Abstract: A ceramic L-shaped or T-shaped packaging apparatus for a Micro Electro-Mechanical System (MEMS) inertial sensor die that translates the sensor sense axis perpendicular to the normal input plane for direct attachment to a system-level printed circuit board (PCB).

Abstract: An apparatus for mechanically mounting one or more Micro Electro-Mechanical System (MEMS) sensors on a stable, structurally sound base, the base being a generally cubical block formed in a ceramic substrate having a plurality of substantially planar and mutually orthogonal surfaces, wherein a first one of the surfaces is structured for rotationally interfacing with a host structure that is to be monitored; one or more of the remaining surfaces is structured for mechanically mounting of a MEMS sensor; and a plurality of electrical signal carriers communicate between each of the MEMS sensor mounting surfaces and a plurality of electrical interface contacts positioned on the interfacing surface.

Abstract: An apparatus for mechanically mounting one or more Micro Electro-Mechanical System (MEMS) sensors on a stable, structurally sound base, the base being a generally cubical block formed in a ceramic substrate having a plurality of substantially planar and mutually orthogonal surfaces, wherein a first one of the surfaces is structured for rotationally interfacing with a host structure that is to be monitored; one or more of the remaining surfaces is structured for mechanically mounting of a MEMS sensor; and a plurality of electrical signal carriers communicate between each of the MEMS sensor mounting surfaces and a plurality of electrical interface contacts positioned on the interfacing surface.

Abstract: A multi-channel synchronous voltage-to-frequency converter (SVFC) realized in an integrated semiconductor circuit. The multi-channel SVFC having an operational amplifier adapted to receive an analog data signal to be converted and a reset signal, the operational amplifier integrating the sum of the analog signal and the reset signal and generating an output signal as a function of the integrated sum; a comparator coupled to receive the integrated sum and a reference level signal, the comparator outputting a logic level signal as a function of the received reference level signal; a digital logic circuit in response to an external clock signal, the digital logic circuit receiving the logic level signal and generating a reset control signal and a frequency output pulse as a function of the logic level signal; and a reset source switch receiving the reset control signal and outputting the reset signal.

Abstract: A well drilling system with a miniature directional indication sensor capable of operating at elevated temperature. The present invention is implemented with power supply, sensor drive and sense circuits in thick film or multi-chip module electronic assemblies, mounted on a chassis with a high resonant frequency. The thick film or multi-chip module electronics assemblies also contribute to increased shock and vibration resistance. Sensor drive and sense functions may be implemented in one or more application specific integrated circuits and integrated with multi-chip module electronics assembly. Analog-to-digital conversion of sensor signals is implemented in a voltage-to-digital converter circuit provided by the present invention. Furthermore, the present invention eliminates data lag between channels by providing simultaneous sampling of all the sensor channels.

Abstract: A multi-channel synchronous voltage-to-frequency converter (SVFC) realized in an integrated semiconductor circuit. The multi-channel SVFC having an operational amplifier adapted to receive an analog data signal to be converted and a reset signal, the operational amplifier integrating the sum of the analog signal and the reset signal and generating an output signal as a function of the integrated sum; a comparator coupled to receive the integrated sum and a reference level signal, the comparator outputting a logic level signal as a function of the received reference level signal; a digital logic circuit in response to an external clock signal, the digital logic circuit receiving the logic level signal and generating a reset control signal and a frequency output pulse as a function of the logic level signal; and a reset source switch receiving the reset control signal and outputting the reset signal.

Abstract: A miniature directional indication sensor system capable of operating at elevated temperature. A directional indication sensor system is less than 1 inch in diameter and 7 inches in length. The directional sensor system provides angle measurement in applications from which current larger directional sensors are barred. The present invention provides increased shock and vibration resistance. The chassis of the present invention has an high resonant frequency, or “Q”. The present invention is implemented with power supply, sensor drive and sense circuits in thick film or multi-chip module electronic assemblies. The thick film or multi-chip module electronics assemblies also contribute to the increased shock and vibration resistance. Sensor drive and sense functions may be implemented in one or more application specific integrated circuits and integrated with multi-chip module electronics assembly.

Abstract: An integrated sensor package formed using low temperature co-fired ceramic assembly techniques and method for manufacturing same.

Abstract: Apparatus and method for increasing the resolution of angular rate of rotation and linear acceleration of a body with respect to three orthogonal axes. Three pairs of accelerometers (10, 12; 14, 16; and 18, 20) are arranged with their sensitive axes antiparallel to each other, and each pair is vibrated back and forth along one of the orthogonal axes. The signals output from the accelerometers are processed to determine S.sub.rate and S.sub.vel for each of the rate axes as a function of the sum and differences of the signals produced by each of the accelerometers. The value of S.sub.vel for each axis is used by a microprocessor (82) to produce a signal equal to an incremental change in velocity for each axis. The incremental change in velocity is then used in conjunction with errors estimated from previous fractional portions of the dither period for each pair of accelerometers to calculate the rate of rotation of the body about each of the axes as a function fo the values for S.sub.rate.

Abstract: A magnetometer sensor is described for a borehole survey. The magnetometer features a bobbin made from a metal alloy such as copper-nickel, which has a very low magnetic permeability, on the order of 1.0001, which can be joined to a magnetic metal alloy, such as Permalloy, by welding, which can be treated by annealing at a temperature of 1500 degrees Fahrenheit and which has a thermal coefficient of expansion generally on the order of the magnetic alloy. In one particular embodiment, the magnetometer sensor comprises a strip of magnetic metal alloy wrapped around the aforesaid bobbin to define a magnetic core, one excitation winding wrapped around the core, a plastic frame for carrying the magnetic core and excitation winding and at least one sense winding wrapped around the frame, the core and the excitation winding.

Abstract: A digital accelerometer comprising a linear analog accelerometer and a digitizer. The analog accelerometer includes a housing and conductor means extending outside the housing, and is adapted to produce on the conductor means an analog signal representing linear acceleration along one axis. A casing is positioned against the housing so as to form a substantially enclosed space between the housing and the casing. The digitizer is located within such enclosed space and receives the analog signal and produces a corresponding digital signal. An interface circuit is positioned within the enclosed space for receiving the analog signal and producing a second analog signal that is input to the digitizer. The digital signal produced by the digitizer may be conveyed to a location outside the enclosed space and housing by a flexible strip of insulating material having a plurality of conductive strips embedded therein.