Abstract: In a module in which a circuit board is integrally insert molded with a housing while semiconductor parts mounted on the circuit board are exposed, deformation of the circuit board caused by pressure on the circuit board by a mold for blocking the molding resin is reduced. In the module in which the circuit board is integrally insert molded with the housing while the semiconductor parts mounted on the circuit board are exposed, the deformation of the circuit board is reduced by placing a material, which has an elastic modulus smaller than the elastic modulus of the printed circuit board, in the projection area of the mold holding portion on the circuit board.

Abstract: To achieve a physical quantity detection device capable of obtaining a desired overall device accuracy without unnecessarily raising the tolerances of detection elements, the present invention is characterized by having a plurality of physical quantity detection units for respectively detecting plurality of physical quantities, a storage unit for storing the error characteristics of individual physical quantity detection units, a physical quantity calculation unit for using at least two physical quantities detected by at least two of the plurality of physical quantity detection units to calculate a separate physical quantity, and an error calculation unit for reading the error characteristics of the plurality of physical quantity detection units from the storage unit and calculating the error of the separate physical quantity.

Abstract: The purpose of the present invention is to reduce a load of preventing dew condensation, and to provide a highly reliable humidity detection device. In order to achieve the purpose, this humidity detection device is provided with: a humidity sensor having a humidity detection unit and a temperature detection unit; a heating resistor that heats the humidity sensor; and a heating control unit that controls a heating temperature of the heating resistor. The humidity detection device is characterized in having a target temperature storage unit that stores target temperatures of the heating resistor, said target temperatures having been determined corresponding to temperatures and humidities.

Abstract: In order to provide a humidity measuring device capable of determining whether or not a detection value by a humidity sensor is valid, a humidity measuring device of the present invention is a humidity measuring device for measuring humidity of the intake air in an internal-combustion engine, and includes a water droplet adhesion determination means for determining whether or not a water droplet adheres to a surface of a sensor element of a humidity sensor, based on changes in the humidity and the temperature of the intake air. Thus, it is possible to determine whether or not a detection value by the humidity sensor is valid.

Abstract: In order to provide a temperature and humidity sensor with improved reliability, the temperature and humidity sensor in which all or part of a case of the temperature and humidity sensor is inserted into a main duct for causing gas to pass through and which detects humidity of the gas, includes: a first sub-passage configured as a part of the case, a part of the gas passing through the main duct flowing in substantially the same direction as a flow in the main duct; a throttle section provided between an inlet and an outlet of the first sub-passage and on an inner surface of the first sub-passage, the throttle section having a throttle whose cross-sectional area is smaller than an average cross-sectional area of the entire first sub-passage; and a second sub-passage which connects an upstream side and a downstream side of the throttle section and is different from the first sub-passage.

Abstract: In order provide a mass air flow measurement device capable of enhancing contamination resistance of a humidity sensing element and achieving highly accurate air flow sensing, the mass air flow measurement device includes an air flow sensing element that senses air flow, a physical quantity sensing element that senses at least one of humidity and pressure, and a circuit package incorporating a circuit that processes an output signal of the air flow sensing element and an output signal of the physical quantity sensing element. The air flow sensing element and the physical quantity sensing element are arranged within the same circuit package.

Abstract: In order to make a physical quantity detection device whose sensor and logical circuit operate with different operating voltages have a simple configuration and be capable of recognizing a detection result of the sensor accurately, the physical quantity detection device according to the present invention is configured so that the sensor and the logical circuit may be connected by a bidirectional communication line and may be operate with mutually different operating voltages, and when receiving the detection result of the sensor, recognizes Hi/Lo level signals using second Hi/Lo level thresholds set up on arithmetic processing in place of first Hi/Lo level thresholds that an arithmetic unit has.

Abstract: Provided is a physical quantity measuring device for reducing the influence of heat, other than the heat of a gas to be measured, on a measuring unit for measuring a physical quantity of the gas to be measured. The physical quantity measuring device according to the present invention includes a chip package 40 and a casing 11. The chip package 40 is molded from a polymeric resin, including first and second measuring units measuring first and second physical quantities of the gas to be measured, and a signal processing unit being connected to the first and second measuring units, and processing signals transmitted from the first and second measuring units, The casing 11 fixedly stores the chip package 40, and includes first and second bypass passages 12 and 14 allowing the gas to be measured taken from a main passage 70, to flow in the first measuring unit. In the chip package 40, the signal processing unit 44 is disposed between the first and second measuring units.

Abstract: Radiated noises of an output pulse signal are reduced.

Abstract: Radiated noises of an output pulse signal are reduced.

Abstract: In order to make a physical quantity detection device whose sensor and logical circuit operate with different operating voltages have a simple configuration and be capable of recognizing a detection result of the sensor accurately, the physical quantity detection device according to the present invention is configured so that the sensor and the logical circuit may be connected by a bidirectional communication line and may be operate with mutually different operating voltages, and when receiving the detection result of the sensor, recognizes Hi/Lo level signals using second Hi/Lo level thresholds set up on arithmetic processing in place of first Hi/Lo level thresholds that an arithmetic unit has.

