KR100869072B1 - Apparatus for time correction of electronic watt hour meters - Google Patents

Abstract

The present invention relates to an electronic power meter time correction device. The present invention provides a GPS satellite for transmitting an accurate standard time; A satellite time receiver which receives accurate standard time data from the GPS satellites, modulates it into a transmission format and transmits the RF signal as an RF signal; Receives and demodulates the standard time data of the RF signal transmitted from the satellite time receiver, compares and determines the demodulated standard time and the current time, and includes a plurality of electronic power meter for correcting and displaying the current time according to the determination do. Therefore, if you receive the accurate standard time through GPS satellite and transmit it to the electronic electricity meter as a radio wave, you can always maintain accurate time by correcting the time error compared to the electricity meter's own time, and the standard low voltage electronic electricity meter installed all over the country By displaying the same time, the maximum demand power can be managed uniformly to minimize the loss, and the maximum demand power of power plants and substations can be easily managed to reduce costs and maximize power efficiency.

Electronic electricity meter, time calibration, GPS, satellite, RF signal, standard time data

Description

Apparatus for time correction of electronic watt hour meters}

1 is a block diagram showing an electronic watt hour meter according to the present invention.

Figure 2 is a block diagram showing an embodiment of a wireless module for instrument for receiving real-time data from the satellite time receiver according to the present invention.

Figure 3 is a block diagram showing an embodiment of a satellite time receiver according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: GPS satellite 20: satellite time receiver

21: satellite antenna 22: receiving module

23: control unit 24: transmission module

25 transmitting antenna 30 electronic power meter

31: receiving antenna 32: receiving module

33: control unit 34: display unit

The present invention relates to an electronic watt hour meter, and more particularly, to an electronic watt hour meter for maintaining an accurate time on an electronic watt hour meter using satellites.

The method used for the time display and the maximum demand power measurement time (15 minute interval) of the conventional electronic watt-hour meter is the oscillation frequency of the RTC (year, month, day, hour, minute, second) circuit or control unit (MCU) inside the meter. Use

However, in the case of internal circuits, time errors occur for each meter due to environmental factors such as error of components and ambient temperature, and the long-term accumulation of these time errors has a considerable time error between the standard time and the meter time.

On the other hand, the low-voltage electronic wattmeter currently in use is managing the maximum demand power.

In order to manage the maximum demand power, the time must be accurate to manage the power management according to the time zone. If the time error occurs largely for each electricity meter, the power management cannot be performed correctly. In addition, in order to maximize power generation efficiency, power management must be performed uniformly at the correct time without time error.

As such, in the related art, an error occurs due to a change in the time of the electronic electricity meter due to aging, so that the maximum demand power can not be accurately managed due to the + error or-error. .

Accordingly, the present invention is to solve the above-described conventional time error problem, when receiving the correct standard time via GPS satellites and transmitting the radio wave to the electronic electricity meter to correct the time error on the desired date compared with the electricity meter itself time Its purpose is to provide an electronic watt hour meter that ensures accurate time at all times.

Electronic calorimeter time correction apparatus according to the present invention for achieving the above object, GPS satellites for transmitting a precise standard time; A satellite time receiver which receives accurate standard time data from the GPS satellites, modulates it into a transmission format and transmits the RF signal as an RF signal; Receives and demodulates the standard time data of the RF signal transmitted from the satellite time receiver, compares and determines the demodulated standard time and the current time, and includes a plurality of electronic power meter for correcting and displaying the current time according to the determination Characterized in that.

The satellite time receiver includes: a satellite antenna for receiving accurate standard time data from the GPS satellites; A receiving module for demodulating and processing standard time data received by the satellite antenna; A control unit for controlling the operation of the receiving module and the transmitting module, and transmitting the standard time data processed by the receiving module to the transmitting module; A transmission module for modulating the standard time data transmitted from the control unit into a transmission format; The transmission module includes a transmission antenna for transmitting the standard time data modulated by the transmission format as an RF signal.

The electronic wattmeter includes: a reception antenna for receiving standard time data of an RF signal transmitted from the satellite time receiver; A receiving module for demodulating standard time data of the RF signal received through the receiving antenna; A controller which checks the current time through a built-in timer and compares and determines the current time and the standard time demodulated by the receiving module to correct the current time; And a display unit for displaying the current time corrected by the controller.

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

1 is a block diagram showing an electronic watt hour meter according to the present invention.

As shown in FIG. 1, the present invention provides a GPS satellite 10, a satellite time receiver 20, a satellite antenna 21, a reception module 22, a control unit 23, a transmission module 24, and a transmission antenna ( 25), the electronic power meter 30, the receiving antenna 31, the receiving module 32, the control unit 33, the display unit 34.

The GPS satellite 10 transmits an accurate standard time, and the satellite time receiver 20 receives the accurate standard time data from the GPS satellite 10, modulates it into a transmission format, and transmits it as an RF signal.

