JP2020106311A - Power measurement system, information change method and program - Google Patents

Abstract

To provide a power measurement system capable of reducing the possibility of an increase in the number of components while reducing labor for replacement of units, and an information change method, and a program.SOLUTION: A power measurement system 10 includes: a processing part 141; and a communication part (for example, extension connection part CN4 and a connector CN8). The processing part 141 is configured to calculate the electric power for a circuit in accordance with operation program on the basis of a detection result of a current sensor 17 (or 27) for detecting current flowing on the circuit. The communication part outputs a piece of information concerning the detection result or receives an input of the information. An operation program is updated when a piece of specific information is input to the communication part as a trigger.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to a power measuring system, an information changing method and a program, and more particularly to a power measuring system, an information changing method and a program for obtaining power of a circuit.

The power measuring device described in Patent Document 1 includes a base unit and an extension unit that are electrically connected to each other via a signal line. The basic unit generates a voltage detection signal in which the circuit voltage to be measured is stepped down, outputs the generated voltage detection signal to the signal line, and corrects the voltage detection signal, and then outputs the corrected voltage detection signal. And a first arithmetic unit that obtains electric power by using the first arithmetic unit. The extension unit includes a second arithmetic unit that corrects the voltage detection signal input via the signal line and obtains electric power using the corrected voltage detection signal.

JP, 2016-057321, A

In the power measuring device described in Patent Document 1, in order to update the program for operating the first arithmetic unit of the basic unit, it is necessary to replace the installed basic unit itself. Further, in order to reduce the burden of the work of replacing the installed basic unit, it is possible to provide the basic unit with a terminal for inputting a rewriting program. However, by providing such a terminal, the number of members of the basic unit increases, which may increase the cost of the basic unit.

An object of the present disclosure is to provide a power measurement system, an information changing method, and a program that can reduce the possibility of increasing the number of members while reducing the time and effort for exchanging devices.

A power measurement system according to one aspect of the present disclosure includes a processing unit and a communication unit. The processing unit obtains electric power of the circuit according to an operation program based on a detection result of a current sensor that detects a current flowing through the circuit. The communication unit outputs information regarding the detection result or accepts input of the information. The operation program is changed by using the input of specific information to the communication unit as a trigger.

An electric power measurement system according to another aspect of the present disclosure includes a processing unit, a storage unit, and an extension connection unit. The processing unit obtains electric power of the circuit according to an operation program based on a detection result of a current sensor that detects a current flowing through the circuit. The storage unit stores information. An extension unit can be connected to the extension connection section. The extension unit can electrically connect the current sensor. The information stored in the storage unit is changed, triggered by the input of specific information to the additional connection unit.

An information changing method according to an aspect of the present disclosure, based on a detection result of a current sensor that detects a current flowing through a circuit, a processing unit that obtains power of the circuit according to an operation program, and outputs information regarding the detection result, or In a power measurement system including a communication unit that receives the input of the information, the operation program is changed by using specific information input to the communication unit as a trigger.

An information changing method according to another aspect of the present disclosure includes a processing unit that obtains electric power of the circuit according to an operation program based on a detection result of a current sensor that detects a current flowing through the circuit, and a storage unit that stores information. In a power measurement system including an extension connection section capable of connecting an extension unit capable of electrically connecting the current sensor, the storage is triggered by input of specific information to the extension connection section. Modify the information stored in the department.

A program according to an aspect of the present disclosure causes a computer system to execute any one of the information changing methods described above.

The present disclosure has an advantage that the possibility of increasing the number of members can be reduced while reducing the time and effort for exchanging the device.

FIG. 1 is a schematic diagram of a power measurement system according to an embodiment. FIG. 2 is a block diagram of the above power measurement system. FIG. 3 is a time chart showing an operation example of the above power measurement system.

Hereinafter, a power measuring system, an information changing method, and a program according to the embodiments will be described with reference to the drawings. However, the following embodiment is only one of the various embodiments of the present disclosure. The following embodiments can be variously modified according to the design and the like as long as the object of the present disclosure can be achieved.

(1) Configuration As shown in FIG. 1, the power measurement system 10 of the present embodiment includes a basic unit 1 and one or more (two in FIG. 1) extension units 2. One or more extension units 2 can be connected to the basic unit 1. The power measurement system 10 is used, for example, in a consumer such as a factory or an office by being arranged in a cabinet of a distribution board. The power measurement system 10 targets a three-phase four-wire circuit EC1 (see FIG. 2) as a measurement target and detects a three-phase (R, S, T) voltage and a three-phase (R, S, T) current. Then, the electric power of the circuit EC1 is obtained. Here, the "power of the circuit EC1" means at least one of an instantaneous value of power supplied at a certain measurement point of the circuit EC1 and an amount of power supplied at a certain measurement point of the circuit EC1 in a predetermined period. means. Further, in the present embodiment, the “power” calculated by the power measurement system 10 is active power, but it may be apparent power or reactive power.

The basic unit 1 includes a processing unit 141, a voltage input unit 18, and a signal conversion unit 13. The voltage input unit 18 is, for example, a terminal to which the voltage line of the circuit EC1 is connected. The signal converter 13 is connected to a plurality (four in FIG. 1) of current sensors 17. Information on the voltage of the circuit EC1 is input to the processing unit 141 via the voltage input unit 18, and information on the current of the circuit EC1 is input to the processing unit 141 via the signal conversion unit 13.

The output device 3 can be connected to one end of the plurality of extension units 2. A signal (first signal Sig1) including specific information is input from the output device 3 to the extension connection unit CN4 (communication unit) of the basic unit 1 via the plurality of extension units 2.

The processing unit 141 obtains the electric power of the circuit EC1 according to a program (operation program) based on the detection result of each current sensor 17. Then, the processing unit 141 changes the operation program, triggered by the input of specific information to the extension connection unit CN4.

Hereinafter, the configuration of the power measurement system 10 will be described in more detail with reference to FIG.

The basic unit 1 includes a control unit 14 and an extension connection unit CN4. The basic unit 1 further includes voltage detectors 11r, 11s, 11t, signal lines 12r, 12s, 12t, and a signal converter 13.

The voltage detectors 11r, 11s, 11t are connected to the respective phases of the circuit EC1 and detect the circuit voltages Vr, Vs, Vt.

