EP2777372A1 - Apparatus for making contact with a direction-dependent electrical and/or electronic component, and corresponidng component arrangement - Google Patents

Abstract

The invention relates to an apparatus (20) for making contact with a direction-dependent electrical and/or electronic component (10) comprising a predefined first number of functions with which contact is to be made, having a main body (21) and a predefined first number of first contact elements (23) which are each assigned to a function with which contact is to be made according to a predefined connection assignment and are arranged on the main body (21) with predefined positioning, and to an associated component arrangement having such a contact-making apparatus (20). According to the invention, the first contact elements (23) are positioned on the main body (21) in a rotationally symmetrical manner through an angle of 90°, with the result that no different component-based functions lie on one another when the direction-dependent electrical and/or electronic component (10) is rotated through 90°.

Description

 description

title

 Device for contacting a direction-dependent electrical and / or electronic component and corresponding component arrangement

State of the art

The invention relates to a device for contacting a direction-dependent electrical and / or electronic component according to the preamble of independent claim 1 and of a corresponding component arrangement with such a contacting device according to the preamble of independent claim 5.

At present, a housing including terminal assignment (pinning) is selected for a component according to the criteria of size (cost), short bond lengths, testability. In order to create layouts that can be used by a maximum number of customers, with different requirements, a large number of mounting positions must be kept on the printed circuit board today. This quickly reaches its limits due to limited space available. There are also component-specific additional requirements. In the case of sensors, vibrations / resonances play an important role, which depends on the

Installation location or the screw points of both an electronic control unit (ECU) and the circuit board and the desired direction of detection additionally change.

In the published patent application DE 10 2009 042 653 A1, for example, a method for automatically loading substrates and components in placement devices is described, wherein the components to be assembled and / or individual circuits are specified by a placement program. However, several possible assembly variants can exist for equipping a substrate. Therefore every substrate to be equipped with provided with an individual identifier. In addition, a list of possible assembly variants and configurations is stored for a printed circuit board description. In the mounting device, the individual mounting variant and configuration for the respective substrate is then determined on the basis of this individual identifier of the substrate and predefined for the assembly program of the mounting device. From the assembly program, a sequence for a sequence of placement of the substrate is usually determined, starting from a description for the respective assembly, the so-called circuit board description, which includes, for example, a configuration of the substrate to be loaded, descriptions of the components used, etc.

Disclosure of the invention

The inventive device for contacting a direction-dependent electrical and / or electronic component with the features of independent claim 1 and the corresponding component assembly with the features of independent claim 5 has the advantage that by the use of a 90 ° rotationally symmetrical pin assignment (pinning) at direction-dependent components, the flexibility and the degree of freedom can be massively increased, in which the component or the electronic control unit (ECU) can be used. In addition, layout space can be saved or, more simply, an optimized position can be used. In the context of the present invention, "pinning" is to be understood as meaning the assignment of component-based or component-based functions to the first connection elements of the component or of the component.

Embodiments of the present invention allow a customer to use a standard layout for multiple use cases with different detection directions so that, for example, a rotation rate sensor can also be used for rollover functionality. Since control unit connectors can point in different directions for different customers, a second placement space for the directional electrical and / or electronic component must be provided in the standard layout. The assumptions multiply when one considers that the customers also have different ones

Screw-on positions for a corresponding electronic control unit (ECU), which require that the directional electrical and / or electronic component must be arranged on the right or left of the circuit board. Of the four installation positions, two advances can already be saved in the case of a direction-dependent electrical and / or electronic component with a contacting device which can be rotated by 90 °.

Embodiments of the present invention provide a device for contacting a direction-dependent electrical and / or electronic component, which comprises a predetermined first number of functions to be contacted, having a main body and a predetermined first

Number of first contact elements comprises, which are each assigned according to a predetermined terminal assignment of a function to be contacted and arranged with a predetermined positioning on the base body. According to the invention, the positioning of the first contact elements on the base body is rotationally symmetrical about an angle of 90 °, so that at a

Rotation of the directional electrical and / or electronic component by 90 ° no different component-based functions lie on each other.

