KR102324874B1 - Apparatus and method for simulating performance of shielding electro magnetic interference of high voltage junction block - Google Patents

Abstract

The present invention provides an input unit that receives 3D design data of a junction block and a receiver from the outside, a modeling unit that models the junction block and receiver as a 3D model based on the 3D design data input through the input unit, and a junction block and receiver modeled through the modeling unit It is characterized in that it includes a simulation performing unit that performs a simulation to evaluate the EMI shielding performance based on the , and an analysis unit that analyzes the EMI shielding performance of the modeled junction block based on the simulation performance result of the simulation performing unit.

Description

Apparatus and method for simulating EMI shielding performance of high voltage junction blocks

The present invention relates to an apparatus and method for simulating EMI shielding performance of a high voltage junction block, and a high voltage junction block that predicts EMI shielding performance of a junction block by performing a simulation to evaluate EMI shielding performance based on 3D design data of the junction block and receiver It relates to an apparatus and method for simulating EMI shielding performance.

All electric devices of a car are connected to an Electronic Control Unit (ECU) inside the engine room of a car with wires. do.

The junction block is composed of a fuse, a relay, a unit, and the like, and plays a role in distributing the power of the battery and the generator to the electronic system of the entire vehicle.

On the other hand, since the junction block is provided between the wire and the ECU, a plurality of wires are located around the junction block. Accordingly, when a signal is applied to the junction block to operate, the signal of the wire located around the junction block is interfered with by noise generated according to the operation of the junction block and an error occurs in the electronic system connected to the wire. do.

The background technology of the present invention is disclosed in 'High Voltage Junction Block' of Korean Patent Application Laid-Open No. 10-2019-0117424 (2019.10.16.).

The present invention was created to solve the above problems, and an object according to an aspect of the present invention is to perform a simulation to evaluate the EMI shielding performance based on 3D design data of the junction block and the receiver to thereby perform the EMI shielding performance of the junction block It is to provide an apparatus and method for simulating EMI shielding performance of a predicted high voltage junction block.

An apparatus for simulating EMI shielding performance of a high voltage junction block according to an aspect of the present invention includes an input unit for receiving 3D design data of a junction block and a receiver from the outside, and the junction block and the receiver based on the 3D design data received through the input unit A modeling unit for modeling as a 3D model, a simulation performing unit for performing a simulation for evaluating EMI (Electro Magnetic Interference) shielding performance based on the 3D model of the junction block and the receiver modeled through the modeling unit, and the simulation It characterized in that it includes an analysis unit that analyzes the EMI shielding performance of the modeled junction block based on the simulation performance result of the execution unit.

In the present invention, the input unit, as the 3D design data, the wire configuration diagram of the junction block, wire property information of the junction block including conductivity and permittivity, and case property information of the junction block including conductivity, permittivity and permeability , characterized in that it receives the characteristic impedance information of the receiver.

In the present invention, the simulation performing unit sets an input port and an output port of the modeled junction block, applies a control signal to the set input port, and crosstalk generated by the operation of the modeled junction block. ) is characterized in that the simulation is performed through the modeled receiver.

In the present invention, the analysis unit is characterized in that it analyzes the EMI shielding performance of the modeled junction block by determining whether the crosstalk measured through the simulation performing unit satisfies a preset shielding performance standard.

In the present invention, when the EMI shielding performance of the modeled junction block analyzed through the analysis unit does not satisfy the shielding performance standard, it further includes an improvement measure calculation unit for calculating an improvement measure to satisfy the shielding performance standard characterized in that

In the present invention, the improvement measure calculation unit is characterized in that the 3D design data is changed as an improvement measure to satisfy the shielding performance standard.

In the present invention, it characterized in that it further comprises an output unit for outputting the result of the EMI shielding performance of the modeled junction block analyzed through the analysis unit.

The method for simulating EMI shielding performance of a high voltage junction block according to an aspect of the present invention comprises the steps of: an input unit receiving 3D design data of a junction block and a receiver from the outside; a modeling unit; based on the 3D design data received through the input unit Modeling the junction block and the receiver as a 3D model, a simulation performing unit, based on the 3D model of the junction block and the receiver modeled through the modeling unit Simulation for evaluating EMI (Electro Magnetic Interference) shielding performance performing, and analyzing, by an analysis unit, analyzing the EMI shielding performance of the modeled junction block based on the simulation performance result of the simulation performing unit.

