TW201128897A - Power control system and method thereof - Google Patents

Abstract

The present invention discloses a low harmonic distortion power control system and a low harmonic distortion power controlling method thereof. The power control system comprises a detecting device, a power regulator and a resistive load device. The detecting device is able to receive the feedback information from the resistive load device. A voltage or current can be used as a control signal outputted from the detecting device. After the power regulator receives the control signal, a drive voltage is outputted in a proportional way. In such proportional way, full power drive voltage are outputted in a continuous output time period and stopped outputting in a continuous non-output time period. The resistive load device receives the drive voltage and then outputs feedback information to the detecting device. By such a proportional way in which the full power drive voltage are outputted in the continuous output time period and stopped outputting in the continuous non-output time period, it is able to decrease the amount of harmonic waves.

Description

201128897 VI. Description of the invention: [Technical field of invention] Money is a low-harmonic power quality control system and a low-white power quality control method, especially in: Wave power quality control method, which stops output in a proportional manner Full power drive voltage. Even connection, no output time interval [prior art]

Most of the f-source quality (4) systems are mostly based on the power required for asymmetric H. A common method is the distributed zero-controlled blood straight-line phase control. The two (four) modes are output drive voltages in units of full waves or waves. Please refer to Figure 3, taking the 5 system as an example. The maximum drive voltage interrupt frequency is output = 50% (Fig. 2). At this time, the interrupt frequency is L. See 4~6 Figure, in linear phase = column, when non-full power operation output, the output drive voltage is the voltage per positive phase angle as the voltage rotation size change. The current method has a phenomenon in which white waves are excessive. However, the driving voltage outputted by the power regulating device is currently outputted in a positive or negative half angle or a continuous interruption of the driving voltage, which causes a large amount of (four) wave interference, which causes damage to the device. Therefore, the service life of the m electronic device itself or the use efficiency of the device is a problem to be solved. SUMMARY OF THE INVENTION In view of the above problems of the prior art, the object of the present invention is to provide a low spectral power quality control method to solve the problems caused by harmonics. / In accordance with the purpose of the present invention, it is proposed that the low-harmonic power quality control system includes a resistive negative health, a - device, and a power _ " peripheral device. The resistive load device receives the drive voltage and performs the relative operation 'operation to generate the feedback signal according to the characteristics measured by the rugged carrier device (4). Temperature, stiffness, or pressure can be included in the characteristics that can be extracted. After the feedback signal is sent to the detecting device by the resistive negative residual, the device will feedback the Dfi and convert it into the control signal. After the control signal (4) is transmitted to the power adjustment device, the average value of each control signal received in the interval is calculated. According to the average value, the corresponding driving voltage is output in the second time interval. The interval includes continuous output ♦=inter- _ and continuous non-output time interval, and the average value of the control signal is matched with the ratio of the continuous output time interval and the continuous non-output time interval. The continuous output is continuously output in the continuous output time interval. Power drive, voltage 'stops the output of full power drive voltage at continuous output time interval. Thus, the minimum harmonic is generated for the overall power system. One of the 'power adjustment devices include trigger unit, microcomputer processing, power supply sapon, and loss The human signal unit is configured to receive a trigger signal for the microcomputer to process the single-it output, and output the multi-phase voltage signal as the driving voltage according to the trigger signal. The power supply unit is configured to provide the power required for the power adjustment 201128897. Signal unit is a percentage control that receives each control signal and converts its 77 to high and low potentials. After the signal, the microcomputer processing unit. The microcomputer processing unit calculates the average value of the low-potential percentage control signal for a fixed time, and generates a trigger signal according to the average value. The trigger signal distributes the ratio of the interval between consecutive output time intervals. The full-power trigger signal is output during the continuous output time, and the full-power trigger signal is outputted continuously without outputting the time interval. Method 2 The purpose of the invention is to propose a low-spectrum power quality control load device to generate feedback signals to the detector. After measuring and receiving at least one feedback signal, the device will change the feedback signal to the control signal and output it to the power adjustment device. The average value of the electric