Embodiments of a component arrangement according to the invention comprise a direction-dependent electrical and / or electronic component, which comprises a predetermined first number of functions to be contacted, and a component carrier, which has a predetermined layout with a predetermined second number of second contact elements. The direction-dependent electrical and / or electronic component comprises a contact device according to the invention having a main body and a plurality of first contact elements which are each assigned to a function to be contacted according to a predetermined terminal assignment and arranged with a predetermined positioning on the base body. The positioning of the first contact elements on the base body is designed according to the invention rotationally symmetrical at an angle of 90 °, so that upon rotation of the directional electrical and / or electronic component by 90 ° no different component-based functions are superimposed.

Embodiments of the present invention can be used in all areas in which the orientation of components plays a role, as for example in direction-sensitive sensors, such as yaw rate sensors and / or acceleration sensors is the case. The possible uses of such components multiply when using a rotationally symmetrical "pinning." The component carrier can be designed, for example, as a printed circuit board or substrate.

The measures and refinements recited in the dependent claims advantageous improvements of the independent claim 1 device for contacting a directional electrical and / or electronic component and the component arrangement specified in the independent claim 5 are possible.

It is particularly advantageous that the base body can be designed as part of the component housing or as a component socket. This allows a simple implementation of the invention. Depending on the component housing or on the installation situation, the main body can be designed, for example, circular or rectangular, wherein the number of first contact elements can correspond to the first number of functions to be contacted.

In the embodiment of the contacting device as a component base, in which the component is inserted, the pin assignment or the assignment of the first contact elements to be contacted functions of the component can be adapted in an advantageous manner so that the corresponding direction-dependent electrical and / or electronic component the component carrier can be equipped both in a 0 ° orientation and in a 90 ° orientation. As a result, it is advantageously possible to adapt conventional sensor types known from the prior art in order to be able to achieve rotational symmetry.

In an advantageous embodiment of the component arrangement according to the invention, the second number of second contact elements is at least twice as large as the first number of first contact elements selected, wherein in each case a first contact element with two second contact elements is connectable.

In a further advantageous embodiment of the component arrangement according to the invention, the first contact elements are designed as connection pins and the second contact elements as pin recordings. In a further advantageous refinement of the component arrangement according to the invention, the second contact elements are arranged on the component carrier such that the directionally dependent electrical and / or electronic component can be contacted with the component carrier in a first position with a first detection direction or in a second position with a second detection direction. wherein the second detection direction has an angle of 90 ° to the first detection direction. In a further advantageous embodiment of the component arrangement according to the invention a first contact element of the directional electrical and / or electronic component is designed as an orientation element, which is contacted in the first position with a second contact element, which is connected to a first electrical potential, and in the second position is connected to another second contact element which is connected to a second electrical potential, wherein the current orientation of the direction-dependent electrical and / or electronic component and thus the current detection direction can be determined by interrogation of the voltage applied to the orientation element. This advantageously makes possible a simple automatic detection of an unintentional incorrect assembly, ie a mounting of the direction-dependent electrical and / or electronic component with the wrong orientation. For example, the one second contact element can be connected to ground potential, and the other second contact element can be connected, for example, to a supply voltage potential. If the direction-dependent electrical and / or electronic component is then fitted in the first detection direction, then the corresponding first connection element is connected to the ground potential. If the direction-dependent electrical and / or electronic component is rotated by 90 °, then the corresponding first connection element is connected to the supply voltage potential. Thus, the directional electrical and / or electronic component can either recognize itself in which direction it is installed, or the information can be transferred via a further connection element to an evaluation and control unit, which processes the information accordingly. Alternatively, the orientation of the direction-dependent electrical and / or electronic component by means of an automatic optical inspection (AOI: Automatic Optical Inspection) via a carried on the directional dependent electrical and / or electronic component applied imprint.

