KR20190032768A - Method and apparatus for fuse integration based on intermittent load current and motion control - Google Patents

Abstract

The present invention provides a fuse integration method based on current and motion control of an intermittent load and an apparatus thereof. The fuse integration apparatus based on current and motion control of an intermittent load comprises: an ER BOX distributing power; an integrated gateway and power module (IGPM) separately supplying the distributed power to a load; a load controller controlling an intermittent load based on current control of the IGPM; and an intermittent load module operated by corresponding to the current control of the load controller. The IGPM includes: a fuse integrated based on an actual usage pattern; an IGPM MCU calculating consumption current of the fuse in accordance with an operation of the intermittent load module; and an IPS supplying additional power for the operation of the intermittent load module based on a fail-safe function.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method and apparatus for fuse integration based on current and motion control of an intermittent load,

The present invention relates to a fuse integrating method and apparatus based on current and motion control of an intermittent load.

Generally, when designing the power distribution system of the power distribution unit, the fuse and load consumption current calculation method can be designed based on the current sum of all the long-term loads and the fuse capacity based on the sum of the currents in the normal operation state for the intermittent load.

1 is a view showing a conventional power distribution device.

Referring to FIG. 1, the IGPM 120 may be separately supplied to a noise load and an integrated circuit load of battery power branched from the ER BOX 110.

The first motor load module 141 can be controlled via the communication LIN of the load controller 130 and can be controlled through an external switch of the second motor load module 143.

Further, the load fuse included in the IGPM can be designed by the sum of the normal operating currents of the load.

However, the conventional power distribution device has a problem that there is no protection device against the bad use condition of the load.

The present invention proposes a fuse integrating method and apparatus based on current and operation control of an intermittent load.

More specifically, we analyze fuse and PCB pattern of intermittent load through actual use pattern analysis, and provide fuse breakdown prevention and fail-safe function through current control and operation control of intermittent load.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an apparatus for integrating a fuse, the apparatus comprising: an ER BOX for distributing power; an IGPM for supplying the divided power to a load; A load controller for controlling the intermittent load based on the actual usage pattern; and an intermittent load module operating in accordance with the current control of the load controller, wherein the IGPM includes an integrated fuse based on the actual usage pattern, An IGPM MCU for calculating the current consumption in the fuse; And an IPS supplying an auxiliary power for operation of the intermittent load module based on a fail safe function.

According to an embodiment, the IGPM MCU may determine whether the current consumption of the calculated intermittent load module exceeds the allowable capacity of the fuse.

According to an embodiment, the IGPM MCU may further comprise the step of operating the intermittent load module if the current consumption of the intermittent load module satisfies an allowable capacity of the fuse.

According to an embodiment, the IGPM MCU calculates a current target value of the operated intermittent load module to protect the fuse from breakage when the consumption current does not satisfy the fuse capacity, A control signal for limiting the operation of the intermittent load can be generated.

According to the embodiment, when the fuse is broken due to a failure of the intermittent load module, the IGPM MCU may drive the IPS corresponding to the broken fuse and determine whether the operation current of the IPS is normal.

According to the embodiment, when the power supply of the IPS is normal, the IGPM MCU may generate a control signal to provide notification of the fuse breakdown state.

According to an embodiment, when the power supply of the IPS is not normal, the IGPM MCU may block the operation of the failed intermittent load module and generate a control signal to provide a notification of the failure status of the intermittent load module.

According to an embodiment, the IPS may supply an auxiliary power source to the intermittent load module instead of the broken fuse.

According to an embodiment, a fuse integrating device based on the current and operation control of an intermittent load includes an ER BOX for distributing power, an IGPM for supplying the divided power to a load, an intermittent load based on current control of the IGPM And an intermittent load module that operates in response to the current control of the load controller, wherein the IGPM performs an IGPM MCU and a fuse function for calculating a consumption current of the intermittent load module, and based on the fail safe function And a large-capacity IPS for supplying an auxiliary power for the operation of the intermittent load module.

