KR102093683B1 - Power Relay Assembly. - Google Patents

Abstract

The present invention relates to a power relay assembly, and more specifically, the power relay assembly comprises a current measurement sensor unit for measuring current for calculating the remaining capacity of the battery, and an overcurrent prevention circuit unit for controlling the overcurrent of the battery, and generated in the main relay. The present invention relates to a power relay assembly that configures an economizer unit to reduce the intensity of an electromagnetic field to enable accurate measurement of the current measured by the Hall IC type current sensor of the current measurement sensor unit, thereby enabling accurate calculation of the remaining capacity of the battery.

Description

Power Relay Assembly {Power Relay Assembly. }

The present invention relates to a power relay assembly located between a high voltage battery and a load used in an electric vehicle and in charge of connection thereof, in detail, a current measurement sensor unit and an overcurrent prevention circuit unit are provided to calculate the remaining capacity of the high voltage battery It relates to a power relay assembly that measures the current required.

Electric vehicles (EV, HEV, PHEV, BEV) use electricity as the main or auxiliary power, unlike conventional internal combustion engines, and for this purpose, high-voltage batteries are installed and used. At this time, the remaining capacity (SOC) of the high voltage battery is calculated, and the available output of the high voltage battery is determined according to the calculated value.

The present invention requires measurement values of temperature, voltage, and current to calculate the remaining capacity of the high voltage battery and the high voltage battery, and in this case, a mechanical relay that interrupts the current sensor and the power line to measure the current in the form of a module It relates to a power relay assembly consisting of.

Korean Patent Publication No. 10-00003645 (“Hybrid Power Relay Assembly”, hereinafter, Prior Art 1) safely and efficiently arranges various electric elements constituting the power relay in one case to increase the volume occupied by the power relay assembly. A structure that can be reduced is disclosed. However, in the prior art 1, due to the increasingly small size of the power relay assembly, the electromagnetic field generated by the relay is inevitable, and the measurement value error of the current sensor measuring current to calculate the remaining capacity of the high voltage battery may appear. There is a big problem. For this reason, it is also impossible to use the maximum energy of the high voltage battery to the extreme.

In addition, due to the measurement error of the current, an error occurs in the calculation of the remaining capacity of the high-voltage battery, and as a situation of deep discharge or overcharge of the high-voltage battery appears, there is a risk of reduced life, fire, or explosion.

Korean Patent Publication No. 0000364 (Date of Publication 2011.01.03) WO 2010-107655 A9 (Public date 2010.09.23.)

An object of the present invention for solving the above-mentioned problems is to reduce the current measurement error of the current sensor that may appear under the influence of the electromagnetic field by controlling the intensity of the electromagnetic field generated by the main relay, thereby measuring the current for accurate battery voltage calculation. It is possible to provide a power relay assembly that enables the electric vehicle to maximize its original functions.

Power relay assembly according to the present invention (Power Relay Assembly) is connected to the battery unit, the current measurement sensor unit for measuring the current for calculating the remaining capacity (SOC, State of Charge) of the battery, both ends of the battery unit Connected to each of the battery unit and the load, the main relay unit consisting of a first main relay and a second main relay, an overcurrent prevention circuit unit blocking an overcurrent applied to the load from the battery, and a holding current of the main relay unit It comprises an economizer part to control (Holding Current).

The current measurement sensor unit is preferably composed of a Hall IC type current sensor (Hall Integrated Circuit Type Current Sensor).

Preferably, the overcurrent protection circuit unit includes a pre-charge resistor and a pre-charge relay in which the current output from the battery is pre-charged.

It is preferable that the economizer part is connected in series to the coil ends of each main relay of the main relay part, so that the holding current of each main relay is reduced.

The power relay assembly is preferably provided with an economizer portion inside or outside.

The power relay assembly of the present invention according to the above configuration is affected by the electromagnetic field by controlling the intensity of the electromagnetic fields generated in the first main relay and the second main relay of the main relay unit by taking a configuration used as an economizer. The current measurement sensor unit has a great effect of reducing the error of the current value measured by the Hall IC type current sensor.

More specifically, it is possible to accurately calculate the remaining capacity of the high-voltage battery using the current value measured by controlling the intensity of the electromagnetic field generated in the main relay unit. In addition, according to this, it is possible to maximize the original function of the electric vehicle, and also has the effect of reducing the life of the high-voltage battery and reducing the risk of fire and explosion, which can occur in the event of deep discharge or overcharge by calculating the wrong residual capacity. have.