The pinning of the corresponding Kontaktierungsvornchtung or the directional electrical and / or electronic component can be adapted by embodiments of the present invention so that the directional electrical and / or electronic component on the component carrier in both a 0 ° orientation and in a 90 ° Orientation can be fitted. The "pinning" of the corresponding contacting device satisfies the conditions of rotational symmetry when there are no two different component-based or component-based functions in a 90 ° rotation.

An embodiment of the invention is illustrated in the drawings and will be explained in more detail in the following description. In the drawings, like reference numerals designate components that perform the same or analog functions.

Brief description of the drawings

Fig. 1 shows a schematic sectional view of an embodiment of a component arrangement according to the invention.

2 shows a schematic plan view of an exemplary embodiment of a contacting device according to the invention in a first detection direction (X) for the component arrangement from FIG. 1.

FIG. 3 shows a schematic plan view of the exemplary embodiment of a contacting device according to the invention from FIG. 2 in a second detection direction (Y).

4 shows a schematic plan view of an exemplary embodiment of a component carrier for accommodating the contacting device according to the invention according to FIGS. 2 and 3 for the component arrangement from FIG. 1.

Embodiments of the invention As can be seen from FIGS. 1 to 4, the illustrated exemplary embodiment of a component arrangement 1 according to the invention comprises a direction-dependent electrical and / or electronic component 10, for example a yaw rate sensor or an acceleration sensor which comprises a predetermined first number of functions 12.1 to 18.5 to be contacted, and a component carrier 30, which has a predetermined layout with a predetermined second number of second contact elements 33. The direction-dependent electrical and / or electronic component 10 comprises a contacting device 20 with a main body 21 and a plurality of first contact elements 23, which are each assigned to a function to be contacted 12.1 to 18.5 and arranged with a predetermined positioning on the base body 21 according to a predetermined terminal assignment. According to the positioning of the first contact elements 23 on

Base body 21 rotationally symmetrical executed by an angle of 90 °, so that upon rotation of the direction-dependent electrical and / or electronic component 10 by 90 ° no different component-based functions 12.1 to 18.5 lie on each other.

1, the illustrated direction-dependent electrical and / or electronic component 10 comprises a sensor element 13 arranged within a housing 15 with a predetermined number of functions 12.1 to 18.5 to be contacted, which have corresponding electrical connections 17 to the individual first Contact elements 23 are connected, which are designed as connecting pins in the illustrated embodiment, wherein the number of first contact elements 23 corresponds to the number of functions to be contacted 12.1 to 18.5. In the illustrated embodiment, the main body 32 is rectangular and designed as part of the housing 15 and closes this down. The component carrier 30 is designed in the illustrated embodiment as a printed circuit board with a base body 32, in which the second contact elements 33 are introduced as Pinaufnahmen. In alternative embodiments, not shown, the contacting device 20 can be designed as a component base, in which the component 10 is inserted. As a result, the terminal assignment or the assignment of the first contact elements 23 to the functions to be contacted 12.1 to 18.5 of Component 10 are adapted in an advantageous manner so that the corresponding direction-dependent electrical and / or electronic component 10 can be fitted to the component carrier 30 both in a 0 ° orientation and in a 90 ° orientation. As a result, it is advantageously possible to correspondingly adapt conventional sensor types known from the prior art in order to achieve rotational symmetry.

As is further apparent from FIGS. 2 and 3, for ease of illustration and description, the contacting device 20 is shown as being rectangular and having a predetermined 8x8 pitch with rows A through H and columns 1-8. In this case, the first contact elements 23, which are assigned to be contacted functions 12.1 to 18.5, shown filled in a loading in a first detection direction X and shown hatched when fitted in a second detection direction Y. 2 and 3 respectively show the contacting device 20 according to the invention of the directional electrical and / or electronic component 10. In Fig. 2, the contacting device 20 is aligned in the first detection direction X (transverse direction), i. the corresponding direction-dependent electrical and / or electronic component 10 is aligned so that an associated physical quantity is detected in the displayed first detection direction X. In Fig. 3, the contacting device 20 is rotated through an angle of 90 ° and aligned in the second detection direction Y (vertical direction), i. the corresponding direction-dependent electrical and / or electronic component 10 is aligned so that an associated physical quantity is detected in the displayed second detection direction X.