Each of the voltage detection units 11r, 11s, and 11t receives the resistors 111 and 112 connected in series between both ends of the circuit EC1 and the voltage between the resistors 111 and 112 (divided voltage of the resistors 111 and 112). The amplification unit 113 is included. The amplification unit 113 puts the output voltage waveform in a predetermined range (for example, 0 to 5 V) by biasing the voltage division. The output terminals of the amplifiers 113 of the voltage detectors 11r, 11s, 11t are connected to the signal lines 12r, 12s, 12t. That is, the outputs of the voltage detection units 11r, 11s, and 11t are signals (hereinafter, referred to as voltage detection signals) obtained by stepping down the circuit voltages Vr, Vs, and Vt, and the voltage detection signals are output to the signal lines 12r, 12s, and 12t. Is output.

The signal converter 13 is connected to a plurality (four in FIG. 2) of current sensors 17. Each current sensor 17 is a device arranged outside the power measurement system 10. Each current sensor 17 is, for example, a current transformer (CT). Each current sensor 17 detects the current flowing through the circuit EC1 and outputs the detection result to the signal conversion unit 13 as a current signal. The signal converter 13 converts the current signal from each current sensor 17 into a voltage and outputs it to the controller 14. Hereinafter, the signal (voltage) output from the signal conversion unit 13 to the control unit 14 is referred to as a current detection signal.

The control unit 14 has a processing unit 141, a storage unit 142, and a mode switching unit 143. The storage unit 142 is, for example, a ROM (Read Only Memory), a RAM (Random Access Memory), an EEPROM (Electrically Erasable Programmable Read Only Memory), or the like.

The control unit 14 is composed of a microcontroller whose main components are a processor and a memory. When the processor of the control unit 14 executes the program stored in the memory, the functions of the processing unit 141 and the mode switching unit 143 in the control unit 14 are realized. The program executed by the processor is recorded in advance in the memory of the microcontroller here, but may be recorded in a non-transitory recording medium such as a memory card and provided, or may be provided through an electric communication line. Good. Further, in this embodiment, the storage unit 142 functions as a memory of the control unit 14. That is, the storage unit 142 stores a program (operating program) for operating the control unit 14.

The storage unit 142 also stores identification information of the basic unit 1. The identification information is, for example, the product number of the basic unit 1.

The current signal from each current sensor 17 is input to the controller 14 as a current detection signal via the signal converter 13. Further, the voltage detection signals from the voltage detection units 11r, 11s, 11t are input to the control unit 14 via the signal lines 12r, 12s, 12t. The control unit 14 A/D converts the voltage detection signal and the current detection signal. The processing unit 141 determines the power of the circuit EC1. The processing unit 141, for example, corrects the error of the voltage detection signal and the error of the current detection signal, respectively. As a specific example, the processing unit 141 corrects the error of the voltage detection signal by multiplying the voltage detection signal by the correction coefficient stored in the storage unit 142. The processing unit 141 corrects the error of the current detection signal by multiplying the current detection signal by another correction coefficient stored in the storage unit 142. Each correction coefficient is determined by comparing the theoretical value and the measured value when the power measurement system 10 is manufactured. The processing unit 141 obtains the electric power of the circuit EC1 by multiplying the corrected voltage detection signal and the corrected current detection signal. In the present embodiment, since four current sensors 17 can be connected to the basic unit 1, the processing unit 141 obtains electric power at maximum four measurement points. In addition, the processing unit 141 obtains the power factor of the circuit EC1 based on the voltage detection signal and the current detection signal and the measurement value of the reactive power meter installed on the distribution board.

The processing unit 141 also controls the entire basic unit 1 by executing the program. That is, the processing unit 141 controls the operation of the circuits (for example, the voltage detection units 11r, 11s, 11t and the signal conversion unit 13) included in the basic unit 1.

The control unit 14 is connected to the extension connection unit CN4 via a signal line. The extension connection unit CN4 is, for example, a connector.

The mode switching unit 143 switches the operation mode of the processing unit 141 between the first mode and the second mode. In the first mode, the processing unit 141 calculates the power of the circuit EC1 by executing the program stored in the storage unit 142. In the second mode, the processing unit 141 changes the program stored in the storage unit 142. The second mode will be described in detail later. Here, changing the program includes rewriting part or all of the program. In addition, the change of the program means, for example, that the storage unit 142 stores a plurality of programs, and the designation information stored in the storage unit 142 designates a program to be executed by the processing unit 141 among the plurality of programs. If the specified information is changed, the designated information is changed. Further, the change of the program means that the device communicating with the basic unit 1 stores a plurality of programs, and the program executed by the processing unit 141 among the plurality of programs is defined by the designation information stored in the storage unit 142. This includes changing specified information when specified. The device that stores the plurality of programs may be, for example, a server that communicates with the power measurement system 10 via a network. In the present embodiment, as an example, in the second mode, the processing unit 141 rewrites at least a part of the program stored in the storage unit 142.

The basic unit 1 further includes an external communication unit 15, a storage medium connection unit (hereinafter, referred to as a connection unit 16), an output connector CN1 and a connector CN8.

The external communication unit 15 has a function of communicating with an external device. The external device is a device other than the extension unit 2. In the present embodiment, as an example, the external device is a controller configured to control or monitor a device that corresponds to a HEMS (Home Energy Management System) (hereinafter, referred to as a HEMS compatible device). The controller is a device arranged outside the power measurement system 10. The HEMS compatible device includes, for example, a smart meter, a solar power generation device, a power storage device, a fuel cell, an electric vehicle, an air conditioner, a lighting fixture, a hot water supply device, a refrigerator, a television receiver, or the like.

The communication method between the external communication unit 15 and the controller is, for example, communication of a specific low-power radio station (a radio station that does not require a license) in the 920 MHz band, Wi-Fi (registered trademark), Bluetooth (registered trademark), or the like. It is a standard-based wireless communication that uses radio waves as a medium. The communication method between the external communication unit 15 and the controller may be wired communication conforming to a communication standard such as a wired LAN (Local Area Network). The communication protocol in the communication between the external communication unit 15 and the controller is, for example, RS-485, Ethernet (registered trademark), ECHONET Lite (registered trademark), or the like.

A storage medium is connected to the connection unit 16. In this embodiment, as an example, the storage medium is an SD card. That is, the connection unit 16 is a slot for an SD card. When the SD card is connected to the connection unit 16, it can communicate with the control unit 14.

The output connector CN1 is connected to the signal lines 12r, 12s, 12t. The output connector CN1 is formed integrally with the extension connection portion CN4. The connector CN8 is connected to the control unit 14.

The power measurement system 10 further includes a display device 4. The display device 4 includes a connector CN9, a display unit 41, and an operation unit 42.

The connector CN9 is connected to the connector CN8 of the basic unit 1. The display device 4 can communicate with the basic unit 1 via the connector CN9.