According to the embodiment, the fuse integrating device based on the current and operation control of the intermittent load includes an ER BOX for distributing the power, a load controller for supplying the divided power to the load and controlling the intermittent load, And an IGPM for calculating a consumption current of the intermittent load module, wherein the load controller performs a fuse function, and the auxiliary controller for operating the intermittent load module based on the fail safe function And may include a large-capacity IPS that supplies power.

A fuse integrating method based on current and operation control of an intermittent load according to an embodiment of the present invention includes a step of distributing power to an ER BOX, a step of supplying IGPM separately from the distributed power source to a load, Controlling the intermittent load based on the current control of the IGPM, and operating the intermittent load module in response to the current control of the load controller.

According to an embodiment, the IGPM may further comprise calculating the consumption current of the intermittent load module.

According to an embodiment, it can be determined whether the current consumption of the calculated intermittent load module exceeds the allowable capacity of the fuse.

According to an embodiment, when the current consumption of the intermittent load module satisfies the allowable capacity of the fuse, the intermittent load module may be operated.

Calculating a current target value of the operated intermittent load module in order to protect the fuse from breakage if the consumption current does not satisfy the fuse capacity, And generating a control signal to limit the operation.

The method may further include driving the IPS corresponding to the broken fuse when the fuse is broken due to a failure of the intermittent load module, and determining whether the operation current of the IPS is normal.

According to an embodiment, when the power supply of the IPS is normal, the method may further include generating a control signal to provide a notification of a fuse failure state.

According to an embodiment of the present invention, the method may further include, when the power supply of the IPS is not normal, interrupting the operation of the failed intermittent load module and generating a control signal to provide a notification of the failure state of the intermittent load module have.

According to an embodiment, the method may further include supplying an auxiliary power source to the intermittent load module instead of the broken fuse.

Effects of the fuse integrating method and apparatus based on the current and operation control of the intermittent load according to the present invention will be described as follows.

First, there is an advantage of reducing the fuse cost according to the decrease in the number of fuses to be used according to the fuse integration of the load independent fuses.

Second, there is an advantage in that the weight decreases as the number of fuses and the PCB size decrease.

Third, there is an advantage that the wire cost and weight are reduced according to the load power wire branch point.

The effects obtained by the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those skilled in the art from the following description will be.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention. It is to be understood, however, that the technical features of the present invention are not limited to the specific drawings, and the features disclosed in the drawings may be combined with each other to constitute a new embodiment.
1 is a view showing a conventional power distribution device.
2 is a block diagram illustrating a fuse integrating device based on current and motion control of an intermittent load in accordance with one embodiment of the present invention.
3 is a current control block diagram based on simultaneous operation of an intermittent load in accordance with an embodiment of the present invention.
4 is a flow chart of current control based on simultaneous operation of an intermittent load in accordance with one embodiment of the present invention.
5 is a current control block diagram of a fail-safe operation according to an embodiment of the present invention.
6 is a flowchart illustrating a current control of a fail-safe operation according to an exemplary embodiment of the present invention.
Figure 7 illustrates a fuse integrating device based on current and motion control of an intermittent load in accordance with another embodiment of the present invention.
8 is a diagram illustrating a fuse integrating device based on current and operation control of an intermittent load according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and various methods to which embodiments of the present invention are applied will be described in detail with reference to the drawings. The suffix " module " and " part " for the components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

In the description of the embodiment, in the case of being described as being formed on the "upper or lower", "before" or "after" of each component, (Lower) " and " front or rear " encompass both that the two components are in direct contact with each other or that one or more other components are disposed between the two components.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It is to be understood that the element could be "connected," "coupled," or "connected."

It is also to be understood that the terms such as " comprises, " " comprising, " or " having ", as used herein, mean that a component can be implanted unless specifically stated to the contrary. But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

2 is a block diagram illustrating a fuse integrating device based on current and motion control of an intermittent load in accordance with one embodiment of the present invention.

The fuse integrating device based on the current and operation control of the intermittent load may include an ER BOX 210, an integrated gateway & power module 220, a load controller 230, and intermittent load modules 240, 250 and 260.

