RU2812647C1 - Power supply for electronic equipment - Google Patents

Abstract

FIELD: electronic equipment.

SUBSTANCE: power supplies for electronic equipment, in particular, power supplies for LED lamps, for use in the field of lighting. The power supply for electronic equipment contains a board on which a continuous overvoltage protection module is installed, consisting of a high-energy anti-interference unit, an electromagnetic interference suppression unit, an analysis circuit power unit, and a load analysis and disconnection circuit.

EFFECT: protection of electronic equipment from prolonged exposure to high voltage.

2 cl, 5 dwg

Description

The present invention relates to power supplies for electronic equipment, and in particular to power supplies for LED lamps, for use in the field of lighting.

Power supplies for electronic equipment must provide current limiting and some degree of current control. LED current control involves two tasks: current limiting to prevent thermal runaway due to elevated LED temperatures, and current control to maintain LED current within a certain range to account for fluctuations in LED parameters and fluctuations in the input voltage of the LED luminaire power supply.

A utility model is known under patent No. 193906 (MPK N02H 9/04, G01R 19/165, 07/12/19), which solves the problem of increasing the reliability of the electronic device protection device through the use of a high-voltage high-speed electronic switch, which is connected in series to the positive power bus break and operates in the mode of a high-voltage pulse voltage stabilizer, cutting off short high-voltage pulses and ensuring uninterrupted operation of control units vital for the vehicle. This device ensures the continuous operation of electronic devices during overvoltages and short high-voltage pulses in the vehicle’s on-board network, characterized by the fact that it contains a unit for protecting electronic device elements from short high-voltage pulses, a high-voltage high-speed electronic switch with a control input, a low-pass filter, a rated voltage monitoring unit and generating a feedback signal, the electronic key control unit, while the output of the unit for protecting the elements of the electronic device from short high-voltage pulses is connected to the input of the high-voltage high-speed electronic key, the output of which is connected to the input of the low-pass filter, the output of which is in turn connected to the input of the nominal monitoring unit voltage and generating a feedback signal, the control output of which is connected to the control input of the electronic key control unit, the output of which is connected to the control input of the high-voltage high-speed electronic key.

The disadvantages of this solution in comparison with the claimed invention are the ability to cut off only short high-voltage pulses, as well as the ability to work only in the vehicle’s on-board network.

The technical result is the creation of a power source for electronic equipment with a protection function against prolonged exposure to high voltage.

The technical result is achieved by the fact that the power supply for electronic equipment contains a board on which a protection module against prolonged exposure to high voltage is installed, consisting of a high-energy interference protection unit, an electromagnetic interference suppression unit, an analysis circuit power unit, as well as an analysis circuit and disconnection of the load, while the high-energy interference protection unit is made in the form of a multi-stage electromagnetic interference filter, consisting of several protection cascades, the first of which includes the sequential connection of a spark gap and a varistor between phase and neutral, a divider of varistors is connected in parallel with the first protection cascade, the upper arm which is connected to the phase, the lower arm is connected to the neutral, and the middle point is connected to the ground through a spark gap, the second protection cascade, made in the form of a series connection of varistors, the third protection cascade, made in the form of a series connection of a thermistor and a varistor, connected in parallel with the protected load, the electromagnetic interference suppression unit is made in the form of a multi-stage device consisting of an inductive differential high-frequency filter, a second-order mid-frequency filter in the form of a CLC circuit, including a first set of series-connected capacitors and parallel-connected high-resistance resistors, a mid-frequency common-mode choke, a second set of series-connected capacitors and high-resistance resistors connected in parallel, a power supply unit for the analysis and load disconnect circuit made in the form of a low-power linear voltage stabilizer consisting of a diode bridge connected to the phase and neutral wires combined with the diode bridge of the power source, a rectifier diode connected by the anode to the positive contact of the diode bridge, and the cathode - to series-connected capacitors connected in parallel with high-resistance resistors, while the positive contact of the capacitors is connected to series-connected resistors with a power transistor, and the output contacts of the power supply unit of the analysis circuit are connected to an analysis and load disconnection circuit, consisting of a circuit comparing the voltage value with the source reference voltage and containing a key element that disconnects the load from the input voltage during prolonged exposure to voltage exceeding the set value.

In addition, the electromagnetic interference suppression unit additionally contains high-voltage capacitors connected on one side to the phase wire and neutral wire, and on the other side connected to grounding, and the phase and neutral wires are connected to the input contacts of the high-frequency common mode choke, and the output contacts are connected to the load in the form of power supply units, analysis and load shedding.

The essence of the invention is illustrated by drawings, where

in fig. 1 – shows a block diagram of a power source for electronic equipment;

in fig. 2 – the high-energy interference protection unit of the protection module against prolonged exposure to high voltage is presented;

in fig. 3 – shows the electromagnetic interference suppression unit of the protection module against prolonged exposure to high voltage;

in fig. 4 – the power supply unit of the analysis circuit of the protection module against prolonged exposure to high voltage is presented;

in fig. 5 – the unit for analyzing and disconnecting the load of the protection module from prolonged exposure to high voltage is presented.