The display unit 41 is, for example, a display such as a liquid crystal display or an organic EL (Electroluminescence) display. The display unit 41 displays information. The information displayed by the display unit 41 is, for example, the value of the electric power of the circuit EC1 obtained by the processing unit 141. Other than that, the information displayed by the display unit 41 is, for example, the voltage effective value based on the voltage detection signal, the current effective value based on the current detection signal, and the power factor of the circuit EC1.

The operation unit 42 includes, for example, a plurality of buttons. The operation unit 42 receives a setting operation regarding the power measurement system 10. When the operator performs a setting operation on the operation unit 42, for example, the content displayed on the display unit 41 is changed.

The plurality of extension units 2 have the same configuration. The extension unit 2 includes signal lines 21r, 21s, 21t, a signal conversion unit 23, a control unit 24, an input connector CN2, an output connector CN3, a communication connector CN5, and an input unit CN6 (connector). There is.

The input connector CN2 and the output connector CN3 are connected to each other by signal lines 21r, 21s, 21t. The output connector CN3 of each extension unit 2 can be connected to the input connector CN2 of another extension unit 2. That is, the plurality of extension units 2 can be connected in series by connecting the input connector CN2 and the output connector CN3. Further, the basic unit 1 is connected to one end of a plurality of extension units 2 connected in series. More specifically, the output connector CN1 of the basic unit 1 is connected to the input connector CN2 of the extension unit 2. As a result, the signal lines 12r, 12s, 12t of the basic unit 1 are electrically connected to the signal lines 21r, 21s, 21t of the respective extension units 2, and the signal lines 12r, 12s, 12t to the signal lines of the respective extension units 2 are connected. The voltage detection signal is output to 21r, 21s, and 21t.

The signal conversion unit 23 is connected to a plurality (four in FIG. 2) of current sensors 27. Each current sensor 27 is a device arranged outside the power measurement system 10. Each current sensor 27 is, for example, a current transformer (CT). Each current sensor 27 detects a current flowing through the circuit EC1 and outputs the detection result as a current signal to the signal conversion unit 23. The signal converter 23 converts the current signal from each current sensor 27 into a voltage and outputs the voltage to the controller 24. The signal (voltage) output from the signal conversion unit 23 to the control unit 24 is a current detection signal in the extension unit 2 different from the current detection signal in the basic unit 1. That is, the current sensor 17 connected to the basic unit 1 and the current sensor 27 connected to the extension unit 2 detect currents at different points in the circuit EC1 of the three-phase four-wire system to be measured. For example, the current sensor 17 detects the main current and the current sensor 27 detects the branch current. Further, the current detection location is different for each extension unit 2. The power measuring system 10 may be configured to detect the power of each of the 3-phase 4-wire system and the single-phase 2-wire system in the 3-phase 4-wire circuit EC1.

The control unit 24 has a processing unit 241, a storage unit 242, and a mode switching unit 243. The storage unit 242 is, for example, a ROM (Read Only Memory), a RAM (Random Access Memory), or an EEPROM (Electrically Erasable Programmable Read Only Memory).

The control unit 24 is composed of a microcontroller whose main components are a processor and a memory. When the processor of the control unit 24 executes the program stored in the memory, the functions of the processing unit 241 and the mode switching unit 243 in the control unit 24 are realized. The program executed by the processor is recorded in advance in the memory of the microcontroller here, but may be recorded in a non-transitory recording medium such as a memory card and provided, or may be provided through an electric communication line. Good. Further, in the present embodiment, the storage unit 242 functions as the memory of the control unit 24. That is, the storage unit 242 stores a program for operating the control unit 24.

The storage unit 242 also stores the identification information of the extension unit 2. The identification information is, for example, the product number of the extension unit 2.

The current signal from each current sensor 27 is input to the controller 24 as a current detection signal via the signal converter 23. Further, the voltage detection signals from the voltage detectors 11r, 11s, 11t are input to the controller 24 via the signal lines 21r, 21s, 21t. The control unit 24 A/D converts the voltage detection signal and the current detection signal. The processing unit 241 obtains the power of the circuit EC1. The processing unit 241 corrects, for example, the error of the voltage detection signal and the error of the current detection signal. Similar to the processing unit 141 of the basic unit 1, the correction is performed using the correction coefficient stored in the storage unit 242. The processing unit 241 obtains the power of the circuit EC1 by multiplying the corrected voltage detection signal by the corrected current detection signal. In this embodiment, since four current sensors 27 can be connected to one extension unit 2, the processing unit 241 of each extension unit 2 obtains electric power at a maximum of four measurement points. In addition, the processing unit 241 obtains the power factor of the circuit EC1 based on the voltage detection signal and the current detection signal and the measurement value of the reactive power meter installed on the distribution board.

In addition, the processing unit 241 also controls the entire extension unit 2 by executing the program. That is, the processing unit 241 controls the operation of the circuit (for example, the signal conversion unit 23) included in the extension unit 2.

The control unit 24 is connected to the communication connector CN5 and the input unit CN6 via a signal line. A cable as a signal line extends from the main body (housing) of the extension unit 2, and the communication connector CN5 is attached to the tip of the cable.

The mode switching unit 243 switches the operation mode of the processing unit 241 between the first mode and the second mode. In the first mode, the processing unit 241 determines the power of the circuit EC1 by executing the program stored in the storage unit 242. The processing unit 241 changes the program stored in the storage unit 242 in the second mode. In the present embodiment, as an example, the processing unit 241 rewrites at least a part of the program stored in the storage unit 242 in the second mode. The second mode will be described in detail later.

In the basic unit 1, the processing unit 141 obtains the power at the measurement points of the current sensors 17 of the circuit EC1 based on the currents detected by the current sensors 17. The information on the electric power value obtained by the processing unit 141 is input to the display device 4 via the connector CN8. Further, in the extension unit 2, the processing unit 241 obtains the power at the measurement points of the current sensors 27 of the circuit EC1 based on the currents detected by the current sensors 27. The information on the value of the electric power obtained by the processing unit 241 is input to the control unit 14 of the basic unit 1. More specifically, the control unit 14 of the basic unit 1 transmits a request signal to the extension unit 2, and in response to this, the control unit 14 of the extension unit 2 outputs the power value obtained by the processing unit 241. Send information to base unit 1. Here, the information on the value of the electric power obtained by the processing unit 241 is input to the control unit 14 via the communication connector CN5 of the extension unit 2 and the extension connection unit CN4 of the basic unit 1. In this way, the extension connection unit CN4 is used to receive (input) information regarding the detection result of the current sensor 27.

The information on the electric power value obtained by the processing unit 241 is further input to the display device 4 via the connector CN8. In this way, the connector CN8 is used to transmit (output) information regarding the detection results of the current sensors 17 and 27.