power adjustment device: the power adjustment device at the second time ^ = 2 control* Wei's average material voltage. The second time interval includes the continuous output time interval and continuous output when the output is not separated, and according to the ratio, continuously output the full power drive voltage at the continuous output time interval without outputting the time interval. Output unit: source = modulation =: touch processing 3 =: input _ signal, and according to the second power supply required . The input signal unit receives each control = 201128897 and converts it to a high and low percentage control signal, and then transmits it to the microcomputer to process the Zhuoyuan. The microcomputer processing unit calculates the average value of the high and low potential control signals in the fixed time gate, and generates a trigger signal according to the average value. This trigger signal distributes the ratio of the continuous output time interval to the continuous non-output time interval. Continuously output the full power trigger signal during the continuous output time in a fixed time, and stop outputting the full power trigger signal during the continuous output time. τ According to the above, the low harmonic power quality control system and method thereof according to the present invention have the following advantages: The low harmonic power quality control system and the method for lowering the harmonic power quality can be scaled by The method outputs the full-rate driving voltage at the continuous output time interval, and stops the driving voltage at the continuous output time interval, thereby reducing the generation of harmonics. 'Embodiment' / Please refer to Section 7 1 ' is a block diagram of the low harmonic power quality control system of the present invention. In the figure, the low harmonic power quality control system includes a detecting device 20, a power adjusting device 2〇2, and a resistive load device 2〇3. The detecting device 20 receives the feedback signal of the resistive load device 2〇3 and outputs a control signal to the power adjusting device 202. The power adjusting device 2〇2 outputs different power to the resistive load device 2〇3 according to the control signal. The resistive load device 203 then transmits the feedback data to the detecting device 2〇. Please refer to Fig. 8, which is a block diagram of the power adjustment device. In the figure, the power adjusting device includes a power supply unit 301, an input signal list 201128897 element 302, a zero phase detecting unit 303, an over temperature detecting unit 304, a micro-computer processing unit 305, and a trigger unit 306. The trigger unit 306 includes multiple 'group rectifiers, and each set of rectifiers includes two anti-parallel controlled rectifiers. The microcomputer processing unit 305 is connected to the power supply unit 301, the input signal unit 302, the zero phase detecting unit 303, the over temperature detecting unit 304, and the trigger unit 306, respectively. The power supply unit 301 provides power required for the power adjustment device. The input signal unit 302 can receive a control signal of voltage or current. The voltage signal is 0V~5V, IV~5V, 0V~10V, 2V~10V, and the current signal is 0mA~20mA or 4mA~20mA. If the control signal is current, the input signal unit 302 converts the current signal into a voltage signal and outputs it. The input signal unit 302 converts the control signal to output a percentage control signal of the high and low potentials to the microcomputer processing unit 305. The percentage control signal of the high and low potentials includes a control signal that has been converted from a current to a voltage signal and a control signal that is originally a voltage signal. The over temperature detecting unit 304 measures whether the temperature in the power adjusting device is higher than a preset value. When the preset value is exceeded, an over temperature control signal is sent to the microcomputer processing unit 305, and the microcomputer processing unit 305 starts a fan. The fan is located on one side of the low harmonic power quality control system. The trigger unit 306 receives the trigger signal sent by the microcomputer processing unit, turns on the multi-phase voltage signal after triggering the complex array rectifier according to the trigger signal, and outputs the multi-phase voltage signal as the driving voltage. Each of the rectifiers in this complex array rectifier contains two anti-parallel controlled rectifiers. The zero phase detecting unit 303 detects the zero position of the multiphase voltage signal and outputs it to the microcomputer processing unit 305. When receiving the high and low potential control signals, the microcomputer processing unit 305 sends the trigger signals according to the average of all the high and low potentials received at a time interval of 201128897. Referring to Figures 9 to 11, it is a graph showing the waveform formed by the driving force of the present invention. Figure = Full power drive (4) is the all black waveform, stop the wheel: The power drive voltage is a hollow waveform. When = is full: = 〇〇 one cycle exists, when the power output is ι〇% mother: := 〇 cycles have full power drive voltage, the remaining 9 〇 weeks = output full power drive voltage. Take the first solution. There will be 50 cycles of full-power drive (4) "/余 = for the cycle to stop output full-power drive voltage. The electric ^ α, the remaining 50 rate output is 9G%, there will be 9 first (four) a picture as an example Gong irwTM I does not appear 9 〇 cycle full power drive voltage, t