CS253784B1 - Wiring for automatic adjustment of sensor elements - Google Patents

Abstract

The wiring allows automatic adjustment of the sensing element's excitation level in dynamic sensing mode. The control unit determines the individual optimum excitation levels of the sensing elements in the setting cycle and dynamically adjusts these levels on the sensing elements during the card reading process.

Description

The invention is a circuit for automatically adjusting the sensing elements, especially in dynamic card information readers.

Currently, there are dynamic card information sensors with manually set sensing element sensitivity. The adjustment is usually carried out by using a separate setting card, the sensor is brought into the setting mode and the individual sensor elements are gradually adjusted. Typically, the entire sensing system does not work during setup. Adjustment is always performed before commissioning the sensor and then as required.

This disadvantage is overcome by a wiring for automatic adjustment of the sensing elements, which is based on a control unit, to which two transmitting parts of the sensing elements are connected by means of a selection output and an adjusting output via a converter, the receiving parts of the sensing elements being connected in parallel to the input of the control unit.

The wiring according to the invention simplifies the dynamic sensor setup in production and reduces user service requirements, since the sensor itself adjusts the sensing element settings even within a short time between two replacements of one card, thus eliminating environmental influences such as temperature, humidity, dust and next. The control unit used ensures automatic sensitivity adjustment of the sensing elements with only a small part of its capacity. The remaining capacity can be used to perform other operations controlling the reading and evaluation of information from the card.

In the accompanying drawing, there is shown in a block diagram an exemplary circuit for automatically adjusting the sensor elements according to the invention in an embodiment for a dynamic employee card reader.

The wiring consists of a control unit 1 and at least two transducer portions of the sensing elements 6 connected to the control unit 6 by a selective output 64 and a set-up output 54 through the transducer 2, the receiving portions of the sensing elements 6 being connected in parallel to the input 10 of the control unit 6.

The sensing operation is controlled by the control unit 8 via the one-bit input 60 and the eight-bit outputs 11 and 52. The adjusting output 11, by its numerical combination, adjusts the excitation of the transmitting parts of the sensing elements 6 by means of the converter 6, and the selection output 12 determines which sensing element is currently in operation. The receiving parts of the sensor elements 8 are connected in parallel by an input 10 to the control unit 6.

The operation for adjusting the sensitivity of the sensing elements takes place without the presence of a card 5, for example as follows:

After switching on the sensor, the control unit 6 gradually decreases the excitation intensity of the individual transmitting parts of the sensing elements 6 until evaluation of the change in the logic state at the input 10. Then it increases the excitation intensity again by the prescribed number of steps and remembers these values as optimal for each element separately. During card reading operations, the controller adjusts the optimized excitation intensity to the sensing elements 6 until it evaluates the erroneous reading. The setting operation is then repeated.

Claims (1)

SUBJECT OF THE INVENTION Circuit for automatic adjustment of the sensing elements, characterized in that it consists of a control unit (1) and at least two transmitting parts of the sensing elements (3) connected to the control unit (1) by a selective coupling (12) and an adjustment coupling (11) via a converter (2), wherein the receiving parts of the sensing elements (4) are connected in parallel to the input (10) of the control unit (1).