Abstract: An EGR flow rate control apparatus of an internal combustion engine is provided that can correct with high accuracy an EGR gas flow rate measured by a gas flow rate measurement apparatus in an EGR passage and control with high accuracy a gas flow rate regulating valve to reduce discharge amounts of PM and NOx in exhaust gases. An EGR flow rate control apparatus 10 of an internal combustion engine includes a gas flow rate correction unit 45 that corrects the EGR gas flow rate based on a first operating state parameter relating to pressure fluctuations of the intake pipe or exhaust pipe of the internal combustion engine and a second operating state parameter relating to a flow channel resistance of the EGR flow channel.

Abstract: A control device for an engine, capable of accurately estimating the quantity of exhaust heat from the engine and performing engine control which improves the exhaust quality and fuel consumption of the engine in various operating conditions thereof, by using the accurate estimated value of the quantity of exhaust heat. A control device for an engine is provided with an exhaust flow rate sensor for directly sensing the flow rate of exhaust gas discharged from the engine, an exhaust temperature estimating device for sensing or estimating the temperature of the exhaust gas discharged from the engine, and an exhaust heat quantity estimating device for estimating, based on an output of the exhaust flow rate sensor and an output of the exhaust temperature estimating device, the quantity of heat of the exhaust gas discharged from the engine.

Abstract: A control device for an engine, capable of accurately estimating the quantity of exhaust heat from the engine and performing engine control which improves the exhaust quality and fuel consumption of the engine in various operating conditions thereof, by using the accurate extimated value of the quantity of exhaust heat. A control device for an engine is provided with an exhaust flow rate sensor for directly sensing the flow rate of exhaust gas discharged from the engine, an exhaust temperature estimating device for sensing or estimating the temperature of the exhaust gas discharged from the engine, and an exhaust heat quantity estimating device for estimating, based on an output of the exhaust flow rate sensor and an output of the exhaust temperature estimating device, the quantity of heat of the exhaust gas discharged from the engine.

Abstract: A fluid flow rate measurement apparatus prevents accumulation of pollutional substances in a sub-passage to enable high-accuracy fluid flow rate measurement. A heater pattern is formed on the surface of a cylindrical rod. When electricity is conducted in the heater pattern and heat is generated, the heat is transmitted to the sub-passage through an insulating layer. The heat is gradually transmitted up to the leading end of the sub-passage, and burns out pollutional substances adhering to the sub-passage. In this way, accumulation in the sub-passage of pollutional substances can be prevented, thus attaining a fluid flow rate measurement apparatus that enables high-accuracy fluid flow rate measurement.

Abstract: There is provided a thermal type flow meter capable of accurately detecting a flow rate even when a fluid temperature varies rapidly or when the fluid temperature is high. A probe includes: a first main heating resistor; a second main heating resistor set at a temperature different from that of the first main heating resistor; and a sub-heating resistor for heating lead wires of the two main heating resistors. A CPU of a sensor control circuit finds a fluid temperature by using the two main heating resistors, and finds a fluid flow rate by using at least one of the two main heating resistors.

Abstract: An EGR flow rate control apparatus of an internal combustion engine is provided that can correct with high accuracy an EGR gas flow rate measured by a gas flow rate measurement apparatus in an EGR passage and control with high accuracy a gas flow rate regulating valve to reduce discharge amounts of PM and NOx in exhaust gases. An EGR flow rate control apparatus 10 of an internal combustion engine includes EGR flow channels 16, 20 that communicate exhaust pipe 11 with intake pipe 7, gas flow rate regulating valve 17 installed in EGR flow channels 26, 20 that regulates an EGR gas flow rate, and gas flow rate measurement apparatus 18 that is installed on an intake pipe 7 side with respect to the flow rate regulating valve 17 of EGR flow channels 16 and 20 and that measures an EGR gas flow rate flowing through the EGR flow channels 16 and 20.

Abstract: A control apparatus of an EGR control valve has an EGR control valve has an exhaust gas recirculation passage to circulate exhaust gas of an combustion engine from an exhaust gas passage to an intake air passage. A measurement unit measures a flow rate of EGR gas flowing in the exhaust gas recirculation passage, and a controller receives an input from the measurement unit and closes the EGR control valve if the EGR-gas flow rate is smaller than a predetermined threshold value when the EGR gas is flowing from the exhaust side to the intake side of the internal combustion engine.

Abstract: A thermal flow meter corrects flow rate detection errors produced by vaporization of liquid phase components included in a gas to be measured. The thermal flow meter includes a correction circuit 500 that applies respectively different predetermined voltages to heating resistors consisting of first heating resistor Rh1 and second heating resistor Rh2 of a sensor element disposed in the gas to be measured to set a first temperature state and a second temperature state, calculates a first flow rate value Q1 of the gas to be measured in the first temperature state and a second flow rate value Q2 of the gas to be measured in the second temperature state, and calculates a flow rate correction value ?Q based on a ratio (Q1/Q2) between the first flow rate value and second flow rate value or a fourth-power value (Q1/Q2)4 of the ratio to correct a flow rate of the gas to be measured.