Flow rate sensor
First Claim
1. A flow rate sensor comprising a heater, an upstream temperature sensor allocated in a forward flow side of said heater, and a downstream temperature sensor allocated in a reverse flow side of said heater, wherein a voltage is applied to said upstream temperature sensor and said downstream temperature sensor in order to detect a flow rate using a potential difference generated between said upstream temperature sensor and said downstream temperature sensor,wherein said upstream temperature sensor and said downstream temperature sensor are provided with different thermal characteristics such that the thermal characteristics of a forward flow where a fluid flows toward said downstream temperature sensor from said upstream temperature sensor are asymmetrical to those of a reverse flow where said fluid having an identical flow rate to that of said forward flow flows toward said upstream temperature sensor from said downstream temperature sensor.
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Accused Products
Abstract
A flow rate sensor detects the flow rate in a pulsating condition including a large amount of the reverse flow. Upstream temperature sensors and downstream temperature sensors are formed in both sides of a heater, parallel resistors are formed in the external side of a thin film portion (cavity), and the downstream temperature sensors are connected at the contacts. The upstream and downstream temperature sensors are respectively allocated to the four sides of the bridge circuit so that the sensors of the same type are not side by side and the electrodes are balanced when the flow rate is zero. The upstream temperature sensor is cooled during the forward flow, while the downstream temperature sensor is influenced by the heater but virtual change is rather small and potential difference between the electrodes becomes larger. During the reverse flow, the downstream temperature sensor is cooled but virtual change is rather small.
20 Citations
11 Claims
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1. A flow rate sensor comprising a heater, an upstream temperature sensor allocated in a forward flow side of said heater, and a downstream temperature sensor allocated in a reverse flow side of said heater, wherein a voltage is applied to said upstream temperature sensor and said downstream temperature sensor in order to detect a flow rate using a potential difference generated between said upstream temperature sensor and said downstream temperature sensor,
wherein said upstream temperature sensor and said downstream temperature sensor are provided with different thermal characteristics such that the thermal characteristics of a forward flow where a fluid flows toward said downstream temperature sensor from said upstream temperature sensor are asymmetrical to those of a reverse flow where said fluid having an identical flow rate to that of said forward flow flows toward said upstream temperature sensor from said downstream temperature sensor.
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2. A flow rate sensor comprising a heater, an upstream temperature sensor allocated in a forward flow side of said heater, and a downstream temperature sensor allocated in a reverse flow side of said heater, wherein a voltage is applied to said upstream temperature sensor and said downstream temperature sensor in order to detect flow rate using a potential difference generated between said upstream temperature sensor and said downstream temperature sensor,
wherein a potential VF generated between said upstream temperature sensor and said downstream temperature sensor during the forward flow toward said downstream temperature sensor from said upstream temperature sensor and a potential VR generated between said upstream temperature sensor and said downstream temperature sensor during the reverse flow, with the identical flow rate to that of the forward flow, toward said upstream temperature sensor from said downstream temperature sensor satisfy the relationship VF> - VR.
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3. A flow rate sensor comprising a thin film portion comprising a heater, an upstream temperature sensor allocated in a forward flow side of said heater and a downstream temperature sensor allocated in a reverse flow side of said heater, wherein a voltage is applied to said upstream temperature sensor and said downstream temperature sensor in order to detect flow rate using a potential difference generated between said upstream temperature sensor and said downstream temperature sensor,
wherein a resistive element is connected in parallel to said downstream temperature sensor at a position such that said resistive element is thermally more isolated from said heater than said downstream temperature sensor is.
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6. A flow rate sensor comprising, in the thin film portion, a heater, an upstream temperature sensor allocated in the forward flow side of said heater, and a downstream temperature sensor allocated in the reverse flow side of said heater in order to detect flow rate using potential difference generated between said upstream temperature sensor and said downstream temperature sensor by applying voltages to said upstream temperature sensor and said downstream temperature sensor,
wherein said upstream temperature sensor has the temperature coefficient of resistance TCRu and said downstream temperature sensor has the temperature coefficient of resistance TCRd respectively, in order to satisfy the relationship of TCRr> - TCRd.
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7. A flow rate sensor comprising a thin film portion comprising a heater, an upstream temperature sensor allocated in a forward flow side of said heater and a downstream temperature sensor allocated in a reverse flow side of said heater, wherein a voltage is applied to said upstream temperature sensor and said downstream temperature sensor in order to detect flow rate using a potential difference generated between said upstream temperature sensor and said downstream temperature sensor,
wherein said downstream temperature sensor is allocated in a position thermally more isolated from said heater than said upstream temperature sensor and the potential difference generated by the forward flow is asymmetrical to the temperature difference generated by the reverse flow of the same amount as the forward flow.
- 8. A flow rate sensor comprising a thin film portion comprising a heater, an upstream temperature sensor allocated in a forward flow side of said heater and a downstream temperature sensor allocated in a reverse flow side of said heater, wherein a voltage is applied to said upstream temperature sensor and said downstream temperature sensor in order to detect flow rate using a potential difference generated between said upstream temperature sensor and said downstream temperature sensor, wherein a resistive element connected in parallel to said downstream temperature sensor and the connecting point thereof are allocated in the external side of said thin film portion.
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11. A control system for controlling an internal combustion engine using a flow rate signal detected by a flow rate sensor according to, wherein the internal combustion engine is controlled using the flow rate signal indicating the flow rate of intake air.
Specification