JP2005352883A - Circuit simulation program and device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To automatically inspect a power supply route, operation of a circuit breaker, relay operation, etc., based upon electronized expansion connection diagram data and to make it easy to confirm inspection results. <P>SOLUTION: A program 2a makes a computer 1 realize a function 3 of acquiring expansion connection diagram data 9a, a function 4 of accepting inspection conditions, a function 5 of expanding the expansion connection diagram data 9a into connection relation among a plurality of elements, a function 6 of simulating a power line applied with control electric power based upon the inspection conditions and expansion results, a judging function 7 of judging whether the power line applied with the control power is normal based upon the simulation result, and a function 8 of performing control to display the power line applied with the control power in a normal state together with the contents of the expansion connection diagram data 9a when the judging function 7 judges that the power line is normal and display the power line applied with the control power in an abnormal state together with the contents of the expansion connection diagram data 9a when the judging function 7 judges abnormality. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a circuit simulation program and apparatus used for inspection of connection and operation of electrical equipment.

  The inspector visually determines the nonconforming part and nonconforming operation of the electric equipment including the power supply facility by visually checking the power supply route, the circuit breaker operation, the relay operation, and the like shown in the developed connection diagram (sequence diagram).

The conventional hardware simulation device is executed in the process of reading each operation request and each execution request time described in the usage model due to the relationship between the execution request times among the operation requests stored in advance. An operation request that is deleted without being detected is detected, and the detected deletion operation request is displayed and output (for example, see Patent Document 1).
JP-A-6-266786

  When wiring of electrical equipment becomes complicated or when the number of elements provided in the electrical equipment increases, it takes time and labor to make a visual inspection by an inspector, and accurate inspection becomes difficult.

  In Patent Document 1, an operation request that does not execute an operation in response to the operation request is detected. Thereby, the designer can grasp | ascertain quickly the operation | movement request | requirement in which operation | movement is not performed. However, in Patent Document 1, the designer is incompatible with any part of the power supply route, the operation of the circuit breaker, and the relay operation even when the operation request for the operation such as the logic circuit is grasped. It is difficult to specifically determine whether or not, and it takes time and labor.

  The present invention has been made in view of the above circumstances, and provides a circuit simulation program and apparatus for automatically inspecting a power supply route, an operation of a circuit breaker, and a relay operation based on digitized development connection diagram data. The purpose is to do.

  The above-mentioned problem is, for example, a computer that describes a connection relationship between a plurality of elements provided in an electric device using CAD, and a computerized function for acquiring expanded connection diagram data. A function that accepts conditions, a function that expands expanded connection diagram data into a connection relationship between multiple elements, and a circuit simulation when a control power supply is applied based on the inspection conditions and the connection relationship between multiple expanded elements Based on the simulation function to execute the circuit simulation and the result of circuit simulation, the judgment function to judge whether the power line to which the control power is applied is normal. A normal index indicating that the applied power supply line is normal is displayed. Applied power source line with the content control power is solved by a circuit simulation program for realizing the display control function for executing control for displaying the abnormality indicator indicating that an abnormality.

In addition, the above-mentioned problem is, for example, the function of acquiring the developed connection diagram data in which the connection relation between the plurality of elements provided in the electric device is described in the computer using CAD, and the application of the surge voltage A surge voltage was applied based on the function to accept inspection conditions including conditions, the function to expand the expanded connection diagram data into the connection relationship between multiple elements, and the connection conditions between the inspection conditions and multiple expanded elements. The simulation function that executes the circuit simulation, the judgment function that judges whether the power supply line to which the surge voltage is applied is normal based on the result of the circuit simulation, and the contents of the expanded connection diagram data when the judgment function judges that it is normal In addition, a normal indicator indicating that the power supply line to which the surge voltage is applied is normal is displayed, and if the judgment function judges that it is abnormal, Is solved by a circuit simulation program for realizing the display control function for executing control for displaying the abnormality indicator applied power line surge voltages with the contents of the open connection diagram data indicating that an abnormality.

