KR0149869B1 - Sensor value precision sensing apparatus for electronic appliances - Google Patents

Abstract

The present invention relates to a precise sensor value detection device of an electronic device, by using a D / A converter to change the reference voltage that is a reference of the sensor measurement value by the sensor having a different voltage level according to the variable reference voltage The present invention relates to an accurate sensor value detection device of an electronic device capable of precisely detecting a measured sensor measurement value.

The present invention is a sensor unit consisting of sensors for individually performing the operation of measuring physical quantities such as temperature, humidity, and the like by converting the sensor measurement value by the measuring operation into electrical signals of different voltage levels, and the sensor measurement A sensor value precision sensing device of an electronic device having a microcomputer for sensing the sensor measured value according to a reference voltage serving as a reference of the value, the reference voltage converted into an analog signal according to a control signal input from the microcomputer; A D / A converter which outputs to a microcomputer and varies and outputs a voltage value of the reference voltage in response to the sensor selected by the microcomputer; An A / D converter digitally converting a sensor measurement value of the sensor selected by the micom and a reference voltage of the D / A converter, and installed inside or outside the micom; And a counter connected between the microcomputer and the D / A converter to reduce the output port of the microcomputer that outputs the control signal.

Description

Sensor value detection device of electronic equipment

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an accurate sensor value sensing device of an electronic device. In particular, a reference voltage that is a comparison reference of a sensor measured value is varied by using a D / A converter and is applied to sensors having different voltage levels according to the variable reference voltage. The present invention relates to an accurate sensor value detection device of an electronic device capable of precisely detecting a sensor measured value.

In general, an electronic device includes a sensor for measuring physical quantities such as temperature and humidity, and the microcomputer provided in the electronic device processes a given operation based on the measured value measured by the sensor. Such a sensor measures the change of an object and outputs an electrical signal to the microcomputer. The voltage level of the electrical signal varies depending on the sensor. That is, according to the bell tower of the sensor, the voltage value of the electric signal is different in the section in which the magnitude is changed, and is usually set to have a voltage level smaller than 5V.

1 is a block diagram of a sensor value sensing apparatus of an electronic apparatus according to the prior art. In FIG. 1, a sensor value detecting device of a conventional electronic device includes a sensor unit 2 for measuring physical quantities such as temperature and wetness, and converting and outputting information according to the measurement into an electrical signal, and a driving voltage Vcc and its The microcomputer 1 receives one end of the driving voltage Vcc as a reference voltage and senses a sensor measurement value measured by the sensor unit 2. The microcomputer 1 has a built-in A / D converter which converts analog signals into digital signals. The A / D converter performs an operation of digitally converting the measured value of the sensor unit 2 and the reference voltage, and the microcomputer 1 reads and stores the sensor measured value digitally converted by the built-in A / D converter. Will be detected.

In the prior art, since the reference voltage is fixed at 5V, for example, the same voltage as the driving voltage (Vcc), it is difficult to accurately determine whether the sensor measurement value measured by a sensor having a low voltage level is valid, and thus the sensor measurement value is precisely determined. Could not be detected. In addition, when the voltage level required for each sensor is different, when adopting a method of generating a reference voltage having a different voltage value in a circuit corresponding to the voltage level, not only the hardware configuration is complicated but also the manufacturing cost is increased. There was a problem that caused an increase.

SUMMARY OF THE INVENTION An object of the present invention is to provide an accurate sensor value detection device for an electronic device, which enables accurate detection of sensor measurement values of a plurality of sensors having different voltage levels by varying a reference voltage that is a comparison reference of sensor measurement values. .

1 is a block diagram of a sensor value detection device of an electronic device according to the prior art.

2 is a block diagram of an apparatus for accurately detecting sensor values of an electronic device according to Embodiment 1 of the present invention.

FIG. 3 is a flowchart illustrating a case where the microcomputer of FIG. 2 senses a sensor measurement value.

4 is a block diagram of a precision sensor value detection device of an electronic device according to a second embodiment of the present invention.

FIG. 5 is a flowchart illustrating a case where the microcomputer of FIG. 4 detects a sensor measurement value. FIG.