In the step of receiving the input in the present invention, the input unit includes a wire configuration diagram of the junction block as the 3D design data, wire properties information of the junction block including conductivity and permittivity, and the junction including conductivity, permittivity and permeability It is characterized in that case physical property information of the block and characteristic impedance information of the receiver are received.

In the performing step of the present invention, the simulation performing unit sets an input port and an output port of the modeled junction block, and applies a control signal to the set input port, by the operation of the modeled junction block. It is characterized in that the simulation of measuring the generated crosstalk (Crosstalk) through the modeled receiver.

In the analyzing step in the present invention, the analyzing unit analyzes the EMI shielding performance of the modeled junction block by determining whether the crosstalk measured through the simulation performing unit satisfies a preset shielding performance standard do it with

In the present invention, when the EMI shielding performance of the modeled junction block analyzed through the analysis unit by the improvement measure calculation unit does not satisfy the shielding performance standard, calculating an improvement measure to satisfy the shielding performance standard It is characterized in that it further comprises.

In the calculating step in the present invention, the improvement measure calculation unit is characterized in that it changes the 3D design data as an improvement measure to satisfy the shielding performance standard.

In the present invention, the output unit, characterized in that it further comprises the step of outputting the result of the EMI shielding performance of the modeled junction block analyzed through the analysis unit.

According to an aspect of the present invention, by performing a simulation to evaluate the EMI shielding performance based on the 3D design data of the junction block and the receiver, and predicting the EMI shielding performance of the junction block, spatial constraints that occur when evaluating the EMI shielding performance of the junction block and Time constraints can be overcome.

In addition, according to another aspect of the present invention, when the EMI shielding performance does not conform to the shielding performance standard, it is possible to calculate improvement measures to satisfy the shielding performance standard in real time.

1 is a block diagram illustrating an apparatus for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention.
2 is an exemplary view for explaining an EMI shielding performance simulation apparatus of a high voltage junction block according to an embodiment of the present invention.
3 is a flowchart illustrating a method for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention.

Hereinafter, an apparatus and method for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a block diagram illustrating an EMI shielding performance simulation apparatus of a high voltage junction block according to an embodiment of the present invention, and FIG. 2 is an EMI shielding performance simulation apparatus of a high voltage junction block according to an embodiment of the present invention. It is an example diagram for explanation.

Referring to FIG. 1 , an apparatus for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention may include an input unit 100 , a modeling unit 200 , a simulation performing unit 300 , and an analysis unit 400 . can

The input unit 100 may receive 3D design data of the junction block and the receiver from the outside.

Referring to FIG. 2 , the junction block (or junction box) is composed of a fuse, a relay, a unit, and the like, and serves to distribute the power of the battery and the generator to the entire electronic system of the vehicle. can do.

The receiver may be provided outside the junction block to measure EMI (Electro Magnetic Interference) generated from the junction block.

The input unit 100 may receive the 3D design data of the junction block and the receiver as described above from the user, or the 3D design data of the junction block and the receiver from a memory or a server in which the 3D design data of the junction block and the receiver are stored. have.

At this time, as 3D design data, the input unit 100 includes a wire configuration diagram of the junction block, wire property information of the junction block including conductivity and permittivity, case property information of the junction block including conductivity, permittivity and permeability, and characteristic impedance of the receiver information can be entered.

However, the present embodiment is not limited thereto, and various data information necessary to implement the junction block and the receiver in a three-dimensional shape in simulation may be included in the 3D design data. For example, a circuit diagram of a junction block including a fuse, a relay, and a unit may be included in the 3D design data.

The modeling unit 200 may model the junction block and the receiver as a 3D model based on the 3D design data received through the input unit 100 .

For example, the modeling unit 200 reflects the wire configuration diagram of the junction block received through the input unit 100, wire property information of the junction block, case property information of the junction block, and characteristic impedance information of the receiver to form a junction block and The receiver can be modeled in virtual space as a 3D model.

