CS200770B1 - Contactless switch connexion of one analogue signal - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a contactless switch for a single analog signal.

When implementing technological controllers, it is necessary to switch one analog signal to two different outputs.

The signal switch can be contacted by means of a relay and changeover contact or contactless by means of semiconductors, usually transistors. The first is simple, but not reliable and slow. Wiring of contactless switches is wide. These connections are either complex or require special components that are not commonly available.

These drawbacks are overcome by the wiring of a contactless switch of one analog signal according to the invention. It consists of amplifiers, an inventory, a toggle amplifier, transistors, diodes, and resistors. Its essence is that the input terminal of the circuit is connected to the input of the input amplifier, the output of which is connected via a second blocking resistor to the input of the second output amplifier and to the emitter of the second transistor. Further, the output of the input amplifier is connected via a first blocking resistor to the input of the first output amplifier and to the emitter of the first transistor. The base of the first transistor is coupled to the anode of the fourth diode and the anode of the third diode. The cathode of the third diode is connected to the wiring reset terminal and the cathode of the second diode. The anode of the second diode is coupled to the base of the second transistor and to the anode of the first diode. The cathode of the first diode is coupled to the inventory output. The inventor input is connected to the cathode of the fourth diode and the flip-flop output. The flip-flop input is connected to a switching amplifier

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200 770 terminal block. The first wiring output terminal is connected to the output of the first output amplifier. The second output terminal of the wiring is connected to the output of the second output amplifier. The collectors of both transistors are grounded.

The advantage of this connection is that it is simple and can be connected from inexpensive and commercially available components.

An example of a circuit according to the invention is shown schematically in the attached drawing.

The individual blocks can be characterized as follows: The input amplifier 1, the first output amplifier 2, the second output amplifier 2, and the inventor 5 are equally connected operational amplifiers. The operational amplifier and proportional resistance feedback and input resistance are provided with an asymmetric input and output. The amplifier gain is dependent on the magnitude of the input and feedback resistor. The amplifier changes the polarity of the signal. An analog integrated amplifier can be used as an operational amplifier. The flip-flop 4 is realized by means of an operational amplifier, which is provided with positive resistive feedback, which provides two input states of the amplifier, ie full positive or full negative voltage. Polarity of the output voltage can be changed only by an input signal that is greater than the hysteresis of the flip-flop. An integrated amplifier can be used as an operational amplifier.

Wiring is carried out as follows: The input terminal 14 is connected with the input of one-input amplifier 1. The output 1 ₂ of the input amplifier 1 is connected both jřes second blocking resistor 11 to the input three-second output amplifier 3 and to the emitter of the second transistor 13. Further, the output The input amplifier 1 is connected via the first blocking resistor 10 to the input 2 of the first output amplifier 2 and to the emitter of the first transistor 12. The base of the first transistor 12 is coupled to the anode of the fourth diode 9 and the anode of the third diode 8. 15 engaged with the cathode of the second diode seventh anode of the second diode 7 is connected to the base of the second transistor 13 and the anode of the first diode sixth cathode of the first diode 6 is connected to the outlet 5 ₂ 5 Inventor fifth input Inventor ^ 5 is connected to the cathode of the fourth diode 2 ^and 4 ₂ and the output amplifier 4. the input of the flip-flip-4 amplifier 4 is connected to terminal 16 of the switching circuit. The first output terminal wiring 17 is connected to the output ₂ of the first two of the output amplifier 2. The second output terminal wiring 18 is coupled to the output of the second output amplifier 3 g third collectors of both transistors 12 and 13 are grounded.

The wiring works as follows: The input signal to be switched is connected to the wiring input terminal 14. This signal, after adjustment by the input amplifier 2, is routed via blocking resistors 10, 11 to input 2 of the first output amplifier 2 and to input 3 of the second flip-flop amplifier 3. Inputs 2p 3 of these amplifiers 2, 3 are shorted by transistors 12, 13. at the voltage polarity at the wiring reset terminal 15 and at the wiring switching terminal 16. If there is a negative signal at the reset terminal 15, both transistors 12, 13 are open, regardless of the status of the signal at the circuit switch terminal 16. There is a zero voltage at the inputs 1 and 2 of both input amplifiers 2, 3 and at the output terminals 17, 1B there is also a zero voltage. When the terminal 15 to the reset wiring zero or positive voltage terminal 16 to the switching circuit is a positive voltage, then the output of flip-amplifier 4 ₂ 4 full negative voltage. With this voltage, the first transistor 12 is opened via the diode 2

200,770 of the breast output amplifier 2 is shorted and there is a zero voltage at the first output terminal 17. Simultaneously, the output Inventor 5 ₂ 5 5 whose input j connected to the output of flip-amplifier 4 ₂ 4 full positive voltage which, via the first diode 6 closes the second transistor 13. At the output connection wiring 18 is then a voltage proportional to the voltage on the input terminal 14 dependent on the amplification of both output amplifiers 2 and 3 ·

The switch operates in a similar manner when there is a negative voltage at the switch terminal 16. Then, the output of flip-amplifier 4 ₂ 4 positive voltage on output 5 ₂ Inventor 5 is a negative voltage.

The second transistor 13 is open with a negative voltage - there is a zero voltage at the second output terminal 18 of the wiring.

The first transistor 12 is closed at full positive voltage, that is, it is not conducting, and at the first output terminal 17 the voltage is proportional to the voltage at the input terminal 14. Its magnitude depends on the gain of the first input amplifier 1 and the first output amplifier 2.

The invention is used in the composition of technological controllers, in particular it is suitable for contactless switching of one signal to different inputs of controllers of dishwashers and regulation of strip thickness.

Claims (1)

Contactless switch of one analogue signal, consisting of amplifiers, inventory, flip-flop, transistors, diodes and resistors, characterized in that the input terminal (14) of the circuit is connected to the input (1 ^) of the input amplifier (1) whose output (1) 1 ₂ / is connected both via a second blocking resistor / 11 / entry / 3 ^ / second output amplifier, / 3 /, and the emitter of the second transistor / 13 / and the further output / 1 ₂ / input amplifier / 1 / is connected via a first blocking resistance (10) with the input (2 ^) of the first output amplifier (2) and the emitter of the first transistor (12), the base of which is connected to the anode of the fourth diode (9) and the anode of the third diode (8) 15 and a cathode of a second diode (7), the anode of which is connected to the base of the second transistor (13) and an anode of the first diode (6), of which the cathode is connected to the output (5) of the inventor (5), is connected to the cathode of the fourth d iody / 9 / and outlet / 4 ₂ / flip amplifier / 4 /, the input / 4 ^ / is connected to the switching terminal / 16 / circuit whose output terminal / Yt / is connected with the output / 2 ·, / first outlet the second output terminal (18) is connected to the output (3) of the second output amplifier (3), the collectors of both transistors (12, 13) being grounded.