6 is a block diagram of an apparatus for precise sensor value detection of an electronic device according to Embodiment 3 of the present invention.

* Explanation of symbols for main parts of the drawings

1: Micom 2: Sensor

3: D / A converter 4: Counter

5: A / D converter

An object of the present invention as described above is a sensor unit consisting of sensors for individually performing the operation of measuring physical quantities such as temperature, humidity and the like by converting the sensor measurement value by the measurement operation into electrical signals of different voltage levels And a sensor value precision sensing device of an electronic device having a microcomputer sensing the sensor measured value according to a reference voltage which is a reference voltage of the sensor measured value, wherein the sensor signal is converted into an analog signal according to a control signal input from the microcomputer. A D / A converter which outputs the received reference voltage to the micom and varies and outputs the voltage value of the reference voltage corresponding to the sensor selected by the micom; An A / D converter digitally converting the sensor measurement value of the sensor selected by the micom and the reference voltage of the D / A converter, and installed inside or outside the micom; And a counter connected between the microcomputer and the D / A converter to reduce the output port of the microcomputer outputting the control signal.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a configuration diagram of an accurate sensor value sensing device of an electronic device according to Embodiment 1 of the present invention, and FIG. 3 is an operation flowchart showing a case in which the microcomputer of FIG. As shown in FIG. 2, the present invention provides a microcomputer 1 having a built-in A / D converter and sensing sensor measurement values according to a reference voltage, and different voltage levels for measuring physical quantities such as temperature and humidity. A sensor unit 2 which has sensors to find and outputs a sensor measurement value measured by the sensor to the microcomputer 1, and a reference voltage is varied according to a control signal of the microcomputer 1 to the microcomputer 1. And a D / A converter (3) for outputting.

The microcomputer 1 outputs a control signal for specifying a voltage value of the reference voltage to the D / A converter 3 through output terminals Eo to En. The D / A converter 3 outputs a reference voltage having a voltage value corresponding to the control signal to the input terminal AVref of the microcomputer 1. The sensor unit 2 outputs the sensor measurement value measured by the sensor to the input terminals (ANo ~ ANn) of the microcomputer (1). Accordingly, the A / D converter embedded in the microcomputer 1 digitally converts the reference voltage input through the input terminal AVref and the sensor measurement value input through the input terminals ANo to ANn, and stores the digital conversion. Subsequently, the microcomputer 1 detects the sensor measurement value based on the reference voltage stored in the A / D converter.

The operation of sensing the sensor measurement value by the microcomputer 1 will be described according to the operation flowchart of FIG. First, the microcomputer 1 selects a sensor to be sensed and reads the sensor measurement value corresponding thereto from the built-in A / D converter (step 101). Subsequently, the microcomputer 1 determines whether the sensor measurement value AD of the selected sensor is greater than 4V (step 102). When the sensor measurement value AD of the selected sensor is greater than 4V as a result of the determination in step 102, a control signal for designating a reference voltage as 5V is output to the D / A converter 3 to output the D / A converter 3. In step 103, a reference voltage of 5V is received. If the sensor measurement value AD of the selected sensor is not greater than 4V, the determination result of step 102 determines whether the sensor measurement value AD of the selected sensor is greater than 3V (step 104). If the sensor measurement value AD of the selected sensor is greater than 3V as a result of the determination in step 104, a control signal for designating a reference voltage as 4V is output to the D / A converter 3 to output the D / A converter 3. In step 105, a reference voltage of 4V is received from the controller. If it is determined in step 104 that the sensor measurement value AD of the selected sensor is not greater than 3V, it is determined whether the sensor measurement value AD of the selected sensor is greater than 2V (step 106). If the sensor measurement value AD of the selected sensor is greater than 2V as a result of the determination in step 106, a control signal for designating a reference voltage as 3V is outputted to the D / A converter 3 to output the D / A converter 3. In step 105, a reference voltage of 3 V is received from the controller. As a result of the determination of step 106, it is determined whether the sensor measurement value AD of the selected sensor is greater than 1V (step 108). If the sensor measurement value AD of the selected sensor is greater than 1 V as a result of the determination in step 108, a control signal for designating a reference voltage as 2 V is output to the D / A converter 3 to output the D / A converter 3. In step 109, a reference voltage of 2V is received from the controller. If the sensor measurement value AD of the selected sensor is not greater than 1V as a result of the determination in step 108, a control signal for designating a reference voltage as 1V is output to the D / A converter 3 to output the D / A converter 3. In step 110, a reference voltage of 1 V is received.