The simulation performing unit 300 may perform a simulation for evaluating EMI shielding performance based on the junction block and the receiver modeled through the modeling unit 200 .

The simulation performing unit 300 sets an input port and an output port of the modeled junction block, applies a control signal to the set input port, and performs crosstalk generated by the operation of the modeled junction block by the modeled receiver You can perform a measurement simulation through .

The input port and the output port may be set to simulate EMI shielding performance according to the operation of the modeled junction block by applying a control signal such as a signal input to the actual junction block to the modeled junction block.

For example, the control signal applied to the input port may be a continuous sinewave.

When a control signal is applied to the input port, the modeled junction block operates according to the 3D design data input through the input unit 100, and as the modeled junction block operates, crosstalk occurs in the modeled receiver adjacent to the junction block do.

Here, a region where crosstalk occurs when a control signal is applied to the input port and the modeled junction block is operated, that is, a radiation region of electromagnetic waves or noise according to the operation of the modeled junction block may be included in the 3D design data, and the receiver It may be modeled to be located within the radiation region.

The receiver modeled in the virtual space can measure crosstalk generated according to the operation of the modeled junction block.

The simulation performing unit 300 may operate the modeled junction block while changing the frequency of the control signal input to the input port, and thus may measure crosstalk generated in the modeled receiver.

That is, the simulation performing unit 300 may perform a simulation for measuring crosstalk according to the frequency of the control signal.

The analysis unit 400 may analyze the EMI shielding performance of the modeled junction block based on the simulation performance result of the simulation performing unit 300 .

For example, the analysis unit 400 may analyze the EMI shielding performance of the modeled junction block based on the crosstalk according to the frequency of the control signal, which is a simulation result performed by the simulation performing unit 300 .

The analysis unit 400 may analyze the EMI shielding performance of the modeled junction block by determining whether the crosstalk measured by the simulation performing unit 300 satisfies a preset shielding performance standard.

For example, if the crosstalk according to the frequency of the control signal measured through the simulation performing unit 300 is less than or equal to the crosstalk reference value included in the preset shielding performance standard, the analysis unit 400 determines that the modeled junction block is the shielding performance standard. can be interpreted as being satisfied with

On the other hand, in the analysis unit 400, when the crosstalk according to the frequency of the control signal measured through the simulation performing unit 300 exceeds the crosstalk reference value included in the preset shielding performance standard, the modeled junction block conforms to the shielding performance standard. This can be interpreted as dissatisfaction.

On the other hand, in the present embodiment, when the EMI shielding performance of the modeled junction block analyzed through the analysis unit 400 does not satisfy the shielding performance standard, the improvement measure calculation unit ( 500) may be further included.

The improvement measure calculation unit 500 may change the 3D design data received through the input unit 100 as an improvement measure to satisfy the shielding performance standard.

For example, when the EMI shielding performance of the modeled junction block analyzed by the analysis unit 400 does not satisfy the shielding performance standard, the improvement measure calculation unit 500 may determine the conductivity of the junction block case included in the 3D design data. , after changing at least one of dielectric constant and permeability, it is possible to generate a command to simulate EMI shielding performance of the modeled junction block through the simulation performing unit 300 again.

As another example, when the EMI shielding performance of the modeled junction block analyzed through the analysis unit 400 does not satisfy the shielding performance standard, the improvement measure calculation unit 500 may include a wire configuration diagram of the junction block included in the 3D design data. After changing , it is possible to generate a command to simulate the EMI shielding performance of the modeled junction block through the simulation performing unit 300 again.

Such a command may be repeatedly generated until the EMI shielding performance of the modeled junction block analyzed by the analysis unit 400 satisfies the shielding performance standard.

The apparatus for simulating EMI shielding performance of a junction block according to an embodiment of the present invention may further include an output unit 600 for outputting a result of the EMI shielding performance of the modeled junction block analyzed through the analysis unit 400 . .

For example, the output unit 600 is a result of the EMI shielding performance of the modeled junction block analyzed by the analysis unit 400, and the crosstalk according to the frequency of the control signal and the EMI shielding performance of the modeled junction block are Whether or not the shielding performance standard is satisfied may be output through a display (not shown) or output in the form of an electronic document.