  According to the present invention, it is possible to automatically check the power supply route, terminal block connection, circuit breaker operation, relay operation, and the like based on the digitized developed connection diagram data and easily check the inspection result.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following drawings, the same elements are denoted by the same reference numerals, description thereof is omitted, and only different portions will be described in detail.

(First embodiment)
In this embodiment, based on CAD (Computer Aided Design) and digitized development connection diagram data, non-conformance of wiring connection between components included in electrical equipment, non-conformity of power supply line Next, a circuit simulation program used for concrete inspection of circuit breaker or relay operation incompatibility will be described.

  FIG. 1 is a block diagram showing an example of a circuit simulation program according to the present embodiment.

  The computer 1 reads and executes the circuit simulation program 2a recorded on the recording medium 2. Then, the computer 1 operates according to the circuit simulation program 2a and realizes a function as a circuit simulation device.

  The circuit simulation program 2a causes the computer 1 to realize the acquisition function 3, the condition reception function 4, the expansion function 5, the simulation function 6, the determination function 7, and the display control function 8.

  The determination function 7 includes a power line determination function 71, a terminal block determination function 72, a relay terminal voltage determination function 73, a relay contact determination function 74, and a circuit breaker determination function 75.

  The acquisition function 3 acquires development connection diagram data 9 a recorded in the recording unit 9.

  2 and 3 are diagrams showing examples of the development connection diagram data 9a.

  The developed connection diagram data 9a is a circuit diagram showing the connection relationship among various elements (devices, instruments, components) such as power supply, terminal block, relay, circuit breaker, load, board, etc. in the electrical device to be inspected. In addition, the connection relation of elements is managed in a table.

  The condition reception function 4 is provided from the inspector 10 via the input device 1a, for example, designation of a power supply line to be inspected, relay contact on / off condition provided in the power supply line to be inspected, and power supply line to be inspected. Various conditions necessary for the inspection are accepted, such as an on / off condition of the current circuit breaker, designation of an abnormality occurrence part in the power supply line to be inspected, and a disconnection condition.

  The power supply line to be inspected may be specified by, for example, a control power supply or a part of the power supply line to be inspected.

  The expansion function 5 expands the expansion connection diagram data 9a into a connection relationship between a plurality of elements.

  The simulation function 6 recognizes the power supply line to which the control power is applied from the connection relationship indicated by the expanded connection diagram data 9 a acquired by the acquisition function 3 and the condition content received by the condition reception function 4.

  Then, the simulation function 6 executes a circuit simulation when a control power supply is applied based on the inspection conditions and the developed connection relationship between the plurality of elements.

  In addition, the simulation function 6 executes circuit simulation for the power supply line in which the wraparound occurs in the control power supply according to the disconnection condition included in the inspection condition.

  The determination function 7 determines whether or not the connection and operation of the power supply line to which the control power supply is applied under the inspection condition are normal based on the execution result of the circuit simulation.

  The abnormality occurrence part in the power supply line to which the control power is applied may be recognized from the designation of the abnormality occurrence part by the inspector 10, and the connection relationship indicated by the developed connection diagram data 9a, the relay on / off condition, The operation state of the circuit may be analyzed based on the condition of the inspector 10 such as the circuit breaker on / off condition, and recognized from the analysis result.

  Specifically, the power supply line determination function 71 in the determination function 7 determines whether the power supply line to which the control power is applied is connected.

  The terminal block determination function 72 determines whether the terminal block provided in the power supply line to which the control power is applied is connected.

  The relay terminal voltage determination function 73 determines whether the terminal voltage of the relay provided in the power supply line to which the control power is applied is normal.

  The relay contact determination function 74 determines whether the operation of the relay contact provided in the power supply line to which the control power is applied is normal.

  The circuit breaker determination function 75 determines whether the operation of the circuit breaker provided in the power supply line to which the control power is applied is normal.