The display unit 41 of the display device 4 displays the value of the power at the measurement points of the current sensors 17 and 27 of the circuit EC1. The display unit 41 also displays the voltage effective value based on the voltage detection signal, the current effective value based on the current detection signal, the power factor of the circuit EC1, and the like.

Further, the external communication unit 15 can transmit information on the value of the power of the circuit EC1 to the controller. Further, the information on the value of the electric power of the circuit EC1 can be stored in a storage medium (SD card) connected to the connection unit 16. That is, the external communication unit 15 and the connection unit 16 are used to transmit (output) information regarding the detection results of the current sensors 17 and 27.

The power measurement system 10 is configured so that the output device 3 can be connected. The output device 3 is a device that outputs information regarding a program stored in the storage unit 142 of the basic unit 1 and a signal for changing the program stored in the storage unit 242 of each expansion unit 2. Therefore, the output device 3 is used by connecting to the power measurement system 10 only when changing the program. The information about the program is, for example, the rewriting program itself, or difference information between the program before rewriting and the program after rewriting. The output device 3 of the present embodiment outputs a signal including the rewriting program itself as information regarding the program. The rewriting program is a program for realizing the function of the processing unit 141 and means a program that replaces the program already stored in the storage unit 142.

In the present embodiment, the output device 3 is not included in the constituent elements of the power measurement system 10, but the output device 3 may be included in the constituent elements of the power measurement system 10.

The output device 3 includes a processing unit 31, a storage unit 32, a presentation unit 33, an input unit 34, an operation unit 35, and an output terminal CN7.

The storage unit 32 is, for example, a ROM (Read Only Memory), a RAM (Random Access Memory), or an EEPROM (Electrically Erasable Programmable Read Only Memory).

The output device 3 includes a microcontroller whose main components are a processor and a memory. When the processor of the output device 3 executes the program stored in the memory, the function as the processing unit 31 in the output device 3 is realized. The program executed by the processor is recorded in advance in the memory of the microcontroller here, but may be recorded in a non-transitory recording medium such as a memory card and provided, or may be provided through an electric communication line. Good. In addition, in the present embodiment, the storage unit 32 functions as a memory of the output device 3.

A storage medium is connected to the input unit 34. In this embodiment, as an example, the storage medium is an SD card. That is, the input unit 34 is a slot for an SD card. When connected to the input unit 34, the SD card can communicate with the processing unit 31.

The operation unit 35 includes, for example, a plurality of buttons. The operation unit 35 receives the operation of the operator for determining the operation of the processing unit 31.

The output terminal CN7 is a connector connectable to the input unit CN6 (connector) of the extension unit 2. The processing unit 31 communicates with the extension unit 2 via the output terminal CN7. The signal output from the processing unit 31 to the extension unit 2 is, for example, information for rewriting the program stored in the storage unit 242 of the extension unit 2, or the information for rewriting the program stored in the storage unit 142 of the basic unit 1. At least one of information, specific information, and change information is included. The specific information is information that serves as a trigger for starting rewriting of the program in the processing unit 141 of the basic unit 1. The change information is information serving as a trigger for starting rewriting of the program in the processing unit 241 of the extension unit 2.

Further, the extension connection portion CN4 of the basic unit 1 has the same shape as the input portion CN6 of the extension unit 2 and can connect the output terminal CN7 of the output device 3. Therefore, the processing unit 31 can also communicate with the basic unit 1. The processing unit 31 can also communicate with the basic unit 1 via the extension unit 2 in a state where the output terminal CN7 of the output device 3 is connected to the input unit CN6 of the extension unit 2.

The communication between the processing unit 31 and the basic unit 1 and the extension unit 2 may be started in response to the operation of the operator on the operation unit 35 of the output device 3, or the output terminal CN7 may be connected to the input unit CN6 or the extension connection. It may be started by being triggered by being connected to the unit CN4.

The presentation unit 33 includes a display such as a liquid crystal display or an organic EL display. The presentation unit 33 presents the progress status of the process related to the change of the program stored in the storage unit 142 of the basic unit 1. In addition, the presentation unit 33 presents the progress status of the process related to the change of the program stored in the storage unit 242 of the extension unit 2. Here, "presentation" includes visual presentation by displaying characters and images on a display, auditory presentation by voice, and the like, and combinations thereof.

(2) Program Rewriting Procedure Next, an example of the program rewriting procedure stored in the storage unit 142 of the basic unit 1 will be described with reference to FIGS. First, as shown in FIG. 2, it is assumed that one extension unit 2 is connected to the base unit 1 and another extension unit 2 is connected to the extension unit 2 connected to the base unit 1. Further, in the initial state, the operation mode of the processing unit 141 of the basic unit 1 is assumed to be the first mode.

The operator first connects the SD card in which the information for rewriting the program is stored to the input unit 34 of the output device 3. The information for rewriting the program includes, for example, the identification information of the basic unit 1 and the rewriting program. When the SD card is connected to the input unit 34, the presentation unit 33 makes a display according to the contents stored in the SD card. For example, when the identification information of the basic unit 1 and the rewriting program are stored in the SD card, the presenting unit 33 can start the process of rewriting the program stored in the storage unit 142 of the basic unit 1. It is displayed.

Further, the worker connects the output terminal CN7 of the output device 3 to the input unit CN6 of the extension unit 2.

After that, when the worker performs a predetermined operation on the operation unit 35, the processing unit 31 outputs a signal including specific information (hereinafter, referred to as a first signal Sig1) (step S1). The first signal Sig1 also includes the identification information of the basic unit 1. The first signal Sig1 is input to the extension unit 2 connected to the output device 3 via the output terminal CN7. The first signal Sig1 is transferred to another expansion unit 2 connected to this expansion unit 2 via the communication connector CN5, and is further transferred to the basic unit 1. That is, in the basic unit 1, the input of the first signal Sig1 is made from the additional connection portion CN4.

When the first signal Sig1 including the specific information is input to the mode switching unit 143 of the basic unit 1 (see FIG. 1), the mode switching unit 143 changes the operation mode of the processing unit 141 from the first mode to the second mode. The mode is switched to (step S2). That is, the operation mode of the processing unit 141 is the second mode in which the program stored in the storage unit 142 is changed.

Further, the processing unit 31 of the output device 3 outputs a signal including a rewriting program (hereinafter, referred to as a second signal Sig2) (step S3). The second signal Sig2 also includes the identification information of the basic unit 1. The second signal Sig2, like the first signal Sig1, is input to the extension connection portion CN4 of the basic unit 1 via the two extension units 2. The processing unit 141 of the basic unit 1 stores the input program for rewriting in the storage unit 142 (step S4).

