A control rod position indication system is for a nuclear reactor with a reactor core and at least one control rod which is movable along a linear path of movement for controlling reactivity of the core. The system includes a permanent magnet mounted on the control rod or a corresponding drive rod, and a number of reed switches arranged around the path of movement in order to be switched by a magnetic field generated by the permanent magnet when passing by. The permanent magnet has a north-south axis whose orientation is constant during movement, and the respective reed switch has a number of reed contacts which are aligned along a longitudinal axis. The longitudinal axis of at least one reed switch is inclined relative to the north-south axis of the permanent magnet, and the angle of inclination has an absolute value within a range from 15 to 65 degrees.

A position determining unit is provided that has a number of sensor units arranged at positions along a path, and a transducer. Each sensor unit has a carrier, a first and second supply voltage connection, a switching output, a measuring unit and a bias magnet comprising two poles. The measuring unit is arranged on the carrier and has at least one magnetic field sensor, wherein the switching output is switched into an On or Off-state as a function of a threshold value exceeding or falling short of a sensor signal. The first supply voltage connection of each sensor unit is connected to a supply voltage, wherein a first sensor unit is arranged at a beginning of the path and a last sensor unit is arranged at the end of the path. The second supply voltage connection of the first sensor unit is connected to a reference potential.

A method and apparatus for measuring a fluid and determining a leak comprising the steps of providing a meter and a meter register coacting with the meter. When a leak is detected, a signal is transmitted from the meter register regarding fluid consumption. The transmitted signal indicates a leak either when the measured flow rate remains a fixed volume over a fixed period of time, or the measured flow rate exceeds a threshold value.

A rotary encoder includes a shaft and an encoder mechanism that holds the shaft in a rotatably inserted state and detects a rotation direction and a rotation angle of the shaft. The encoder mechanism includes a substrate that rotatably holds the shaft, an insulator portion and a resistor portion provided on one surface of the substrate and alternately provided in the rotation direction of the shaft, a rotor attached to the shaft so as to be integrally rotatable with the shaft, and a slider that is attached to the rotor and alternately slidably contacts the insulator portion and the resistor portion by rotation of the shaft. The insulator portion includes a base material made of a resin, spherical silica, and a fluororesin filler.

A rotary encoder includes a shaft and an encoder mechanism that holds the shaft in a rotatably inserted state and detects a rotation direction and a rotation angle of the shaft. The encoder mechanism includes a substrate that rotatably holds the shaft, an insulator portion and a resistor portion provided on one surface of the substrate and alternately provided in the rotation direction of the shaft, a rotor attached to the shaft so as to be integrally rotatable with the shaft, and a slider that is attached to the rotor and alternately slidably contacts the insulator portion and the resistor portion by rotation of the shaft. The insulator portion includes a base material made of a resin, spherical silica, and a fluororesin filler.

A meter register is disclosed herein, the meter register having a register body and a face cap secured to a cup forming an internal cavity, the face cap is sealed to the register body, a microprocessor and an antenna to transmit radio waves that is electrically coupled to the microprocessor are both contained within the internal cavity. A self-contained power source is coupled to the antenna, and a sensor is coupled to the microprocessor and adapted to sense movement of water through a meter. The microprocessor, power source, and sensor are contained within the internal cavity, and the internal cavity is at a different pressure than atmospheric pressure, and environmentally separated from the external atmosphere such that the antenna transmits from the antenna meter volume measurements. A utility meter having the aforementioned meter register is also disclosed.

A rotation angle detection sensor detects the rotation angle of a rotating part attached to a structure including a fixed part and a rotating part that rotates around a rotary shaft. The rotation angle detection sensor includes a reed switch attached to the fixed or rotating part with reeds placed near the rotary shaft. An annular magnet is attached to the rotating or fixed part. A magnetic circuit is formed with respect to the reed switch, with its central axis arranged concentrically with the rotary shaft. When the magnet rotates around the central axis with respect to the reed switch, if the same poles of the magnet are lined up in the longitudinal direction of the reed switch, the reed switch is turned off. If opposite poles of the magnet are lined up in the longitudinal direction of the reed switch, the reed switch is turned on.

A method and apparatus for measuring a fluid and determining a leak comprising the steps of providing a meter and a meter register coacting with the meter. When a leak is detected, a signal is transmitted from the meter register regarding fluid consumption. The transmitted signal indicates a leak either when the measured flow rate remains a fixed volume over a fixed period of time, or the measured flow rate exceeds a threshold value.

Modules, systems, and methods for monitoring environmental conditions, such as physical, electromagnetic, thermal, and/or chemical parameters within an environment, over extended periods of time with the use of one or more electromechanical sensing devices that include a sensing device and electronic circuitry for processing an output of the sensing device and generating a output of the module. The sensing device includes a microstructure, for example, a cantilevered beam, and at least one set of contacts configured for contact-mode operation with the microstructure in response to the microstructure deflecting toward or away from the contacts when exposed to the parameter of interest. The microstructure has a stack of layers of dissimilar materials, at least one of which has at least one property that changes as a result of curing of or absorption by the first material when exposed to the parameter.

Modules, systems, and methods for monitoring environmental conditions, such as physical, electromagnetic, thermal, and/or chemical parameters within an environment, over extended periods of time with the use of one or more electromechanical sensing devices that include a sensing device and electronic circuitry for processing an output of the sensing device and generating a output of the module. The sensing device includes a microstructure, for example, a cantilevered beam, and at least one set of contacts configured for contact-mode operation with the microstructure in response to the microstructure deflecting toward or away from the contacts when exposed to the parameter of interest. The microstructure has a stack of layers of dissimilar materials, at least one of which has at least one property that changes as a result of curing of or absorption by the first material when exposed to the parameter.