  Based on the determination result of the determination function 7, the display control function 8 determines the connection relationship indicated by the expanded connection diagram data 9a and the condition received by the condition reception function 4 when the power supply line to which the control power is applied is normal. Based on the content, control is performed to display a normal indicator that the power supply line to which the control power is applied to the display device 1b is normal together with the content of the expanded connection diagram data 9a.

  For example, at the normal time, as shown in FIGS. 4 and 5, the power line to be inspected is displayed in red along with the contents of the developed connection diagram data 9a.

  In FIG. 4 and FIG. 5, the power supply line related to the power supply “DC100V” is displayed with a red line (thick line). Therefore, the inspector 10 can easily grasp the power supply line related to the power supply “DC100V” and can grasp that the power supply line is normally connected and operated.

  In the power supply N line of FIG. 4, a voltage of DC 100 V is applied to the load, and the MCR and auxiliary relay (auxiliary Ry) are operating normally.

  On the other hand, the display control function 8 determines the connection relationship indicated by the expanded connection diagram data 9a and the condition received by the condition reception function 4 when the power line to which the control power is applied is abnormal based on the determination result of the determination function 7. Based on the above, control is performed to display an abnormality indicator indicating that the power supply line to which the control power is applied to the display device 1b is abnormal together with the contents of the developed connection diagram data 9a. Thereby, the abnormal power supply line is displayed.

  For example, at the time of abnormality, as shown in FIG. 6, the power supply abnormality line is displayed with a blue line together with the contents of the expanded connection diagram data 9a.

  In FIG. 6, the power supply abnormality line related to the power supply “DC100V” is displayed with a blue line (thick line). Therefore, the inspector 10 can easily grasp the power supply abnormality line related to the power supply “DC100V”. FIG. 6 shows a case where the load voltage is about DC 20 V and the MCR and auxiliary Ry do not operate normally.

  Specifically, FIG. 6 shows a case where a connection failure occurs between the power N line boards of FIG. 4 (A1). In this case, the B portion of the power supply N line is changed from N to P ′, and the diode “27B2TX1” is energized through the diode “27B2TX4” (A2). As a result, the diode “27B2TX1” operates (A3). As a result, a VCB trip occurs and a power failure occurs (A4).

  The display control function 8 displays the power supply line in which the wraparound occurs in the control power supply together with the contents of the developed connection diagram data 9a when the circuit simulation is performed for the power supply line in the control power supply in the simulation function 6. Execute control to

  FIG. 7 is a flowchart showing an example of processing by the circuit simulation program 2a according to the present embodiment.

  In step S <b> 1, the acquisition function 3 acquires expanded connection diagram data 9 a from the recording unit 9.

  In step S2, the expansion function 5 expands the expanded connection diagram data 9a into a connection relationship between a plurality of elements.

  In step S3, the condition receiving function 4 receives various conditions necessary for the inspection from the inspector 10 via the input device 1a.

  Note that the execution order of steps S2 and S3 may be reversed or may be executed in parallel.

  In step S4, the simulation function 6 executes a circuit simulation of the power supply line when the control power is applied based on the received various conditions and the developed connection relations between the plurality of elements.

  In steps S5 to S9, each of the functions 71 to 75 of the determination function 7 determines whether the power supply line to which the control power is applied is normal.

  Specifically, in step S5, the power line determination function 71 determines that the power line to which the control power is applied is connected as normal, and determines that the power line is not connected as abnormal.

  In step S6, the terminal block determination function 72 determines that the terminal block provided in the power supply line to which the control power is applied is connected as normal, and determines that the terminal block is not connected when it is not connected.

  In step S7, the relay terminal voltage determination function 73 determines whether the terminal voltage of the relay provided in the power supply line to which the control power is applied is normal.

  In step S8, the relay contact determination function 74 determines whether the operation of the relay contact provided in the power supply line to which the control power is applied is normal.

