Abstract: An apparatus and method for monitoring items of vital health information including temperature of the plantar aspects of the foot of the human, body weight, blood pressure, pulse rate, blood glucose level and blood oxygen level. The apparatus includes a platform on which the user stands. Included on the platform are a set of heat sensitive signal generating devices. The temperature at predetermined locations on the plantar aspects of the human foot are determined by the signals obtained from the individual heat sensitive, signal generating probes. Other items of vital health information may be obtained by other sensors on the apparatus.

Abstract: A method, apparatus and system for producing a desired spatial temperature distribution across a workpiece. The method includes irradiating a plurality of areas on a surface of the workpiece to create localized heating of the workpiece in those areas, to produce the desired spatial temperature distribution in the workpiece, and the apparatus includes means for carrying out the method. The system includes a locator for locating the workpiece in a desired position relative to an energy source, and an irradiance system for carrying out the method. The system further includes a processor circuit in communication with the irradiance system, and a radiation-absorbing environment. The irradiance system includes a measuring system and at least one energy source for directing radiation to the surface of the workpiece.

Abstract: A method and an arrangement for measuring the cooling rate and thermal gradient between the top and bottom surfaces of a printed circuit board. Moreover, it is intended to facilitate control over the temperature gradient which is encountered between the top and bottom of the PCB so as to prevent warpage thereof during the formation of solder joints in a reflow solder oven.

Abstract: Body temperature measurements are obtained by scanning a thermal radiation sensor across the side of the forehead over the temporal artery. A peak temperature measurement is processed to compute an internal temperature of the body as a function of ambient temperature and the sensed surface temperature. The function includes a weighted difference of surface temperature and ambient temperature, the weighting being varied with target temperature through a minimum in the range of 96° F. and 100° F. The radiation sensor views the target surface through an emissivity compensating cup which is spaced from the skin by a circular lip of low thermal conductivity.

Abstract: Several embodiments of a temperature gradient sensing probe formed from a printed circuit thermocouple array are disclosed. The printed circuit thermocouple array is formed by an electrically insulative sheet having a first surface, a second surface and N electrically conductive junctions passing through the sheet from the first surface to the second surface, wherein N is an integer greater than one. N electrically conductive paths formed from a first conductive material are applied to the first surface, wherein each of the N conductive paths formed from the first conductive material have a junction end electrically connected respectively to one of the N conductive junctions and a connector end for electrical connection to a signal transmission conduit. N electrically conductive paths formed from a second conductive material, dissimilar to the first electrically conductive material are also provided.

Abstract: A thermometric apparatus useful for recording temperatures, after sensing contact with, or proximity to, a dermal surface is disclosed. The apparatus also provides various visual and aural mechanisms for indicating alarm conditions to the user. A method for thermometric diagnosis using temperatures acquired from bilateral dermal surfaces is also disclosed. The apparatus and method are especially useful in the early diagnosis of plantar foot surface pre-ulceration conditions which may be present in diabetic persons.

Abstract: An apparatus accurately measures a temperature of a substrate in a thermal processing chamber. The apparatus has a support structure to support the substrate within the thermal processing chamber. A first probe is provided with an input end positioned to receive radiation from the substrate during thermal processing. A second probe is also provided with an input end positioned to receive radiation from the substrate during thermal processing. The second probe is positioned such that it is angularly offset from the first probe so radiation provided at an output end of the second probe is out of phase with radiation provided at the output end of the first probe. A junction receives and combines radiation from the output ends of the first and second probes. The radiation is combined to provide an accurate representation of the temperature of a local region of the substrate by compensating for a temperature gradient between the support structure and the substrate.

Abstract: A matrix of thermal sensors is provided for accurately evaluating the thermal characteristics of an integrated circuit. The integrated circuit is evenly divided into a plurality of sectors in which a thermal comparison to a known thermal mass will be performed. Each sector includes at least one dual cell comprising a local thermal sensor for providing an output corresponding to a local temperature of the integrated circuit in that sector, and a background thermal sensor. The outputs of selective ones of the background thermal sensors are combined to provide a signal corresponding to a background temperature of the integrated circuit. A decoder/enabler arrangement is used to selectively gate the output of a specific local thermal sensor in a sector to a difference circuit where it is compared to the collective output of selected ones of the background sensors to generate a thermal measurement of the sector under test.

