KR950002901Y1 - Humidity-sensor for a microwave range - Google Patents

Abstract

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Description

Signal processing circuit of absolute humidity sensor

1 is a block diagram showing the present invention.

2 is a waveform diagram according to the present invention, Figure 2a is an absolute humidity detection signal waveform diagram, Figure 2b is a power supply synchronization pulse signal waveform diagram.

3 is a flow chart according to the present invention.

* Explanation of symbols for main parts of the drawings

1: control means 2: power supply means

3: synchronization circuit means 4: absolute humidity sensor means

5 amplification means 6 driving means

The present invention relates to a sensing signal of an absolute humidity sensor employed in a microwave oven, and in particular, a signal from an absolute humidity sensor that senses humidity contains a noise component, which makes it difficult to accurately identify the main control circuit. In view of this, the present invention relates to a signal processing circuit of an absolute humidity sensor capable of detecting an accurate signal.

In the signal waveform detected from the absolute humidity sensor employed in the conventional microwave oven, noise caused by the high frequency oscillation of the magnetron is emitted every half cycle of the power frequency. Judging from the signal coming out, there has been a risk of malfunction.

The present invention was devised to solve the above-mentioned problems, and the main control means reads the signal sensed by the absolute humidity sensor, but reads only the level for the remaining half period except the half period of noise generated during the half period of the power frequency, so as to accurately sense humidity. It is an object of the present invention to provide a signal processing circuit of an absolute humidity sensor that allows for thinning.

In order to achieve the above object, the present invention is a microwave oven employing an absolute humidity sensor for automatic cooking, the synchronization circuit means for generating a synchronous pulse signal of a frequency matching the power frequency from the power supply means, and Matching the synchronous pulse signal input from the synchronous circuit means and the detection signal including the noise component inputted from the absolute humidity sensor means and the amplifying means, reads and judges only the half-cycle of the noise component and outputs the control signal. Characterized in that the control means.

Hereinafter, the present invention will be described based on the accompanying drawings.

1 is a block diagram of the present invention, which uses AC power to generate AC power and DC power required for the apparatus using commercial AC power, and supplies the power to the respective means. A synchronizing circuit means 2 for forming a synchronizing pulse signal as shown in FIG. 2B corresponding to a power frequency 60 Hz is connected to an input terminal PI ₁ of the control means 1 and inputs a power supply synchronous pulse at a power source frequency. . In addition, a normal absolute humidity sensor means 4 composed of an exposure thermistor, a hermetically sealed thermometer, a resistance, and the like, and an amplification means 5 for amplifying the weak signal detected by the sensor means 4 are provided with the control means ( Humidity of the food is detected by the absolute humidity sensor means 4 is connected to the input terminal (PI ₂ ) of 1) is converted into a voltage value, the waveform signal as shown in FIG. 2a is input to the input terminal (PI ₂ ) . However, the humidity sensing signal in this case there is included in the noise component for each half cycle as shown this time _{O~t 1, t 2 ~t 3,} t 4 ~t 5, ... … Hereinafter referred to as 'Y area'.

Further, there is no noise component in a half period of time _{t 1 ~t 2, t 3 ~t} 4, ... … Hereinafter referred to as 'X region'. The noise signal for each half-cycle of the commercial frequency is stored in the high frequency output from the magnetron, and the humidity sensing signal inputted to the input terminal PI ₂ of the control means 1 composed of microcomputers is read by the control means 1 as it is. When cooking is performed, a large error occurs. Therefore, by inputting certain data into the storage device built in the control means 1, the synchronization pulse signal inputted to the input terminal PI ₁ and the humidity sensing signal sensed by the humidity sensor inputted to the input terminal PI ₂ . By matching, the sync pulse signal waveform is read from the high to low, i.e., only in the 'X region', so that the humidity sensing signal is read so that the sensing level excluding the 'Y region' including the noise component. (Vo) can be detected. In addition, the control means 1 outputs the controlled signal through the output terminal PO to the drive means 6 made of a magnetron or the like so as to achieve optimum cooking by reading the value of the humidity sensing signal. Referring to Figure 3 describes the operation and effects of the present invention.

When the microwave oven is turned on and the start switch (not shown) is pressed, the humidity sensor performs initialization. Here, the initialization is a series of normal operations that reduce the cooking error due to the influence of the surrounding environment during the automatic cooking by eliminating the unbalanced voltage applied to the absolute humidity sensor means 4 before the moisture occurs during the initial automatic cooking.

Those of the following control means (1) an input terminal (PI ₁₎ as it is determined that the 'X domain "from the area of the new book of the power frequency synchronization signal input" X region "when only the input terminal humidity sensor is input to the (PI ₂₎ Read the voltage value of. At this time, it is determined whether the read value is a predetermined value suitable for cooking, and when the value is the same, the cooking is terminated.

As described above, the present invention can accurately read the signal value detected by the absolute humidity sensor regardless of the influence of noise, thereby reducing the error in cooking.

Claims (1)

In a microwave oven employing an absolute humidity sensor for automatic cooking, a synchronization circuit means (3) for generating a synchronous pulse signal of power frequency from the power supply means (2) and input from the synchronization circuit means (3) Matches the synchronous pulse signal and the detection signal including the noise component inputted from the absolute humidity sensor means 4 and the amplification means 5, and reads and judges the detection signal only during the half cycle without the noise component to output the control signal. Signal processing circuit of the absolute humidity sensor, characterized in that consisting of a control means (4).