The rewriting program is divided into a plurality of pieces and transmitted to the basic unit 1. The presentation unit 33 of the output device 3 displays the progress status of the process related to the program change (step S5). For example, the presenting unit 33 displays the capacity of the transmitted program as a percentage, assuming that 100% is the case where all the rewriting programs are transmitted.

In addition, when a bit error occurs in the data included in the second signal Sig2 received by the basic unit 1, the processing unit 141 transmits a signal instructing to retransmit the data to the output device 3. In response to this, the processing unit 31 of the output device 3 retransmits the data.

When all the rewriting programs are transmitted to the basic unit 1 and the processing unit 141 completes the rewriting of the programs (step S6), the processing unit 141 notifies the rewriting completion notification signal (hereinafter referred to as the third signal Sig3). Is output) (step S7). The third signal Sig3 is input to the extension unit 2 connected to the base unit 1 via the extension connection portion CN4. The third signal Sig3 is transferred to another expansion unit 2 connected to this expansion unit 2 via the input unit CN6, and is further transferred to the output device 3.

When the third signal Sig3 is input, the processing unit 31 of the output device 3 outputs a signal (hereinafter, referred to as a fourth signal Sig4) instructing restart of power measurement (step S8). The fourth signal Sig4 also includes the identification information of the basic unit 1. Similarly to the first signal Sig1, the fourth signal Sig4 is input to the extension connection portion CN4 of the basic unit 1 via the two extension units 2. When the fourth signal Sig4 is input, the mode switching unit 143 of the basic unit 1 switches the operation mode of the processing unit 141 from the second mode to the first mode (step S9). That is, the operation mode of the processing unit 141 is the first mode in which the electric power of the circuit EC1 is obtained by executing the program stored in the storage unit 142.

In addition, when the third signal Sig3 is input to the output device 3, the presentation unit 33 presents that the rewriting of the program is completed. That is, the presentation unit 33 displays the fact that the rewriting of the program is completed on the display by characters or an image (step S10).

In addition, the processing unit 141 of the basic unit 1 may erase the program before rewriting from the storage unit 142 when the program for rewriting is stored in the storage unit 142.

The information for rewriting the program is not limited to being recorded in a memory card such as an SD card and provided to the output device 3, and may be provided to the output device 3 by an appropriate method of wired communication or wireless communication. Good.

When the extension unit 2 is not connected to the basic unit 1, the output terminal CN7 of the output device 3 is connected to the extension connection portion CN4 of the basic unit 1 so that the output device CN does not go through the extension unit 2 3 and the basic unit 1 may communicate directly. Alternatively, the extension unit 2 may be removed from the basic unit 1 and the output terminal CN7 of the output device 3 may be connected to the extension connection portion CN4 of the basic unit 1.

Although the procedure for rewriting the program stored in the storage unit 142 of the basic unit 1 has been described above, the procedure for rewriting the program stored in the storage unit 242 of the extension unit 2 is similar. Below, an example of a procedure for rewriting a program stored in the storage unit 242 of the extension unit 2 which is directly connected to the output device 3 among the plurality of extension units 2 will be described.

The operator first connects the SD card in which the information for rewriting the program is stored to the input unit 34 of the output device 3. The information for rewriting the program includes, for example, the identification information of the extension unit 2 and the rewriting program.

Further, the worker connects the output terminal CN7 of the output device 3 to the input unit CN6 of the extension unit 2.

After that, when the worker performs a predetermined operation on the operation unit 35, the processing unit 31 outputs a signal including change information (hereinafter, referred to as a fifth signal). The fifth signal also includes the identification information of the extension unit 2.

When the fifth signal including the change information is input to the mode switching unit 243 of the extension unit 2, the mode switching unit 243 switches the operation mode of the processing unit 241 from the first mode to the second mode. That is, the operation mode of the processing unit 241 is the second mode in which the program stored in the storage unit 242 is changed.

Further, the processing unit 31 of the output device 3 outputs a signal including a rewriting program (hereinafter referred to as a sixth signal). The sixth signal also includes the identification information of the extension unit 2. The processing unit 241 of the extension unit 2 stores the input rewriting program in the storage unit 242.

The rewriting program is divided into a plurality of pieces and transmitted to the extension unit 2. The presentation unit 33 of the output device 3 displays the progress status of the process related to the program change. For example, the presenting unit 33 displays the capacity of the transmitted program as a percentage, assuming that 100% is the case where all the rewriting programs are transmitted.

Further, when a bit error occurs in the data included in the sixth signal received by the extension unit 2, the processing unit 241 sends a signal instructing the retransmission of the data to the output device 3. In response to this, the processing unit 31 of the output device 3 retransmits the data.

When all the rewriting programs are transmitted to the extension unit 2 and the processing unit 241 completes the rewriting of the programs, the processing unit 241 outputs a notification signal (hereinafter referred to as a seventh signal) for notifying the completion of the rewriting. ..

When the seventh signal is input, the processing unit 31 of the output device 3 outputs a signal (hereinafter, referred to as an eighth signal) instructing restart of power measurement. The eighth signal also includes the identification information of the extension unit 2. When the eighth signal is input, the mode switching unit 243 of the extension unit 2 switches the operation mode of the processing unit 241 from the second mode to the first mode. That is, the operation mode of the processing unit 241 is the first mode in which the electric power of the circuit EC1 is obtained by executing the program stored in the storage unit 242.

In addition, when the seventh signal is input to the output device 3, the presentation unit 33 presents that the rewriting of the program is completed. That is, the presentation unit 33 displays the fact that the rewriting of the program is completed on the display by characters or images.

If the expansion unit 2 to be rewritten of the program among the plurality of expansion units 2 is connected to the output device 3 via another one or more expansion units 2, the expansion unit 2 and the output device 3 is communicated with one or more expansion units 2. The other points are the same as the above description.

When the plurality of extension units 2 are connected to each other, the programs stored in the respective storage units 242 of the plurality of extension units 2 are communicated by communicating the fifth to eighth signals between the plurality of extension units 2. May be rewritten collectively. Further, the program stored in the storage unit 142 of the basic unit 1 and the program stored in the storage unit 242 of one or more expansion units 2 may be collectively rewritten.

By the way, the basic unit 1 includes an external communication unit 15. The basic unit 1 may acquire information (specific information and rewriting program) for rewriting the program via the external communication unit 15. That is, the external communication unit 15 communicates with, for example, a controller that controls or monitors the HEMS-compatible device, and receives input of specific information from the controller. When specific information is input to the mode switching unit 143 via the external communication unit 15, the operation mode of the mode switching unit 143 switches to the second mode. Further, a rewriting program can be input from the controller to the storage unit 142 via the external communication unit 15.