After performing the step 103, the 105, the 107, the 109, and the 110, the microcomputer 1 is digitally converted by the built-in A / D converter. Then, the sensor measurement value of the selected sensor is read and stored (step 111).

FIG. 4 is a configuration diagram of a precision sensor value sensing device of an electronic device according to a second embodiment of the present invention, and FIG. 5 is a flowchart illustrating a case in which the microcomputer of FIG. 4 senses a sensor measurement value. The second embodiment according to the present invention performs the same operation as compared with the first embodiment of FIG. 2 and is characterized by the first reference voltage and the relatively low voltage having the D / A converter 3 having a relatively large voltage value. A second reference voltage having a value is output.

As shown in FIG. 4, the microcomputer 1 having an A / D converter and sensing sensor measured values according to the first and second reference voltages, and different voltages for measuring physical quantities such as temperature and humidity. Sensor unit 2 having a level, and outputting the sensor measurement value measured by the sensor to the microcomputer 1, and the first and second reference voltages according to the control signal of the microcomputer 1; And a D / A converter 3 that is variable and outputs to the microcomputer 1.

The microcomputer 1 receives the first reference voltage and the second reference voltage of the D / A converter 3 through input terminals AVref + and AVref−, and inputs the first reference voltage and the second reference voltage to the second reference voltage section. It detects whether the sensor measurement value measured by the sensor belongs.

According to the second embodiment of the present invention, the operation of sensing the sensor measurement value by the microcomputer 1 will be described according to the operation flowchart of FIG. First, the microcomputer 1 selects a sensor to be sensed and reads the sensor measurement value corresponding thereto from the built-in A / D converter (step 121). Subsequently, the microcomputer 1 determines whether the sensor measurement value AD of the selected sensor is greater than 4V (step 122). When the sensor measurement value AD of the selected sensor is greater than 4V, the control signal for designating the first reference voltage as 5V and the second reference voltage as 4V as a result of the determination in step 122 is performed to the D / A converter 3. The output unit receives the first reference voltage of 5V and the second reference voltage of 4V from the D / A converter 3 (step 123). If the sensor measurement value AD of the selected sensor is not greater than 4V, the determination result of step 122 determines whether the sensor measurement value AD of the selected sensor is greater than 3V (step 124). If the sensor measurement value AD of the selected sensor is greater than 3V, the control signal for designating the first reference voltage as 4V and the second reference voltage as 3V is determined as the determination result of step 124. The output unit receives the first reference voltage of 4V and the second reference voltage of 3V from the D / A converter 3 (step 125). If the sensor measurement value AD of the selected sensor is not greater than 3V, the determination result of step 124 determines whether the sensor measurement value AD of the selected sensor is greater than 2V (step 126). If the sensor measurement value AD of the selected sensor is greater than 2V, the control signal for designating the first reference voltage as 3V and the second reference voltage as 2V is determined in the step 126. In step 127, the D / A converter 3 receives a first reference voltage of 3V and a second reference voltage of 2V. If the sensor measurement value AD of the selected sensor is not greater than 2V, the determination result of step 126 determines whether the sensor measurement value AD of the selected sensor is greater than 1V (step 128). If the sensor measurement value AD of the selected sensor is greater than 1V as a result of the determination in step 128, a control signal for designating the first reference voltage as 2V and the second reference voltage as 1V is provided in the D / A converter 3. In step 129, the D / A converter 3 receives a first reference voltage of 2V and a second reference voltage of 1V. If the sensor measurement value AD of the selected sensor is not greater than 1V, the control signal for designating the first reference voltage as 1V and the second reference voltage as 0V is determined in the 128th step. ) To receive the first reference voltage of 1V and the second reference voltage of 0V from the D / A converter 3 (step 130).

After performing the step 123, the step 125, the step 127, the step 129, and the step 130, the microcomputer 1 is digitally converted by the built-in A / D converter. The sensor measurement value of the selected sensor is read and then stored (step 131).