Abstract: A temperature control system and method for regulating the temperature of an external device or load is provided which maintains the actual ambient temperature of the external device at a desired set point temperature. The temperature control system includes a solid state temperature sensing device for sensing the actual temperature of the external device, and generating a sensor output voltage proportional to the actual temperature. An adjustable voltage dividing circuit generates a temperature compensated set point voltage proportional to the desired temperature. A fixed voltage dividing circuit generates a reference voltage having a predetermined magnitude. A first comparator compares the set point voltage to the sensor output voltage, and generates an output signal indicating whether the sensor output voltage is maintained at the set point voltage. A second comparator detects whether the external device is maintained in an "off" or "on" state by comparing the set point voltage to the reference voltage.

Abstract: An apparatus and method for monitoring a temperature around a point of clinical interest. The apparatus has a sensing surface carrying a plurality of temperature detectors in a regular spatial outer disposition around a central detector. A signal processor computes the highest temperature difference between any two outer detectors and the central detector and compares the highest difference with a predetermined number of temperature domains or ranges. The signal processor activates an output device to provide an indication of the correlation between the highest determined temperature difference and the temperature domains. The output device comprises three different colored lights to provide an indication of normal, doubtful or abnormal correlation. In another embodiment, the output device is a graphical display having a pattern of the organ to be examined as a background and a luminous point on the display, which is either not lit, flashes with a low frequency, or is continuously lit.

Abstract: The invention relates to a method and apparatus for determining the internal temperature and the coefficient of internal thermal conductivity of a structure. In both cases, the surface temperature and ambient temperature of an object are measured from both sides of two structures whose thermal conductivities are known. On the basis of the measured temperature values, the internal temperature or the coefficient of internal thermal conductivity of the object is determined from the function of the heat flux. Thereafter the unknown thermal conductivity or the unknown internal temperature of the object is eliminated from the solutions, and the internal temperature or the coefficient of internal thermal conductivity of the object is determined on the basis of the combined solution.

Abstract: A method for generating a signal (TAn) responsive to the induction air temperature of an internal combustion engine. The signal (TAn) for the induction air temperature is determined from a signal (TMot) for the temperature of the internal combustion engine, from a signal (TU) for the ambient temperature, and from a correction factor K. Correction factor K is a function of a signal (mL) and/or a vehicular speed signal (v), signal (mL) representing either the induction air quantity or the air mass of the internal combustion engine. To enable the most accurate possible simulation of induction air temperature, even under changing operating conditions, the signal (TAn) for the induction air temperature is filtered, it being possible to variably select the time constant (ZK) of the filter in response to rising and falling induction air temperatures.

Abstract: A on-line monitoring system of a simulated heat-exchanger which includes a plurality of temperature sensors adapted to detect the temperatures of cold water and hot water at respective water inlets and water outlets, a flowrate detector adapted to detect the flow rate of cold water, an A/D converter adapted to convert detected temperature signals and flowrate signal into corresponding digital signals, and a microprocessor adapted to calculate total heat transmission rate subject to the data obtained from the A/D converter and to calculate the heat transmission constant of the heat exchanging tube inside the heat exchanging chamber, then to store the calculated data in a memory for use as a reference value for the calculation of a next heat transmission rate so as to further calculate the heat transmission rate and thickness of fouling of the heat exchanging tube by comparing the latest coefficient of heat transmission with the previous coefficient of heat transmission, permitting the calculated result to be s

Abstract: A method for predicting the likelihood of encountering oil or gas deposits below a location and determining the areal extent and magnitude (economic value) of such deposit. The earth's surface temperature at selected points within a location is compared to the earth's surface temperature at a plurality of points in the surrounding geographic area to determine locations having anomalously low surface temperatures which are indicative of the presence of oil or gas deposits. Representative earth surface temperatures for all locations under consideration and reference temperatures in the geographic area are obtained, under similar ambient conditions, at points having similar topography, vegetative cover and surface features for minimizing extraneous factors which affect earth surface temperature, such that the earth surface temperatures may all be compared with each other to determine locations which have low earth surface temperatures, and therefore are more likely to have oil or gas deposits beneath them.

