CS205773B1 - Connection of the sensor and capacity push-button - Google Patents

Description

The object of the invention is a wiring (sensor capacitive button) which reacts by changing the output voltage to a touch on the sensor sensor.

Until now, most of the sensors used to control the devices are those which respond to the reduction of the resistance between two contact faces, and the sensors do not respond to. supplying a network slab and sensor sensor. The first principle is not suitable for electro-curdiographs, since the residual conductive ECG-palstas can adhere between the pads and permanently become acratic, thereby keeping the senor on. The second principle is not suitable for battery devices working in open terrain.

These shortcomings are eliminated by sensor wiring. The capacitive pushbutton according to the invention is based on the fact that it lies at the output of an oscillator (a split-capacitor is connected, the other terminal of which is connected to a sensor sensor and a cationdenizator, the other terminal of which is connected to the power supply terminal, and the collector is connected to the other power supply terminal through the resistor, the filter capacitor is connected between the collector and the transistor emitter, and the transistor can be of NPiN and iPNP polarity.

The advantage of wiring a sensor (capacitive push button) is that, in many cases, it replaces mechanical switches which can be the source of faults due to oxidation of the contacts. In contrast to the iodi-own sensors, there are no short-circuiting surfaces.

The operator touches only one surface. Compared to sensors that require the same surface but use network mesh, the circuitry of the present invention has the advantage that it does not require the presence of a brumble.

On the attached drawing, the wiring of the sensor capacitive button is shown.

The wiring of the sensor function button consists of an oscillator 1, the output of which is connected to a divider capacitor 2, the second of which is connected to (sensor 3 and coupling capacitor 4, the other terminal of which is connected to the base of transistor 5). 5 is connected to one power supply terminal and the collector is connected via a resistor 6 to the power supply terminal, the filter collector and emitter of the transistor 5 being connected to the filter icemaker 7. The transistor 5 may have N'PN and PNP polarity.

The function of the sensor capacitance button connection is that during (idle state) the AC voltage is supplied from the oscillator 1 to the capacitive divider formed by the Dividing Ciondenser 2 and the capacitance (the sensor sensor 3 relative to the instrument design). The amplitude of the alternating voltage is selected from the oscillator 1 such that the transistor 5 has been opened by a voltage supplied from the divider which is rectified at the base-emitter transition.

The filter capacitor 7 serves to filter the output voltage on the collector of transistor 5, which is pulsed. If the operator of the sensor sensor 3 exceeds, it will increase (the capacity between the sensor and the kioinatriating device. As a result of this capacity, the ac voltage also drops, this capacity decreases. (some of it is no longer enough to connect.) (The transistor 5 and Iten will close. After the thiothy is still on, the transistor 5 can be opened.) On the collector (transistor 5, an opaque sparkle appears at the end).

The sensor capacitance button is the basic operating element. > In conjunction with other circuits, it is possible to create a -time switch -with a detent, a set of mutually optional winding switches, and the like.

Claims (1)

SUBJECT Connection of the sensor (capacitive pushbutton marked by the fact that to the output of the oscillator (i) is connected a diode condenser (i2), the second output of which is connected by a sensor (3) and a coupling by an iconidensator (4j), the terminal of which is coupled to the base of the transistor (5), the emitter of which is connected OF THE INVENTION with one terminal of the power supply and the collector is connected via a resistor (6) to the other terminal of the power supply, wherein the impedance of the collector and emitter of the transistor (5) is a plug-in filter capacitor (7).