3 is a flowchart illustrating a method for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention.

Referring to FIG. 3 , the method for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention includes receiving an input (S100), modeling (S200), performing (S300), and analyzing (S400). ) may be included.

In the receiving step ( S100 ), the input unit 100 may receive 3D design data of the junction block and the receiver from the outside (eg, a user).

According to an embodiment of the present invention, the input unit 100 is 3D design data of the wire configuration diagram of the junction block, wire property information of the junction block including conductivity and permittivity, and conductivity, permittivity and permeability of the junction block including permeability Case property information and receiver characteristic impedance information may be input.

In the modeling step ( S200 ), the modeling unit 200 may model the junction block and the receiver as a 3D model based on the 3D design data received through the input unit 100 .

For example, the modeling unit 200 reflects the wire configuration diagram of the junction block received through the input unit 100, wire property information of the junction block, case property information of the junction block, and characteristic impedance information of the receiver to form a junction block and The receiver can be modeled in virtual space as a 3D model.

In the performing step ( S300 ), the simulation performing unit 300 may perform a simulation for evaluating EMI shielding performance based on the junction block and the receiver modeled through the modeling unit 200 .

According to an embodiment of the present invention, the simulation performing unit 300 sets an input port and an output port of the modeled junction block, applies a control signal to the set input port, and is generated by the operation of the modeled junction block. A simulation of measuring crosstalk through a modeled receiver can be performed.

In the analyzing step S400 , the analyzing unit 400 may analyze the EMI shielding performance of the modeled junction block based on the simulation performance result of the simulation performing unit 300 .

According to an embodiment of the present invention, the analysis unit 400 analyzes the EMI shielding performance of the modeled junction block by determining whether the crosstalk measured through the simulation performing unit 300 satisfies a preset shielding performance standard. can do.

In the method for simulating EMI shielding performance of a junction block according to an embodiment of the present invention, the EMI shielding performance of the modeled junction block analyzed by the improvement measure calculation unit 500 through the analysis unit 400 does not satisfy the shielding performance standard. In this case, it may further include a step (S500) of calculating improvement measures to satisfy the shielding performance standard.

In the calculating step ( S500 ), the improvement measure calculation unit 500 may change the 3D design data input through the input unit 100 as an improvement measure to satisfy the shielding performance standard.

For example, when the EMI shielding performance of the modeled junction block analyzed by the analysis unit 400 does not satisfy the shielding performance standard, the improvement measure calculation unit 500 may determine the conductivity of the junction block case included in the 3D design data. , after changing at least one of dielectric constant and permeability, it is possible to generate a command to simulate EMI shielding performance of the modeled junction block through the simulation performing unit 300 again.

The method for simulating EMI shielding performance of a high voltage junction block according to an embodiment of the present invention includes the step of outputting, by the output unit 600, the result of the EMI shielding performance of the modeled junction block analyzed through the analysis unit 400 (S600) ) may be further included.

As described above, the apparatus and method for simulating the EMI shielding performance of a high voltage junction block according to an embodiment of the present invention performs a simulation to evaluate the EMI shielding performance based on 3D design data of the junction block and the receiver, and thus the EMI of the junction block By predicting the shielding performance, it is possible to overcome the spatial and temporal constraints that occur when evaluating the EMI shielding performance of the junction block.

The implementations described herein may be implemented in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Although discussed only in the context of a single form of implementation (eg, discussed only as a method), implementations of the discussed features may also be implemented in other forms (eg, as an apparatus or program). The apparatus may be implemented in suitable hardware, software and firmware, and the like. A method may be implemented in an apparatus such as, for example, a processor, which generally refers to a processing device, including a computer, microprocessor, integrated circuit or programmable logic device, or the like. Processors also include communication devices such as computers, cell phones, portable/personal digital assistants (“PDAs”) and other devices that facilitate communication of information between end-users.

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely exemplary, and it is understood that various modifications and equivalent other embodiments are possible by those skilled in the art. will understand Accordingly, the true technical protection scope of the present invention should be defined by the following claims.