Abstract: An improved method and apparatus for sensing a cold junction temperature, wherein two sensors are located near the cold junction temperature, the temperatures at the two sensors are measured, the heat flow between the two sensors and one of the two sensors and the cold junction is constrained to be equal, and the thermal impedances between each of the two sensors and the cold junction is maintained constant. The cold junction temperature is a weighted difference of the two temperatures at the two sensors and the weighting factor depends on the ratio of the thermal impedance between the two sensors and the thermal impedance between the first sensor and the cold junction.

Abstract: The apparatus of the present invention for determining existential conditions of objects on a certain detecting region, includes: a temperature distribution detecting section for obtaining a thermal image including a plurality of elements each having temperature data by detecting the temperature distribution on the detecting region; an element classifying section for classifying the plurality of elements in the thermal image into at least two groups, all elements belonging to one of the groups being in a certain temperature range, the temperature range of the one group being distinct from a temperature range of another one of the groups; a group selecting section for selecting at least one group of a relatively higher temperature range in the thermal image from the at least two groups; an element selecting section for selecting, among elements included in the selected group, elements having temperature data indicative of local temperature peaks in the thermal image; and an output section for outputting the nu

Abstract: Apparatus (10) for handling devices for testing under varying temperature conditions is disclosed including a mechanical arm (32) pivotally mounted by a bearing (34) to a control portion (16) which is variably vertically positionable relative to a platform portion (14). An insert arm (38) is rotatably mounted within the mechanical arm (32) to reciprocally and rotatably mount a thermal socket (90) for mating with a contactor (126). The socket (90) is mounted to a vacuum cup (48) to allow position alignment as alignment pins (132) are initially slideably received in alignment notches (124) and when no vacuum is applied and is fixed in the aligned position after the application of vacuum. Thermal tubes (74) of probes (50) are reciprocal with the thermal socket (90) to provide thermally conditioned gas/air to the thermal socket (90). The thermal socket (90) provides a swirling action to the thermally conditioned gas/air to exit 360.degree.

Abstract: A method for determining Richardson Number, Ri, or its reciprocal, RRi, for clear air turbulence prediction using measured potential temperature profiles and determining the vertical gradient of potential temperature, d.theta./dz. Wind vector from the aircraft's instrumentation versus potential temperature dw/d.theta. is determined and multiplied by d.theta./dz to obtain dW/dz. Richardson Number or its reciprocal is then determined from the relationship ##EQU1## for use in detecting a trend toward a threshold value for the prupose of predicing clear air turbulence. Other equations for this basic relationship are disclosed together with the description of a method for combining of other atmospheric observables using multiple regression techniques to produce improved warnings of clear air turbulence.

Abstract: A temperature monitoring device for measuring the temperature at a surface of a body, composed of: at least one first thermocouple and a second thermocouple; support members supporting the thermocouples for placing the first thermocouple in contact with the body surface and for maintaining the second thermocouple at a defined spacing from the body surface; and a calculating circuit connected to the thermocouples for receiving individual signals each representative of the temperature reading produced by a respective one of the first and second thermocouples and for producing a corrected temperature signal having a value which represents the temperature of the body surface and is a function of the difference between the temperature reading produced by the first thermocouple and a selected fraction of the temperature reading provided by the second thermocouple.

Abstract: A recording head for an ink jet recording apparatus having a common chamber for supplying ink to a plurality of ink discharge portions each having an electric-heat converting member. A plurality of temperature detecting elements in the head measure the temperature at different locations in the chamber and an adjuster equalizes the temperature distribution of the chamber based on temperature information from the temperature detecting devices.

