ES1147509U - Electronic switch without electrical consumption (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Electronic switch circuit without electrical consumption characterized in that the electronic circuit operates with alternating network voltage, the capacitor (1) is used to take advantage of its charge and discharge, the resistor (2) limits the current that is used to power the circuit, the bridge rectifier (3) rectifies the alternating current, the positive cycle is applied to the anode of the thyristor (6), the cathode of the thyristor (6) is connected to the positive pole of the electrolytic capacitor (5), the cathode of the zener diode ( 4) and one of the two connections of the tele-breaker coil (7), the negative cycle is connected to the common negative of the circuit, the common negative is connected to the negative pole of the electrolytic capacitor (5), to the anode of the zener diode (4) and to the other connection of the tele-breaker (7), the terminal (a) is connected to the trip door of the thyristor (6), in the contacts (8) (9) the device to be controlled is connected. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

Electronic switch without power consumption

5 Field of the invention.

The purpose of this utility model is to present a new “electronic switch without power consumption” circuit.

All electronic circuits need an electric power supply for their operation, even circuits 10 that are only used sporadically for a few seconds have to be powered by electric power, these electronic circuits are consuming energy 24 hours a day to perform a function that lasts just seconds. In the utility model that I expose there is no electrical consumption 15 until the electronic switch is activated, the load to be controlled being connected and returning the electronic switch circuit to its non-consumption state, this electronic switch circuit only consumes energy electrical at the time of its operation, connecting or disconnecting the 20 load that is applied to its contacts.

This new circuit has special application in all sectors where an electronic system is needed to connect or disconnect internal functions of electronic equipment, also

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It is applicable for the connection or disconnection of household appliances, electronic equipment and machinery.

Background of the invention.

To date there are several systems of electronic switches, for example, twilight switches, switches for starting and stopping devices etc., these circuits always have to be powered by electrical energy, either with batteries or connected to the mains, causing unnecessary consumption.

Description of the invention

To alleviate or eliminate the above-mentioned problems, this new circuit “electronic switch without power consumption” is presented, consisting essentially of a series of elements, which by means of an electrical signal connects or disconnects any device intercalated therein, being without consumption until this action is performed.

It provides the following advantages:

- It can be integrated into any appliance, or electronic circuit.

- It allows to be inserted in the supply voltage of any appliance.

- Does not consume electricity.

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Save energy.

It does not need to be recharged.

- Maintenance free.

- Energy savings are achieved, because it does not consume electric power in standby.

- It does not generate waste.

- The activation signal can come from an infrared photodiode, RF signal, or any other type of electrical signal.

In the current state of the art, no “electronic switch without power consumption” device is reported, with the technical characteristics of this utility model.

Brief description of the drawings.

To complement the description that is being made, and in order to help a better understanding of the characteristics of the invention, this descriptive report is attached as an integral part thereof, a figure in which, with an illustrative and non-limiting nature , the following has been represented:

-Figure 1: View of the electronic switch circuit without power consumption.

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Preferred embodiment of the invention.

As can be seen in the attached figure, the electronic switch circuit without power consumption is composed of the following components:

to. - Condenser (1)

b. - Limiting resistance (2)

C. - Bridge rectifier (3)

d. - Zener diode (4)

and. - Electrolytic capacitor (5)

F. - Semiconductor SCR (thyristor) (6)

g. - Tele-breaker (7)

h. - Tele-breaker contact output (8)

i. - Tele-breaker contact output (9)

Functioning.

The operation of the electronic switch without electrical consumption is based on the discharge of the capacitor (1) when the thyristor (6) is activated at its door by operating the tele-breaker

(7).

The thyristor SCR semiconductor has the particularity of having a high resistance to the passage of current in idle state, practically as an insulator, being usually used as a switch in standard assemblies with continuous power supply, once activated by a small

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signal at your door, which can come from a phototransistor, radio frequency receiver, solar cell, or push button, the high resistance between the anode and cathode changes to conductor, allowing the current to flow between cathode and anode of the thyristor. Once activated, it will remain in this state (interlocking) until the supply current between anode and cathode falls below the operating parameters, ceasing to be conductive and becoming insulating.

Next I detail the configuration of the assembly to avoid the electrical consumption of the circuit breaker.