is to stop output full power drive voltage if the dynamic voltage changes. As for the continuous output time two choice. The day interval setting, the controller has multiple groups For the unit time, please refer to Fig. 12, which is a flow chart of the implementation steps of the low harmonic electromodulation σ method of the present invention. The low harmonic σ quality control includes the following steps: m white and power-quality control method number, The detecting device receives at least one feedback controller to convert each feedback signal into a control signal. In step S20, the power adjusting device uses the power adjusting device to calculate the average value of each control signal in the eleventh control signal. BB ° in the step In S30, the driving electric seat of the average value is outputted by the power adjusting device at the second time interval 201128897, and the ratio of the continuous interval to the continuous non-output time interval is allocated according to the average value, so that the continuous output time η^&quo t; Continuous output full-power drive electric dust, and stop outputting full-power drive power at continuous output time interval. ^S4G towel, using resistive load device to receive drive signal, No.. Corresponding operation, and according to resistive load The characteristics of the device generate feedback information > 2, Table 1 'which is proportional to the continuous output time interval = Wang ^ drive voltage' and the continuous power output voltage is stopped at the output time interval. The ratio of the root mean square (R〇〇tm coffee q^are ' RMS) to the fundamental wave. When the percentage of the root mean square is 3% of the operation, the wave distortion is the total harmonic of the percentage of 2 birds. The distortion is 2.92%. The total harmonic distortion of the rms percentage when operating at 50% of the dynamic voltage is • The total harmonic distortion of the fundamental wave percentage is 3.4%. 2 'It is the ratio of the root mean square in the case of the distributed zero control method: the proportion of the soil wave. When operating with 30% of the driving power, the total spectral distortion is 18.81%, accounting for 18.81%. The fundamental wave percentage wave distortion is 18.36%. When shipped at 50% of the drive voltage The total spectral distortion of the percentage of root mean square is 18.74%, and the total harmonic distortion of the basic wave ratio is 18.37%. It can be easily seen from the data of the two tables, proportionally Continuous transmission (four) _ output full power drive voltage 'and continuous output without output time interval to stop outputting all 7 voltage, the spectral wave is greatly reduced, it can be seen that the experiment is consistent with the rational w. 201128897 Proportional mode total harmonic distortion (accounting for (THD-R total harmonic distortion as % of rms total) Total harmonic distortion (% of fundamental wave) (THD-F total harmonic distortion as % of fundamental) 30% drive voltage 2. 91% 2· 92% 50% drive voltage 3· 24% 3. 24% Table 1 Table 1: Power adjustment device outputs full-power drive voltage in a proportional manner at continuous output time interval' and stops outputting full-power drive at continuous output time interval In the case of voltage, the case of generating harmonics. Distributed zero control method Total harmonic distortion (% of rms) (THD-R total harmonic distortion as % 〇f rms total) Total harmonic distortion (% of fundamental wave) (THD-F total harmonic distortion As % of fundamental) 30% drive voltage 18.81% 18. 36% 50% drive voltage 18.74% 18.37% 201128897 Generate Table 2. Power 5 weeks I set the case with distributed zero control, harmonics. The above description is for illustrative purposes only and is not intended to be limiting of the spirit and scope of the invention, and is not intended to be included in the appended claims. Fig. 1 is a driving voltage waveform of a distributed zero control of the prior art 'This is a driving voltage of 10%; FIG. 2 is a driving voltage waveform of a distributed zero control of the prior art'. This is a driving voltage. At the time of 50%; the third figure is the driving voltage waveform of the distributed zero control of the prior art 'This is the driving voltage 90%; FIG. 4 is the driving voltage waveform of the linear phase control of the prior art, This is the driving voltage of 10%; Figure 5 is the driving voltage waveform of the linear phase control of the prior art, which is the driving voltage of 50%; Figure 6 is the driving of the linear phase control of the technology Electric multiple waveform, this is the driving voltage 90%; 12 201128897 Figure 7 is the block diagram of the low-spectrum power quality control system of the present invention, and FIG. 8 is the power adjusting device of the low harmonic power quality control system of the present invention. Block diagram; Figure 9 is the invention FIG. 10 is a schematic diagram showing a driving voltage of 50% and a second time interval of 100 cycles. FIG. 11 is a schematic diagram of the present invention. A schematic diagram of a driving voltage of 90% and a second time interval of 100 cycles; and FIG. 12 is a flow chart of the steps of the low harmonic power quality control method of the present invention. & [Main component symbol description] 2〇1: detection device; 202: power adjustment device; 203: resistive load; 301: power supply unit; 302: input signal unit; 303: zero phase detection unit; 304: over temperature Detecting unit; 305. Microcomputer processing unit; 13 201128897 306: trigger unit; and S10~S40: steps.