Abstract: Apparatus for controlling reaction temperatures in a chemical analyzer comprises a thermoelectric element operating in response to a temperature sensor, and control means capable of predicting a setpoint deviation for a future time period, and, when an overshoot is predicted, reducing a control signal for the element by an amount proportional to a current setpoint deviation. The apparatus includes at least one reaction cell and a buffer unit for thermally stabilizing a fluid that is fed, on demand, into the reaction cell, the cell and the buffer unit having separate thermoelectric elements and sensors. A microcomputer control system generates independent control signals for the elements.

Abstract: A method and apparatus for the protection of a hydraulic machine. The difference in temperature across the fluid inlet and the fluid outlet being taken and used to actuate means effectively to signify when the machine is operating outside of its required performance. In a preferred embodiment the temperature difference .DELTA.T is evaluated from the equation ##EQU1## where the efficiency .eta.p, the head H in meters and the temperature t.sub.2 of the fluid are all known.

Abstract: An apparatus for heating a processing liquid has a heater for heating the processing liquid and a temperature sensor for detecting the temperature of the liquid. The heater and the sensor are housed in a protective housing made of a metal or a ceramic material. Since the heater and the temperature sensor are provided together in one unit, the mounting of the apparatus on a processing tank is facilitated. In addition, since the output of the temperature sensor changes in accordance with whether the liquid level of the processing liquid is above or below the position to the temperature sensor, it is also possible to detect the liquid level from the change in the output of the temperature sensor.

Abstract: Apparatus and method for determining transient temperature and stress distributions in turbomachines and system components as a function of operating conditions where direct measurements on the rotating components are prevented. The apparatus includes a microprocessor which computes temperature and stress distributions in real time for components of complex shapes. The apparatus employs a memory containing a set of standard temperature distributions under particular operating conditions and the temperature stresses in the component are estimated on the basis of the closest temperature distributions in the set. The apparatus can be embodied as an on-board in-flight LCF monitor of aircraft engine rotors or as an LCF monitor of a turbomachine for power generation such as a stationary turbine generating unit.

Abstract: Apparatus for making a transition from leads (12-26) of a temperature measuring thermocouple to extension wires (44-58) within a hermetically sealed cable sheath (60) of small diameter. The interior of the cable sheath (60) is shielded from electromagnetic radiation by an electrically conductive liner (62). A thermally conductive, electrically insulating material (66) surrounds the intermediate junctions (28-42). The temperature of the intermediate junctions (28-42) is measured (64) providing a signal to compensate the voltage generated by the temperature measuring thermocouples due to the thermoelectric effect of the intermediate junctions (28-42).

Abstract: A temperature differential detection device for detecting the temperature differential between predetermined portions of a container wall is disclosed as comprising a Wheatstone bridge circuit for detecting resistance imbalance with a first circuit branch having a first elongated wire element mounted in thermal contact with a predetermined portion of the container wall, a second circuit branch having a second elongated wire element mounted in thermal contact with a second predetermined portion of a container wall with the wire elements having a predetermined temperature-resistant coefficient, an indicator interconnected between the first and second branches remote from the container wall for detecting and indicating resistance imbalance between the first and second wire elements, and connector leads for electrically connecting the wire elements to the remote indicator in order to maintain the respective resistance value relationship between the first and second wire elements.

Abstract: Disclosed is a differential temperature cell useful for measuring the difference in temperature between two environments. This dT cell comprises a first reservoir which is in fluid communication with a first chamber. Part of one wall of the first chamber defines a diaphragm, which also forms a part of the wall of a second chamber. The diaphragm provides a structure for measuring differences in pressure between the two chambers. The second chamber is also in fluid communication with a second reservoir.

Abstract: The purpose of the invention is to provide means for non-contacting sensing of the surface temperature of objects. A member, adapted to be brought in the vicinity of the object, has an opening leading to a protective enclosure in which a temperature sensing element is mounted. Pumping means are provided to suck the ambient fluid, usually air, from the surface of the object through the opening into the protective enclosure, whereby the temperature sensing element takes up the fluid temperature, providing a fluid temperature signal. A gap is formed between the object and the member and the fluid flows in this gap before entering the opening and takes up a temperature between the object temperature and the member temperature. A second temperature sensing element is adapted to take up the temperature of the member providing a member temperature signal.