The basic unit 1 also includes a connecting portion 16. The basic unit 1 may obtain the information (specific information and the rewriting program) for rewriting the program from the storage medium (the SD card in the present embodiment) connected to the connection unit 16. For example, when the SD card is connected to the connection unit 16 and the operator performs a predetermined operation on the operation unit 42 of the display device 4, the operation mode of the mode switching unit 143 is switched to the second mode. Further, a rewriting program can be input to the storage unit 142 from the SD card.

The basic unit 1 also includes a connector CN8. The connector CN8 may be configured to be connectable to the output terminal CN7 of the output device 3. That is, the basic unit 1 and the output device 3 may be connected via the connector CN8. When changing the program stored in the storage unit 142, the worker removes the display device 4 from the connector CN8, connects the output terminal CN7 of the output device 3 to the connector CN8, and connects the output device 3 and the basic unit 1 to each other. And can be put into a communicable state. Then, information for rewriting the program (specific information and rewriting program) can be input to the basic unit from the output device 3 via the connector CN8.

According to this embodiment, the storage unit 142 of the basic unit 1 is triggered by the input of specific information to at least one of the extension connection unit CN4, the external communication unit 15, the connection unit 16, and the connector CN8. The stored program is changed. Therefore, it is not necessary to replace the basic unit 1 when changing the program. Therefore, the labor of replacing the basic unit 1 can be reduced.

Further, except when the program is changed, the extension connection unit CN4 (communication unit), the external communication unit 15 (communication unit), the connection unit 16 (communication unit), and the connector CN8 (communication unit) are connected to the current sensor 17 ( Alternatively, it can be used for transmitting (outputting) or receiving (inputting) information related to the detection result of 27). That is, each of the plurality of communication units can be used both for transmitting (outputting) or receiving (inputting) information regarding the detection result and for changing the program. Therefore, it is possible to reduce the possibility that the number of members of the power measurement system 10 will increase as compared with the case where a terminal or the like for changing the program is provided separately from the communication unit.

Information input to any one of the communication units of the basic unit 1 may be transferred to the extension unit 2. In this case, for example, the program stored in the storage unit 242 of the extension unit 2 can be rewritten by the information input to any one of the communication units of the basic unit 1.

(Modification of the embodiment)
The same function as the power measurement system 10 may be embodied by an information changing method, a (computer) program, a non-transitory recording medium recording the program, or the like.

The information changing method according to one aspect is based on the detection results of the current sensors 17 and 27 that detect the current flowing in the circuit EC1, and the processing unit 141 that obtains the power of the circuit EC1 according to the operation program and the detection of the current sensors 17 and 27. In the power measurement system 10 including a communication unit (additional connection unit CN4, external communication unit 15, connection unit 16 and connector CN8) that outputs information regarding the result or receives input of the information, information specific to the communication unit is provided. Is input to change the operation program.

An information changing method according to another aspect includes a processing unit 141 that obtains the power of the circuit EC1 according to an operation program based on the detection results of the current sensors 17 and 27 that detect the current flowing in the circuit EC1, and a storage unit that stores information. In the power measurement system 10 including the unit 142 and the extension connection unit CN4 capable of connecting the extension unit 2 capable of electrically connecting the current sensors 17 and 27, specific information is input to the extension connection unit CN4. The information stored in the storage unit 142 is changed by using this as a trigger.

A program according to one aspect is a program for causing a computer to execute any one of the above information changing methods.

The power measurement system 10 according to the present disclosure includes a computer system. The computer system mainly includes a processor as a hardware and a memory. When the processor executes the program recorded in the memory of the computer system, the function of the power measurement system 10 according to the present disclosure is realized. The program may be pre-recorded in the memory of the computer system, may be provided through an electric communication line, or may be recorded in a non-transitory recording medium such as a memory card, an optical disk, a hard disk drive, which can be read by the computer system. May be provided. The processor of the computer system is composed of one or a plurality of electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). The integrated circuit such as an IC or an LSI referred to here has a different name depending on the degree of integration, and includes an integrated circuit called a system LSI, VLSI (Very Large Scale Integration), or ULSI (Ultra Large Scale Integration). Further, an FPGA (Field-Programmable Gate Array), which is programmed after the LSI is manufactured, or a logic device capable of reconfiguring the connection relation inside the LSI or reconfiguring the circuit section inside the LSI, should also be adopted as a processor. You can The plurality of electronic circuits may be integrated in one chip, or may be distributed and provided in the plurality of chips. The plurality of chips may be integrated in one device or may be distributed and provided in the plurality of devices. The computer system referred to here includes a microcontroller having one or more processors and one or more memories. Therefore, the microcontroller is also composed of one or a plurality of electronic circuits including a semiconductor integrated circuit or a large scale integrated circuit.

Further, it is not an essential configuration of the power measurement system 10 that the plurality of functions of the power measurement system 10 are integrated in one housing, and the components of the power measurement system 10 are distributed in the plurality of housings. May be provided. Furthermore, at least a part of the functions of the power measurement system 10 may be realized by a cloud (cloud computing) or the like.

On the contrary, in the first embodiment, at least a part of the functions of the power measurement system 10 distributed to a plurality of devices may be integrated in one housing. For example, some functions of the power measurement system 10 distributed in the basic unit 1 and the extension unit 2 may be integrated in one housing. Further, some functions of the power measurement system 10 distributed in the basic unit 1 and the display device 4 may be integrated in one housing.

Hereinafter, modified examples of the embodiment will be listed. The following modified examples may be implemented in appropriate combination.

A signal including the rewriting program itself may be input to the control unit 14, or a signal including difference information between the program before rewriting and the program after rewriting may be input. Further, the control unit 14 may be input with a signal for changing predetermined information stored in the storage unit 142, instead of a signal for changing the program. The predetermined information is, for example, a parameter used by the processing unit 141 to obtain the power of the circuit EC1. Another example of the predetermined information is a program or parameter related to the operation of the circuits (for example, the voltage detection units 11r, 11s, 11t and the signal conversion unit 13) included in the power measurement system 10.