The electronic electricity meter 30 receives and demodulates standard time data of the RF signal transmitted from the satellite time receiver 20, compares and determines the demodulated standard time and the current time, and corrects the current time according to the determination. To display.

To this end, the satellite time receiver 20 includes a satellite antenna 21, a reception module 22, a control unit 23, a transmission module 24, a transmission antenna 25, and the electronic power meter 30 receives The antenna 31, the receiving module 32, the control unit 33, and the display unit 34 are included.

In the satellite time receiver 20, the satellite antenna 21 receives accurate standard time data from the GPS satellites 10, and the receiving module 22 demodulates the standard time data received by the satellite antenna 21. Signal processing

The controller 23 controls the operations of the receiving module 22 and the transmitting module 24, and transmits the standard time data processed by the receiving module 22 to the transmitting module 24.

The transmission module 24 modulates the standard time data transmitted from the control unit 23 into a transmission format, and the transmission antenna 25 transmits the standard time data modulated into the transmission format by the transmission module 24 as an RF signal. do.

In addition, the electronic power meter 30, the receiving antenna 31 receives the standard time data of the RF signal transmitted from the satellite time receiver 20, the receiving module 32 through the receiving antenna 31 Demodulate the standard time data of the received RF signal. The receiving module plays an intermediate role between the electronic electricity meter and the external relay period.

The controller 33 checks the current time through a built-in timer, and compares and determines the standard time demodulated by the receiving module 32 and the current time to correct the current time. The control unit 33 outputs and holds all data related to power by measuring and quantifying effective and reactive power, and measuring power management and power factor for each time zone.

The display unit 34 displays the current time corrected by the control unit 33. In addition, the display unit 34 displays a calendar, time, effective power amount, reactive power amount, maximum effective power, power factor, and time-based power amount.

Referring to the operation of the present invention configured as described above is as follows.

First, the correct standard time is transmitted from the GPS satellite 10.

The global positioning system (GPS), also called a satellite navigation system, is a system that can accurately know its position using satellites anywhere in the world as well as airplanes, ships, and automobiles. The position information can be accurately calculated from the three or more satellites by measuring the exact time and distance from three or more satellites.

Thereafter, the satellite time receiver 20 receives accurate standard time data from the GPS satellite 10, modulates it into a transmission format, and transmits it as an RF signal.

Here, the satellite antenna 21 receives accurate standard time data from the GPS satellite 10.

The receiving module 22 demodulates and processes the standard time data received by the satellite antenna 21.

The controller 23 controls the operations of the receiving module 22 and the transmitting module 24, and transmits the standard time data processed by the receiving module 22 to the transmitting module 24.

The transmission module 24 modulates the standard time data transmitted from the control unit 23 into a transmission format.

The transmission antenna 25 transmits standard time data modulated by the transmission format in the transmission module 24 as an RF signal.

The standard time data of the RF signal transmitted as described above is transmitted to the plurality of electronic power meters 30.

Therefore, the electronic electricity meter 30 receives and demodulates the standard time data of the RF signal transmitted from the satellite time receiver 20, compares and determines the demodulated standard time and the current time, and determines the current time according to the determination. Corrected and displayed.

Here, the reception antenna 31 receives the standard time data of the RF signal transmitted from the satellite time receiver 20.

The receiving module 32 demodulates standard time data of the RF signal received through the receiving antenna 31.

The controller 33 checks the current time through a built-in timer, and compares and determines the standard time demodulated by the receiving module 32 and the current time to correct the current time.

Thereafter, the display unit 34 displays the current time corrected by the controller 33.

Therefore, if you receive the accurate standard time through GPS satellite and transmit it to the electronic electricity meter as a radio wave, you can always maintain accurate time by correcting the time error compared to the electricity meter's own time, and the standard low voltage electronic electricity meter installed all over the country By displaying the same time, the maximum demand power can be managed uniformly to minimize losses, and the maximum demand power of power plants and substations can be easily managed to reduce costs and maximize power efficiency.

Figure 2 is a block diagram showing an embodiment of a wireless module for the instrument for receiving real-time data from the satellite time receiver according to the present invention, the power supply unit 216, display unit 217, EM connection unit 218, Microprocessor control unit (MCU) 215, reception control unit 213, transmission control unit 214, phase locked loop (PLL) 212, VCO 211, bandpass filter 204 (210), amplifier 209 And an FM demodulator 208, an intermediate frequency amplifier 207, an intermediate frequency filter 206, a mixer 205, a low noise amplifier 203, a transmit / receive antenna 201, and a transmit / receive switch 202.

The power supply unit 216 converts AC power into DC power and supplies a constant voltage to the electronic component.

The display unit 217 displays the current time and metering information.

The EM connector 218 connects the communication between the module and the EM.

