Abstract: Sensor accuracy issues may arise when a humidity sensor is kept in a high humidity environment for an extended period of time. In these circumstances, a humidity sensor reading may tend to may become less accurate over time. To improve the accuracy of sensor readings, methods and systems described herein estimate and correct for sensor drift in high humidity conditions. Methods and systems described herein may use memory to store past humidity or other sensor readings so that an estimated amount of sensor drift may be determined to improve the accuracy of sensor readings. A memory may be embedded in a sensor module so that past readings for a given sensor module are stored in the memory of the sensor module. Algorithms for sensor drift compensation, and systems and methods that use such algorithms to improve the accuracy of sensor readings, are disclosed herein.

Abstract: Methods and apparatus are disclosed for automated acquisition of moisture readings using a handheld moisture meter. In automated mode, a succession of moisture content readings at successive positions can be acquired without any user interface input, by moving the moisture meter to successive positions on a sample, and holding steady at each position. Moisture readings stable for a time period (e.g. one second) are indicative of moisture content of a sample at a stationary position and are collected. Moisture readings varying in time are indicative of motion of the moisture meter and are not collected. Statistics can be performed on the collected readings. Notifications of stable readings and alerts for out-of-range readings can be provided. Hardware and software architectures are disclosed. The innovative technology is suitable for wood, concrete, and other materials at any stage of manufacturing or product lifecycle.

Abstract: Methods and apparatus are disclosed for calibration determinations for handheld moisture meters in the field. A calibration reference stand emulates a sample with an equivalent moisture content, allowing rapid determination whether a moisture meter is out of calibration, or determination of a new calibration value. The calibration reference stand includes an electromagnetic load, which can be formed of a metal sheet or high dielectric constant material, supported on a platform, and mechanical fixturing for reproducible positioning of a moisture meter on the stand. Associated methods and variations are disclosed.

Abstract: Sensor accuracy issues may arise when a humidity sensor is kept in a high humidity environment for an extended period of time. In these circumstances, a humidity sensor reading may tend to may become less accurate over time. To improve the accuracy of sensor readings, methods and systems described herein estimate and correct for sensor drift in high humidity conditions. Methods and systems described herein may use memory to store past humidity or other sensor readings so that an estimated amount of sensor drift may be determined to improve the accuracy of sensor readings. A memory may be embedded in a sensor module so that past readings for a given sensor module are stored in the memory of the sensor module. Algorithms for sensor drift compensation, and systems and methods that use such algorithms to improve the accuracy of sensor readings, are disclosed herein.

Abstract: Methods and apparatus are disclosed for calibration determinations for handheld moisture meters in the field. A calibration reference stand emulates a sample with an equivalent moisture content, allowing rapid determination whether a moisture meter is out of calibration, or determination of a new calibration value. The calibration reference stand includes an electromagnetic load, which can be formed of a metal sheet or high dielectric constant material, supported on a platform, and mechanical fixturing for reproducible positioning of a moisture meter on the stand. Associated methods and variations are disclosed.

Abstract: Methods and apparatus are disclosed for automated acquisition of moisture readings using a handheld moisture meter. In automated mode, a succession of moisture content readings at successive positions can be acquired without any user interface input, by moving the moisture meter to successive positions on a sample, and holding steady at each position. Moisture readings stable for a time period (e.g. one second) are indicative of moisture content of a sample at a stationary position and are collected. Moisture readings varying in time are indicative of motion of the moisture meter and are not collected. Statistics can be performed on the collected readings. Notifications of stable readings and alerts for out-of-range readings can be provided. Hardware and software architectures are disclosed. The innovative technology is suitable for wood, concrete, and other materials at any stage of manufacturing or product lifecycle.

Abstract: Disclosed RH generators include a lower component having a first chamber and an upper component including a second chamber, the upper component being coupled to the lower component to couple the first chamber to the second chamber. The first chamber is configured to contain liquid water and generate 100% RH, while the second chamber is configured to contain salt and generate a second RH less than 100% RH. A first membrane is positioned between the first chamber and the second chamber to allow water vapor to pass between the first and second chambers while blocking liquid water, the salt, and other larger molecules. The upper component is couplable to an RH probe with a second membrane separating the second chamber from the RH probe, which allows water vapor to pass between the second chamber and the RH probe to expose the RH probe to the second RH.

Abstract: A submersible pump capable of providing low voltage power supply comprises a pump body and a filter cover connected to the pump body; a stator containing cavity and a rotor containing cavity is provided in the pump body; the outside of the rotor containing cavity is provided with an impeller room, and the upside of the impeller room is provided with a water outlet; a silicon steel sheet group of a stator and a stator coil are encapsulated in the stator containing cavity in the pump body; a permanent magnet rotor is fixed in the rotor containing cavity in the pump body via a rotor shaft; an impeller at one end of the permanent magnet rotor is located in the impeller room; it also comprises an internal transformer; the internal transformer is provided with a low voltage coil, and the stator coil acting as a high voltage coil, and the two coils are located at the silicon steel sheet group of the stator; the low voltage coil provides AC low voltage power supply to the outside.

Abstract: A system and method is disclosed that uses moisture content readings in order to determine how to maximize the price value of lumber. Feedback can then be provided to a kiln controller on how to adjust kiln settings in order to increase the value of the lumber produced. In one embodiment, moisture content is determined on a plurality of boards. Using the moisture content readings, an actual value of the plurality of boards is determined. Then a calculation is made to determine how to modify moisture content in order to maximize the value of the lumber. In yet another embodiment, geographic positions of individual packages are tracked in the kiln. The efficiency of the kiln is determined based on drying uniformity of the packages. Then the moisture content can be modified to determine how it impacts value of a charge of lumber.

