Commutator assembly apparatus for hall sensor devices

Details Commutator assembly apparatus for hall sensor devices Commutator assembly apparatus for hall sensor devices

1998-12-15

2001-05-01

Tamai, Karl (Department: 2834)

Electrical generator or motor structure

Dynamoelectric

Rotary

C310S071000, C310SDIG006, C324S207200, C324S207250

Reexamination Certificate

active

06225716

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to a commutator or position sensing apparatus utilizing magnetically sensitive elements. The present invention relates specifically to motor commutator assemblies sensing ring magnets which pass before packaged Hall sensing elements. The present invention may also be adapted to linear rather than rotary position sensing schemes.
2. Description of the Related Art
A commutator, for present purposes, is defined as an electrical device which takes the changing magnetic signals of an object to be sensed and converts them to electrical signals whereby the position of the target object can be known. As the need for ever increasing sensitivity of position sensing becomes finer, such as in control motor applications or automotive brake sensing systems, the need for accurate placement of Hall or other magnetic sensors becomes greater. Prepackaged Hall sensors, while economical, may not have placement accuracy to accomplish fine position control utilizing known systems.
In the past, commutator boards have located the prepackaged Hall sensors by aligning their plastic packages. However, the plastic package is located around the leadframe of the Hall element with less accuracy than that with which the Hall element is placed on an individual lead of the leadframe. Referencing
FIG. 1
, a prepackaged Hall sensor
11
will consist of the leadframe having three leads
13
,
15
,
17
on which is placed the magnetically sensitive Hall effect silicon die
19
, usually on the center lead
15
. The leadframe including the silicon
19
is then packaged for protection with plastic casing
21
. However, the molding of the plastic casing is generally held to a much looser tolerances than the placement of the silicon die
19
on the leadframe. That is, the plastic package
21
may be skewed left or right or tilted so that the center of the package or plastic case
21
does not correspond with the true center position of the silicon die
19
on the leadframe as indicated by the dashed line
23
.
However, most known position sensing assemblies using prepackaged Hall sensors locate the position of the Hall element according to the plastic case
21
, when a positioning bracket is provided. If a positioning bracket is not provided, the prepackaged Hall sensors are located according to the hole placement on a printed circuit board (PCB) to which such sensors are mounted. However, this is an undesirable situation in that the Hall sensor packages themselves are exposed to misplacement through bumping, bending, or the like in any of a variety of orientations. Also, fixturing of the prepackaged Hall sensors to the PC board is problematic. Further, the known protective placement brackets do not orient the sensors in all axes sufficiently to provide ease of manufacturing assembly and reliable center-to-center distance of the Hall sensors.
It is therefore desirable that a bracket assembly be developed that accurately orients the silicon die of the Hall sensor with respect to each other in as many axes as possible while protecting the placement of the Hall sensors and providing for ease of manufacturability.
SUMMARY OF THE INVENTION
The present invention solves these problems by providing a commutator assembly bracket with encasement for the prepackaged Hall sensors. Each encasement has bosses or extrusions on a backwall thereof which provide a center lead guide slot therebetween in order that the Hall effect silicon dies may be spaced from each other according to their accurate placement on the center lead of the leadframe rather than according to the plastic casing of the prepackaged Hall sensor. The encasement is constructed so that the front wall is partially open, so as not to interfere with the magnetic transients which the Hall element senses. The center guide extrusions are further constructed at a height so as to place the silicon dies at a consistent height and the sidewalls of the encasement protect the Hall package from bumps which may shift it side to side. Thus the present invention provides a commutator assembly having a bracket for consistent placement and protection of the Hall sensor packages with great accuracy between the Hall effect silicon die. The bracket provides ease of placement and assembly for the Hall sensor packages during manufacture of the commutator assembly.


REFERENCES:
patent: 4847527 (1989-07-01), Dohogne
patent: 5319277 (1994-06-01), Materne et al.
patent: 5581179 (1996-12-01), Engel et al.
patent: 58-092865 (1983-06-01), None
Websters's New Riverside Dictionary, p. 898, Definition of “Plane”, 1994.

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