SU661800A1 - Touchless switch - Google Patents

Description

(54) TOUCH SWITCH

Claims (2)

one . The invention relates to commutation technology, in particular, to touch-sensitive switches and can be used in consumer radio equipment, automatic control systems. A switch is known that contains a relaxation generator on a unijunction transistor with a time-chain KS chain 1. Known is also a touch switch containing a sensor, an auto-junction on a single junction transistor, the output of which is connected to trigger input 2. However, the known circuits do not provide switching on the load only for the closing time touch sensor plates / The purpose of detection is to ensure that the load is switched on at the closing time of the touch sensor plates. The goal is achieved by the fact that a touch switch containing a touch sensor, an auto-oscillator on a unijunction transistor, the output of which is connected to the input of a triggers; A key has been entered, one of the outputs of which is connected via a resistor to one of the contact plates of the sensor detector, and the second output is connected via a resistor to the other contact plate of the sensor and the emitter of the single-phase transistor of the motor. The drawing is a schematic diagram of a touch switch. The touch switch contains a touch sensor 1, an auto-oscillator 2, a trigger 3, a key 4, a load 5, resistors b / 7, transistors B, 9 triggers, resistors 10-13 of a trigger, an transistor 14 of the auto-generator, a resistor 15 of the auto-generator, a capacitor 16 of the auto-generator, transistors 17 , 18 keys. The sensor switch works as follows. When supplying the supply voltage E nu "w, the trigger 3 is set to the zero state, in which the transistor 9 of the trigger is open and has a low output voltage level. Transistors 17 and 18 of key 4 are in the closed state. When the conductor touches the contact plates of the touch sensor 1, the capacitor 16 begins to be charged along the circuit + Enum load 5, resistor 7, touch conductor, - Enum. The capacitor 16 is charged until the voltage across it reaches the threshold of the unijunction transistor 14 of the oscillator. The single junction transistor 14 of the auto generator is unlocked and delivers a control pulse to the input of the flip-flop 3, which is set to unity. In this case, the transistor 8 of the trigger switches to the conducting state, and the transistor 9 of the trigger is closed and the ria of its collector is set to a high level of output voltage. Transistors 17 and 18 of key 4 are switched to conducting state. Tran. the switch 18 switches on the load 5 and simultaneously through the contact conductor, the resistor 7 bypasses the capacitor 16, preventing the latter from charging to the threshold level of the single-transistor 14, t t S S | a.; - - / The unijunction transistor 14 of the oscillator is in the off state. When the conductor contacts the contact plates of the sensor 1, the transistor 18 of the key no longer shunts the capacitor 16. Through the transistor 17 of the key and the resistor B, the last transducer bounces to the threshold level of the uni-transistor 14 of the autogenerator, which opens and triggers the control pulse 004 to the trigger input 3 The trigger T goes to the zero state, and the transistors 17 -l 18 of the key 4 are closed, the load 5 is turned off. Invention A sensor switch comprising a sensor sensor, an auto-oscillator on a unijunction transistor, the output of which is connected to the trigger input, is about IU and in order to ensure that the load on the closing time of the sensor plates is switched on, A key is entered in it, one of the outputs of which is connected via a resistor to one of the contact plates of the touch sensor, and the second output is connected via a resistor to another contact plate of the touch sensor and the emitter of the junction transistor autogener Ator. Sources of information taken into account in the examination ee. 1. Thyristors. Technical Reference (translated from English, ed. Launtsova, VA, M., Energie, .1971, C.2, fig. 4-27 (1). 2. Questions of radio electronics series TRPA, vol. 1, 1975, p. 3-8, Kalikhman, Shechtman. Electronics with touch control.