  In step S9, the circuit breaker determination function 75 determines whether the operation of the circuit breaker provided in the power supply line to which the control power is applied is normal.

  The execution order of steps S5 to S9 can be freely changed, and may be executed in parallel.

  When the power supply line to which the control power is applied is normal, in step S10, the display control function 8 causes the display device 1b to display that the power supply line to which the control power is applied is a normal line. Control for.

  When the power supply line to which the control power is applied is abnormal, in step S11, the display control function 8 displays the power supply line to which the control power is applied on the display device 1b in a state where the power supply line can be identified. Control for.

  FIG. 8 is a flowchart showing an example of processing related to wraparound by the circuit simulation program 2a according to the present embodiment.

  In step T1, the acquisition function 3 acquires the expanded connection diagram data 9a from the recording unit 9.

  In step T2, the expansion function 5 expands the expanded connection diagram data 9a into a connection relationship between a plurality of elements.

  In step T3, the condition receiving function 4 receives an inspection condition including a disconnection condition.

  Note that the execution order of steps T2 and T3 may be reversed or may be executed in parallel.

  In step T4, the simulation function 6 performs circuit simulation of the power supply line in which the sneak occurs when the disconnection occurs based on the received various conditions such as the disconnection condition and the developed connection relationship between the plurality of elements. Execute.

  In step T5, the display control function 8 executes control for causing the display device 1b to display the power supply line in which the wraparound occurs in the control power supply in a state where the power supply line can be identified.

  In the present embodiment described above, based on the developed connection diagram data 9a created using CAD, the simulated DC control power supply is developed on the developed connection diagram data screen including the corresponding relay / breaker. It is possible to easily check the connection relation and operation state of the power line in the normal state.

  In addition, it is possible to simulate disconnection of a DC control power line and the like, and it is possible to easily confirm unnecessary operations such as a relay and a circuit breaker due to power wraparound.

  Moreover, the operation of a circuit breaker etc. can be easily confirmed by inputting on / off conditions, such as a circuit breaker.

  In addition, the operation of the relay or the like can be easily confirmed by inputting the relay contact ON / OFF condition.

(Second Embodiment)
In the present embodiment, a circuit for confirming a circuit breaker, a relay operation, and the like when a surge voltage is applied due to, for example, lightning in an electric device based on development connection diagram data 9a created using CAD. A simulation program will be described.

  FIG. 9 is a block diagram showing an example of a circuit simulation program according to the present embodiment.

  The computer 1 reads and executes the circuit simulation program 11a recorded on the recording medium 11. Then, the computer 1 operates according to the circuit simulation program 11a and realizes a function as a circuit simulation device.

  The circuit simulation program 11a causes the computer 1 to realize the acquisition function 3, the expansion function 5, the condition reception function 12, the simulation function 13, the determination function 14, and the display control function 15.

  The determination function 14 includes a surge suppression determination function 141, a relay determination function 142, and a circuit breaker determination function 143.

  In the present embodiment, the condition reception function 12 includes a surge voltage application condition, an operation state designation of the surge suppression circuit, a relay on / off condition and an operation state, a circuit breaker on / off condition and an operation state, etc. Accept inspection conditions necessary for inspection when surge occurs. The application conditions of the surge voltage include the surge input position, the surge voltage level, and the like.

  The simulation function 13 recognizes the power supply line to which the surge voltage is applied based on the inspection condition and the developed connection relation between the plurality of elements, and executes a circuit simulation when the surge voltage is applied.

  The determination function 14 recognizes the power supply line where the surge has occurred based on the execution result of the circuit simulation, and determines whether the connection and operation are normal for the power supply line to which the surge voltage is applied according to the inspection condition.

  Specifically, the surge suppression determination function 141 in the determination function 14 determines that the surge suppression circuit is operating normally in the power supply line to which the surge voltage is applied.

  The relay determination function 142 determines whether the relay provided in the power supply line to which the surge voltage is applied is operating normally.