As is further apparent from FIGS. 2 and 3, the functions 12.1 to 12.6 to be contacted are assigned to the first contact elements 23 at the grid positions A1 to A6, a function 12.1 to be contacted being assigned to a first contact element 23 at the grid position A6, a function The functions 14.1 to 14.6 to be contacted are assigned to the first contact elements 23 at the grid positions B1 and B2 to B7, wherein a function 14.1 to be contacted is a first contact element 23 at the grid position B7 is assigned, a function 14.2 is associated with a first contact element 23 at the grid position B6, etc. The functions to be contacted 16.1 to 16.6 are assigned to the first contact elements 23 at the grid positions G2 to G6 and G8, wherein a function 16.1 to be contacted is assigned to a first contact element 23 at the grid position G8, a function

The functions 18.1 to 18.5 to be contacted are assigned to the first contact elements 23 at the grid positions H3 and H5 to H8, wherein a function 18.1 to be contacted is assigned to a first contact element 23 at the grid position H8 is assigned a function 18.2 a first contact element 23 at the grid position H7, etc.

As can be further seen from FIG. 4, in order to simplify the illustration and the description, the component carrier 30 is shown as rectangular and with a predetermined 8 × 8 grid with the rows A to H and the columns 1 to 8 analogous to the contacting apparatus 20. In this case, the number of second contact elements 33 is twice as large as the number of first contact elements 23, wherein in each case a first contact element 23 of the contacting device 20 can be connected to two second contact elements 33 of the component carrier 30. In the exemplary embodiment shown, the second contact elements 33 of the component carrier 30, which, when equipped with the direction-dependent electrical and / or electronic component 10, which is aligned in the first detection direction X, via corresponding first contact elements 23 to be contacted with functions 12.1 to 18.5, filled out. The second contact elements 33 of the component carrier 30, which are connected to the direction-dependent electrical and / or electronic component 10, which is aligned in the second detection direction Y, via corresponding first contact elements 23 to be contacted with functions 12.1 to 18.5 are shown hatched ,

As is further apparent from FIG. 4, the rotationally symmetric positioning of the first contact elements 23 on the base body 21 by an angle of 90 ° does not result in any different component-based functions 12.1 to 12 when the directional electrical and / or electronic component 10 is rotated by 90 ° 18.5 to each other, since none of the second contact elements 33 with two different functions to be contacted 12.1 to 18.5 is connectable. This means that the second contact elements 33 at a

Be used in the first detection direction X, at a loading piece remain free in the second detection direction Y and vice versa. In order to enable error-free operation of the direction-dependent electrical and / or electronic component 10 independently of the detection direction, the second contact elements 33 of the component carrier 30, which are connectable to the same functions 12.1 to 18.5 to be contacted, are electrically connected to one another.

An exception here form the second contact elements 33 of the component carrier 30, which can be used for automatically determining the orientation of the assembled direction-dependent electrical and / or electronic component 10. For this purpose, a first contact element 23 of the direction-dependent electrical and / or electronic component 10, which is arranged on the contacting device 20 at the grid position H8, used as an orientation element 18.1. Furthermore, the second contact element 33, which is arranged on the component carrier 30 at the grid position H1, is connected to a ground potential, and the second contact element 33, which is arranged on the component carrier 30 at the grid position H8, is connected to a supply voltage potential. If the direction-dependent electrical and / or electronic component 10 is then fitted in the first detection direction X, then the corresponding first connection element 23 arranged at the grid position H8 of the contacting device 20 is arranged with the second contact element 33 arranged at the grid position H8 of the component carrier 30 and thus with the Ground potential connected. If the direction-dependent electrical and / or electronic component 10 is rotated by 90 °, then the corresponding first connection element 23 arranged at the grid position H8 of the contacting device 20 is arranged with the second contact element 33 arranged at the grid position H 1 of the component carrier 30 and thus with the supply voltage potential connected. As a result of the different voltage potentials dependent on the installation position of the direction-dependent electrical and / or electronic component, the direction-dependent electrical and / or electronic component 10 can either recognize itself in which detection direction it is installed, or the information can be transmitted to an evaluation and control unit via a further connection element which processes the information accordingly. Alternatively, the orientation of the direction-dependent electrical and / or electronic component 10 by means of an automatic optical inspection (AOI: Automatic Optical Inspection) via an applied on the directional electrical and / or electronic component 10 imprint done.