The ER BOX 210 may divide the power supply into a plurality of power sources B + and transmit the power to the IGPM 220.

For example, the first power source B + may be coupled to an IPS (Intelligent Power Switch) 223. For example, the second power source B + 2 may be coupled to the integrated fuse 225. [ The power may be transmitted to the first and second intermittent load modules 240 and 250. For example, the branched fifth power B + 5 may be connected to the individual fuse 229. In addition, The ER BOX 210 can distribute power over a long term load.

The IGPM 220 can supply power distributed from the ER BOX 210 to the load. The IGPM 220 may include an IGPM MCU 221, fuses 225 and 229, and IPSs 223 and 227.

The IGPM MCU 221 can communicate with the load controller 230 and the load via the B-CAN. The IGPM MCU 221 can communicate with the IPS 223 via a SPI (Serial Peripheral Interface). The IGPM MCU 221 can calculate the consumption current consumed by the fuse according to the load operation. The IGPM MCU 221 can determine whether the calculated consumption current of the intermittent load module exceeds the allowable capacity of the fuse.

For example, when a plurality of loads are operating, the IGPM MCU 221 can calculate the consumption current of the load. Then, it can be determined whether the calculated consumption current of the intermittent load modules 240, 250 exceeds the allowable capacity of the fuse.

At this time, if the current consumed in the load exceeds the allowable capacity of the fuse, the IGPM MCU 221 can generate a control signal for protecting the fuse.

Further, when the consumption current of the intermittent load module satisfies the allowable capacity of the fuse, the IGPM MCU 221 can generate the control signal to operate the intermittent load module.

The IGPM MCU 221 can receive the fault information of the intermittent load from the load controller 230. For example, if the fuse is broken due to a failure of the intermittent load module, the IGPM MCU 221 may drive the IPS 223 corresponding to the broken fuse.

At this time, when the power supply of the IPS 223 is normal, the IGPM 220 may generate a control signal to provide a notification of the fuse breakdown state.

If the power supply of the IPS 223 is not normal, the IGPM 220 may block the operation of the failed intermittent load module and generate a control signal to provide a notification of the fault condition of the intermittent load module .

The IPS 223 can operate as a fail-safe function. That is, the IPS 223 may be configured for the auxiliary power supply when the fuse is damaged due to load damage or failure.

For example, when the fuse is broken, the IPS 223 may supply an auxiliary power to the intermittent load module instead of the broken fuse.

Fuses may be deployed based on load cell usage patterns. The fuses may be composed of a plurality of fuses.

The fuse can be configured based on load room usage pattern analysis via VDMS CAN data analysis. At this time, the fuse can be designed based on the power scheme diagram through a probability-based algorithm.

Fuses can be integrated based on load cell usage patterns. At this time, the integration of the fuses can be integrated among the loads having a low probability of simultaneous use based on the big data probability. At this time, the current allowable amount of the integrated fuse may be the sum of the normal operating current of the intermittent load.

The load controller 230 may include a load controller MCU 231.

The load controller 230 may receive a control signal from the IGPM 220 to control the current control operation of the intermittent load module.

The intermittent load module can be controlled by the communication (LIN) of the controller.

The load controller 230 may receive a fault condition from the intermittent load module and send the fault information to the IGPM 220. [

The load controller 230 may transmit a control signal to block the operation of the failed load.

Each of the intermittent load modules 240, 250, and 260 may include an intermittent load motor and an intermittently loaded MCU that controls the motor.

The intermittent load MCU can perform the current control operation through the communication of the control signal of the upper load controller 230 with the LIN (Local Interconnect Network) and the B-CAN of the IGPM 220.

3 is a current control block diagram based on simultaneous operation of an intermittent load in accordance with an embodiment of the present invention.

3, when the first intermittent load module 240 and the second intermittent load module 250 are used at the same time, the load controller 230 can receive the consumption current information of the load through the LIN communication .

The load controller 230 can transmit consumption current information of the first and second intermittent loads 243 and 253 to the IGPM MCU 221 via CAN communication.

