CN213151907U

CN213151907U - Integrated EMI filter for electric vehicle motor controller

Info

Publication number: CN213151907U
Application number: CN202022411724.9U
Authority: CN
Inventors: 李贵生; 王会; 杨友凯; 刘斌; 杜野
Original assignee: Wuxi Zhonghui Automobile Electronic Technology Co ltd
Current assignee: Wuxi Zhonghui Automobile Electronic Technology Co ltd
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-05-07
Anticipated expiration: 2030-10-26

Abstract

The invention discloses an integrated EMI filter for an electric vehicle motor controller, which is characterized in that: the device comprises a positive bus, a negative bus, a magnetic ring, a differential mode capacitor, a common mode capacitor, an insulating plate, a mounting base, a cover plate and potting epoxy resin. The positive bus, the negative bus and the insulating board are combined, namely, electrical isolation and installation limiting are achieved, the EMC capacitor is fixed in a direct current bus mounting hole through tin soldering, the lead inductance of the EMC capacitor is reduced to the minimum, and the runway-shaped magnetic ring and the opposite buckle pass through the combination of the positive bus, the negative bus and the insulating board and are fixed, limited and insulated through the cover plate. EMC capacitors are directly welded on the positive and negative electrode busbars or the sub-busbars, and meanwhile, multipoint grounding is adopted, so that the length of a grounding wire can be reduced to the maximum extent, stray inductance is controlled, and a better EMI filtering effect is realized; the integrated design of the front-end filter circuit and the rear-end filter circuit realizes the standardization and modularization of products.

Description

Integrated EMI filter for electric vehicle motor controller

Technical Field

The invention relates to the technical field of EMI (electro-magnetic interference), in particular to an integrated EMI filter for a motor controller of an electric automobile.

Background

The motor controller and the whole automobile of the electric automobile need to meet the standards of national mandatory requirements (GB/T18387-; the second is to use a special EMI filter, but the existing EMI filter uses a switching filter circuit topology by a switching power supply, is suitable for filtering at the side of a power grid, cannot filter medium-frequency noise, and needs a multi-stage filter circuit if the standard is to be met. However, the multi-stage filtering also causes new problems, such as large grounding displacement length and disordered wiring, which may cause new interference noise, and in addition, the conventional EMI filter has complicated packaging and is not favorable for modular assembly.

Disclosure of Invention

The invention needs to solve the defects of the prior art and provides an integrated EMI filter for a motor controller of an electric automobile.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides an electric automobile is integrated form EMI wave filter for machine controller which characterized in that: the device comprises a positive busbar, a negative busbar, a magnetic ring, a filter capacitor, an insulating plate and an installation base;

an insulating plate is arranged between the positive busbar and the negative busbar, two ends of each of the positive busbar and the negative busbar are respectively provided with a connecting terminal, the positive busbar is provided with a first sub-bar and a second sub-bar, the first sub-bar is provided with two wiring holes, the first sub-bar and the positive busbar are positioned on the same side of the insulating plate, the second sub-bar crosses the insulating plate after being bent, and the end part of the second sub-bar is provided with a wiring hole; the negative electrode bus bar is provided with a third sub-bar, the third sub-bar and the negative electrode bus bar are positioned on the same side of the insulating plate, and the third sub-bar is provided with two wiring holes; the positive busbar and the negative busbar are respectively provided with a movable busbar which is respectively marked as a fourth busbar and a fifth busbar, and each movable busbar is provided with two wiring holes;

