KR101433716B1 - A Intelligent telecontrol power-saving control system and its operational method thereof - Google Patents

Abstract

The present invention relates to an intelligent remote control power-saving system and an operating method thereof. To achieve this, the present invention provides an intelligent power-saving control system comprising a power-saving control unit (60), which can minimize power loss by reducing reactive power by power factor compensation and programmable voltage drop control and enables additional power saving control by voltage drop when power loss is increased due to the increase of the reactive power induced by the different phase between currents according to the voltage of AC power and a distorted wave generated on a basic sine wave of current. The present invention as configured above can control the current using a voltage driven current control device for power saving control, and can control the current according to voltage shapes as power factor and total harmonic distortion (THD) are caused by the different phase between the currents according to input voltages and the generation of a distorted wave. Further, a most efficient power saving effect can be obtained by remotely blocking a desired level of voltage and power. Accordingly, the quality and reliability of a product can be significantly improved to satisfy various needs of consumers who are users, thereby presenting a good image.

Description

TECHNICAL FIELD [0001] The present invention relates to an intelligent telecontrol power-saving control system and an operational method thereof,

The present invention relates to an intelligent remote control power saving system and a method of operating the same. More particularly, the present invention relates to an intelligent remote control power saving system which controls a current using a voltage-driven current control element for power saving control and calculates a power factor and a total harmonic distortion (THD) Can control the current according to the voltage waveform due to the difference of the phase of the current according to the input voltage and the generation of the distortion wave. In addition, since the desired voltage level and power can be shut off remotely, So that the quality and reliability of the product can be greatly improved, so that it is possible to provide a good image by satisfying the various needs of users as users.

As you can see, all devices that use electricity use a commercial power source (AC220V in Korea) and use it as the power source of the desired device.

Almost all commercial power supplies are designed to operate within ± 10% of the voltage used.

The world's power supply method increases the power by + 10% to supply power to the rated voltage (within ± 10% of the standard supply voltage) from the transformer to the consumer when supplying power to the actual customer. , The power supplied to the furthest consumer from the transformer can cause a voltage drop and a voltage drop of up to -10% can occur.

There are two ways to save power in a product using electricity: a method to improve the power factor of the product used, a method to correct the power factor that improves the total harmonic distortion (THD) There is a voltage drop method that lowers the voltage. The intelligent power saving device is an intelligent power saving device that can adjust the power factor to improve the power factor and the THD and the programmable voltage drop.

On the other hand, the power factor correction refers to a ratio indicating how much the voltage and current actually applied to a device using electricity is effective, and the ratio of the effective power to the apparent power is called a power factor.

At this time, since the phase difference occurs between the voltage and the current due to the coil or the capacitor component in the circuit in the AC power supply, the effective power is not the voltage x current but the same direction component as the voltage Only the current (= current xCOS?) Effectively works. Therefore, effective power = voltage x (current xCOS?) And COS? Is called power factor.

In addition, the reactive power is a product of the voltage and the current (current xSIN?) And the voltage as much as the 90-degree direction component, occupies only a part of the capacity of the device without actually doing anything in the device (no power consumption) do.

In addition, the magnitude and meaning of the power factor means that the power factor is close to the apparent power, which means that the electric device of the same capacity is used as effectively as possible from the side of the consumer. It is advantageous in that the voltage drop is reduced and the effect of the use of the power supply facility is increased. If the power factor is small, the opposite happens.

The above power factor improving effect is as follows.

First, from the aspect of electric power companies, it has effects such as stability of power system, reduction of electric power loss, efficient operation of facility capacity, and reduction of investment cost.

On the customer side, the improvement of the power factor causes the load current to decrease, which leads to a margin in the capacity of the same equipment. Also, as the power factor is improved, the line current is reduced, so that the voltage drop in the line is reduced. In addition, since the reactive power is reduced due to the improvement of the power factor, the power loss is reduced. In addition, the electricity rate is reduced by improving the power factor.