The power supply circuit for electronic equipment includes the following elements located on a printed circuit board (see Fig. 1).

A protection module against prolonged exposure to high voltage, consisting of an electromagnetic interference suppression unit, which is a multi-stage electromagnetic interference filter, consisting of a high-energy interference protection unit, a power unit for the analysis circuit, as well as an analysis and load shutdown circuit, which is a voltage value comparison circuit with a reference voltage source and a key element that disconnects the load from the input voltage during prolonged exposure to a voltage exceeding the set value.

Node 1 of protection against high-energy interference of the module for protection against prolonged exposure to high voltage is a multi-stage device designed for protection against high-energy pulsed interference (ISS-interference), the distinctive feature of which is to maintain operability when exposed to prolonged high voltage.

Node 1 of protection against high-energy interference of the protection module against prolonged exposure to high voltage, consists of several protection cascades, the first of which includes the sequential connection of arrester 2 and varistor 3 for protection against high-energy interference between phase 4 and neutral 5, in parallel with the first protection cascade is switched on a divider made of varistors, the upper arm 6 of which is connected to phase 4, the lower arm 7 is connected to neutral 5, the middle point is connected to ground through arrester 8 (see Fig. 2). In addition, to protect against high-energy interference between the phase and protective ground, neutral and protective ground, the next protection stage is connected through a series resistive or inductive load 9 and is a series connection of varistors 10, the total opening voltage of which is less than the total opening voltage of the varistors of the previous stage . The next protection cascade includes a serial connection of a thermistor 11 with a positive temperature coefficient of resistance and a varistor 12 connected in parallel with the protected load, while the opening voltage of the varistor 12 of the last stage is less than the total opening voltage of the previous stage, but greater than the response voltage of the protection against prolonged exposure to increased voltage. In this case, the output contacts of the protection unit are connected to the load in the form of a power unit, analysis and load disconnection.

The electromagnetic interference suppression unit 13 of the protection module against prolonged exposure to high voltage is a multi-stage electromagnetic interference filter, the distinctive feature of which is that it remains operational when exposed to prolonged high voltage (see Fig. 3). It consists of an inductive differential high-frequency filter 14, a second-order mid-frequency filter in the form of a CLC circuit, including the first set of one or more capacitors 15 connected in series to increase the total operating voltage and one or more high-resistance resistors 16 connected in parallel to the capacitors to equalize the drop voltages on capacitors and preventing breakdown when high-energy interference passes through, a common-mode choke 17 for medium frequencies, a 2nd set of one or more capacitors 18 connected in series and high-resistance resistors 19 connected in parallel to the capacitors.

Additionally, the electromagnetic interference suppression unit 13 contains high-voltage capacitors 20 connected on one side to the phase wire and neutral wire, on the other side connected to ground, then the phase and neutral wires are connected to the input contacts of the high-frequency common mode choke 21, and the output contacts are connected to the load in the form power supply units, analysis and load shedding.

Further along the diagram, there is a power supply unit 22 of the circuit analysis module for protection against prolonged exposure to high voltage, which is a low-power linear voltage stabilizer, the distinctive feature of which is its operability with an extended range of network power supply and ensuring a stable output voltage when exposed to prolonged high voltage power supply (Fig. . 4).

The power supply unit 22 of the analysis circuit of the protection module against prolonged exposure to high voltage consists of a diode bridge 23, consisting of diodes with a high operating voltage, connected to the phase and neutral wires, which can be combined with a diode bridge of the power supply of the protected device. From a rectifying diode 24, necessary to prevent the discharge of capacitors, connected by the anode to the positive contact of the diode bridge 24, the cathode of which is connected to one or more capacitors 25 connected in series, connected in parallel with high-resistance resistors 26 to equalize the voltage on the capacitor. In this case, the positive contact of the group of capacitors is connected to series-connected resistors 27 with a power transistor 28, which acts as a linear voltage stabilizer, which can be either bipolar or field-effect. A transistor, which is controlled by element 29, which monitors the level of the output signal using a voltage divider 30, and a capacitor 31, which additionally smoothes the output voltage of the power supply unit of the analysis circuit. The output contacts of the power supply unit 22 are connected to the analysis and load disconnection unit 32.

In addition, the power supply for electronic equipment contains a circuit 32 for analyzing and disconnecting the load of the protection module from prolonged exposure to high voltage. It is a circuit for comparing the voltage value with a reference voltage source and a key element that disconnects the load from the input voltage under prolonged exposure to a voltage exceeding the set value; a distinctive feature is operability under prolonged exposure to increased voltage (Fig. 5).

