KR870011463A - Temperature sensing circuit - Google Patents

Abstract

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Description

Temperature sensing circuit

Since this is an open matter, no full text was included.

Figure 1a is a schematic diagram of the temperature sensing circuit of the present invention,

3 is a schematic diagram of a temperature sensing circuit including a variable resistor for transition point adjustment.

4 is a perspective view of a temperature probe.

Claims (7)

A temperature sensing element having a range of resistance values corresponding to a range of sensed temperatures by being continuously sensed when the intermediate temperature is positioned in the middle; First and second resistive circuits corresponding to resistance values to detect changes in the temperature sensing element; Providing an output signal in a first state when the resistance value exceeds a first transition point and providing an output signal in a second state when the resistance value decreases below a second value. Comparison means responsive to the detected change; And a relay means for responding in the state of the output signal of the comparing means to provide the control signal such that the operation of the equipment receiving the control signal is properly controlled. The method of claim 1, First and second comparators responsive to the output of the first and second resistive networks so that the comparator means detects a change in the resistance value of the first resistive network with respect to the second resistive network; And a latch responsive to the output of the first and second comparators to The method of claim 2, A resistor operatively connected to the coupling point of the comparison means and the temperature sensor and the external voltage supply terminal to determine the second temperature transition point, wherein the second resistive network determines the first temperature transition point. A resistance point operatively connected to the comparator means and the coupling point of the temperature sensor and the first resistance of the first resistive network, the resistance value for the second temperature point being: R ₁₁ / (R ₁₁ + R ₁₂ ) = 2/3 Where R ₁₁ is the second resistance of the first resistive network and R ₁₂ is selected from the temperature sensor resistance at the low temperature point, The resistance value for the first temperature point is given by ((R ₁₁ × R ₁₃ ) / (R ₁₃ + R ₁₂ )) / R ₁₁ + ((R ₁₃ × R ₁₂ ) / (R ₁₃ × R ₁₂ )] = 1/3 Wherein R ₁₁ and R ₁₃ are the resistances of the first and second resistive networks and R ₁₂ is selected from the temperature sensor resistance values at the hot points. The method of claim 2, A resistor of the first resistive network and a second star network comprising one resistor, the resistor of the first network being connected to a first end of the resistor of the second network and to a junction of the first comparator The second comparator having a second end and a first end connected to receive the external voltage, wherein the resistance of the second star network determines the first and second temperature transition points according to the resistance value determined in the following equation: And a second end connected to the junction of the resistive temperature sensor, wherein each equation is Against cold transition point, (R ₃₁ + R ₃₂ ) / (R ₃₀ + R ₃₁ + R ₃₂ ) = 2/31 Where: R ₃₀ and R ₃₁ are resistance values of the first and second resistive networks, and R ₃₂ is the temperature sensor resistance value at the low temperature point; About the high temperature transition point, R ₃₂ / (R ₃₀ + R ₃₁ + R ₃₂ ) = 1/3 Where: R ₃₀ and R ₃₁ are the first resistors of the first and second resistive networks, and R ₃₂ is the temperature sensor resistance at the hot point. Temperature sensing circuit, characterized in that. A case including a circuit board including a temperature sensing circuit, a voltage terminal connecting an output terminal and an external voltage to the temperature sensing circuit, The temperature sensing circuit includes a temperature sensing element located at one end of the case for making an operative connection in between to sense temperature, The sensing element has a range of resistance values corresponding to the range of sensed temperatures, A network having first and second resistivity positioned in the casing means at a position remote from the sensing element, The network is responsive to the resistance value to detect a change in the resistance value of the sensing element dynamically connected, and the comparator means is responsive to the output of the first and second network to detect an intermediate preselected high and low temperature point. And provide a temperature sensor with output terminals to provide first and second state control signals responsive to intermediate temperatures above and below a predetermined range, whereby the first state when the intermediate temperature exceeds the first predetermined temperature. And a second state control signal is generated when the control signal is generated and the intermediate temperature drops below the second predetermined temperature. The method of claim 4, wherein And a variable resistor operatively connected across said resistive temperature sensor to adjust a temperature sensor resistive characteristic over a preselected temperature range. The method of claim 2, The comparator means further comprises a third resistive circuit operatively connected to the first and second comparators, wherein the first and second comparators are provided so as to provide a temperature sensing circuit independent of the change of the external voltage source. And operatively connected to the third resistive network, whereby the high and low temperature points are stabilized. ※ Note: The disclosure is based on the initial application.