three capacitors are respectively arranged on two sides of the insulating plate and are respectively a common-mode filter capacitor C_Y1ACommon mode filter capacitor C_Y1BCommon mode filter capacitor C_Y2ACommon mode filter capacitor C_Y2BDifferential mode filter capacitor C_X1Differential mode filter capacitor C_X2Each capacitor is provided with two binding posts, and the binding posts can be connected with a sub-row or a grounding terminal; two wiring holes on the first sub-row are respectively connected with a common mode filter capacitor C_Y1ASum-and-difference mode filter capacitor C_X2Common mode filter capacitor C_Y1AIs connected to a ground terminal, the differential mode filter capacitor C_X2Is connected with one wiring hole of the fifth sub-row, and the other wiring hole of the fifth sub-row is connected with a common-mode filter capacitor C_Y2BCommon mode filter capacitor C_Y2BThe other binding post of the connecting rod is connected with a grounding terminal; the second sub-row is connected with a differential mode filter capacitor C_X1A binding post, a differential mode filter capacitor C_X1Is connected with one wiring hole of the third sub-row, and the other wiring hole of the third sub-row is connected with a common-mode filter capacitor C_Y1BCommon mode filter capacitor C_Y1BIs connected to the ground terminal, and the fourth sub-row is connected to the common mode filter capacitor C_Y2AOne terminal of (1), a common mode filter capacitor C_Y2AThe other terminal of (b) is connected to a ground terminal:

the number of the magnetic rings is two, one of the magnetic rings is positioned on the magnetic ring sleeve on the positive busbar and the negative busbar, wherein the connecting terminals for input of the positive busbar and the negative busbar are positioned on one side of the magnetic ring, and all the sub-rows and the connecting terminals for output are positioned on the other side of the magnetic ring; the other magnetic ring is sleeved on the fourth sub-row and the fifth sub-row;

all busbars, sub-busbars and capacitors are positioned in the mounting base.

Furthermore, the magnetic rings positioned in the fourth sub-row and the fifth sub-row are formed by a pair of buckled half magnetic rings.

Furthermore, the base is provided with two groove bodies which are respectively positioned at two sides of the insulating plate, and the common mode filter capacitor C_Y1ACommon mode filter capacitor C_Y2BDifferential mode filter capacitor C_X2In one of the tanks, a common mode filter capacitor C_Y1BCommon mode filter capacitor C_Y2ADifferential mode filter capacitor C_X1And the capacitor is positioned in the other groove body, and the groove body is filled and sealed with epoxy resin.

Furthermore, the magnetic ring is made of nickel-zinc ferrite, and the initial magnetic conductivity is 2-9K; wherein the common mode filter capacitor C_Y1ACommon mode filter capacitor C_Y1BHas a capacitance value range of 22 nF-470 nF, and a differential mode filter capacitor C_X1The capacitance value range of the common mode filter capacitor C is 0.1 mu F-2.2 mu F_Y2ACommon mode filter capacitor C_Y2BHas a capacitance value range of 22 nF-470 nF, and a differential mode filter capacitor C_X2The tolerance value range of (a) is 100nF to 3.3 muF.

Furthermore, two grooves are formed in the base and used for placing the two magnetic rings respectively, and cover plates are arranged on the base and used for covering the magnetic rings in the corresponding grooves in a sealing mode.

Furthermore, all the capacitors are dry film capacitors, are mounted in corresponding wiring holes of the sub-rows in a DIP plug-in mode, and are fixed by soldering.

The technical scheme shows that the invention has the following advantages: the design of a multistage filter circuit can better inhibit conduction interference caused by the IGBT switch of the motor controller and inhibit other noises (such as OBC) of the electric automobile; EMC capacitors are directly welded on the positive and negative busbars or the sub-busbars, and meanwhile, multipoint grounding is adopted, so that the length of a grounding wire can be reduced to the maximum extent, stray inductance is controlled to be less than or equal to 10nH, and a better EMI filtering effect is realized; the integrated design of the front-end filter circuit and the rear-end filter circuit realizes the standardization and modularization of products.

Drawings

FIG. 1 is an exploded view of the present invention;

fig. 2 is a schematic connection diagram of the bus bar, the sub-bar and the filter capacitor according to the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings.