Further, the extension connection portion CN4 is not limited to the configuration in which the extension unit 2 to which the current sensor 27 can be attached can be connected. The additional connection unit CN4 may be configured to be connectable with a pulse transmitter, for example. The pulse transmitter transmits a pulse signal a number of times according to the amount of water used or the amount of gas used. The control unit 14 of the basic unit 1 obtains the amount of water used or the amount of gas used based on the number of transmissions of the pulse transmitter. Further, the extension connection unit CN4 may be configured to be connectable with, for example, a temperature sensor, a humidity sensor, an anemometer, or a pyranometer. That is, it is not essential that the communication unit (additional connection unit CN4) to which the output device 3 can be connected also has a configuration for connecting the expansion unit 2, because devices other than the expansion unit 2 are connected. May also have the configuration of.

Further, the power measurement system 10 may include at least one of the extension connection unit CN4, the external communication unit 15, the connection unit 16, and the connector CN8 as a communication unit.

The measurement target of the power measurement system 10 may be, for example, a three-phase three-wire system, a single-phase three-wire system, or a single-phase two-wire system other than the three-phase four-wire circuit.

Further, the specific information serving as a trigger for starting the rewriting of the program in the processing unit 141 of the basic unit 1 and the change information serving as the trigger for starting the rewriting of the program in the processing unit 241 of the extension unit 2 are the same information. Or different information.

Further, the specific information and the rewriting program may be included in one signal input to the communication unit.

Further, the rewriting program itself may be the specific information. That is, the processing unit 141 may start the rewriting of the program by using the input of the rewriting program as a trigger.

Further, in the embodiment, the mode switching unit 143 of the basic unit 1 switches the operation mode of the processing unit 141 from the second mode to the first mode when the fourth signal Sig4 is input. In this way, the mode switching unit 143 may set the operation mode of the processing unit 141 to the first mode in response to the input of a signal other than the signal including the specific information. Alternatively, the mode switching unit 143 may alternately switch the operation mode of the processing unit 141 between the first mode and the second mode each time specific information is input.

Further, the configuration related to the basic unit 1 may be applied to the extension unit 2 as appropriate. On the contrary, the configuration related to the extension unit 2 may be appropriately applied to the basic unit 1.

Further, although one or more extension units 2 can be connected to the base unit 1, the base unit 1 may be used without connecting the extension unit 2.

Further, the number of extension units 2 is not limited to two, and may be one or three or more.

Further, the plurality of current sensors 17 and 27 may be included in the configuration of the power measurement system 10.

Further, each of the current sensors 17 and 27 is not limited to the current transformer, and may be, for example, a current sensor using a shunt resistor or a current sensor using a hall element.

Further, the number of the current sensors 17 (or 27) connected to each of the basic unit 1 and the plurality of extension units 2 is not particularly limited, and may be 1 to 3, or 5 or more. Good.

Further, when the rewriting of the program is completed, the processing unit 141 may immediately switch the operation mode to the first mode without waiting for the fourth signal Sig4 to be input from the output device 3.

(Summary)
The following aspects are disclosed from the embodiments and the like described above.

The power measurement system 10 according to the first aspect includes a processing unit 141 and a communication unit (additional connection unit CN4, external communication unit 15, connection unit 16 and connector CN8). The processing unit 141 determines the power of the circuit EC1 according to the operation program based on the detection result of the current sensor 17 (or 27) that detects the current flowing in the circuit EC1. The communication unit outputs information regarding the detection result or accepts input of the information. The operation program is changed by using the input of specific information to the communication unit as a trigger.

According to the above configuration, the operation program is changed when the specific information is input to the communication unit (additional connection unit CN4, external communication unit 15, connection unit 16 or connector CN8). Therefore, when changing the operation program, it is possible to reduce the time and effort to replace the device (basic unit 1) that stores the operation program in the power measurement system 10. Further, the communication unit can be used both to output information regarding the detection result or to accept input of the information and to change the operation program. Therefore, it is possible to reduce the possibility that the number of members of the power measurement system 10 will increase as compared with the case where a terminal or the like for changing the operation program is provided separately from the communication unit.

Further, in the power measurement system 10 according to the second aspect, in the first aspect, the communication unit includes the extension connection unit CN4. The extension connection unit CN4 can connect the extension unit 2. The extension unit 2 can electrically connect the current sensor 27.

According to the above configuration, the extension connection portion CN4 can be used both for connecting the extension unit 2 and for changing the operation program. Therefore, it is possible to reduce the possibility that the number of members of the power measurement system 10 will increase as compared with the case where a terminal or the like for changing the operation program is provided separately from the extension connection unit CN4.

The power measurement system 10 according to the third aspect further includes the extension unit 2 in the second aspect. The extension unit 2 includes an input unit CN6. Change information is input to the input unit CN6. The program for operating the extension unit 2 is changed, triggered by the input of the change information to the input unit CN6 of the extension unit 2.

According to the above configuration, the program for operating the extension unit 2 can be changed.

Further, in the power measurement system 10 according to the fourth aspect, in the third aspect, the specific information is input to the communication unit (additional connection unit CN4) via the input unit CN6 of the extension unit 2.

According to the above configuration, the operation program can be changed while the extension unit 2 is still connected to the extension connection unit CN4.

Further, in the power measurement system 10 according to the fifth aspect, in any one of the first to fourth aspects, the communication unit includes a storage medium connection unit (connection unit 16). A storage medium is connected to the storage medium connection unit.

According to the above configuration, the operation program and the like recorded in the storage medium can be input to the communication unit.

Further, in the power measurement system 10 according to the sixth aspect, in any one of the first to fifth aspects, the communication unit includes the external communication unit 15. The external communication unit 15 communicates with an external device.

According to the above configuration, the operation program can be changed by communicating with an external device (for example, a controller) via the external communication unit 15.

In addition, in the power measurement system 10 according to the seventh aspect, in any one of the first to sixth aspects, the processing unit 141 sets, as the operation mode, a first mode for executing the operation program and an operation program. A second mode of making changes. When specific information is input to the communication unit (additional connection unit CN4, external communication unit 15, connection unit 16 and connector CN8), the operation mode becomes the second mode.

According to the above configuration, the worker who changes the operation program can change the operation mode of the processing unit 141 between the first mode and the second mode to perform the operation.

Further, in the power measurement system 10 according to the eighth aspect, in any one of the first to seventh aspects, when the change of the operation program is completed, the communication unit notifies the notification signal of the completion of the change of the operation program. Is output.

According to the above configuration, the worker who performs the work of changing the operation program can know the completion of the work.

Moreover, the electric power measurement system 10 which concerns on a 9th aspect is further provided with the output device 3 in any one of the 1st-8th aspects. The output device 3 outputs information regarding a specific signal and an operation program to the communication unit. The output device 3 includes a presentation unit 33. The presentation unit 33 presents the progress status of the process related to the change of the operation program.

According to the above configuration, the worker who changes the operation program can know the progress status of the process related to the change of the operation program.