  The circuit breaker determination function 143 determines whether the circuit breaker provided in the power supply line to which the surge voltage is applied is operating normally.

  Based on the connection relationship indicated by the expanded connection diagram data 9a and the determination results of the respective functions 141 to 143 of the determination function 14, the display control function 15 includes the contents of the expanded connection diagram data 9a and the power supply line to which the surge voltage is applied. Control for displaying a normal index for a part that is operating normally and displaying an abnormal index for a part where an abnormality has occurred is executed.

  For example, a normally operating device is displayed in red, and a device in which an abnormality has occurred is displayed in blue.

  FIG. 10 is a flowchart showing an example of processing by the circuit simulation program 11a according to this embodiment.

  In step U1, the acquisition function 3 acquires the expanded connection diagram data 9a from the recording unit 9.

  In step U2, the expansion function 5 expands the expanded connection diagram data 9a into a connection relationship between a plurality of elements.

  In step U3, the condition receiving function 12 receives an inspection condition including a surge voltage application condition from the inspector 10 via the input device 1a.

  The execution order of steps U2 and U3 may be reversed or may be executed in parallel.

  In step U4, the simulation function 13 executes a circuit simulation of the power supply line to which the surge voltage is applied based on the accepted application condition of the surge voltage and the developed connection relationship between the plurality of elements.

  In step U5, the surge suppression determination function 141 determines that the surge suppression circuit is operating normally in the power supply line to which the surge voltage is applied.

  In step U6, the relay determination function 142 determines whether the relay provided in the power supply line to which the surge voltage is applied is operating normally.

  In step U7, the circuit breaker determination function 143 determines whether the circuit breaker provided in the power supply line to which the surge voltage is applied is operating normally.

  In addition, the order of the processes from the above steps U5 to U7 may be freely changed, or may be executed in parallel.

  In step U8, the display control function 15 determines whether the device operating normally together with the contents of the expanded connection diagram data 9a based on the determination results of the functions 141 to 143 and the connection relationship indicated by the expanded connection diagram data 9a. The control for displaying the index indicating that the device is abnormal and displaying the index indicating that the device is abnormal is executed.

  For example, a normally operating device is displayed in red, and a device in which an abnormality has occurred is displayed in blue.

  In the present embodiment described above, the state of the power supply line to which the surge voltage is applied in addition to the normal power supply line can be easily confirmed based on the developed connection diagram data 9a created using CAD.

  Also, in the electronic development connection diagram data 9a, it can be confirmed whether or not a power supply abnormality occurs on the power supply line when a surge is input.

  Moreover, in the electronic development connection diagram data 9a, when a surge is input, it is possible to confirm unnecessary operations of the relay and the circuit breaker.

  In each of the above embodiments, each component can be freely modified as long as the same operation can be realized, the arrangement of the components may be changed, and the components can be freely combined. Each component may be freely divided.

  For example, the circuit simulation programs 2a and 11a may be combined.

  In the above embodiments, the functions 3 to 8 and 12 to 15 realized by the computer 1 may be realized by hardware.

  In each of the above embodiments, the recording media 2 and 11 and the recording unit 9 may be built in the computer or may have a separated structure.

  The circuit simulation programs 2a and 11a can be applied to the computer 1 by writing into the recording media 2 and 11 such as a magnetic disk (flexible disk, hard disk, etc.), an optical disk (CD-ROM, DVD, etc.), and a semiconductor memory, respectively.

  The circuit simulation programs 2a and 11a can be transmitted by a communication medium and applied to the computer 1. The computer 1 reads the circuit simulation programs 2a and 11a and controls the operations by the circuit simulation programs 2a and 11a, thereby realizing the functions 3 to 8 and 12 to 15.

  The present invention is effective in the field of circuit simulation.

