KR101375910B1 - Ignition key voltage generator and ecu simulation system - Google Patents

Abstract

The present invention relates to an ignition key voltage waveform generator and an ECU simulation system, capable of improving the accuracy of a simulation result and providing the simulation result by pulses with various specifications by simulating all kinds of pulses which are inputted to an ECU by outputting ignition key voltages that are various pulse signals predetermined for simulating the operation of the ECU in a rising edge of the inputted key voltage and preparing the input of the ignition key voltage that is the following pulse signal in a falling edge. [Reference numerals] (110) Control unit; (111) Auto/Manual selector; (112) Waveform selector; (113) Reset unit; (120) Control unit; (121) Ignition key voltage detector; (122) Central processing unit(CPU); (130) Output unit; (131) Discharge unit; (132) Ignition key voltage output unit; (140) Display unit; (141) Power status indicator; (142) Pulse information display unit; (150) Key voltage input unit; (160) Driving voltage input unit

Description

Ignition key voltage generator and ECU simulation system

The present invention relates to an ignition key voltage waveform generator and an electronic controller simulation system, and more particularly, to a rising edge of a key voltage inputted with ignition key voltages, which are various predetermined pulse signals, for simulating the operation of the electronic controller. By preparing the input of the ignition key voltage, which is the next pulse signal, at the falling edge, it simulates with all types of pulses that can be actually input to the electronic controller to improve the accuracy of the simulation test results and pulses of various specifications. The invention relates to an ignition key voltage waveform generator and an electronic controller simulation system for providing simulation results.

Electronic control unit (ECU) for controlling the vehicle is an important component in the control of the vehicle, so the inspection of the produced electronic control unit should be carried out in various aspects, especially pulses input to the electronic control unit. In accordance with this, it is important to determine whether or not the electronic controller operates abnormally.

Conventionally, in conducting a simulation for testing whether an electronic controller operates abnormally, since only an arbitrary pulse is input and the electronic controller is normally operated accordingly, all forms that can be substantially input to the electronic controller are provided. There is a problem in that the accuracy of the simulation results is low because the simulation of inputting the pulse of?

In addition, in performing a simulation to test whether the electronic controller is abnormally operated, a pulse is output at a rising / positive edge of an input key voltage, and a falling / negative edge is not used at a falling edge. Do not perform an action.

Republic of Korea Patent Publication No. 1999-0080723

The present invention is to solve the above problems, the ignition key voltage waveform generator and the electronic control device simulation system according to the present invention is to perform a simulation for checking whether the electronic control device abnormal operation according to the change in the ignition key voltage It is an object of the present invention to solve a problem that cannot be simulated with virtually any type of pulse that can be input.

The ignition key voltage waveform generator and the electronic controller simulation system according to an embodiment of the present invention are intended to solve the problem that there is no configuration to prepare for outputting various pulses in response only to the rising edge of the input key voltage. It is done.

In order to achieve the above object, the ignition key voltage waveform generator according to the present invention includes a driving voltage input unit for inputting a driving voltage supplied by a power supply, a rising edge and a falling edge as pulse signals synchronized with a simulator. A key voltage input unit for inputting a key voltage including a falling edge, a controller for controlling generation of an ignition key voltage input to the electronic controller according to the input driving voltage and the key voltage; And an output unit for outputting an ignition key voltage, which is a pulse signal for simulating the operation of the electronic controller, on the rising edge of the key voltage, and preparing an ignition key voltage, which is the next pulse signal, on the falling edge.

In the ignition key voltage waveform generator according to an embodiment of the present invention, the output unit outputs a predetermined ignition key voltage for each of the rising edge and the falling edge of the input key voltage and outputs the input ignition key voltage to the electronic controller. And a discharge unit for removing a distortion component of the ignition key voltage.

In the ignition key voltage waveform generator according to an embodiment of the present invention, the ignition key voltage output unit outputs one of the pulses of the predetermined ignition key voltage at the rising edge of the input key voltage, and at the falling edge of the input key voltage. And prepare to output another one of pulses of a predetermined ignition key voltage.

In the ignition key voltage waveform generator according to an embodiment of the present invention, the control unit further comprises a control unit for adjusting the control unit by the user, the control unit automatic mode for sequentially outputting the pulses of the predetermined ignition key voltage or selected one ignition Automatic / manual selection unit for selecting one of the manual mode to output only the pulse of the key voltage, waveform selection unit for selecting one of the pulses of the ignition key voltage predetermined in the manual mode, and automatic / manual selection And a reset unit which resets the output of the ignition key voltage output unit by the negative or waveform selection unit to an initial state.