The circuit 32 for analyzing and disconnecting the load of the protection module from prolonged exposure to high voltage consists of an analysis circuit that includes an element 33 for comparing the voltages on the reference power source 34 and the voltage obtained through a voltage divider, the upper arm of which is made in the form of a series connection of high-resistance resistors 35 connected to the positive contact of the diode bridge of the power source of the protected device, the lower arm of the divider 36 is connected to the negative contact of the diode bridge of the power source of the protected device. The ratio of resistor values ensures equality of voltages at the midpoint of the divider and at the reference voltage source when the input voltage exceeds the set threshold for disconnecting the load. In this case, the middle point of the reference voltage divider 37 is connected to the comparison element 33 through a diode 38 and a parallel-connected RC circuit 39. The comparison element 33 has hysteresis to exclude operation of the protected device at intermediate voltage values and generates a pulse output signal to open the power transistor 40, breaking the circuit of the negative contact of the diode bridge of the power supply of the protected device from the protected device itself.

Elements connected in this way, operating in accordance with the operating procedure given below, make it possible to achieve a technical result - protection from prolonged exposure to high voltage.

The power supply for electronic equipment works as follows.

The alternating network voltage is supplied to the input of the high-energy interference protection unit against the ISS, which protects further circuits from the effects of impulse noise by limiting the maximum voltage and dissipating this energy on the internal elements of the protection unit. Next, the alternating voltage from the protection unit comes to the electromagnetic interference suppression unit, the main function of which is to filter interference emanating from the power source to the network; this unit is necessary to comply with standardization requirements. Next, the voltage is supplied to the input of the power supply unit of the analysis circuit. In this node, the alternating voltage is rectified to constant voltage, from which the power source itself is powered. A separate branch is made of the power supply circuit for the microcircuits, which is a low-power linear stabilizer on a transistor. This circuit provides a unit for analyzing and disconnecting the load with a reference voltage at any input voltage. Next, the rectified DC voltage and the reference voltage from the power supply unit of the analysis circuit are connected to the analysis circuit and disconnect the load. In the analysis circuit, a special microcircuit compares the input DC voltage converted through a high-voltage divider and the reference voltage generated through the divider. If the input AC voltage increases, the rectified voltage increases accordingly. When the limit set by the dividers in the comparison circuit is exceeded, the microcircuit generates a signal that goes to the control electrode of the key element and turns off the negative power line. This state is maintained until the input voltage returns to acceptable limits. The rectified DC voltage and the AC voltage required for operation are supplied to the input of the power supply circuit, where the voltage is converted to power the LED module. All elements and circuitry of the protection module are designed to operate under conditions of prolonged exposure to high voltage.

It should be noted that the combination of arrangement of nodes of the protection module against prolonged exposure to high voltage and their number may be different.

Claims (5)

1. A power supply for electronic equipment, containing a board on which a protection module against prolonged exposure to high voltage is installed, consisting of a high-energy interference protection unit, an electromagnetic interference suppression unit, a power unit for the analysis circuit, as well as an analysis circuit and load disconnection, when this the high-energy interference protection unit is made in the form of a multi-stage electromagnetic interference filter, consisting of several protection cascades, the first of which includes the sequential connection of a spark gap and a varistor between phase and neutral, a divider of varistors is connected in parallel to the first protection cascade, the upper arm of which is connected to the phase, the lower arm is connected to the neutral, and the middle point is connected to the ground through a spark gap, the second protection cascade, made in the form of a series connection of varistors, the third protection cascade, made in the form of a series connection of a thermistor and a varistor, connected in parallel with the protected load, the electromagnetic interference suppression unit is made in the form of a multi-stage device consisting of an inductive differential high-frequency filter, a second-order mid-frequency filter in the form of a CLC circuit, including a first set of series-connected capacitors and parallel-connected high-resistance resistors, a mid-frequency common-mode choke, a second set of series-connected capacitors and high-resistance resistors connected in parallel, power supply unit of the load analysis and disconnection circuit, made in the form of a low-power linear voltage stabilizer, consisting of a diode bridge connected to the phase and neutral wires, combined with the diode bridge of the power source, a rectifier diode connected by the anode to the positive contact of the diode bridge, and the cathode - to series-connected capacitors connected in parallel with high-resistance resistors, while the positive contact of the capacitors is connected to series-connected resistors with a power transistor, and the output contacts of the power supply unit of the analysis circuit are connected to an analysis and load disconnection circuit, consisting of a circuit comparing the voltage value with a reference voltage source and containing a key element that disconnects the load from the input voltage during prolonged exposure to voltage exceeding the set value. 2. The power source according to claim 1, characterized in that the electromagnetic interference suppression unit additionally contains high-voltage capacitors connected on one side to the phase wire and neutral wire, and on the other side connected to grounding, and the phase and neutral wires are connected to the input contacts high-frequency common-mode choke, and the output contacts are connected to the load in the form of power supply, analysis and load disconnection nodes.