Abstract: In a system for controlling or monitoring an object, wherein a position of the object must be determined, the system includes a first and second multispeed sensor, the first sensor having a speed of N and the second sensor having a speed of N-1. A method for determining the position of the object comprises the steps of obtaining position data as measured by the first and second multispeed sensor, respectively. A parameter, N.sub.A, a weighted difference between the obtained position data, is determined to ascertain whether a first or second case exists. If the first case exists, a first set of constants based on a first set of equations is generated; otherwise the first set of constants is generated based on a second set of equations. A second set of constants is then generated. Finally, the position of the object is determined by calculating the weighted average of the second constants, thereby obtaining the position of the object, utilizing the data provided by both sensors.

Abstract: A pressure sensor package, having a dual-in-line package (DIP) structure as commonly used in the semiconductor industry, comprises a first layer of predetermined material, having at least one internal passage for transmitting a fluid under pressure from a first surface of the first layer to a second surface of the first layer. A pressure sensitive element is bonded to the first surface of the first layer, and covers an exit from the first surface of the internal passage. A lead package, has a plurality of pins, each pin being perpendicular to the first surface of the first layer and placed along a first and second length of the first layer exterior to the pressure sensor package, and having a spacing conforming to the DIP configuration. Predetermined points of the pressure sensitive element are electrically connected to predetermined pins. A second layer of predetermined material is bonded to the first surface of the first layer providing an enclosed spaced for the pressure sensitive element.