The IGPM MCU 221 can calculate the consumption current consumed in the integrated fuse 225 corresponding to the consumption current information of the first and second intermittent loads 243 and 253. The IGPM MCU 221 can determine whether the current consumption of the first and second intermittent loads 243 and 253 exceeds the allowable capacity of the integrated fuse 225. [

The IGPM MCU 221 can generate a control signal for protecting the fuse when the current consumed in the load exceeds the allowable capacity of the integrated fuse 225. [

The IGPM MCU 221 may return to its original state after temporarily limiting the load.

For example, the intermittent load module may be temporarily limited according to the control signal. That is, the speeds of the motors of the first and second intermittent load modules 240 and 250 may be temporarily lowered. After that, it can return to the original speed.

This is repeated so that the sum of the currents consumed by the first and second intermittent load modules 240 and 250 can be controlled to satisfy the capacity of the integrated fuse 225.

The IGPM 220 may then send a current control signal to the load controller MCU 231 so that the load operates simultaneously.

The load controller MCU 231 may transmit a current control signal to each of the first and second intermittent load modules 240 and 250 corresponding to the current control signal.

Each of the intermittent load MCUs 241 and 251 can operate each of the intermittent loads 243 and 253 in response to the current control operation received from the load controller MCU 231. [

4 is a flow chart of current control based on simultaneous operation of an intermittent load in accordance with one embodiment of the present invention.

4, the load controller 230 can confirm the operation of the plurality of intermittent loads 243 and 253, and can receive the current consumption of each of the intermittent load modules 240 and 250. FIG. The load controller 230 may then deliver the respective current consumption to the IGPM 220. The IGPM 220 can calculate the consumption current due to the simultaneous use of the intermittent loads 243 and 253 (S110).

The IGPM 220 can determine whether the current consumption due to the simultaneous use of the intermittent loads 243 and 253 satisfies the capacity of the integrated fuse 225 at step S120.

The IGPM 220 can calculate the current target value to protect the integrated fuse 225 from damage if the consumption current due to simultaneous use exceeds the capacity of the integrated fuse 225. [ The IGPM 220 may generate a control signal to limit the operation of the intermittent load module based on the calculated current target value (S130).

The load controller 230 can control the intermittent load in accordance with the control signal received from the IGPM 220. [ The intermittent load module can perform the current control operation of the intermittent load based on the control of the load controller 230 (S140).

After step S120, if the consumption current is less than the capacity of the fuse, the intermittent load can be operated normally (S150).

5 is a current control block diagram of a fail-safe operation according to an embodiment of the present invention.

If the first intermittent load of the first intermittent load module 240 operates normally and the second intermittent load of the second intermittent load module fails, the integrated fuse 225 may be broken due to failure of the second intermittent load module .

At this time, for example, power may not be supplied to the first intermittent load module and the second intermittent load due to the breakage of the integrated fuse 225. [ Through which the load controller MCU 231 can not receive current consumption from the intermittent load. The IGPM MCU 221 can receive the fault information of the intermittent load through the load controller MCU 231. [ This allows the IGPM MCU 221 to determine the fault condition of the intermittent load.

The IGPM MCU 221 may drive the IPS 223 corresponding to the broken fuse.

At this time, when the power supply of the IPS 223 is normal, the IGPM MCU 221 may generate a control signal to provide a notification of the failure state of the integrated fuse 225 as a notification.

If the power supply to the IPS 223 is not normal, the IGPM MCU 221 interrupts the operation of the failed intermittent load module and generates a control signal to provide a notification of the failure state of the intermittent load module .

The IPS 223 can operate as a fail-safe function. That is, the IPS 223 may be configured for the auxiliary power source when the integrated fuse 225 is damaged due to load damage or failure.

For example, when the fuse is broken, the IPS 223 may supply an auxiliary power to the intermittent load module in place of the broken integrated fuse 225. [

6 is a flowchart illustrating a current control of a fail-safe operation according to an exemplary embodiment of the present invention.