6 is a block diagram of an apparatus for accurately detecting sensor values of an electronic device according to Embodiment 3 of the present invention. The third embodiment according to the present invention performs the same operation as compared with the first embodiment of FIG. 2 and characteristically reduces the number of output terminals of the microcomputer 1 that outputs a control signal for designating a voltage value of the reference voltage. The counter 4 further includes a counter 4 connected between the microcomputer 1 and the D / A converter 3.

The microcomputer 4 may output a reset signal, a clock signal, and a control signal to the counter 4 through output terminals Eo to E2 to obtain a reference voltage corresponding to a sensor to be detected. That is, the counter 4 starts the counting operation when the reset signal of the microcomputer 1 is input through the reset terminal RESET. The counter 4 receives the control signal of the microcomputer 1 input through the input terminal IN. The count operation is performed based on the clock signal input through (CK). Subsequently, the counter 4 outputs a signal for designating a voltage value of the reference voltage to the D / A converter 3. Accordingly, the D / A converter 3 outputs the reference voltage to be sensed to the input terminal AVref of the microcomputer 1.

In the third embodiment of the present invention according to FIG. 6, the third voltage is output to the D / A converter 3 through the counter 4 when the reference voltage is specified by the microcomputer 1. It satisfies the operation flow chart shown in FIG. As described above, the third embodiment of the present invention can be usefully employed when the input terminal and the output terminal of the microcomputer 1 are insufficient.

7 is a block diagram of a precision sensor value detection device of an electronic device according to a fourth embodiment of the present invention. The fourth embodiment according to the present invention performs the same operation as compared with the first embodiment of FIG. 2 and is characterized in that the A / D converter 5 is installed outside the microcomputer 1.

The A / D converter 5 receives a reference voltage through the D / A converter 5 and digitally converts it, and receives a sensor measurement value from the sensor unit 2 to digitally convert it. The A / D converter 5 also outputs the digitally converted reference voltage and sensor measurement value to the microcomputer 1. The fourth embodiment of the present invention satisfies the operation flow diagram shown in FIG. 3 except for installing the A / D converter 5 on the outside of the microcomputer 1.

In the above-described embodiments of the present invention, a method of varying a reference voltage using a D / A converter is commonly applied, and a method of using a counter when reducing the output terminal of the microcomputer is presented, and the microcomputer is not embedded in the microcomputer. It suggests how to install A / D converter on the outside. Furthermore, the present invention can be used in combination with the methods presented in the embodiments under the technical spirit of the present invention, and the detailed description of such embodiments will be omitted since it can be sufficiently understood by those skilled in the art without detailed description.

As described above, since the present invention variably adjusts the reference voltage by using the D / A converter connected to the output side of the microcomputer, it is possible to precisely detect the sensor measurement value measured by a sensor having a different voltage level. In addition, if a counter is interposed between the microcomputer and the D / A converter, the output terminal of the microcomputer is reduced, so that the output terminal provided in the microcomputer can be efficiently operated.If the microcomputer does not have an A / D converter, the external A / The hardware configuration is simple, such as the installation of a D-converter to perform a sensing operation, and the sensor can accurately detect the measured values of multiple sensors.

Claims (1)

A sensor unit (2) consisting of sensors for individually performing an operation for measuring physical quantities such as temperature and humidity, and for converting and outputting sensor measurement values according to the measurement operation into electrical signals having different voltage levels, and the sensor measurement A sensor value precision sensing device of an electronic device having a microcomputer (1) for sensing the sensor measured value according to a reference voltage that is a reference value of comparison, the analog signal according to the control signal input from the microcomputer (1) A D / A converter (3) outputting the converted reference voltage to the microcomputer (1), and varying and outputting a voltage value of the reference voltage corresponding to a sensor selected by the microcomputer (1); An A / D converter (5) digitally converting the sensor measurement value of the sensor selected by the micom (1) and the reference voltage of the D / A converter (3) and installed inside or outside the microcomputer (1); And a counter 4 connected to the D / A converter 3 to reduce the output port of the microcomputer 1 for outputting the control signal. Sensor value precision detection device.