14

Claims (1)

201128897 VII. Application for Patent Park: l Two kinds of low-spectrum power quality control systems, including: detection device, which receives at least one feed signal, and converts each of the knives into a control signal; 1 force adjustment device is connected to the detection device, and is connected to the second signal: and obtains the average value of the control signal received in a first time interval, and the second time interval gate a driving voltage of the average value, the second time: the interval includes - the continuous output time interval and the - continuous non-transmission gate interval ' and the continuous output time interval is allocated according to the average value of each of the control signals and the continuous non-output time interval = ratio And continuously outputting the full power drive (4) at the continuous output time interval, and stopping outputting the full power drive voltage at the _ no output time interval; and generating a load device connecting the detecting device and the power adjustment And receiving and receiving the driving voltage output by the power adjusting device for relative operation, and generating the feedback according to the measured characteristic of the resistive load device number. The low harmonic power quality control system described in claim 1, wherein the control signal is a voltage value of 0 volts to 5 volts, volts volts to 10 volts, 1 volt to 5 volts, or 2 volts to 1 volt. () Volts, the control signal is current value between 〇 mA ~ 2 〇 mA.戍 4 pens culture ~ 2 〇 milliamperes. For example, the low harmonic power quality control system described in claim 1 of the scope of the patent application, wherein the resistive load device is characterized by temperature, humidity or pressure. 4. The low-spectrum power quality control system as described in claim 帛i, wherein the power adjustment device comprises: a power supply unit that supplies power required by the power adjustment device; and an input signal unit that receives Each of the control signals is converted into a high and low potential percentage control signal; - a microcomputer processing unit is connected to the power supply unit and the input signal unit, and calculates a percentage of each of the high and low potential control signals, and receives each The percentage of the high and low potentials controls the signal, and generates a trigger signal according to the percentage of each of the high and low potentials. The trigger signal controls the continuous output time interval and the continuous output according to the average of the high and low potentials. a ratio of time intervals for continuously outputting a full power trigger signal at the continuous output time interval, and stopping outputting the full power trigger signal at the continuous non-output time interval; and a trigger unit connecting the microcomputer processing unit to receive the trigger The nickname and output a multi-phase according to the s-th trigger signal The voltage signal is the driving voltage. 5. The low harmonic power quality control system according to claim 4, wherein the trigger unit further comprises a complex array rectifier, the complex array rectifier corresponding to the number of multiphase voltage signals, and the complex number, and the whole Each group of 々IL devices consists of two 整流 control rectifiers connected in anti-parallel. After the trigger signal is triggered, it is turned on, and the drive power is output to 201128897. 6. The low harmonic power quality control system according to claim 4, wherein the power adjustment device comprises a zero phase detecting unit connected to the microcomputer processing unit to detect the multiphase voltage The zero position of the signal. 7. The low harmonic power quality control system of claim 4, wherein the power adjustment device further comprises an over temperature detection unit connected to the microcomputer processing unit, and detecting whether the temperature of the power adjustment device is Above a preset value, when the preset value is exceeded, the super is sent; the JDL controls §fL to the microcomputer processing unit, and the microcomputer processing unit starts a fan, and the fan is located in the low-spectrum power quality control system. One side. 8 - a low harmonic power quality control method, comprising the steps of: receiving at least one feedback signal by using a detecting device, and converting each of the feedback signals into a control signal; using a power adjusting device for a first time Receiving each of the control signals during the interval, and calculating a flat value of each of the control signals; the 电雄电刀 adjusts a driving voltage of the value of the ten sentences, and the second time interval includes a continuous output (four) and - Continuous* output time interval, the value is assigned to the continuous output time interval and the ratio of the interval 'to continue to rotate the full power driving voltage for the continuous transmission, and stop outputting at the output time of the connection 17 201128897 The full-power driving voltage; and receiving the driving voltage through a resistive load device, and correspondingly generating the feedback signal according to characteristics of the resistive load device. The low harmonic power quality control method described in the eighth item of Shenyue, wherein the resistive load device is characterized by temperature, humidity or pressure. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The control signal is respectively converted into a high and low potential percentage control signal; the computer processing unit is connected to the power supply unit and the input signal, and counts the percentage of each high and low potential to control the average value of the signal, and receives Each of the high and low potential control signals, and the control signal generates a trigger signal according to the percentage of each of the high and low potentials. The trigger signal distributes the continuous output time interval according to the average of the high and low potential control signals. The ratio of the output time interval is 'continuously outputting the full power trigger signal at the continuous output time interval, and stopping outputting the full power trigger signal at the continuous non-output time interval; and a trigger unit connecting the microcomputer processing unit to receive The trigger number outputs a multiphase electric dust signal according to the trigger signal as 201128897 Drive voltage. The low harmonic power quality control method according to claim 10, wherein the trigger unit further comprises a complex array rectifier, the complex array rectifier corresponding to the number of multiphase voltage signals, and each of the complex array rectifiers The group consists of two voltage-controlled rectifiers connected in anti-parallel. After being triggered by the trigger signal, the voltage is turned on and the driving voltage is output. 12. The low harmonic power quality control method according to claim 10, wherein the power adjustment device comprises a zero phase detecting unit connected to the microcomputer processing unit to detect the multiphase The zero position of the voltage signal. 13. The low harmonic power quality control method as described in claim 1 wherein the power adjustment device further comprises an over temperature detection unit connected to the microcomputer processing unit, and detects the temperature of the power adjustment. Whether it is higher than a preset value, and when the preset value is exceeded, an over temperature control signal is sent to the microcomputer processing unit, and the microcomputer processing unit starts a fan, and the fan is located in the low harmonic power quality control system. side.