The configuration other than the first aspect is not an essential configuration for the power measurement system 10 and can be appropriately omitted.

The power measurement system 10 according to the tenth aspect includes a processing unit 141, a storage unit 142, and an extension connection unit CN4. The processing unit 141 determines the power of the circuit EC1 according to the operation program based on the detection result of the current sensor 17 (or 27) that detects the current flowing in the circuit EC1. The storage unit 142 stores information. The extension connection unit CN4 can connect the extension unit 2. The extension unit 2 can electrically connect the current sensor 27. The information stored in the storage unit 142 is changed, triggered by the input of specific information to the additional connection unit CN4.

According to the above configuration, the information stored in the storage unit 142 is changed with the input of the specific information to the extension connection unit CN4 as a trigger. Therefore, when changing the information, the power measurement system 10 It is possible to reduce the trouble of replacing the device (basic unit 1) including the storage unit 142. Further, the extension connection portion CN4 can be used both for connecting the extension unit 2 and for changing information. Therefore, it is possible to reduce the possibility that the number of members of the power measurement system 10 will increase, as compared with the case where terminals for changing information are provided separately from the extension connection unit CN4.

The configurations according to the first to ninth aspects can be appropriately applied to the tenth aspect.

Further, the information changing method according to the eleventh aspect includes a processing unit 141 that obtains the power of the circuit EC1 according to an operation program based on the detection result of the current sensor 17 (or 27) that detects the current flowing in the circuit EC1, In the power measurement system 10 including a communication unit (additional connection unit CN4, external communication unit 15, connection unit 16 and connector CN8) that outputs information regarding the result or receives input of the information, information specific to the communication unit is provided. Is input to change the operation program.

According to the above configuration, the operation program is changed when the specific information is input to the communication unit (additional connection unit CN4, external communication unit 15, connection unit 16 or connector CN8). Therefore, when changing the operation program, it is possible to reduce the time and effort to replace the device (basic unit 1) that stores the operation program in the power measurement system 10. Further, the communication unit can be used both to output information regarding the detection result or to accept input of the information and to change the operation program. Therefore, it is possible to reduce the possibility that the number of members of the power measurement system 10 will increase as compared with the case where a terminal or the like for changing the operation program is provided separately from the communication unit.

The information changing method according to the twelfth aspect includes a processing unit 141 that obtains the power of the circuit EC1 according to an operation program based on the detection result of the current sensor 17 (or 27) that detects the current flowing in the circuit EC1, In the power measurement system 10 including the storage unit 142 that stores the information and the extension connection unit CN4 that can connect the extension unit 2 that can electrically connect the current sensor 27, specific information is stored in the extension connection unit CN4. The information stored in the storage unit 142 is changed by using the input as a trigger.

According to the above configuration, the information stored in the storage unit 142 is changed with the input of the specific information to the extension connection unit CN4 as a trigger. Therefore, when changing the information, the power measurement system 10 It is possible to reduce the trouble of replacing the device (basic unit 1) including the storage unit 142. Further, the extension connection portion CN4 can be used both for connecting the extension unit 2 and for changing information. Therefore, it is possible to reduce the possibility that the number of members of the power measurement system 10 will increase, as compared with the case where terminals for changing information are provided separately from the extension connection unit CN4.

A program according to a thirteenth aspect causes a computer system to execute the information changing method according to the eleventh or twelfth aspect.

According to the above configuration, it is possible to reduce the possibility of increasing the number of members while reducing the time and effort for exchanging the devices of the power measurement system 10.

Not limited to the above aspect, various configurations (including modified examples) of the power measurement system 10 according to the embodiment can be embodied by an information changing method and a program.

10 Power Measurement System 141 Processing Unit 142 Storage Unit 15 External Communication Unit 16 Connection Unit (Storage Media Connection Unit)
17 current sensor 2 expansion unit 27 current sensor 3 output device 33 presentation section CN4 expansion connection section CN6 input section EC1 circuit

Claims (13)

Based on the detection result of the current sensor for detecting the current flowing in the circuit, the processing unit for obtaining the power of the circuit according to the operation program,
A communication unit that outputs information about the detection result or receives input of the information,
The operation program is changed by using specific information input to the communication unit as a trigger.
Power measurement system. The communication unit includes an extension connection unit capable of connecting an extension unit capable of electrically connecting the current sensor,
The power measurement system according to claim 1. Further comprising the expansion unit,
The extension unit includes an input unit for inputting change information,
A program for operating the extension unit is changed by using the change information input to the input unit of the extension unit as a trigger.
The electric power measurement system according to claim 2. The specific information is input to the communication unit via the input unit of the extension unit,
The electric power measurement system according to claim 3. The communication unit includes a storage medium connection unit to which a storage medium is connected,
The electric power measurement system according to any one of claims 1 to 4. The communication unit includes an external communication unit that communicates with an external device,
The electric power measurement system according to any one of claims 1 to 5. The processing unit has, as operation modes, a first mode for executing the operation program and a second mode for changing the operation program,
When the specific information is input to the communication unit, the operation mode becomes the second mode.
The electric power measurement system according to any one of claims 1 to 6. When the change of the operation program is completed, the communication unit outputs a notification signal for notifying the completion of the change of the operation program,
The electric power measurement system according to any one of claims 1 to 7. Further comprising an output device for outputting the specific signal and information regarding the operation program to the communication unit,
The output device includes a presentation unit that presents a progress status of processing relating to the change of the operation program.
The electric power measurement system according to any one of claims 1 to 8. Based on the detection result of the current sensor for detecting the current flowing in the circuit, the processing unit for obtaining the power of the circuit according to the operation program,
A storage unit for storing information,
An extension connection section capable of connecting an extension unit capable of electrically connecting the current sensor,
The information stored in the storage unit is changed, triggered by input of specific information to the additional connection unit,
Power measurement system. Based on the detection result of the current sensor for detecting the current flowing in the circuit, the processing unit for obtaining the power of the circuit according to the operation program,
In a power measurement system comprising: a communication unit that outputs information related to the detection result or that receives input of the information,
Changing the operation program triggered by input of specific information to the communication unit,
How to change information. Based on the detection result of the current sensor for detecting the current flowing in the circuit, the processing unit for obtaining the power of the circuit according to the operation program,
A storage unit for storing information,
In an electric power measurement system including an extension connection portion capable of connecting an extension unit electrically connectable to the current sensor,
When the specific information is input to the additional connection unit as a trigger, the information stored in the storage unit is changed.
How to change information. A method for causing a computer system to execute the information changing method according to claim 11 or 12,
program.

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