Meanwhile, the total harmonic distortion (THD) refers to a sinusoidal waveform at the power supply frequency, a distortion wave (harmonic) due to rectification of the power equipment, and the like. In addition, Lt; / RTI > current. This kind of distortion wave can be represented as a multiple of sinusoidal wave by using a free-series wave (called a harmonic wave). In general, the smaller the wave number, the larger the magnitude. This kind of distortion wave originates from the load side and flows to the power source side, because the power device due to the load side or the current due to the interference operates by the power source.

(Prior Art Document 1) Korean Utility Model Publication No. 1991-0001944 (Application No. 1988-0012007) has been published. (Prior Art Document 2) Korean Utility Model Registration No. 0254803 (Application No. 2001-0026527) has been registered. (Prior Art Document 3) Korean Patent Registration No. 1210854 (Application No. 2010-0107059) has been registered.

The input voltage ADC, the output voltage ADC, and the current ADC are provided in the power saving control unit connected to the communication module. In addition, the input voltage waveform regulator and the DC voltage generator And an adder. The second object of the present invention based on the technical construction described above is to provide a method and apparatus for monitoring an input voltage, an output voltage, and a used current in real time and controlling a power factor by using an MCU (Micro Controller Unit) ) And a total harmonic distortion (THD) value in real time to control the voltage of the wave rectified by the input voltage freely. The third object is to control the gate threshold of the voltage driven type current control device, You can freely adjust the DC voltage magnitude to the MCU using a DC voltage generator for use as a voltage or gate cut-off voltage, Voltage and Input Voltage The waveform regulator output waveform is used as a signal to control the voltage-driven current regulator by adding two waveforms using an adder. The fourth purpose is to control the current in the same phase with the input voltage, And the fifth object is to make it possible to realize miniaturization. The sixth object is also to control the current in the same phase with the input voltage waveform, so that a smaller amount of current than the load side current is used The seventh object is to remotely turn off the desired voltage level and power so that the power saving effect of the highest efficiency can be realized, and the eighth objective Which greatly improves the quality and reliability of the product, One provides an intelligent power saving control system and its operation so that it can instill a good image to meet the needs (needs).

In order to achieve the above object, according to the present invention, when a phase difference between currents according to a voltage of an AC power source and a distortion wave are generated in a fundamental sinusoidal wave of a current to increase reactive power and increase power loss, a power factor correction and a programmable The present invention provides an intelligent power saving control system including a power saving control unit provided with a power saving control unit to reduce reactive power by minimizing power loss and to implement additional power saving control by voltage drop, do.

Further, the present invention controls a current in the same phase as a voltage based on a power factor and a total harmonic distortion (THD) detected in real time by a power saving control unit included in an intelligent remote power saving control unit, Power Factor and Total Harmonic Distortion (THD) control the current by using the device, and the difference of the phase of the current according to the input voltage and the generation of the distortion wave are the main cause, And the communication module connected to the power saving control unit remotely disconnects the desired voltage level and power to implement the power saving effect of the highest efficiency.

As described in detail above, according to the present invention, an input voltage ADC, an output voltage ADC, and a current ADC are provided in a power saving control unit connected to a communication module, and an MCU, an input voltage waveform regulator, a DC voltage generator, and an adder are provided.

According to the present invention, the power factor and total harmonic distortion (THD) values are calculated in real time using an MCU (Micro Controller Unit) in real time by monitoring input voltage, output voltage, So that the voltage of the waveform of the full-wave rectified input voltage can be freely adjusted.

The present invention also provides a method of controlling a DC voltage generator by freely adjusting a DC voltage magnitude to an MCU using a DC voltage generator for use as a gate threshold voltage or a gate cut-off voltage of a voltage driven current control device, Input voltage The waveform regulator output waveform is used as a signal to control the voltage-driven current regulator by adding two waveforms using an adder.

This control according to the present invention allows the power factor to be corrected by controlling the current in phase with the input voltage.

Therefore, the present invention enables miniaturization of the product.

In addition, since the current can be freely controlled in the same phase as the input voltage waveform, the output voltage drops when a current smaller than the load-side current is supplied, so that a desired voltage drop can be easily implemented.