As shown in fig. 1 and 2, the integrated EMI filter for an electric vehicle motor controller according to the present invention includes a positive busbar 5, a negative busbar 8, a magnetic ring 2, a filter capacitor 7, an insulating plate 9, and a mounting base 4;

an insulating plate 9 is arranged between the positive busbar 5 and the negative busbar 8, and the insulating plate 9 is used for electrical isolation and installation limiting. The positive busbar and the negative busbar are made of T2Y2 red copper, and each of the positive busbar and the negative busbar is riveted with 2M 6 nuts 10 as input and output connecting terminals. The positive busbar is provided with a first sub-busbar 51 and a second sub-busbar 52, the first sub-busbar 51 is provided with two wiring holes, the first sub-busbar 51 and the positive busbar 5 are positioned on the same side of the insulating plate, the second sub-busbar 52 crosses the insulating plate after being bent, and the end part of the second sub-busbar is provided with one wiring hole; a third sub-bar 81 is arranged on the negative electrode bus bar 8, the third sub-bar 81 and the negative electrode bus bar are positioned on the same side of the insulating plate, and two wiring holes are formed in the third sub-bar 81; the positive busbar and the negative electrode are respectively provided with a movable busbar which is respectively marked as a fourth busbar 53 and a fifth busbar 82, each movable busbar is provided with two wiring holes, the movable busbar is movably connected with the busbar and is switched on when in use without being switched off, in order to realize the functions, the end part of each movable busbar can adopt an elastic sheet structure, the elastic sheet deforms after being stressed to contact with the busbar, and other modes can be adopted. The sub-row and the corresponding bus bar are of an integrated structure, and the impedance of the connecting point is reduced.

Three filter capacitors, namely a common-mode filter capacitor C, are respectively arranged on two sides of the insulating plate_Y1ACommon mode filter capacitor C_Y1BCommon mode filter capacitor C_Y2ACommon mode filter capacitor C_Y2BDifferential mode filter capacitor C_X1Differential mode filter capacitor C_X2Two binding posts are arranged on each capacitor and can be connected with each other through the binding postsA ground row or terminal; two wiring holes on the first sub-row 51 are respectively connected with a common mode filter capacitor C_Y1ASum-and-difference mode filter capacitor C_X2Common mode filter capacitor C_Y1AIs connected to a ground terminal, the differential mode filter capacitor C_X2Is connected to one of the wiring holes of the fifth sub-row 82, and the other wiring hole of the fifth sub-row 82 is connected to the common mode filter capacitor C_Y2BCommon mode filter capacitor C_Y2BThe other binding post of the connecting rod is connected with a grounding terminal; the second sub-row 52 is connected with a differential mode filter capacitor C_X1A binding post, a differential mode filter capacitor C_X1Is connected to one of the wiring holes of the third sub-row 81, and the other wiring hole of the third sub-row 81 is connected to the common mode filter capacitor C_Y1BCommon mode filter capacitor C_Y1BIs connected to the ground terminal, and the fourth sub-row 83 is connected to the common mode filter capacitor C_Y2AOne terminal of (1), a common mode filter capacitor C_Y2AThe other terminal of the first terminal is connected to a ground terminal. All the capacitors are dry film capacitors, DIP plug-in modules are mounted in corresponding wiring holes of the sub-rows, and the capacitors are fixed by soldering, so that the EMC capacitance lead inductance can be reduced to the minimum.

The number of the magnetic rings 2 is two, one of the magnetic rings is positioned on a positive busbar and a negative busbar, the magnetic ring is in an elliptical ring shape, connecting terminals for input of the positive busbar and the negative busbar are positioned on one side of the magnetic ring, and all sub-rows and the connecting terminals for output are positioned on the other side of the magnetic ring; the other magnetic ring is sleeved on the fourth sub-row and the fifth sub-row and is composed of a pair of buckled half magnetic rings. The structure is convenient for installation of the magnetic ring. The base is also provided with two grooves for placing two magnetic rings respectively, and the base is provided with cover plates 1 for sealing the magnetic rings in the corresponding grooves.