1 is a circuit diagram briefly showing the configuration of a power relay assembly according to an embodiment of the present invention.
2 is a circuit diagram showing in detail the configuration of a power relay assembly according to an embodiment of the present invention.

Hereinafter, the power relay assembly of the present invention will be described in detail with reference to the accompanying drawings. The drawings introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention is not limited to the drawings presented below and may be embodied in other forms. Also, the same reference numbers throughout the specification indicate the same components.

At this time, unless there are other definitions in the technical terms and scientific terms to be used, it has the meanings commonly understood by those skilled in the art to which this invention belongs, and the gist of the present invention in the following description and the accompanying drawings. Descriptions of well-known functions and configurations that may be obscured are omitted.

1 is a circuit diagram briefly showing a configuration of a power relay assembly according to an embodiment of the present invention.

At this time, the power relay assembly 1000 according to an embodiment of the present invention includes a battery unit 100, a current measurement sensor unit 200, a main relay unit 300, an overcurrent prevention circuit unit 400, and an economizer unit ( 500).

The configuration of the power relay assembly according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

As described above, the power relay assembly is located between a large-capacity high-voltage battery and a load, which are generally used in electric vehicles.

The battery unit 100 is mounted inside a vehicle of an electric vehicle to supply electric energy for driving a vehicle. In general, a high voltage battery is widely used.

The load is a device that receives and consumes electric energy from a high voltage battery for driving an electric vehicle.

The current measurement sensor unit 200 is connected to the battery unit 100 to measure the current of the high-voltage battery, at this time, as shown in Figure 2, it can be mounted to the (+) pole terminal of the battery unit 100 have. In addition, the current measurement sensor unit 200 is preferably composed of a Hall IC type current sensor (Hall Integrated Circuit Type Current Sensor) and can measure the current for calculating the remaining capacity of a high voltage battery using a Hall IC type current sensor. have.

At this time, the current measurement sensor unit 200 is not necessarily made of a Hall IC type current sensor, but may be made of a shunt type current sensor. However, since the shunt type current sensor is expensive and is connected in series with a high voltage battery, it is not easy to measure large-capacity power, while the Hall IC type current sensor is low cost, yet has low power consumption and low heat generation in the current sensor itself, thereby miniaturizing it. Since it is possible to produce the power relay assembly 1000, it is more preferable to include a Hall IC type current sensor. In addition, the Hall IC type current sensor of the current measurement sensor unit 200 is sensitive to the surrounding electromagnetic field in measuring current, and is affected by this, and thus the possibility of error in the measured value is large, so EMI (Electromagnetic Interference) and EMC ( Measures are being taken for electromagnetic compatibility, but since the characteristics of the Hall IC type current sensor, which is naturally affected by the surrounding electromagnetic field, are insufficient, it is insufficient to measure the accurate current, and thus further includes an economizer unit 500. Is done.

The overcurrent prevention circuit 400 controls the overcurrent applied from the battery unit 100 and is preferably configured in combination with the main relay unit 300.

Referring to Figure 2 will be described in detail with respect to a specific example of the main relay unit 300, the over-current protection circuit 400 and the economizer 500 of the power relay assembly 1000 according to an embodiment of the present invention. .

The main relay unit 300 may include a first main relay 301 and a second main relay 302, and the over-current protection circuit unit 400 may include a pre-charge resistor 401 and a pitch. A pre-charge relay 402, a fuse 403, and a safety switch 404 may be included. In addition, the economizer unit 500 may include a first economizer 501 and a second economizer 502.

The first main relay 301 and the second main relay 302 are preferably connected in series to the (+) pole terminal and the (-) pole terminal of the battery unit 100, respectively, and each main relay is operated by the user. By connecting the battery unit 100 and the load.

At this time, the Hall IC type current sensor of the current measurement sensor unit 200 may be mounted on the (+) pole terminal or the (-) pole terminal of the battery unit 100.

The pre-charge resistor 401 and the pre-charge relay 402 allow the current output from the high voltage battery of the battery unit 100 to be pre-charged before connecting to the first main relay 301. Through this, it is possible to secure the stability of the circuit by preventing the arc discharge (Arc Discharge) that may be caused by the potential difference when directly connected to the first main relay (301). At this time, it is preferable that the pre-charge relay 401 is connected in parallel with the first main relay 301 and the pre-charge resistor 402 is connected in series to the rear end of the pre-charge relay 401.