Embodiments of the present invention advantageously increase the flexibility and the degrees of freedom for direction-dependent components or components as a result of the rotationally symmetrical terminal assignment at an angle of 90 °. As a result, standard layouts can be created that can be used by a maximum number of customers with different requirements without having to have too many mounting positions on the printed circuit board.

Claims

claims

Device for contacting a direction-dependent electrical and / or electronic component, which comprises a predetermined first number of functions to be contacted (12.1 to 18.5), with a base body (21) and a predetermined first number of first contact elements (23), which according to a predetermined Terminal assignment each assigned to a function to be contacted (12.1 to 18.5) and are arranged with a predetermined positioning on the base body (21), characterized in that the positioning of the first contact elements (23) on the main body (21) rotationally symmetrical executed by an angle of 90 ° is such that upon rotation of the direction-dependent electrical and / or electronic component (10) by 90 ° no different component-based functions (12.1 to 18.5) lie on each other.

Apparatus according to claim 1, characterized in that the base body (32) is designed as part of the component housing (46) or as a component base.

Apparatus according to claim 1 or 2, characterized in that the base body (32) is designed circular or rectangular.

Device according to one of claims 1 to 3, characterized in that the number of first contact elements (23) of the first number of functions to be contacted (12.1 to 18.5) corresponds.

Component arrangement with a direction-dependent electrical and / or electronic component, which comprises a predetermined first number of functions to be contacted (12.1 to 18.5), and a component carrier (30) having a predetermined layout with a predetermined second number of second contact elements (33) , and where the directional dependent electrical and / or electronic component (10) comprises a Kontaktierungsvornchtung (20) having a base body (21) and a plurality of first contact elements (23), which in accordance with a predetermined terminal assignment each assigned to a function to be contacted (12.1 to 18.5) and with a predetermined Positioning on the base body (21) are arranged, characterized in that the Kontaktierungsvornchtung (20) is designed according to one of claims 1 to 4.

Component arrangement according to claim 5, characterized in that the second number of second contact elements (33) is at least twice as large as the first number of first contact elements (23) is selected, wherein in each case a first contact element (23) with two second contact elements (33). is connectable.

Component arrangement according to claim 6, characterized in that the first contact elements (23) are designed as connection pins and the second contact elements (33) as Pinaufnahmen.

Component arrangement according to one of claims 5 to 7, characterized in that the second contact elements (33) are arranged on the component carrier (30), that the direction-dependent electrical and / or electronic component (10) in a first position with a first detection direction (X ) or in a second position with a second detection direction (Y) with the component carrier (30) is contacted, wherein the second detection direction (Y) at an angle of 90 ° to the first detection direction (X).

Component arrangement according to one of claims 5 to 8, characterized in that a first contact element (23) of the direction-dependent electrical and / or electronic component (10) is designed as an orientation element (18.1), which in the first position with a second contact element (H1). is contacted, which is connected to a first electrical potential, and in the second position with another second contact element (H8) is connected, which is connected to a second electrical potential, wherein by interrogating the voltage applied to the orientation element (18.1) the electric potential current orientation of the tion-dependent electrical and / or electronic component (10) and thus the current detection direction (X, Y) can be determined.

10. Component arrangement according to one of claims 5 to 9, characterized in that the direction-dependent electrical and / or electronic component (10) is designed as an acceleration sensor and / or rotation rate sensor, and the component carrier (30) is designed as a printed circuit board.