All the busbars, the sub-busbars and the filter capacitors are positioned in an installation base 4, two groove bodies are arranged on the base and positioned on two sides of an insulation board respectively, and a common-mode filter capacitor C_Y1ACommon mode filter capacitor C_Y2BDifferential mode filter capacitor C_X2Is located thereinIn a tank, a common mode filter capacitor C_Y1BCommon mode filter capacitor C_Y2ADifferential mode filter capacitor C_X1The groove body is positioned in another groove body, the capacitor is encapsulated by epoxy resin, and an epoxy resin layer 3 is formed above the capacitor to prevent the EMC capacitor from being affected with damp and losing efficacy, welding spot oxidation, vibration cracking and other risks in the using process. The installation base, the insulation board, the cover board 1 and the cover board 2 are made of materials>PBT-30GF<。

The magnetic ring is made of nickel-zinc ferrite, and the initial magnetic conductivity is 2-9K; wherein the common mode filter capacitor C_Y1ACommon mode filter capacitor C_Y1BHas a capacitance value range of 22 nF-470 nF, and a differential mode filter capacitor C_X1The capacitance value range of the common mode filter capacitor C is 0.1 mu F-2.2 mu F_Y2ACommon mode filter capacitor C_Y2BHas a capacitance value range of 22 nF-470 nF, and a differential mode filter capacitor C_X2The tolerance value range of (a) is 100nF to 3.3 muF.

The invention discloses a front-end and rear-end integrated multi-path parallel connection and multipoint grounding type filter, which is mainly characterized in that common-mode filtering electricity is adopted, and the filter has the following advantages:

1. the design of a multistage filter circuit can better inhibit conduction interference caused by the IGBT switch of the motor controller and inhibit other noises (such as OBC) of the electric automobile;

EMC capacitors are directly welded on the positive and negative electrode busbars or the sub-busbars, and meanwhile, multipoint grounding is adopted, so that the length of a grounding wire can be reduced to the maximum extent, stray inductance is controlled to be less than or equal to 10nH, and a better EMI filtering effect is realized;

3. the integrated design of the front-end filter circuit and the rear-end filter circuit realizes the standardization and modularization of products.

Claims

1. The utility model provides an electric automobile is integrated form EMI wave filter for machine controller which characterized in that: the device comprises a positive busbar, a negative busbar, a magnetic ring, a filter capacitor, an insulating plate and an installation base;

all busbars, sub-busbars and capacitors are positioned in the mounting base.

2. The integrated EMI filter for an electric vehicle motor controller according to claim 1, wherein: the magnetic rings positioned on the fourth sub-row and the fifth sub-row are formed by a pair of buckled half magnetic rings.

3. The integrated EMI filter for an electric vehicle motor controller according to claim 1, wherein: the base is provided with two groove bodies which are respectively positioned at two sides of the insulating plate, and the common mode filter capacitor C_Y1ACommon mode filter capacitor C_Y2BDifferential mode filter capacitor C_X2In one of the tanks, a common mode filter capacitor C_Y1BCommon mode filter capacitor C_Y2ADifferential mode filter capacitor C_X1And the capacitor is positioned in the other groove body, and the groove body is filled and sealed with epoxy resin.

4. The integrated EMI filter for an electric vehicle motor controller according to claim 1, wherein: the magnetic ring is made of nickel-zinc ferrite, and the initial magnetic conductivity is 2-9K; wherein the common mode filter capacitor C_Y1ACommon mode filter capacitor C_Y1BHas a capacitance value range of 22 nF-470 nF, and a differential mode filter capacitor C_X1The capacitance value range of the common mode filter capacitor C is 0.1 mu F-2.2 mu F_Y2ACommon mode filter capacitor C_Y2BHas a capacitance value range of 22 nF-470 nF, and a differential mode filter capacitor C_X2The tolerance value range of (a) is 100nF to 3.3 muF.

5. The integrated EMI filter for an electric vehicle motor controller according to claim 2, wherein: the base is also provided with two grooves for placing two magnetic rings respectively, and the base is provided with cover plates for sealing the magnetic rings in the corresponding grooves.

6. The integrated EMI filter for an electric vehicle motor controller according to claim 1, wherein: all capacitors are dry film capacitors, are mounted in corresponding wiring holes of the sub-rows in a DIP plug-in mode, and are fixed by tin soldering.