초록 ▼

A mass flow sensor includes a semiconductor substrate 1 , an insulating thin film 2 , heaters 311 and 312 , temperature measurement resistors 321 and 322 , and a protective layer 4 . The heaters 311 and 312 are formed on the surface of the insulating thin film 2 , and are provided adjacently such th

A mass flow sensor includes a semiconductor substrate 1 , an insulating thin film 2 , heaters 311 and 312 , temperature measurement resistors 321 and 322 , and a protective layer 4 . The heaters 311 and 312 are formed on the surface of the insulating thin film 2 , and are provided adjacently such that the heater 311 is provided upstream the heater 312 and the heater 312 is provided downstream the heater 311 . A cavity 5 is formed below the heaters 311 and 312 , and the heaters are thermally insulated from the remaining portion of the semiconductor substrate. The temperature measurement resistors 321 and 322 are formed on the top surface of the insulating thin film 2 , and are provided at opposite sides of the heaters 311 and 312 , such that the resistors are aligned with respect to the flow passage of a fluid. In the mass flow sensor and the mass flowmeter including the sensor, the flow rate and flow direction of a fluid can be detected by means of merely the heaters 311 and 312 , which are active elements. Therefore, the sensor and the flowmeter exhibits high-speed response with respect to change in the flow rate of the fluid.

대표청구항 ▼

1. A mass flow sensor comprising:a semiconductor substrate including a space section formed of a cavity;an insulating thin film supported by the semiconductor substrate and adapted to provide thermal and electrical insulation;two heaters formed on a portion of the insulation thin film below which th

1. A mass flow sensor comprising:a semiconductor substrate including a space section formed of a cavity;an insulating thin film supported by the semiconductor substrate and adapted to provide thermal and electrical insulation;two heaters formed on a portion of the insulation thin film below which the space section is provided;two temperature measurement resistors formed on a portion of the insulating thin film which is thermally insulated from the heaters; anda protective layer formed on the insulating thin film, the heaters, and the temperature measurement resistors,wherein the temperature measurement resistors are formed outside a portion of the insulating thin film below which a space section is provided, and the temperature measurement resistors are provided substantially symmetrically with respect to the position of the heaters and a line parallel to the direction of the flow passage of a fluid under measurement. 2. The mass flow sensor as claimed in claim 1, wherein, on the insulating thin film, one end terminal of each of the heaters is connected to one end terminal of the corresponding temperature measurement resistor. 3. The mass flow sensor as claimed in claim 1, wherein the temperature measurement resistors are provided along a line different from a line passing through the heater, these lines being parallel to the direction of the flow passage. 4. A mass flowmeter comprising a mass flow sensor as claimed in claim 1, further comprising a circuit for maintaining, for each heater, a constant difference between the temperature of the heater and the temperature of a fluid under measurement which is detected by the temperature measurement resistor corresponding to the heater. 5. The mass flowmeter as claimed in claim 4, which comprises two bridge circuits, each bridge circuit including one of the heaters and the temperature measurement resistor corresponding to the heater; and two heater power source circuits for maintaining, for each heater, a constant difference between the temperature of the heater and the temperature of the fluid, on the basis of outputs of the bridge circuits, the outputs being voltages applied to the bridge circuits or currents flowing through the bridge circuits. 6. The mass flowmeter as claimed in claim 5, which comprises a circuit for calculating the mass flow of the fluid on the basis of a subtraction value obtained by subtracting one of the outputs from the other, and for determining the flow direction of the fluid on the basis of whether the subtraction value is positive or negative. 7. The mass flowmeter as claimed in claim 5, which comprises a circuit for calculating the mass flow of the fluid on the basis of the larger of the outputs, and for determining the flow direction of the fluid on the basis of whether a subtraction value obtained by subtracting one of the outputs from the other is positive or negative. 8. The mass flowmeter as claimed in claim 5, which comprises a circuit for calculating the mass flow of the fluid on the basis of a subtraction value obtained by subtracting one of the voltages applied to the heaters from the other or by subtracting one of the currents flowing through the heaters from the other, or on the basis of the larger of the voltages or the currents, and for determining the flow direction of the fluid on the basis of whether the subtraction value is positive or negative. 9. The mass flow sensor as claimed in claim 1, wherein each of the temperature measurement resistors is formed on an opposite side of the space section. 10. A mass flow sensor comprising:a semiconductor substrate including a space section formed of a cavity;an insulating thin film supported by the semiconductor substrate and adapted to provide thermal and electrical insulation;two heaters formed on a portion of the insulation thin film below which the space section is provided;two temperature measurement resistors formed on a portion of the insulating thin film which is thermally insulated fr om the heaters; anda protective layer formed on the insulating thin film, the heaters, and the temperature measurement resistors,wherein the temperature measurement resistors are provided along a line different from a line passing through the heater, these lines being parallel to the direction of the flow passage. 11. A mass flow sensor comprising:a semiconductor substrate including a space section formed of a cavity;an insulating thin film supported by the semiconductor substrate and adapted to provide thermal and electrical insulation;two heaters formed on a portion of the insulation thin film below which the space section is provided;two temperature measurement resistors formed on a portion of the insulating thin film which is thermally insulated from the heaters; anda protective layer formed on the insulating thin film, the heaters, and the temperature measurement resistors,wherein the temperature measurement resistors are disposed so as to form an interlocked configuration.