In the ignition key voltage waveform generating apparatus according to the embodiment of the present invention, the ignition key voltage output unit further comprises a display unit for displaying the current state outputted, the display unit is a power supply state for displaying the input state of the drive voltage or the key voltage And a pulse information display unit for displaying information on the ignition key voltage output by the ignition key voltage output unit.

The electronic control device simulation system according to the present invention includes a power supply for supplying a driving voltage, a simulator for simulating the operation of the electronic control device, and a ignition key voltage input to the electronic control device by being driven by the power supply and synchronized with the simulator. And an ignition key voltage waveform generator, wherein the ignition key voltage waveform generator includes a driving voltage input unit for inputting a driving voltage, and a rising edge and a falling edge as pulse signals synchronized with a simulator; Key voltage input unit for inputting key voltage, control unit for controlling generation of ignition key voltage input to the electronic controller according to the input drive voltage and key voltage, and operation of the electronic controller Output the ignition key voltage, which is a pulse signal for testing, to the rising edge of the key voltage. , With respect to the falling edge of the key voltage it is characterized in that an output unit to prepare for the ignition key, and then the voltage pulse signal.

In the electronic control apparatus simulation system according to an embodiment of the present invention, the ignition key voltage waveform generator is formed in a driving voltage input unit to be connected to a power supply and receives a driving voltage, and is connected to a key voltage input unit to be connected to a simulator. And a third port formed at the output unit to be connected to the electronic control device to receive the key voltage and outputting the ignition key voltage to the electronic control device.

In the electronic control device simulation system according to an embodiment of the present invention, the output unit outputs a predetermined ignition key voltage at the rising edge of the input key voltage and inputs the ignition key voltage output unit to the electronic control device, and the ignition key voltage. It characterized in that it comprises a discharge portion for removing the distortion (Distortion) component.

In the electronic control apparatus simulation system according to an embodiment of the present invention, the ignition key voltage output unit outputs one of pulses of a predetermined ignition key voltage at the rising edge of the input key voltage, and in advance at the falling edge of the input key voltage. And prepare to output another one of pulses of a predetermined ignition key voltage.

In the electronic control apparatus simulation system according to an embodiment of the present invention, the control unit further comprises a control unit for adjusting the control unit, the control unit is an automatic mode or one selected ignition key to sequentially output pulses of a predetermined ignition key voltage Automatic / manual selection unit for selecting one of the manual mode for outputting only the pulse of voltage, Waveform selection unit for selecting one of the pulses of the ignition key voltage predetermined in the manual mode, and Automatic / manual selection unit Or a reset unit for resetting the output of the ignition key voltage output unit by the waveform selection unit to an initial state.

In the electronic control apparatus simulation system according to an embodiment of the present invention, the display unit further comprises a display unit for displaying the current state output by the ignition key voltage output unit, the display unit is a power state display unit for displaying the input state of the driving voltage or key voltage And a pulse information display unit displaying information on the ignition key voltage output by the ignition key voltage output unit.

With the above configuration, the ignition key voltage waveform generator and the electronic control device simulation system according to the present invention have the ignition key voltage, which is a predetermined pulse signal, for the rising edge of the input key voltage to simulate the operation of the electronic control device. Since the output and the falling edge is prepared to output the next pulse, it simulates with all types of pulses that can be substantially input to the electronic controller, thereby improving the accuracy of the simulation test results.

In addition, the ignition key voltage waveform generator and the electronic controller simulation system according to an embodiment of the present invention outputs ignition key voltages corresponding to the rising edges of the key voltage input from the simulator, thereby simulating the results of pulses of various specifications. To provide an effect.

1 is a block diagram of an ignition voltage waveform generator according to an embodiment of the present invention.
2 is a block diagram of an electronic control apparatus simulation system according to an embodiment of the present invention.
3 is the equipment of the electronic control device simulation system according to an embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor should appropriately define the concept of the term in order to describe its invention in the best way The present invention should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a", "an", and "the" include plural referents unless the context clearly dictates otherwise.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an ignition key voltage waveform generator 100 according to an embodiment of the present invention.