The electronic circuit operates with mains voltage of (220V), the capacitor (1) is used to take advantage of its charge and discharge, the resistance (2) limits the current used to power the circuit, the rectifier bridge (3) rectifies the alternating current, the positive cycle is applied to the anode of the thyristor (6), the positive pole of the electrolytic capacitor (5), the cathode of the zener diode (4) and one of the two are connected to the thyristor cathode (6). connections of the coil of the tele-breaker (7), the negative cycle is connected to the common negative of the circuit, to this common negative is connected the negative pole of the electrolytic capacitor (5), the anode of the zener diode (4) and the other connection of the tele-breaker (7), the connection (a) is the trigger gate of the thyristor (6).

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In a state of relaxation, the current does not flow between the anode and the cathode of the thyristor (6) due to the high resistance between the two, the winding of the tele-breaker (7) has no power and does not act.

In the state of relaxation mentioned above the electronic circuit has no consumption, its behavior is similar to an open circuit.

A small signal that is applied to the input (a) from any external electrical signal source is sufficient to excite the thyristor door (a) (6), the thyristor door (6) is very sensitive (a touch with the finger is enough for shooting), the thyristor door activation (6) can be performed with different electrical signals, by infrared signal, radio frequency signal, photovoltaic cell, push button etc.

At the moment of activation of the firing door (a), the thyristor (6), ceases to be insulating between the anode and cathode allowing current to flow and discharging the capacitor (1), this rapid discharge of the condenser (1) creates an avalanche current to the tele-breaker coil (7) causing its state contacts to change, the zener diode (5) limits the avalanche voltage so as not to destroy the winding of the tele-breaker (7), the electrolytic capacitor ( 5) Filter the current to avoid flickering of the contacts of the breaker (7).

The electric pulse created by the avalanche discharge of the capacitor (1) causes the tele-breaker (7) to change state, this electric pulse quickly extinguishes due to the constant consumption of the interlocking relay coil (7), since the capacitor (1) and the resistance (2) once the discharge has been carried out cannot supply enough constant current, creating a voltage drop below the thyristor interlocking parameters (6), leaving it to drive between the anode and cathode, leaving the entire electronic circuit without consumption 10 until electrical signal is reapplied in terminal (a).

The tele-breakers change state for each electrical pulse it receives, remaining in this position until it receives a new electrical pulse, the device to be controlled is connected to the connections (8) (9) of the tele-breaker (7).

15 Both the value of the capacitor (1) and the resistance

Limiter (2) is calculated to be sufficient to activate the tele-breaker (7) with an electrical pulse produced by the avalanche discharge of the condenser (1), and to be quickly extinguished by the constant consumption created by the telecoil coil. - switch (7), 20 this is calculated according to the consumption of the coil of the tele-breaker (7).

Once the nature of the present invention has been sufficiently described, as well as a way of putting it into practice, it only remains to be added that said invention may undergo certain variations in form and materials, as long as

these alterations do not substantially vary the characteristics

which are claimed below.

Claims (3)

5 10 fifteen twenty 1. Electronic switch circuit without electrical consumption characterized in that the electronic circuit operates with alternating mains voltage, the capacitor (1) is used to take advantage of its charge and discharge, the resistance (2) limits the current used to power the circuit, The rectifier bridge (3) rectifies the alternating current, the positive cycle is applied to the anode of the thyristor (6), the positive pole of the electrolytic capacitor (5), the cathode of the zener diode (6) is connected to the thyristor cathode (6). 4) and one of the two connections of the tele-breaker coil (7), the negative cycle is connected to the common negative of the circuit, the common negative is connected to the negative pole of the electrolytic capacitor (5), to the anode of the zener diode (4) and to the other connection of the tele-breaker (7), the terminal (a) is connected to the thyristor trip gate (6), the device to be controlled is connected to the contacts (8) (9). 2. Electronic circuit breaker without power consumption according to the preceding claim, characterized in that the firing of the thyristor semiconductor (6) is carried out with any type of electrical signal applied to its trigger gate (a). 5 3. Electronic circuit breaker without electrical consumption according to all the preceding claims characterized in that when the circuit is in a state of relaxation, without excitation in the trip gate (a) of the thyristor (6), the circuit does not consume electricity.