In addition, since the present invention can remotely block the desired voltage level and power, the power saving effect of the highest efficiency can be realized.

The present invention greatly improves the quality and reliability of a product due to the above-mentioned effects, and thus is a very useful invention that can provide a good image by satisfying various needs of consumers who are users.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of an intelligent power saving control system applied to the present invention;
2 is a block diagram of a main part of an intelligent power saving control system applied to the present invention.
3 is an input voltage waveform of the present invention,
(a) is an input signal graph,
(b) is a graph of the output waveform.

The intelligent power saving control system and its operation method applied to the present invention are configured as shown in Figs. 1 to 3.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, according to the present invention, when a phase difference between currents according to a voltage of an AC power source and a distortion wave is generated in a fundamental sinusoidal wave of a current to increase reactive power and increase power loss, a power factor correction and a programmable An intelligent remote control power saving system having an intelligent remote power saving control unit 1 equipped with a power saving control unit 60 for minimizing power loss by minimizing power loss by voltage drop control and implementing additional power saving control by voltage drop to provide.

At this time, the intelligent remote power saving control unit 1 applied to the present invention is configured as shown in FIG.

That is, the input voltage sensing unit 10 is connected to the controller power input unit (Live, Neutral terminal) to monitor the voltage of the input power source.

At this time, the input voltage sensing unit 10 checks the peak-to-peak and the RMS value of the operating voltage using the ADC, and distributes the voltage so as to operate within the ADC input range, Input Voltage Detection Input to the ADC to monitor the input voltage in real time.

And an output voltage sensing unit 20 connected to the power output unit (Load_live, Load_Neutral terminal) to monitor the output voltage.

At this time, the output voltage sensing unit 20 can check the peak-to-peak and the RMS value of the output voltage in order to monitor the output voltage output by the voltage-driven current control unit under the control of the power saving control unit The voltage is distributed to operate within the ADC input range and input to the output voltage sensing ADC of the power saving controller to monitor the output voltage in real time.

And a current sensing unit 30 for monitoring current consumption.

At this time, the current sensing unit 30 uses a CT (Current Transformer) of an electromagnetic induction type and a Hall current sensor using a current magnetic effect or a sensor capable of sensing a current amount such as a shunt resistor, And input to the current monitoring ADC of the power saving control unit to monitor the current in real time.

Further, a full-wave rectification circuit portion 40 for using a voltage-driven current control element is provided.

At this time, the full-wave rectification unit 40 uses a full-wave rectification circuit to perform positive control by using voltage-driven current control devices such as various types of power FETs and IGBTs, thereby constituting an AC power switch. The device used in the full-wave rectification circuit shows that a voltage-driven current control device such as an FET or an IGBT is used instead of a current control device such as TR or TRAC. In addition, the AC power source that we use is composed of Live line and Neutral line in case of single phase, Live line is power supply line, Neutral line is ground line of power supply supplier, Live line and Neutral line are arbitrarily displayed because live line and Neutral are not distinguished in domestic power supply construction.

In addition, a voltage-driven current control device section 50 connected to the full-wave rectification circuit section 40 is provided.

In this case, the voltage-driven current control device part 50 has a structure of an insulated gate such as various kinds of power FETs and IGBTs, and uses a voltage-driven current control device.

The power saving control unit 60 is connected to the voltage-driven current control device unit 50 and sets a voltage drop level by limiting power supply or load-side supply current according to a remote control command of the communication module. The controller consists of input voltage ADC, output voltage ADC, current ADC, MCU, input voltage waveform regulator, DC voltage generator and adder.

Finally, the present invention includes a communication module 70 connected to the power saving control unit 60 to remotely block a desired voltage level and power to realize a power saving effect of the highest efficiency.

That is, the communication module 70 is a module that can communicate with the outside through a communication module (e.g., a wired, wireless, and power line) module, and remotely sends a control command to the power saving controller 60 using the communication module And transmits a power cutoff or control voltage level command to the power saving control unit.

A more specific configuration of the power saving control unit 60 according to the present invention is configured as shown in FIG.