The block diagram which shows an example of the circuit simulation program which concerns on the 1st Embodiment of this invention. The figure which shows the 1st example of an expansion | deployment connection diagram. The figure which shows the 2nd example of an expansion connection diagram. The figure which shows the 1st example of a normal power supply line. The figure which shows the 2nd example of a normal power supply line. The figure which shows an example of an abnormal power supply line. The flowchart which shows an example of the process by the circuit simulation program which concerns on the same embodiment. The block diagram which shows an example of the process regarding the wraparound by the circuit simulation program which concerns on the embodiment. The block diagram which shows an example of the circuit simulation program which concerns on the 2nd Embodiment of this invention. The flowchart which shows an example of the process by the circuit simulation program which concerns on the same embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Computer, 1a ... Input device, 1b ... Display device, 2,11 ... Recording medium, 2a, 11a ... Circuit simulation program, 3 ... Acquisition function, 4,12 ... Condition reception function, 5 ... Deployment function, 6,13 ... Simulation function, 7, 14 ... Judgment function, 71 ... Power line judgment function, 72 ... Terminal block judgment function, 73 ... Relay terminal voltage judgment function, 74 ... Relay contact judgment function, 75 ... Circuit breaker judgment function, 141 ... Surge Suppression determination function, 142 ... Relay determination function, 143 ... Breaker determination function, 8, 15 ... Display control function, 9 ... Recording unit, 9a ... Development connection diagram data, 10 ... Inspector

Claims (16)