Referring to FIG. 1, the ignition key voltage waveform generator 100 according to the present invention includes a pulse signal synchronized with a driving voltage input unit 160 and a simulator 400 for inputting a driving voltage supplied by a power supply 200. As a key voltage input unit 150 for inputting a key voltage including a rising edge and a falling edge, an ignition key voltage input to the electronic control device 300. Outputs the ignition key voltage, which is a pulse signal for simulating the operation of the control unit 120 and the electronic control device 300, to control the generation according to the input drive voltage and the key voltage, on the rising edge of the key voltage, For the falling edge of the voltage includes an output unit 130 for preparing the ignition key voltage, the next pulse signal.

The driving voltage input unit 160 may input power required for driving from the power supply 200, and the ignition key voltage waveform generator 100 may be driven by the input driving voltage.

The simulator 400 simulates normal operation according to various environments with respect to the electronic control device 300 that is the target of the simulation test. In this case, the ignition key voltage waveform generating device 100 performs various ignitions on the electronic control device 300. Since the simulator 400 applies the key voltage and simulates the operation of the electronic controller 300 accordingly, the ignition key voltage waveform generator 100 and the simulator 400 must be synchronized. Therefore, the simulator 400 and the ignition key voltage waveform generator 100 are synchronized by the key voltage, and information such as the ignition key voltage output from the ignition key voltage waveform generator 100 is transmitted to the simulator 400. Can be.

That is, the key voltage input unit 150 may be connected to the simulator 400 to receive the key voltage from the simulator 400. In this case, the key voltage may be input in the form of a pulse signal, which may be a pulse signal including a rising edge and a falling edge.

The ignition key voltage waveform generator 100 according to the present invention may further include an adjusting unit 110 for adjusting the control unit 120 by a user.

The adjusting unit 110 may include an automatic / manual selection unit 111 for setting the control unit 120 to the automatic mode or the manual mode. The automatic mode may include pulses of a predetermined ignition key voltage. The output unit 132 sequentially outputs the state. In the manual mode, the ignition key voltage output unit 132 outputs only the pulse of one selected ignition key voltage. Therefore, if the pulse waveform of the predetermined ignition key voltage is stored from 1 to n times, the ignition key voltage from 1 to n times is sequentially output by the ignition key voltage output unit 132 in the automatic mode. In the manual mode, any one of the ignition key voltages 1 to n may be output by the ignition key voltage output unit 132.

The adjusting unit 110 may include a waveform selector 112 for allowing the ignition key voltage output unit 132 to select a waveform of the ignition key voltage to be output. The waveform selector 112 may be configured in a manual mode in advance. One pulse to be output may be selected from among pulses of a predetermined ignition key voltage. Therefore, the waveform selector 112 may not operate when the automatic / manual selector 111 selects the automatic mode, and may operate only when the automatic / manual selector 111 selects the manual mode. That is, the ignition key voltage waveform generator 100 may preset and store an output waveform of the ignition key voltage to be output. When the ignition key voltage output unit 132 is operated in the manual mode, the user may change the waveform. The selector 112 may select one of several output waveforms of the ignition key voltage stored in advance. In this case, the output waveform of the ignition key voltage may mean all waveforms in the form that can be actually input to the electronic controller 300, and 14 waveforms can be representatively set and stored. Therefore, when the automatic / manual selection unit 111 is manually set, the user may set to output any one of fourteen representative output waveforms of the stored ignition key voltage.

Meanwhile, the controller 110 may include a reset unit 113 for initializing the output of the ignition key voltage output unit 132 by the automatic / manual selector 111 or the waveform selector 112. That is, when the initial state of the automatic / manual selection unit 111 is set to the automatic mode, it may be reset to the automatic mode by the reset unit 113, and the initial state of the waveform selection unit 112 outputs the waveform 1. If it is set to 1, it can be reset to the first waveform by the reset unit 113. Therefore, the mode with a high frequency of use by the user can be set to the initial state of the automatic / manual selection unit 111, and the output waveform of the ignition key voltage with a high frequency of use by the user can be set to the initial state, and the reset unit By the operation of 113, the controller 110 may be initialized without individually selecting the automatic / manual selector 111 or the waveform selector 112.

The control unit 120 includes an ignition key voltage detection unit 121 and a central processing unit 122 (CPU), and the generation of the ignition key voltage input to the electronic controller 300 is applied to the input driving voltage and the key voltage. Can be controlled accordingly. That is, even when the key voltage is input, the ignition key voltage is not generated when the driving voltage is not input. When the driving voltage is input, the controller 120 may control the ignition key voltage to be output according to the key voltage.