That is, it receives the output of the input voltage ADC 61, the output voltage ADC 62 and the current ADC 63 connected to one side and monitors the real time input voltage, the output voltage and the current. Using these values, the power factor And an MCU (Micro Controller Unit) 64 for calculating and monitoring total harmonic distortion (THD).

And is connected to the other side of the microcontroller unit (MCU) 64. The voltage of the rectified current waveform can be freely adjusted by full-wave rectification of the input voltage to control the voltage magnitude by the MCU, And an input voltage waveform adjuster 65 for controlling the current of the input voltage waveform.

And is connected to the other side of the microcontroller unit (MCU) 64. The DC voltage is freely controlled under the control of the MCU and the Gate Threshold voltage or Gate Cut-off voltage A DC voltage generator 66 for adjusting the DC voltage is provided.

Finally, the present invention is connected to the input voltage waveform regulator 65 and the DC voltage generator 66, and adds the output of the DC voltage generator 66 and the output voltage of the input voltage waveform regulator 65, And an adder 67 used as a current control signal of the control unit 50, so that an intelligent power saving control system is provided.

The input voltage ADC 61 applied to the present invention is used for real-time monitoring of the input voltage by correcting the voltage dropped voltage of the input voltage sensing unit adjusted to the ADC input range by a scale factor.

In addition, the output voltage ADC 62 applied to the present invention is used for real-time monitoring of the output voltage by correcting the voltage dropped voltage of the output voltage sensing unit adjusted to the ADC input range by a scale factor.

The current ADC 63 applied to the present invention is used for real time monitoring of the current amount by receiving a current transformer (CT) or a shunt resistance value adjusted to an ADC input range and correcting it with a scale factor.

The MCU 64 applied to the present invention monitors the input voltage, the output voltage, and the current in real time in response to the output of the input voltage ADC, the output voltage ADC, and the current ADC. The MCU 64 monitors the power factor and the THD value Calculate and monitor. Also, DC voltage is adjusted by using DC voltage generator using calculated power factor and THD value, and input voltage waveform and voltage waveform of same phase are freely adjusted to a desired size by using input voltage waveform generator.

The DC voltage generator 66 applied to the present invention can freely adjust the DC voltage under the control of the MCU and adjusts the gate threshold voltage or gate cut-off voltage of the voltage driven current control device.

The input voltage waveform adjuster 65 according to the present invention can freely adjust the magnitude of the rectified waveform by controlling the voltage magnitude by the full-wave rectification of the input voltage and controlling the current of the voltage driven current control device in phase with the input voltage waveform Is used for control.

In particular, as shown in FIG. 3, the waveform of the input voltage of the input waveform adjuster 65 is (a) the waveform of the input signal, and the wave rectified waveform becomes (b) the output waveform.

And (b) the output waveform is adjusted to a voltage magnitude suitable for controlling the voltage-driven current control device, and is freely adjusted by the MCU.

Finally, the adder 67 adds the output of the DC voltage generator and the output voltage of the input voltage waveform regulator to use it as a current control signal for the voltage-driven current control element.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

Hereinafter, the operation and effect of the intelligent power saving control system and the operation method of the present invention will be described.

First, the present invention realizes an electronic electric meter function by using an input voltage sensing unit, an output voltage sensing unit, and a current sensing unit to check a power factor and a THD of a used load, and monitors a voltage and a current supplied to a load in real time . At this time, the current, voltage, power factor and THD supplied to the load are checked in real time and the power saving control is performed as follows. The power saving control is implemented by controlling the current in phase with the voltage based on the power factor and THD detected in real time, and the control method is as follows.

That is, the present invention controls the current using a voltage-driven current control element for power saving control, and the power factor and the total harmonic distortion (THD) are determined by the difference of the phase of the current according to the input voltage, This root cause is to control the current according to the voltage waveform.