On the computer,
A function of acquiring development connection diagram data in which connection relations between a plurality of elements provided in an electric device are described using CAD and being digitized,
A function of accepting inspection conditions for the expanded connection diagram data;
A function of expanding the expanded connection diagram data into a connection relationship between the plurality of elements;
A simulation function for executing a circuit simulation of a power supply line when a control power supply is applied, based on the inspection condition and the developed connection relationship between the plurality of elements;
A determination function for determining whether the power supply line to which the control power is applied is normal based on the result of the circuit simulation;
When the determination function determines that the power supply line is normal, a normal indicator indicating that the power supply line to which the control power is applied is normal is displayed together with the contents of the expanded connection diagram data, and the determination function determines that the power supply line is abnormal. A circuit simulation program for realizing a display control function for executing control for displaying an abnormality index indicating that the power line to which the control power is applied is abnormal together with the contents of the developed connection diagram data. The circuit simulation program according to claim 1,
The display control function draws a power line to which the control power is applied in the development connection diagram data in a color representing normal as the normal indicator, and uses the control power source in the development connection diagram data as the abnormality indicator. A circuit simulation program for executing a control for drawing a power supply line to which a power is applied in a color representing an abnormality. In the circuit simulation program according to claim 1 or 2,
The circuit simulation program characterized in that the determination function determines that the case where the power supply line to which the control power is applied is connected is normal and the case where the power line is not connected is abnormal. In the circuit simulation program according to any one of claims 1 to 3,
The circuit simulation program characterized in that the determination function determines that a case where a terminal block provided in a power supply line to which the control power is applied is connected is normal and a case where a terminal block is not connected is abnormal. In the circuit simulation program according to any one of claims 1 to 4,
The circuit simulation program characterized in that the determination function determines whether a terminal voltage of a relay provided in a power supply line to which the control power is applied is normal. In the circuit simulation program according to any one of claims 1 to 5,
The inspection condition includes an ON / OFF condition of a relay contact provided in a power supply line to which the control power is applied,
The circuit simulation program characterized in that the determination function determines whether the operation of the relay contact is normal. The circuit simulation program according to any one of claims 1 to 6,
The inspection condition includes an on / off condition of a circuit breaker provided in a power line to which the control power is applied,
The circuit simulation program characterized in that the determination function determines whether the operation of the circuit breaker is normal. The circuit simulation program according to any one of claims 1 to 7,
The inspection condition includes a disconnection condition,
The simulation function executes a circuit simulation for a power line in which a wraparound occurs in the control power supply according to the condition of the disconnection,
The circuit simulation program, wherein the display control function executes a control for displaying a sneak index indicating a power line in which a sneak current occurs in the control power source together with the contents of the developed connection diagram data. The circuit simulation program according to claim 8,
The circuit simulation program characterized in that the display control function draws, as the wraparound index, a power line in which the wraparound occurs in the control power supply in the developed connection diagram data in a color representing the wraparound. On the computer,
A function for acquiring development connection diagram data in which connection relations between a plurality of elements provided in an electric device are described using CAD and are digitized,
A function that accepts inspection conditions, including surge voltage application conditions,
A function of expanding the expanded connection diagram data into a connection relationship between the plurality of elements;
A simulation function for executing a circuit simulation when the surge voltage is applied, based on the inspection condition and the developed connection relation between the plurality of elements;
A determination function for determining whether the power supply line to which the surge voltage is applied is normal based on the result of the circuit simulation;
When it is determined that the judgment function is normal, a normal indicator indicating that the power supply line to which the surge voltage is applied is normal is displayed together with the contents of the developed connection diagram data, and the judgment function determines that it is abnormal. A circuit simulation program for realizing a display control function for executing control for displaying an abnormality index indicating that the power supply line to which the surge voltage is applied is abnormal together with the contents of the developed connection diagram data. The circuit simulation program according to claim 10,
The display control function draws the power line to which the surge voltage is applied in the developed connection diagram data in a color representing normal as the normal indicator, and uses the surge voltage in the developed connection diagram data as the abnormality indicator. A circuit simulation program for executing a control for drawing a power supply line to which a power is applied in a color representing an abnormality. In the circuit simulation program according to claim 10 or 11,
The circuit simulation program characterized in that the determination function determines that a case where a surge suppression circuit provided in a power supply line to which the surge voltage is applied operates is normal and a case where the surge suppression circuit does not operate is abnormal. The circuit simulation program according to any one of claims 10 to 12,
The circuit simulation program characterized in that the determination function determines whether the operation of a relay provided in the power supply line to which the surge voltage is applied is normal. The circuit simulation program according to any one of claims 10 to 13,
The circuit simulation program characterized in that the determination function determines whether the operation of a circuit breaker provided in the power supply line to which the surge voltage is applied is normal. Means for acquiring expanded connection diagram data in which connection relations between a plurality of elements provided in an electric device are described using CAD and are digitized;
Means for receiving inspection conditions for the expanded connection diagram data;
Means for expanding the expanded connection diagram data into a connection relationship between the plurality of elements;
Simulation means for executing a circuit simulation when a control power supply is applied, based on the inspection condition and the developed connection relationship between the plurality of elements,
Based on the result of the circuit simulation, determination means for determining whether the power supply line to which the control power is applied is normal;
When determined to be normal by the determining means, a normal indicator indicating that the power line to which the control power is applied is normal is displayed together with the contents of the developed connection diagram data, and determined to be abnormal by the determining means And a display means for displaying an abnormality index indicating that the power supply line to which the control power is applied is abnormal together with the contents of the developed connection diagram data. Means for acquiring expanded connection diagram data in which connection relations between a plurality of elements provided in an electric device are described using CAD and are digitized;
Means for receiving inspection conditions including surge voltage application conditions;
Means for expanding the expanded connection diagram data into a connection relationship between the plurality of elements;
Simulation means for executing circuit simulation when the surge voltage is applied based on the inspection condition and the developed connection relationship between the plurality of elements;
Based on the result of the circuit simulation, a determination means for determining whether the power supply line to which the surge voltage is applied is normal;
When judged normal by the judging means, a normal indicator indicating that the power supply line to which the surge voltage is applied is normal is displayed together with the contents of the developed connection diagram data, and judged abnormal by the judging means And a display means for displaying an abnormality index indicating that the power supply line to which the surge voltage is applied is abnormal together with the contents of the developed connection diagram data.

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