Referring to FIG. 6, when the integrated fuse 225 is damaged due to an external factor such as an intermittent load failure, the failed intermittent load module can transmit a fault state to the IGPM 220 at steps S210 and S220.

The IGPM MCU 221 may drive the IPS 223 to attempt to supply power to the load and determine whether the operating current of the IPS 223 is in a normal state (S230).

If the power supply from the IPS 223 is normal, a notification of damage to the fuse may be provided (S240).

In addition, if the power supply is abnormal in the IPS 223, the failure state notification and the failure load operation can be interrupted (S250).

After step S240 or S250, the auxiliary power can be supplied to the off-fault load (S260).

Figure 7 illustrates a fuse integrating device based on current and motion control of an intermittent load in accordance with another embodiment of the present invention.

7, a fuse integrating device based on the current and operation control of an intermittent load of another embodiment includes an ER BOX 310, an IGPM 320, a load controller 330, intermittent load modules 340, 350 and 360 .

ER BOX 310 can distribute power. The IGPM 320 can supply the divided power to the load. The IGPM 320 may include an IGPM MCU 321 that calculates the current consumption of the intermittent load module.

The IGPM 320 may include a large-capacity IPS (323, 325) functioning as a fuse and supplying an auxiliary power for operation of the intermittent load module based on a fail safe function.

The load controller 330 may control the intermittent load modules 340, 350, and 360 based on the current control of the IGPM.

The intermittent load modules 340, 350, and 360 may operate in response to the current control of the load controller 330.

The large capacity IPSs 323 and 325 may replace the functions of the fuses 225 and 229 and the IPSs 223 and 225 of the IGPM 220 shown in FIG. As a result, the replacement of the fuse with the large capacity IPS can reduce the A / S cost and improve the quality.

8 is a diagram illustrating a fuse integrating device based on current and operation control of an intermittent load according to another embodiment of the present invention.

8, a fuse integrating device based on the current and operation control of an intermittent load of another embodiment includes an ER BOX 410, an IGPM 420, a load controller 430, intermittent load modules 440 and 450 .

ER BOX 410 can distribute power. The IGPM 420 can supply the divided power to the load.

The load controller 430 can control the intermittent load based on the current control of the IGPM 420. [

 The load controller 430 may include a large-capacity IPS 433, 435 that functions as a fuse and supplies auxiliary power for operation of the intermittent load module based on a fail safe function.

The intermittent load modules 440 and 450 may operate in response to the current control of the load controller 430.

The load controller 430 may include the functions of the fuses 225 and 229 and the IPSs 223 and 225 of the IGPM 220 shown in FIG. Thus, the controller of the intermittent load can directly supply power to the load.

Therefore, A / S cost reduction and quality can be improved due to replacement of fuses with large capacity IPS. In addition, there may be advantages in that active control of the power of the load controller becomes feasible.

The method according to an embodiment of the present invention may be implemented as a program for execution on a computer and stored in a computer-readable recording medium. Examples of the computer-readable recording medium include a ROM, a RAM, a CD- Tape, floppy disk, optical data storage system, and the like. The computer readable recording medium may be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And functional programs, code, and code segments for implementing the methods described above can be easily inferred by programmers skilled in the art to which the embodiments belong.

210: ER BOX,
220: IGPM,
230: load controller,
240,250,260: Intermittent load modules

Claims (20)