The fuse 305 is commonly used as a component that is connected in series to the first main relay 301 and serves as a circuit breaker to prevent excessive current over a prescribed value from flowing into the circuit. The safety switch 306 is preferably connected to the fuse 305 in series, and can secure overall circuit stability.

The economizer unit 500 may be provided inside or outside the power relay assembly 1000, and may include a first economizer 501 and a second economizer 502.

The first economizer 501 is connected in series to the coil end of the first main relay 301 of the main relay unit 300, and the second economizer 502 is the second main of the main relay unit 300. It is connected in series to the coil end of the relay 302, it is possible to reduce the holding current (Holding Current) flowing in each main relay. At this time, the holding current means a minimum current value that continues to operate even if the amount of current flowing through the winding decreases after the main relay operates.

The following table is a table summarizing the values of the holding current flowing in the main relay with or without an economizer.

Voltage applied to the relay Holding current value of main relay without economizer Holding current value of main relay with economizer 12V 700mA 90mA

As can be seen from the results of Table 1 above, a separate economizer is provided in each main relay of the main relay unit 300, thereby reducing the holding current of the main relay, thereby generating the main relay unit 300. The strength of the electromagnetic field can be reduced.

Accordingly, as the generated electromagnetic field is reduced, the influence of the electromagnetic field on the Hall IC type current sensor of the current measurement sensor unit 200 is also reduced, thereby reducing the error of measuring the current for calculating the remaining capacity.

At this time, the intensity of the electromagnetic field can be expressed as the following equation.

F = N ⅹ I

Here, F is the strength (N) of the electromagnetic field, N is the number of turns (T) of the relay coil, and I is the input current (A).

In addition, the power relay assembly 1000 having a relatively simple structure may be possible when the economizer unit 500 is provided outside compared to the power relay assembly 1000 provided with the economizer unit 500 inside.

That is, by providing the economizer unit 500, the power relay assembly 1000 according to the embodiment of the present invention is generated by the first main relay 301 and the second main relay 302 in the main relay unit 300. By controlling the electromagnetic field, it is possible to reduce the error of measuring the current value for calculating the remaining capacity that the Hall IC type current sensor of the current measurement sensor unit 200 may appear under the influence of this electromagnetic field.

As described above, in the present invention, specific matters such as specific components and the like have been described by the limited embodiment drawings, but they are provided only to help the overall understanding of the present invention, and the present invention is not limited to the above embodiments , Anyone having ordinary knowledge in the field to which the present invention pertains can make various modifications and variations from these descriptions.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and should not be determined, and all claims that are equivalent or equivalent to the scope of the present invention as well as the scope of the claims described below will be said to belong to the scope of the spirit of the invention. .

1000: Power Relay Assembly (PRA, Power Relay Assembly)
100: battery unit 200: current measurement sensor unit
300: main relay unit
301: first main relay 302: second main relay
400: circuit for preventing overcurrent
401: pre-charge resistance 402: pre-charge relay
403: fuse 404: safety switch
500: economizer
501: 1st economizer 502: 2nd economizer

Claims (6)

A main relay unit connected to both ends of the battery unit and including a first main relay and a second main relay connecting the battery unit and a load; And
An economizer including a first economizer connected to the coil end of the first main relay and a second economizer connected to the coil end of the second main relay, and controlling an electromagnetic field generated by the main relay unit. It is configured to include;
The economizer part
Power relay assembly that reduces the holding current flowing through each main relay to reduce the electromagnetic field generated by the main relay.
According to claim 1,
The power relay assembly
A current measurement sensor unit connected to the battery unit to measure current;
Further comprising,
The current measurement sensor unit is a power relay assembly consisting of a Hall IC type current sensor (Hall Integrated Circuit Type Current Sensor).
According to claim 1,
The power relay assembly
An overcurrent prevention circuit unit blocking an overcurrent applied to the load from the battery;
Further comprising,
The over-current protection circuit unit is a power relay assembly including a pre-charge resistor, a pre-charge relay, the current output from the battery unit pre-charge (Pre-Charge).
delete According to claim 1,
The economizer unit is a power relay assembly provided inside or outside the power relay assembly.

delete

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