolation of the zero circuit by the optoelectric couplers of the invention. The principle of the invention is that a non-inverting input of an operational amplifier is associated with zero potential. The inverting input of the opamp is coupled via an input resistor to the wiring signal terminal, to the phototransistor emitter of the first optoelectric coupler, to the phototransistor collector of the second optoelectric coupler, and to the first

232 µl of the integrating capacitor pole. The second pole of the integrating capacitor is connected to the output of the operational amplifier, the output terminal of the wiring, and the first terminal of the resistor. the anode of the same diode is connected to the output terminal of the reset signal and to the cathode of the light-emitting diode of the second optoelectronic coupler whose anode is connected to the first terminal of the reset signal ·

The advantage of the circuitry according to the invention is that it allows contactless zeroing of the integrating amplifier · The resetting circuits are galvanically separated from the integrating amplifier circuit · The repetition frequency of the zeroing cycles can be very high so that zeroing can be used with fast integrators. · the phototransistor of the optoelectronic coupler on which the collector has a negative potential may act as a limiting Zeher diode if the integrated voltage on the integration capacitor exceeds the mandatory emitter-base phototransistor voltage of the optoelectrolocular in question coupling member. This feature can be advantageously used in connection with simple output voltage limiter of the integration amplifier.

The connection example is schematically shown in the attached drawing # ·

The wiring for the contactless resetting of the integration amplifier is as follows: The inverting input of the operational amplifier £ is connected to zero potential · Inverting

232 016 the operational amplifier input is connected via input resistor 2 to the signal terminal 1 of the wiring. Furthermore, the inverting input of the operational amplifier 2 is connected to the phototransistor emitter of the first optoelectric coupler X, the second capacitor capacitor 6 is connected to the phototransistor emitter of the second optoelectric coupler 8 and to the phototransistor collector of the first optoelectric coupler X. the diode of the first optoelectric coupler X is connected by its cathode to the second reset terminal 10 of the reset signal and its anode is connected to the reset terminal 11 of the reset signal and to the cathode of the light emitting diode of the second the optoelectric coupler 8. The LED of the second optoelectric coupler 8 is connected to the first supply terminal 2 of the reset signal · The connection operates as follows: The integration amplifier is operating normally · The feedback is introduced by the integrating capacitor £ · 2 and of the integrating capacitor. The zeroing of the integrating amplifier is effected by discharging the integrating condensate with two anti-parallel connected phototransistors of the first optoelectric coupler 8 and the second optoelectric coupler 8. If the positive potential is at the output of the operational amplifier 2 ^{and the} output 2 of the wiring, then the integration capacitor 8 discharges the positive potential of the first optoelectric coupling X · The discharge current flows from the first pole of the integrating capacitor 8

232 016 through the open collector-emitter phototransistor emitter of the first optoelectric coupling Si χ via the limiting resistor 6 to the second pole of the integrating capacitor 6 The charge of the integrating capacitor jfc is discharged mainly in the limiting resistor 6 when discharging. The phototransistor of the second optoelectric coupler 8, which is connected to the phototransistor of the first optoelectric coupler X in an antiparallel manner, is reset when the integrating capacitor 8 is charged with the opposite polarity charge. That is, when there is a positive potential at the inverting input of the opamp 2 *, the potentiometer of the first optoelectric coupler X and the phototransistor of the second optoelectric coupler 8, on whose collector the negative potential 1, may act as a limiting zener diode if the integrated voltage on the integrating capacitor ± exceeds the reverse voltage of the phototransistor emitter-base of the respective optoelectric coupler 7 ' 8. The individual light emitting diodes of both optoelectric couplers X, 8 are connected to external circuits that are not shown in the drawing *, which control the resetting of the integration amplifier.

The invention is used in control and measuring circuits.

Claims (1)

SUBJECT OF THE INVENTION 232 016 Circuit for contactless resetting of an integrating amplifier with galvanic isolation of the reset circuit by optoelectric couplers) characterized in that the zero potential is connected to the non-inverting input of the operational amplifier (3), whose inverting input is connected via an input resistor (2) to the signal terminal (1) wiring, with the ototransistor emitter of the first optoelectric coupler (7) »with the collector of the ototransistor of the second optoelectric coupler (8) and with the first field of the integrating capacitor (4), the other of which is coupled to the output of the operational amplifier (3)» ) a connection and a first terminal of a limiting resistor (6), the second terminal of which is connected to the emitter of the second optoelectric coupler (8) and to the phototransistor collector of the first optoelectric coupler (7) » the reset signal orifice (10) and its anode is connected to the reset signal terminal (11) and b by the cathode of a light emitting diode of the second optoelectric coupler (8), the anode of which is connected to the first reset signal terminal (9)