Abstract: A method for predicting the likelihood of encountering oil or gas deposits below a location. A temperature at a known depth at the location is compared to a temperature representative of the average temperature for that depth within the geographical area in which the location is situated. If the temperature at the location is less than the average temperature, it is likely that an oil or gas deposit is present at the location at a depth below the known depth. If the temperature at the location is greater than the average temperature, then it is likely that no oil or gas deposit is present at the location at a depth below the known depth. Alternatively, geothermal gradients are employed in a similar method for predicting the likelihood of encountering oil or gas deposits below a location.

Abstract: An ash level meter for a fixed-bed coal gasifier is provided which utilizes the known ash level temperature profile to monitor the ash bed level. A bed stirrer which travels up and down through the extent of the bed ash level is modified by installing thermocouples to measure the bed temperature as the stirrer travels through the stirring cycle. The temperature measurement signals are transmitted to an electronic signal process system by an FM/FM telemetry system. The processing system uses the temperature signals together with an analog stirrer position signal, taken from a position transducer disposed to measure the stirrer position to compute the vertical location of the ash zone upper boundary.

Abstract: A solar radiation heat influx sensor mounted within an automotive vehicle fender mirror housing, which can accurately detect solar radiation heat influx due to rays of sunlight falling upon the vehicle. The detected heat influx value is used in controlling an automotive vehicle air-conditioning system to adjust passenger compartment air temperature, more specifically to determine an appropriate air conditioning air mix door opening percentage. The solar radiation heat influx sensor according to the present invention comprises a sensor body having inlet and outlet portions and a central window, a blower to drive air therethrough, an outside-air temperature sensor disposed in the inlet portion thereof and a warmed-air temperature sensor disposed in the outlet portion thereof, and a calculating unit to calculate solar radiation heat influx in response to the two detected temperatures in accordance with a predetermined equation.

Abstract: An operative temperature sensing system including an air temperature sensor, a globe-type temperature sensor and a circuit for modifying the air temperature signal and the globe temperature signal by predetermined factors whereby the modified signals are combined to generate a signal that is a function of operative temperature.

Abstract: The invention relates to a thermographic apparatus intended in particular for diagnosing disturbances in circulation in the extremities of a patient, by recording the temperature distribution along a selected line extending from the ankle of a patient up to the thigh on both legs of the patient, whereafter any asymmetry in the two registered temperature profiles is used for the basis of a diagnosis. The apparatus comprises a temperature transducer (4), preferably an IR-detector, which is carried on one end of an extendable and retractable arm (6), so that the transducer can be moved manually along a selected line on the leg (2) of the patient. Coupled to the arm (6) is a position transducer (11) for generating an electric signal representative of the distance moved by the temperature transducer. The apparatus also includes a recorder (10) to which both the temperature signal and the position signal are transmitted and which is arranged to record the measured temperature profile simultaneously.

Abstract: Enthalpy quantities such as the degree of moisture of gases, the wetness of steam or the enthalpy of dry steam are measured by passing a specific amount or dosage of a gas or steam through a system such as a cooler or dryer wherein its thermal condition is changed while measuring the inlet and outlet temperature, and measuring heat radiated into the condition changing system whereupon the desired enthalpy quantity is obtained from a heat balance equation set up from the measured and known data.

Abstract: A method for optimizing the pacing and processing of inbound calls and outbound calls. Statistics are generated concerning inbound calls and outbound calls, and concerning the performance of each agent for inbound calls and outbound calls. Separate statistics concerning inbound calls and outbound calls allow a more accurate prediction of call pacing and handling requirements and of the availability of an agent so as to maximize the productivity of each agent and control the on-hold time of inbound and outbound calls. Each trunk line is designated for inbound calls or outbound calls and the status of each trunk is monitored. If all of the trunks allocated to inbound service are in use then some of the trunks designated for outbound service are redesignated for inbound service. If more than a predetermined number of trunks designated for inbound service are not in use then some of these trunks will be redesignated for outbound service.