The ignition key voltage detector 121 may detect the input key voltage and control the ignition key voltage output by the ignition key voltage output unit 132. That is, if the rising edge of the input key voltage is detected by the ignition key voltage detection unit 121 when the automatic mode is set, the ignition key voltage of any one of the ignition key voltages set in advance is stored in the ignition key voltage output unit ( If the falling edge of the input key voltage is detected by the ignition key voltage detector 121, an ignition key voltage other than the ignition key voltage currently being output is supplied to the ignition key voltage output unit 132. Can be prepared for output. In addition, when the rising edge of the input key voltage is detected by the ignition key voltage detection unit 121, the ignition key voltage selected by the waveform selection unit 112 among preset ignition key voltages stored in the manual mode is set. If the falling edge of the input key voltage is detected by the ignition key voltage detection unit 121 and is output by the ignition key voltage output unit 132, the ignition key voltage output unit 132 continues to be output. Can be prepared to be printed by

Meanwhile, the central processing unit 122 receives a signal from the key voltage input unit 150, the driving voltage input unit 160, the controller 110, and the ignition key voltage detector 121, and accordingly receives the ignition key voltage. The ignition key voltage output unit 132 may be controlled to output.

The output unit 130 includes an ignition key voltage output unit 132 and a discharge unit 131, and simulates the operation of the electronic controller 300 for each rising edge of the key voltage when the driving voltage is input. An ignition key voltage can be output. The description of the ignition key voltage output unit 132 is as described above, and the ignition key voltage output unit 132 may output the ignition key voltage to the electronic controller 300.

On the other hand, the output unit 130 may include a discharge unit 131 for removing a distortion component of the ignition key voltage. The ignition key voltage waveform generator 100 may include an element that stores energy by a pulse signal of an ignition key voltage, which is undesirable in design by an on / off of a pulse signal when an ignition key voltage is generated. Energy storage may be present in the device to distort the signal. In particular, such a phenomenon may be remarkable when the pulse period is very short. When the pulse signal is turned off after the pulse signal is turned on, undesired energy stored in the design should be discharged. The distortion component can be removed.

The ignition key voltage waveform generator 100 according to the present invention may further include a display unit 140 for displaying a current state output by the ignition key voltage output unit 132. The display unit 140 may include a driving voltage or It may include a power state display unit 141 for displaying the input state of the key voltage, and a pulse information display unit 142 for displaying information on the ignition key voltage output from the ignition key voltage output unit 132. The pulse information display unit 142 may include information on the ignition key voltage currently being output by the ignition key voltage output unit 132, for example, whether the ignition key voltage output unit 132 is currently outputting the ignition key voltage, and a preset pulse. The number of pulses in the waveform can be displayed.

2 is a schematic block diagram of an electronic control apparatus 300 simulation system 500 according to an embodiment of the present invention, and FIG. 3 is a schematic diagram of an electronic control apparatus 300 simulation system 500 according to an embodiment of the present invention. A diagram of equipment and connections thereof. Hereinafter, descriptions of parts overlapping with the description of FIG. 1 will be omitted.

2 to 3, the electronic control device 300 simulation system 500 according to the present invention is a simulator for simulating the operation of the power supply 200, the electronic control device 300 for supplying a driving voltage ( 400, and an ignition key voltage waveform generator 100 driven by the power supply 200 and synchronized with the simulator 400 to input an ignition key voltage to the electronic control device 300. The generator 100 generates a key voltage including a rising edge and a falling edge as a pulse signal synchronized with the driving voltage input unit 160 for inputting a driving voltage and the simulator 400. A control unit 120 for controlling generation of an ignition key voltage input to the input key voltage input unit 150, the electronic control device 300 according to the input driving voltage and the key voltage, and an electronic control device ( Mock up of 300) And an output unit 130 for outputting the ignition key voltage, which is a pulse signal for testing, to the rising edge of the key voltage, and preparing the ignition key voltage, which is the next pulse signal, on the falling edge of the key voltage.