ER BOX to distribute power;
An Integrated Gateway & Power Module (IGPM) for separating and supplying the divided power to a load;
A load controller for controlling the intermittent load based on the current control of the IGPM;
And an intermittent load module that operates in response to current control of the load controller,
The IGPM
Integrated fuse based on actual use pattern;
An IGPM MCU for calculating current consumption in the fuse according to the operation of the intermittent load module; And
Based on current and operation control of an intermittent load including an IPS supplying an auxiliary power for operation of the intermittent load module based on a fail safe function. The method according to claim 1,
Wherein the IGPM MCU is based on an intermittent load current and operation control to determine whether the calculated current consumption of the intermittent load module exceeds a permissible capacity of the fuse. 3. The method of claim 2,
Wherein the IGPM MCU is further configured to operate the intermittent load module if the current consumption of the intermittent load module satisfies an allowable capacity of the fuse. 3. The method of claim 2,
The IGPM MCU calculates a current target value of the intermittent load module operated to protect the fuse from breakage when the current consumption does not satisfy the fuse capacity, and the operation of the intermittent load corresponding to the current target value Based on current and motion control of an intermittent load that generates a limiting control signal. The method according to claim 1,
The IGPM MCU drives the IPS in response to the broken fuse when the fuse is broken due to a failure of the intermittent load module, and based on the current and operation control of the intermittent load to determine whether the operation current of the IPS is normal Fuse integrated device. 6. The method of claim 5,
Wherein the IGPM MCU is based on a current and an operation control of an intermittent load that generates a control signal to provide a notification of a fuse breakdown state when the power supply of the IPS is normal. 6. The method of claim 5,
The IGPM MCU may be configured to interrupt the operation of the faulty intermittent load module when the power supply of the IPS is not normal and to control the current and operation of the intermittent load to generate a control signal to notify the faulty condition of the intermittent load module Based integrated fuse. 8. The method according to claim 6 or 7,
Wherein the IPS is based on current and operation control of an intermittent load that supplies an auxiliary power source to the intermittent load module instead of the broken fuse. ER BOX to distribute power;
An IGPM for separating and supplying the divided power to a load;
A load controller for controlling the intermittent load based on the current control of the IGPM; And
And an intermittent load module that operates in response to current control of the load controller,
The IGPM
An IGPM MCU for calculating a consumption current of the intermittent load module;
Based on the current and operation control of an intermittent load, including a large-capacity IPS that performs a fuse function and supplies auxiliary power for operation of the intermittent load module based on a fail safe function. ER BOX to distribute power;
A load controller for separating and supplying the divided power to a load and controlling an intermittent load;
An intermittent load module that operates in response to current control of the load controller; And
And an IGPM for calculating a consumption current of the intermittent load module,
The load controller
Based on the current and operation control of an intermittent load, including a large-capacity IPS that performs a fuse function and supplies auxiliary power for operation of the intermittent load module based on a fail safe function. Distributing power to the ER BOX;
The IGPM separating and supplying the divided power to a load;
Controlling a load controller based on current control of the IGPM; And
Wherein the intermittent load module is operated in response to a current control of the load controller. 12. The method of claim 11,
Further comprising the step of the IGPM calculating a consumption current of the intermittent load module. 13. The method of claim 12,
Further comprising the step of determining whether the calculated current consumption of the intermittent load module exceeds the allowable capacity of the fuse. 14. The method of claim 13,
Further comprising the step of operating the intermittent load module when the current consumption of the intermittent load module satisfies an allowable capacity of the fuse. 14. The method of claim 13,
Calculating a current target value of the operated intermittent load module to protect the fuse from breakage if the consumption current does not satisfy the fuse allowable capacity; And
And generating a control signal that limits the operation of the intermittent load in response to the current target value. 12. The method of claim 11,
Further comprising the steps of: driving the IPS corresponding to the broken fuse when the fuse is broken due to a failure of the intermittent load module, and determining whether the operation current of the IPS is normal; Based fuse integration method. 17. The method of claim 16,
Further comprising generating a control signal to provide a notification of a fuse breakdown condition when the power supply of the IPS is normal. 17. The method of claim 16,
Blocking the operation of the failed intermittent load module when the power supply of the IPS is not normal; And
Further comprising generating a control signal to provide a notification of a fault condition of the intermittent load module. ≪ Desc / Clms Page number 21 > The method according to claim 17 or 18,
And supplying auxiliary power to the intermittent load module instead of the broken fuse. ≪ RTI ID = 0.0 > 21. < / RTI > A computer-readable recording medium on which a program for realizing a fuse integrating method based on current and operation control of an intermittent load according to any one of claims 11 to 19 is recorded.

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