The microprocessor control unit (MCU) 215 includes an EM communication protocol and an RF communication protocol. It also includes a time information storage unit, a weighing value storage unit, ID storage unit, time information comparator, time information analyzer, weighing data collector, data generation function, data analysis function. The EM communication protocol is an agreement language for communicating with the opposite net work, and the RF communication protocol is an agreement language for communicating with the opposite EM. The time information storage unit stores the measurement time in the storage device, the measurement value storage unit stores the measured measurement value in the electricity meter, and the ID storage unit stores the module unique ID. The time information comparator compares the time generated from the EM with the standard time, the time information analyzer analyzes the time and standard time generated from the EM, and the weighing data collector collects the weighing and measurement data from the EM.

The reception control section 213 controls the reception data, and the transmission control section 214 controls the transmission data.

Phase locked loop (PLL) 212 is phase locked.

The VCO 211 is a multiband RF synthesizer with a voltage controlled oscillator.

Band filter 204 and 210 pass only the allowable frequency.

The amplifier 209 converts the small signal large.

The FM demodulator 208 demodulates the transmission frequency and the 455 kHz frequency band for audio and data information.

The intermediate frequency amplifier 207 amplifies the intermediate frequency one step, and the intermediate frequency filter 206 filters the allowable frequency in the intermediate process.

The mixer 205 mixes the allowable frequency.

The low noise amplifier 203 minimizes very low power-to-level noise due to the power attenuation and noise effects received at the RF receiver.

The transmit / receive antenna 201 transmits and receives transmit and receive data, and the transmit / receive switch 202 determines a transmit / receive signal by the microprocessor control unit (MCU) to select a transmit signal and a receive signal circuit.

3 is a block diagram showing an embodiment of a satellite time receiver according to the present invention. As shown, a transmission antenna 220, an amplifier 221, a band pass filter 222, a VCO 223, and an FLL 224 are shown. , A transmission control unit 225, a GPS reception control unit 226, a GPS reception antenna 228, and a GPS reception device 229. The operations of the above components are as described with reference to FIG. 2.

However, the MCU 227 according to another embodiment of the present invention controls GPS reception and transmission signals, displays data by performing data conversion, location information analysis, and time information analysis.

In addition, the power supply unit 230 converts AC power to DC power and supplies a constant voltage to the electronic component, and the display unit 231 displays a standard time.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can, of course, make various changes and make such changes as fall within the stated claims.

As described above, according to the electronic calorimeter time calibration apparatus according to the present invention, when the correct standard time is received through a GPS satellite and transmitted to the electronic calorimeter by radio wave, the time error is corrected at a desired date compared with the calorimeter itself time. Accurate time can be maintained, and the standard low voltage electronic electricity meters installed nationwide display the same time, minimizing the loss by managing the maximum demand power uniformly, and reducing the cost by easily managing the maximum demand power of power plants and substations. There is an effect that can maximize the power efficiency.

Claims (3)

GPS satellites to transmit accurate standard time; A satellite time receiver which receives accurate standard time data from the GPS satellites, modulates it into a transmission format, and transmits it as an RF signal; Receives and demodulates the standard time data of the RF signal transmitted from the satellite time receiver, compares and determines the demodulated standard time and the current time, and includes a plurality of electronic power meter for correcting and displaying the current time according to the determination In the electronic electricity meter time correction device, The one satellite time receiver, A satellite antenna for receiving accurate standard time data from the GPS satellites; A receiving module for demodulating and processing standard time data received by the satellite antenna; A control unit for controlling the operation of the receiving module and the transmitting module, and transmitting the standard time data processed by the receiving module to the transmitting module; A transmission module for modulating the standard time data transmitted from the control unit into a transmission format; A transmission antenna for transmitting standard time data modulated by a transmission format in the transmission module as an RF signal, The plurality of electronic electricity meter, A reception antenna for receiving standard time data of an RF signal transmitted from the satellite time receiver; A display unit which displays a current time and weighing information; EM connection unit for communication between the module (Module) and the electronic electricity meter (EM); Store the measurement time in the memory, store the measured weighing value in the electricity meter, store the module unique ID, compare the time generated from the EM with the standard time, and compare the time generated from the EM with the standard time An MCU for analyzing and collecting weighing and measurement data from the EM; A reception control unit for controlling reception data; A transmission control unit controlling transmission data; Phase locked loop (PLL) for phase synchronization; A VCO with a voltage-controlled oscillator and synthesizing multiband RF; A band pass filter that passes only the allowable frequency range; An amplifier for greatly converting a small signal passing through the band pass filter; An FM demodulator for demodulating audio data information on a transmission frequency and a 455 kHz frequency band; An intermediate frequency amplifier that amplifies the intermediate frequency one step; An intermediate frequency filter for filtering the allowable range frequency in an intermediate process; A mixer for mixing permissible range frequencies; The power received at the RF receiver is a low noise amplifier that minimizes very low power to level noise due to attenuation and noise effects; A transmit and receive antenna for transmitting and receiving data; A reception module configured to transmit / receive a signal from the MCU and select a transmission signal and a reception signal circuit to demodulate the standard time data of the RF signal received through the reception antenna; A controller which checks the current time through a built-in timer and compares and determines the current time and the standard time demodulated by the receiving module to correct the current time; And a display unit for displaying the current time corrected by the control unit. delete delete

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