To this end, the present invention controls the current based on the power factor and total harmonic distortion (THD) detected in real time by the power saving control unit 60 included in the intelligent remote power saving control unit 1 However, the power factor and the total harmonic distortion (THD) are controlled by the voltage-driven current control device, and the difference in the phase of the current depending on the input voltage and the generation of the dyssynchrony are the root causes The communication module 70 connected to the power saving control unit 60 controls the current according to the voltage waveform and blocks the desired voltage level and power remotely to realize a power saving effect of the highest efficiency.

Hereinafter, a method of operating the intelligent power saving control system applied to the present invention will be described in detail.

First, a microcontroller unit (MCU) 64 receives the output of the input voltage ADC 61, the output voltage ADC 62 and the current ADC 63 to monitor the real time input voltage, the output voltage and the current, The power factor and the total harmonic distortion (THD) are calculated and monitored in real time.

The input voltage waveform adjuster 65 controls the current of the voltage-driven current control element in phase with the input voltage waveform or the DC voltage generator 66 controls the gate threshold voltage of the voltage-driven current control element or Gate Cut -off (cutoff) voltage is adjusted.

Then, the output of the DC voltage generator 66 and the output voltage of the input voltage waveform adjuster 65 are added together to be used as a current control signal for the voltage-driven current control element unit 50 to operate the intelligent power saving control system.

At this time, the input voltage ADC 61 uses an analog-to-digital converter (ADC) to check the peak-to-peak and the root mean square (RMS) It is preferable to divide the voltage so as to operate within the ADC input range and to input the input voltage into the ADC of the power saving control unit to monitor the input voltage in real time.

The output voltage ADC 62 receives the voltage dropped voltage of the output voltage sensing unit adjusted to the ADC input range, corrects the voltage drop to a scale factor, and monitors the output voltage in real time.

In addition, the current ADC 63 may include a current transformer (CT) adjusted to an ADC input range and a Hall Current sensor or a current mirror effect sensor using a current magnetic effect, Value is input and corrected to a scale factor to monitor the amount of current in real time.

The intelligent power saving control of the present invention monitors the input voltage, output voltage, and current in real time, calculates the power factor and the THD value by using the MCU in real time, freely adjusts the voltage of the full wave rectified input voltage, DC voltage generator can be used for gate threshold voltage or gate cut-off voltage of the current control device to freely adjust the DC voltage level to the MCU so that the dc voltage generator voltage and the input voltage waveform regulator output waveform The waveform is used as a signal to control the voltage-driven current regulator.

This control can compensate the power factor by controlling the current with the same phase as the input voltage, and it can realize miniaturization and freely control the current in the same phase with the input voltage waveform. Therefore, The output voltage is lowered, so that a desired voltage drop can be implemented easily.

In addition, in the present invention, when the communication module 70 is added to the intelligent power saving control system to receive remotely transmitted power cutoff or forced voltage drop level command, the amount of current supplied to the load is adjusted to induce a voltage drop, will be.

That is, according to the present invention, when a power-saving function-capable power supply is provided with Programmable voltage drop function and communication function (for example, wired, wireless or power line) It becomes possible to control the power saving.

In addition, power factor correction and programmable voltage drop function are available, so that the supply voltage on the load side can be adjusted to the desired level and shut off.

When communications (such as wired, wireless, or power line) are supported, you can remotely turn off the desired voltage level and power, thus achieving the most efficient power saving effect.

In addition, when the power saving can be controlled remotely, it is possible to control individually according to the power saving condition and also to be able to perform centralized management according to need, so that, in case of power shortage due to the instantaneous use of peak power, It is possible to maximize the efficiency of power saving and power use because the forced power saving can be induced in a group.

The technical idea of the intelligent power saving control system and the operation method of the present invention is that the same result can be repeatedly practiced. Especially, by implementing the present invention as described above, it is worth protecting because it can contribute to industrial development by promoting technological development.

