RU2598901C2 - Load power supply device with variable electric power consumption - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: load power supply device with variable electric power consumption, in particular, printed circuit board, capable of transitioning into standby state, has only two electronic breakers (Q1, Q3), controlled by load (C) taking into account required electric power consumption.

EFFECT: disclosed is a load power supply device with variable electric power consumption.

6 cl, 2 dwg

Description

The invention relates to a power supply device with a variable power consumption, in particular a printed circuit board capable of switching to standby mode.

In particular, the invention is suitable for powering printed circuit boards that are part of standby household appliances, such as air heaters, coffee makers, toasters, dishwashers, washing machines and any other devices with variable current consumption, ranging from several watts to several kilowatts.

Recently, it has become necessary to reduce standby power consumption, in particular, below a threshold value of 0.5 watts.

For this purpose, start / stop switches of a known type can be used.

However, for start / stop switches of a known type, constant human intervention is required, and they are relatively expensive due to the need to completely shut off the power of the supplied household appliance.

It was also proposed to use integrated circuits for power supply with interruption at frequencies above 100 kHz.

Such interruptions at frequencies above 100 kHz require the use of filters of considerable size and increased cost.

JP 8-237945 describes self-inductance coils L1, L2, L3 and L4 and three elements or transistors Q1, Q2, Q3.

The source DE 19748465 reports a high voltage smoothing capacitor located behind the rectifier unit, does not indicate the presence of a non-separate power source that allows you to maintain the ability to access the neutral, and contains feedback means created by the transformer winding.

EP 0651310 describes a power supply device with a variable power consumption comprising a self-inductance coil and feedback means provided by a transformer winding.

The EP 0393280 source does not provide for a non-separate power source that allows you to maintain neutral contact, contains a self-inductance coil and feedback means created by the transformer winding.

The WO 95/10875 source contains a power source based on an alternating capacitor connected in series, as well as a power source with two different operating modes: normal operating mode using block 5 and the operating mode with switching off this block 5.

The first objective of the invention is to improve the prior art, which proposes a new power supply device with negligible current consumption in standby mode.

The second objective of the invention is to propose a new power supply device, which is very simple and very economical to manufacture and quickly driven.

The object of the invention is a power supply device with a variable power consumption, in particular a printed circuit board capable of switching to standby mode, characterized in that this device is powered from a mains power source with an alternating voltage of several hundred volts at a frequency of 10 to 400 Hz and that the device contains only two electronic breakers controlled by the load, taking into account the required current consumption.

According to other alternative features of the invention:

- the device contains an intermediate backup energy source that provides control of one or both electronic interrupters;

- the first controlled electronic chopper or the second controlled electronic chopper is preferably selected from the group of components comprising a high voltage MOS transistor, triac, thyristor or bipolar transistor;

- the device may preferably comprise a voltage control unit for supplying a load with variable power consumption at a constant voltage specified by a constant power source;

- the device comprises means for limiting the control voltage of a controlled electronic chopper;

- the voltage control means may preferably be a Zener diode;

- alternatively, the voltage limiting means may be formed by a voltage regulator.

The invention is explained in more detail below in the description given by way of non-limiting example, with reference to the attached drawings, in which is shown:

figure 1 is a schematic diagram explaining a power supply device according to the invention;

2 is a schematic diagram of a preferred embodiment of a power supply device according to the invention.

In figures 1, 2, elements that are the same or functionally identical are denoted by the same positions.

As shown in FIG. 1, the power supply device according to the invention is powered from a mains supply (A) at an alternating voltage of several hundred volts at a frequency of 10 to 400 Hz.

The device, schematically depicted by a dashed line in the form of a frame, contains the first (Q1) and second (Q3) controlled electronic interrupters.

The first (Q1) or second (Q3) controlled electronic chopper is preferably selected from the group of components comprising a high voltage MOS transistor, triac, thyristor, bipolar transistor or equivalent component.

The device contains a backup source of energy (C1), in the given example it is a capacitor that can be charged from the mains supply (A).

A capacitor or backup source (C1) of energy allows you to control a controlled electronic chopper (Q3), which in the open state controls a controlled electronic chopper (Q1).

By controlling the controlled electronic circuit breaker (Q1) in the open state, it is possible to interrupt the power supply of the load (C) with variable power consumption, for example, a printed circuit board with variable power, which can, in particular, enter the standby state.

Preferably, the device comprises a voltage regulating means (A1) for supplying the load (C) with a variable power consumption at a constant voltage set by a constant power supply, for example, at a constant voltage of 5 V.

The device may preferably comprise means (D4) for limiting the voltage for controlling the electronic chopper (Q3).