100: input unit
200: modeling unit
300: simulation execution unit
400: analysis unit
500: improvement measure calculation unit
600: output unit

Claims (14)

an input unit for receiving 3D design data of the junction block and the receiver from the outside;
a modeling unit for modeling the junction block and the receiver as a 3D model based on the 3D design data received through the input unit;
a simulation performing unit configured to perform a simulation for evaluating EMI (Electro Magnetic Interference) shielding performance based on the modeled junction block and the modeled receiver through the modeling unit; and
and an analysis unit that analyzes the EMI shielding performance of the modeled junction block based on the simulation performance result of the simulation performing unit;
The input unit may include, as the 3D design data, a wire configuration diagram of the junction block, wire property information of the junction block including conductivity and permittivity, case property information of the junction block including conductivity, permittivity and permeability, and the receiver EMI shielding performance simulation device of a high voltage junction block, characterized in that it receives characteristic impedance information.
delete The method of claim 1,
The simulation performing unit sets an input port and an output port of the modeled junction block, applies a control signal to the set input port, and models the crosstalk generated by the operation of the modeled junction block. EMI shielding performance simulation device of a high voltage junction block, characterized in that performing a simulation measured through the receiver.
4. The method of claim 3,
EMI shielding performance simulation of a high voltage junction block, characterized in that the analysis unit analyzes the EMI shielding performance of the modeled junction block by determining whether the crosstalk measured through the simulation performing unit satisfies a preset shielding performance standard Device.
5. The method of claim 4,
When the EMI shielding performance of the modeled junction block analyzed through the analysis unit does not satisfy the shielding performance standard, an improvement measure calculation unit for calculating an improvement measure to satisfy the shielding performance standard; EMI shielding performance simulation device of high voltage junction block featuring
6. The method of claim 5,
The improvement measure calculation unit, EMI shielding performance simulation apparatus of a high voltage junction block, characterized in that for changing the 3D design data as an improvement measure to satisfy the shielding performance standard.
The method of claim 1,
EMI shielding performance simulation apparatus of a high voltage junction block further comprising; an output unit for outputting a result of the EMI shielding performance of the modeled junction block analyzed through the analysis unit.
receiving, by the input unit, 3D design data of the junction block and the receiver from the outside;
modeling, by a modeling unit, the junction block and the receiver as a 3D model based on the 3D design data received through the input unit;
performing, by a simulation performing unit, a simulation for evaluating EMI (Electro Magnetic Interference) shielding performance based on the modeled junction block and the modeled receiver through the modeling unit; and
Analyzing, by the analysis unit, the EMI shielding performance of the modeled junction block based on the simulation performance result of the simulation execution unit;
In the step of receiving the input, the input unit,
As the 3D design data, the wire configuration diagram of the junction block, wire property information of the junction block including conductivity and permittivity, case property information of the junction block including conductivity, permittivity and permeability, and characteristic impedance information of the receiver A method for simulating EMI shielding performance of a high voltage junction block, characterized in that the input is received.
delete The method of claim 8, wherein in the performing step,
The simulation performing unit sets an input port and an output port of the modeled junction block, applies a control signal to the set input port, and models the crosstalk generated by the operation of the modeled junction block. EMI shielding performance simulation method of a high voltage junction block, characterized in that performing a simulation measured through a receiver.
The method of claim 10, wherein in the interpreting step,
EMI shielding performance simulation of a high voltage junction block, characterized in that the analysis unit analyzes the EMI shielding performance of the modeled junction block by determining whether the crosstalk measured through the simulation performing unit satisfies a preset shielding performance standard Way.
12. The method of claim 11,
When the EMI shielding performance of the modeled junction block analyzed through the analysis unit does not satisfy the shielding performance standard, the improvement measure calculation unit calculates an improvement measure to satisfy the shielding performance standard; further includes EMI shielding performance simulation method of the high voltage junction block, characterized in that.
The method of claim 12, wherein in the calculating step,
The improvement measure calculation unit, EMI shielding performance simulation method of a high voltage junction block, characterized in that for changing the 3D design data as an improvement measure to satisfy the shielding performance standard.
9. The method of claim 8,
outputting, by an output unit, a result of the EMI shielding performance of the modeled junction block analyzed through the analyzing unit;

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