The simulator 400 should be electrically connected to the electronic control device 300 to be simulated, and can be electrically connected by mounting the electronic control device 300 inside the simulator 400. In addition, since the ignition key voltage waveform generator 100 must be electrically connected to the simulator 400 and the power supply 200, the ignition key voltage waveform generator 100 is connected to the power supply 200 so as to be connected to the driving voltage input unit. A first port formed at the 160 to receive the driving voltage, a second port formed at the key voltage input unit 150 to be connected to the simulator 400, and connected to the electronic controller 300. It may include a third port formed in the output unit 130 to output the ignition key voltage to the electronic control device (300).

Accordingly, as shown in FIG. 3, the first port may be formed at one side of the ignition key voltage waveform generator 100 to be electrically connected to the power supply 200, and the second port may be connected to the simulator 400. The 410 may be electrically connected to the terminal 420 of the simulator 400, and the third port may be electrically connected to the terminal 430 of the electronic control device 300 of the connection part 410 of the simulator 400.

The driving voltage input unit 160 may input power required for driving from the power supply 200, and the ignition key voltage waveform generator 100 may be driven by the input driving voltage.

The simulator 400 simulates normal operation according to various environments with respect to the electronic control device 300 that is the target of the simulation test. In this case, the ignition key voltage waveform generating device 100 performs various ignitions on the electronic control device 300. Since the simulator 400 applies the key voltage and simulates the operation of the electronic controller 300 accordingly, the ignition key voltage waveform generator 100 and the simulator 400 must be synchronized. Therefore, the simulator 400 and the ignition key voltage waveform generator 100 are synchronized by the key voltage, and information such as the ignition key voltage output from the ignition key voltage waveform generator 100 is transmitted to the simulator 400. Can be.

That is, the key voltage input unit 150 may be connected to the simulator 400 to receive the key voltage from the simulator 400. In this case, the key voltage may be input in the form of a pulse signal, which may be a pulse signal including a rising edge and a falling edge.

The controller 120 may control generation of the ignition key voltage input to the electronic controller 300 according to the input driving voltage and the key voltage. That is, even when the key voltage is input, the ignition key voltage is not generated when the driving voltage is not input. When the driving voltage is input, the controller 120 may control the ignition key voltage to be output according to the key voltage.

The output unit 130 may output an ignition key voltage that is a pulse signal for simulating the operation of the electronic control apparatus 300 for each of the rising edge and the falling edge of the key voltage when the driving voltage is input.

The output unit 130 outputs a predetermined ignition key voltage at the rising edge of the input key voltage and outputs a distortion component of the ignition key voltage output unit 132 and the ignition key voltage inputted to the electronic controller 300. It may include a discharge unit 131 to be removed.

The ignition key voltage output unit 132 outputs one of the pulses of the predetermined ignition key voltage at the rising edge of the input key voltage, and outputs the other one of the pulses of the predetermined ignition key voltage at the falling edge of the input key voltage. You can prepare to.

The electronic control device 300 simulation system 500 according to the present invention may further include an adjusting unit 110 for adjusting the control unit 120 by a user.

The controller 110 selects one of an automatic mode for sequentially outputting pulses of a predetermined ignition key voltage or a manual mode for outputting only a pulse of one selected ignition key voltage, and a manual mode. In the waveform selection unit 112 to select one of the pulses of the predetermined ignition key voltage to be output, and the ignition key voltage output unit by the automatic / manual selection unit 111 or waveform selection unit 112 ( It may include a reset unit 113 for resetting the output of the 132 to the initial state.

The electronic control device 300 simulation system 500 according to the present invention may further include a display unit 140 displaying a current state output by the ignition key voltage output unit 132.

The display unit 140 includes a power state display unit 141 which displays an input state of a driving voltage or a key voltage, and a pulse information display unit 142 which displays information on the ignition key voltage output from the ignition key voltage output unit 132. It may include.

Although the present invention has been shown and described with reference to the preferred embodiments as described above, it is not limited to the above embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes, substitutions, and modifications may be made by the present invention. Such changes, substitutions, and modifications should be regarded as falling within the claims of the present invention.