Description of the Related Art
1: intelligent power saving control unit 10: input voltage sensing unit
20: output voltage sensing unit 30: current sensing unit
40: full-wave rectification section 50: voltage-driven current control element section
60: power saving control unit 67: adder
70: Communication module

Claims (8)

delete delete Power factor correction and Programmable (programmable) voltage drop control when the phase difference of the current according to the voltage of the AC power source and the power loss due to the increase of the reactive power due to the generation of the distortion wave in the basic sine wave of the current And an intelligent remote power saving control unit including a power saving control unit for minimizing power loss by reducing reactive power and implementing additional power saving control by voltage dropping, wherein the intelligent remote power saving control unit includes a controller power input unit (Live, Neutral terminal) An input voltage detection unit connected to the input voltage detection unit and monitoring a voltage of the input power supply; An output voltage sensing unit connected to the power output unit (Load_live, Load_Neutral terminal) to monitor the output voltage; A current sensing unit for monitoring current consumption; A full-wave rectification circuit section for using a voltage-driven current control element; A voltage-driven current control element connected to the full-wave rectification circuit; A power saving control unit connected to the voltage driven type current control device unit and configured to set a voltage drop level by limiting the supply current or cutting off the power according to a remote control command of the communication module; And a communication module connected to the power saving control unit to remotely shut down a desired voltage level and power to realize a power saving effect of the highest efficiency, the intelligent remote control power saving system comprising:
The power saving control unit (60)
The input voltage ADC 61, the output voltage ADC 62 and the current ADC 63 connected to one side are monitored for real time input voltage, output voltage and current, and the power factor An MCU (Micro Controller Unit) 64 for calculating and monitoring total harmonic distortion (THD);
And is connected to the other side of the microcontroller unit (MCU) 64. The voltage of the rectified current waveform can be freely adjusted by full-wave rectification of the input voltage to control the magnitude of the MCU, An input voltage waveform adjuster 65 for controlling the current;
And is connected to the other side of the microcontroller unit (MCU) 64. The MCU controls the DC voltage freely and controls the gate threshold voltage or the gate cut-off voltage of the voltage-driven current control device A regulating DC voltage generator 66; And
The DC voltage generator 66 is connected to the input voltage waveform adjuster 65 and the DC voltage generator 66 and adds the output of the DC voltage generator 66 and the output voltage of the input voltage waveform adjuster 65, And an adder (67) used as a current control signal.
delete The power saving control unit included in the intelligent remote power saving control unit controls the current in the same phase as the voltage on the basis of the power factor and the total harmonic distortion (THD) The power factor and the total harmonic distortion (THD) are controlled by the intelligent remote control which controls the current according to the voltage waveform due to the difference of the phase of the current according to the input voltage and the generation of the distortion wave. In a method of operating a power saving system,
A method of operating the intelligent remote control power saving system,
An MCU 64 is connected to the input voltage ADC 61 and the input voltage ADC 61 so that the communication module 70 connected to the power saving control unit 60 can remotely turn off a desired voltage level and power to realize a power saving effect of the highest efficiency. The output voltage ADC 62 and the current ADC 63 to monitor the real time input voltage, the output voltage, and the current. Using these values, a power factor and a total harmonic distortion (THD) And monitoring and monitoring the system;
The input voltage waveform adjuster 65 controls the current of the voltage-driven current control element in phase with the input voltage waveform or the DC voltage generator 66 controls the gate threshold voltage of the voltage-driven current control element or the gate cut adjusting an off (blocking) voltage; And
And adding the output of the DC voltage generator 66 and the output voltage of the input voltage waveform adjuster 65 to use as a current control signal of the voltage-driven current control element unit 50. [ How the system works.
The method of claim 5,
The input voltage ADC 61 checks an AC input voltage using a peak-to-peak and a root mean square (RMS) value of the operating voltage using an analog-to-digital converter The output voltage ADC 62 is controlled in a DC input range, and the output voltage of the ADC 62 is adjusted to a DC input range. The current ADC 63 is controlled by a current transformer (CT) adjusted to a DC input range by controlling the output voltage of the output voltage sensing unit by receiving the voltage-reduced voltage and correcting the voltage to a conversion factor (Scale Factor) And a current sensor such as a Hall current sensor or a shunt resistor using a current magnetic effect, and corrects the output value of the sensor with a scale factor to monitor the amount of current in real time How to operate intelligent remote control power saving system. delete delete

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