Abstract: The method utilizes a known good set of moisture content data for wood dried in a kiln under set conditions to estimate parameters for a Lognormal distribution which approximates the moisture content data for those conditions. The method creates control charts which monitor some of these parameters. The method also takes data from subsequent kiln charges and transforms it to be represented on the control charts. The method uses this representation to determine if the kiln is operating under out-of-control conditions.

Abstract: An improved electronic chassis for housing and cooling electronic modules. The electronic chassis includes a top and bottom which are connected by two sides, a front and a rear. The chassis includes an upper section near the top and within the top, bottom, front, rear and sides of the chassis, and the chassis includes a lower section near the bottom and within the top, bottom, front, rear and sides of the chassis. There are at least two electronic modules to be mounted in the chassis. There are at least two intake fans mounted in the upper section of the chassis at the back of the chassis. The intake fans are for intake of cooling air from outside the rear of the chassis. There are at least two bays mounted in the upper section of the chassis in front of the intake fans and near the front of the chassis. The bays are for receiving the electronic modules, where each of the bays have an open front and an open rear. The front of the bays are open to provide access to receive the electronic modules.

Abstract: An electrical test fixture used to connect the probes of an electronic test instrument to the pins of any integrated circuit. Made from flexible material, the fixture folds above the integrated circuit under test bringing test point pins to useable position. The integrated circuit usually is soldered to the test fixture and the test fixture soldered into the target circuit. Provides for noninvasive pickoff of integrated circuit signals. Allows production versions of a design to be identical to the prototype version.

Abstract: A plate array for moisture sensors has a transmitter electrode and a detector electrode interposed between portions of a phase electrode. The transmitter and phase electrodes are driven with alternating current signals having a one hundred and eighty degree phase difference so as to induce a signal at the detector electrode relating to a moisture content of a material in the electrical fields which has a reduced sensitivity to electrically loading the material, such as from contact with a hand or steel roller.

Abstract: A meter for measuring the moisture content of wood in the center of a stack of wood has a probe with an electromagnetic wave sensor mounted near a forward end and a meter mounted at an opposite end. An extendable member is also mounted at the forward end of the probe. The extendable member is pivoted by a slide handle at the opposite end of the probe between reclined and extended positions. The forward end of the probe is inserted into a stack of wood between layers of the stack. The extendable member is extended to press the sensor against wood in the center of the stack. The meter then registers the moisture content of the wood.

Abstract: A detector circuit in a moisture detector having an oscillator, a detector electrode and a common electrode for measuring the moisture content of wood and structural materials in buildings comprises a clamping diode network which couples an AC signal generated in the oscillator to a detector electrode. The clamping network clamps the AC signal to a reference voltage. The clamping network is balanced by a second clamping diode network which, together with a low pass filter, establishes the reference voltage. A low pass filter connected to the first clamping network produces an output voltage signal related to the impedance between the electrodes. To maintain the circuit's stability, the diodes in the clamping networks are thermally coupled.

Abstract: An electronic checkbook (10) is provided for printing checks. electronic checkbook (10) is of a hand-held size and operates on two AAA batteries. An on/off switch (30) which includes a needle valve (410) controls ink flow. A print cap switch (26) is also provided for rugged applications. Checks are advanced under a printhead (38). The printhead (38) and a roller shaft (46) for advancing the checks are both driven by a single motor (56). A transmission (54) translates power from the motor (56) to the printhead (38) and the roller shaft (46). The position of both the motor (56) and the printhead (38) are sensed by use of a single LED (124) and photodetector (128). Ink is supplied to the printhead (38) from an ink cartridge (12). Data is stored in a non-volatile check register (16). Reconciliation of transactional information can be made by reference to information stored on a statement strip (20).

Abstract: A meter for measuring the moisture content of wood in the center of a stack of wood has a probe with an electromagnetic wave sensor mounted near a forward end and a meter mounted at an opposite end. An extendable member is also mounted at the forward end of the probe. The extendable member is pivoted by a slide handle at the opposite end of the probe between reclined and extended positions. The forward end of the probe is inserted into a stack of wood between layers of the stack. The extendable member is extended to press the sensor against wood in the center of the stack. The meter then registers the moisture content of the wood.

Abstract: A gas-filled tube is operated by application of a powered electrical signal which stimulates the tube at or near its maximum efficiency region for lumens/watt output; the signal may generally stimulate the tube at a frequency between about 20 KHz and about 100 KHz with an on-to-off duty cycle of greater than one-to-one. Without limiting the generality of the invention, formation of the disclosed powered electrical signal is performed using an electrical circuit comprising a feedback transformer having primary and secondary coils, a feedback coil, and a bias coil, operatively connected to a feedback transistor and to a plurality of gas-filled tubes connected in parallel.

Abstract: An electrical switching device of the dual in-line package type. A multiple-pole switching device contains a plurality of independent switching elements aligned on individual pole planes. Each switching element includes first and second terminals and stationary contacts centered on the pole plane. A movable contact engages a first stationary contact and is held in position by a boss on a cover actuator. An actuator, captured in the cover-actuator, includes a cam that engages an intermediate portion of the movable contact to move the second end of the movable contact into engagement with the second stationary contact to complete an electrical circuit. The cam and movable contact are configured to produce a detent action as the actuator moves between open and closed positions.