Registers – Coded record sensors – Particular sensor structure
Reexamination Certificate
1999-04-29
2001-08-28
Frech, Karl D. (Department: 2876)
Registers
Coded record sensors
Particular sensor structure
C360S319000
Reexamination Certificate
active
06279827
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to reducing the magnetic noise received at a magnetic read head. More particularly, it relates to a method, apparatus and article of manufacture for reducing magnetic interference at a magnetic read head by dynamically positioning a piece of highly permeable nickel-copper alloy near the magnetic read head thereby shunting the interfering magnetic radiation away from the read head.
2. Description of the Prior Art
Magnetic Ink characters are characters or symbols which are printed on a document in magnetic ink. Documents containing magnetic ink characters are typically bank checks, deposit slips and other documents. The magnetic ink characters may be printed in a standardized format or font (e.g., “E13B” or “CMC7” font) and are typically located near an edge of a document.
The magnetic ink characters are read by a magnetic head as the head moves across the document or the document is caused to move pass the head. The magnetic signals “picked up” by the head are converted to electrical signals which are processed by a magnetic ink character recognition unit which outputs the characters typically in ASCII or EBCDIC format.
Document processing systems with a MICR capability can be affected by magnetic interference which slows or prevents magnetic ink characters from being read. Magnetic sources, for example electromagnetic coils, generate magnetic fields resulting in interference relative to the magnetic information stored in the magnetic ink portion of a document. These interference signals may arise from nearby equipment such as displays, scanners, the MICR processing system itself, or motors and other electromechanical devices that may be used to move documents, etc.
This is a problem in Point-of-Sale (POS) environments where MICR readers are typically located very near a check out display and where MICR information is obtained from checks tendered by customers. Due to lack of aisle space or the desire to more efficiently utilize floor space POS systems deployment usually result in the MICR or MSR device in close proximity to a CRT or other POS peripheral devices. When a MICR read head is located close to a display device, the display interference caused by the flyback or the retrace signal from the operation of the CRT results in magnetic interference. The deflection coils in the CRT present a significant amount of noise to the MICR read head. Most POS systems also permit the display to be moved which changes the noise characteristics received by the magnetic read head.
One prior art solution to this problem is to use shielding. The source of the radiation, such as a display or other form of coil, is shielded or the magnetic read head itself is shielded or partially shielded. Shielding can be used on the source or the pickup or a combination of both can be utilized. Because complete shielding is not possible, shielding does not eliminate the interference problem but, merely reduces the interference signal picked up by the magnetic read head. Furthermore, shielding is costly to implement given the high cost of the metal shielding material used and the extra steps required to apply shielding during the manufacturing process. Shielding can also cause other problems such as overheating of components.
Another prior art solution is to add a second magnetic read head that is used to measure the magnetic interference signal. The electrical signal generated by the second magnetic read head can then be subtracted from the signal containing both the magnetic interference and the MICR characters. This solution requires a second read head and a means for subtracting one signal from the other. Additionally, this technique is imperfect because the two read heads cannot occupy the same physical space so that the interference signal pickup by the second read head may be substantially different then the interference picked up by the first magnetic read head. This is because the magnetic interference signals are different at the two locations. Thus, the use of two heads can result in self-interference.
Another prior approach is to restrict the user of the MICR or MSR to very specific system arrangements, including acceptable add on products and accessories in the vicinity of the reader as well as their allowable positions. This restricts the user and limits the number and type of add-on products in the user's system configurations.
Each of the above techniques can result in a solution if the source-to-receiver orientation remains fixed. However, in the POS environment the position of the CRT can and does change. Thus any given shielding solution will require some changes for each new position of the CRT.
These unresolved problems and deficiencies are clearly felt in the art and are solved by the invention in the manner described below.
SUMMARY OF THE INVENTION
The above-mentioned needs have been met in accordance with the present invention by providing a method, apparatus and article of manufacture for it relates to a method, apparatus and article of manufacture for reducing magnetic interference at a magnetic read head by dynamically positioning a piece of highly permeable nickel-copper alloy near the magnetic read head thereby shunting the interfering magnetic radiation away from the read head.
An apparatus for decoding magnetically encoded information having a magnetic read head for providing a time varying electrical signal; a piece of magnetic shielding material mounted on a carrier; means for measuring the background noise; means for positioning the carrier along at least one axis relative to the magnetic read head; means for determining a position for the carrier by positioning the carrier at one or more positions and measuring the background noise at each position and selecting a carrier position based on the noise measurements; wherein said carrier is positioned by the positioning means at the selected position prior to decoding of magnetically encoded information.
A method for reducing background magnetic noise present at a magnetic read head the method comprising the steps of: positioning a piece of magnetic shielding material at each of a plurality of locations; obtaining a noise measurement at each of the plurality of locations; selecting a location from the plurality of locations based upon the noise measurements; and, positioning the magnetic shielding material at the selected location prior to using the magnetic read head for decoding of magnetically encoded information.
An article of manufacture comprising a processor useable medium having a processor readable program embodied in said medium, wherein the processor readable program when executed on a processor causes the processor to: position a piece of magnetic shielding material at each of a plurality of locations; obtain a noise measurement at each of the plurality of locations; select a location from the plurality of locations based upon the noise measurements; and, position the magnetic shielding material at the selected location prior to using the magnetic read head for decoding of magnetically encoded information.
A point of sale printer having a document drive means, for moving documents inserted into the printer along a document travel path; a magnetic reader positioned at a predetermined longitudinal position in said document travel path for providing a time varying electrical signal; a print head positioned at said predetermined longitudinal position in said document travel path, and wherein said print head is laterally offset from said magnetic reader; a piece of magnetic shielding material attached to the print head; means for measuring the background noise; means for positioning the print head along at least one axis relative to the magnetic reader; a carrier position determination module for causing the carrier position controller to position the carrier at a plurality of positions and cause the background noise module to determine background noise at each of the plurality of positions and to select a carrier position from the
Flynn John D.
Frech Karl D.
International Business Machines - Corporation
Taylor Larry D
LandOfFree
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