100: ignition key voltage waveform generator
110: control unit 120: control unit
130: output unit 140: display unit
150: key voltage input unit 160: driving voltage input unit
200: power supply 300: electronic control unit (ECU)
400: Simulator
500: Electronic Control System Simulation System

Claims (11)

A driving voltage input unit configured to input a driving voltage supplied by the power supply;
A key voltage input unit configured to input a key voltage including a rising edge and a falling edge as a pulse signal synchronized with the simulator;
A controller configured to control generation of an ignition key voltage input to an electronic controller according to the input driving voltage and key voltage; And
An output unit for outputting an ignition key voltage, which is a pulse signal for simulating the operation of the electronic controller, on the rising edge of the key voltage, and preparing an ignition key voltage, which is the next pulse signal, on the falling edge of the key voltage;
Ignition key voltage waveform generator comprising a.
The method of claim 1,
The output
An ignition key voltage output unit configured to output a predetermined ignition key voltage to each of the rising edges of the input key voltage and input the same to the electronic controller; And
A discharge unit for removing a distortion component of the ignition key voltage;
Ignition key voltage waveform generator comprising a.
3. The method of claim 2,
Ignition key voltage output unit
Outputs one of pulses of the predetermined ignition key voltage at the rising edge of the input key voltage,
And an output key voltage waveform generating device configured to output another one of the pulses of the predetermined ignition key voltage at the falling edge of the input key voltage.
3. The method of claim 2,
Further comprising a control unit for adjusting the control unit by a user,
The controller
An automatic / manual selection unit for selecting one of an automatic mode for sequentially outputting pulses of the predetermined ignition key voltage or a manual mode for outputting only a pulse of one selected ignition key voltage;
A waveform selector which selects one pulse to be output from among pulses of the predetermined ignition key voltage in the manual mode; And
A reset unit for resetting the output of the ignition key voltage output unit by the automatic / manual selection unit or the waveform selection unit to an initial state;
Ignition key voltage waveform generator comprising a.
3. The method of claim 2,
The display device may further include a display unit configured to display a current state output by the ignition key voltage output unit.
The display unit
A power state display unit displaying an input state of the driving voltage or the key voltage; And
A pulse information display unit displaying information on the ignition key voltage output by the ignition key voltage output unit;
Ignition key voltage waveform generator comprising a.
A power supply for supplying a driving voltage, a simulator for simulating the operation of the electronic control device, and an ignition key voltage waveform generator driven by the power supply and synchronized with the simulator to input an ignition key voltage to the electronic control device. Including,
The ignition key voltage waveform generator
A driving voltage input unit to input the driving voltage;
A key voltage input unit configured to input a key voltage including a rising edge and a falling edge as a pulse signal synchronized with the simulator;
A controller configured to control generation of an ignition key voltage input to an electronic controller according to the input driving voltage and key voltage; And
An output unit for outputting an ignition key voltage, which is a pulse signal for simulating the operation of the electronic controller, on the rising edge of the key voltage, and preparing an ignition key voltage, which is the next pulse signal, on the falling edge of the key voltage;
Electronic control device simulation system comprising a.
The method according to claim 6,
The ignition key voltage waveform generator
A first port formed in the driving voltage input unit to receive the driving voltage so as to be connected to the power supply;
A second port formed in the key voltage input unit to receive the key voltage so as to be connected to the simulator; And
A third port formed in the output unit to be connected to the electronic controller and outputting the ignition key voltage to the electronic controller;
Electronic control device simulation system comprising a.
The method of claim 7, wherein
The output
An ignition key voltage output unit configured to output a predetermined ignition key voltage at the rising edge of the input key voltage to the electronic controller; And
A discharge unit for removing a distortion component of the ignition key voltage;
Electronic control device simulation system comprising a.
The method of claim 8,
Ignition key voltage output unit
Outputs one of pulses of the predetermined ignition key voltage at the rising edge of the input key voltage,
And at the falling edge of the input key voltage, prepare to output another one of the pulses of the predetermined ignition key voltage.
The method of claim 8,
Further comprising a control unit for adjusting the control unit by a user,
The controller
An automatic / manual selection unit for selecting one of an automatic mode for sequentially outputting pulses of the predetermined ignition key voltage or a manual mode for outputting only a pulse of one selected ignition key voltage;
A waveform selector which selects one pulse to be output from among pulses of the predetermined ignition key voltage in the manual mode; And
A reset unit for resetting the output of the ignition key voltage output unit by the automatic / manual selection unit or the waveform selection unit to an initial state;
Electronic control device simulation system comprising a.
The method of claim 8,
The display device may further include a display unit configured to display a current state output by the ignition key voltage output unit.
The display unit
A power state display unit displaying an input state of the driving voltage or the key voltage; And
A pulse information display unit displaying information on the ignition key voltage output by the ignition key voltage output unit;
Electronic control device simulation system comprising a.

Images