A rectifier element, such as a diode (D2), is provided at the input of the device according to the invention solely for providing half-cycles of the same sign of the voltage of the power source (A), for example, negative half-periods of the alternating voltage of the power source (A).

The principle of operation of the device is as follows: the negative half-periods of the alternating voltage of the mains power supply (A) are charged via a resistor (R1) to a controlled electronic chopper (Q1) to bring it into a conducting state.

The energy flowing through a controlled electronic chopper (Q1) charges a backup source of energy (C1), which generates a control voltage for the electronic chopper (Q3) instead of using voltage limiting means (D4), which thus acts on the controlled electronic chopper (Q1) to bring it into open state.

Bringing the controlled electronic interrupter (Q1) into an open state causes the interruption of energy supply to the backup power source (C1), designed to power the load (C) with variable power consumption.

The power supply of the load (C) with variable power consumption from the backup power source (C1) is preferably controlled by the voltage control unit (A1).

Figure 2 shows a preferred embodiment of a power supply device according to the invention.

The power supply device in figure 2 contains the elements Q1, Q3, R1, D2, D4, C1, A1 and C described with reference to figure 1.

The adjustable electronic chopper (Q1) is presented in the form of a high-voltage MOS transistor, the adjustable electronic chopper (Q2) is a bipolar transistor.

The voltage regulating or limiting means (D) is a Zener diode, but can also be formed by an equivalent voltage regulator.

The voltage control unit (A1) comprises in a known manner a bipolar transistor (Q), a polarization resistor (R2) and a Zener diode (D5).

A high-voltage MOS transistor forming the first adjustable bipolar electronic chopper (Q1) is connected to a control resistor (R1) in a conductive state and to a drain resistor (R).

The protective Zener diode (D3) is installed in front of the adjustable electronic choppers (Q1), (Q3).

The circuit formed by the resistor (R) and capacitor (C2) provides stabilization and anti-vibration functioning of the device.

The protective element formed by the diode (D) is preferably located in front of the Zener diode (D4).

The operating principle in this preferred embodiment is identical to the operating principle described with reference to FIG.

Tests have shown that the power supply device according to the invention interrupts the negative half-periods of the alternating voltage of the mains power supply (A) by interrupting the frequency of the mains power supply (A) in accordance with the energy demand experienced by the load (C) with variable power consumption.

The power supply device according to the invention makes it possible to power the load (C) to ensure continuous operation in accordance with different modes of heating, regulation, standby, economical energy consumption, while providing very different indicators of energy consumption lying in the power range from several milliwatts to several watts for printing boards. A circuit board can specify peak loads from one to several watts.

The limit of use of the power supply device according to the invention corresponds to the limit determined by the permissible heating of the drain resistor (R) connected to an adjustable electronic chopper (Q1) formed by a high-voltage MOS transistor.

The invention described with reference to its particular embodiments is not at all limited, on the contrary, it includes any change in form and any embodiment within the scope and meaning of the invention according to the attached claims.

Claims (6)

1. A power supply device with a variable power consumption, in particular a printed circuit board capable of entering standby mode, characterized in that it is powered by a mains power supply (A) at an alternating voltage of several hundred volts at a frequency of 10 to 400 Hz and that it contains a source (C1), a first electronic chopper (Q1) and a second electronic chopper (Q3), while the first electronic chopper (Q1) is able to go into:
a closed state in which the first electronic chopper (Q1) allows the power source (C1) to be charged from the power source (A),
an open state in which the first electronic chopper (Q1) does not allow the energy source (C1) to be charged from the power source (A),
a source of energy (C1) is capable of discharging in order to supply a load to a load (C) with variable consumption,
the second electronic chopper (Q3) is able to go into:
a closed state in which the second electronic chopper (Q3) opens the first electronic chopper (Q1) when the load of the power source (C1) exceeds a threshold,
an open state in which a second electronic chopper (Q3) closes the first electronic chopper when the load of the energy source (C1) falls below a threshold. 2. The device according to claim 1, characterized in that the first (Q1) or second (Q3) controlled electronic chopper is selected from the group of components consisting of a high-voltage MOS transistor, triac, thyristor and a bipolar transistor. 3. The device according to any one of the preceding paragraphs, characterized in that it comprises a voltage control unit (Q2, R2, D5) for supplying a load with variable power consumption at a constant voltage specified by a constant power source. 4. The device according to any one of the preceding paragraphs, characterized in that it contains means (D4) for limiting the control voltage of a controlled electronic chopper (Q3). 5. The device according to claim 4, characterized in that the means (D4) of voltage limitation is a Zener diode. 6. The device according to claim 4, characterized in that the voltage limiting means (D4) is formed by a voltage regulator.

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