JPH0587639U - Microcomputer input data resolution variable device - Google Patents

Abstract

(57) [Summary] [Purpose] A / of microcomputers such as microwave ovens
Improves the resolution for capturing D input data. [Structure] The voltage level applied to the external reference power supply port for the A / D converter of the microcomputer can be switched in a plurality of stages, whereby the resolution itself of the A / D converter input data can be made variable.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a variable input data resolution device for a microcomputer.

[0002]

[Prior Art]

 For example, a microwave oven or the like is provided with a weight sensor for measuring the weight of an object to be cooked. The weight sensor measures the weight of frozen food or the like delivered to the inside of the microwave oven, as shown in, for example, Japanese Patent Application Laid-Open No. 2-72584, and the amount of high-frequency heating according to the weight ( Or for hours).

That is, the output of the weight sensor is input to the micro computer unit for controlling the cooking function of the microwave oven, and the microcomputer outputs the output to the cooking object based on the input measurement data of the weight sensor. The high frequency heating amount is set appropriately for heating.

[0004]

[Problems to be solved by the device]

 By the way, when the weight sensor or the like sensor itself is constituted by a digital type and the output itself is outputted in the form of a digital signal, the signal is directly taken into the microcomputer CPU section described above. Good.

However, in the case where the sensor is of an analog type, for example, its output must be once converted into a digital signal via an A / D converter and then taken into the CPU on the microcomputer side. Therefore, when using the analog type sensor, generally, an A / D converter section is attached to the microcomputer side, and after the A / D conversion is performed via the A / D converter section, the output data from the sensor is converted. It is designed to be loaded into the CPU of a micro computer. Therefore, even if the measurement accuracy (voltage change width) of the sensor is high, if the input data resolution of the microcomputer side A / D converter is low, accurate measurement data may not be captured.

[0006] For example, the output of the weight sensor generally used in the microwave oven as described above is DC1.25V / kg. On the other hand, the A / D data resolution on the microcomputer side is, for example, that of a 4-bit microcomputer, and generally an 8-bit A / D converter with a maximum reference voltage of 5V is used. Therefore, in the 8-bit A / D converter, 5V / 256 bit = 19.53 mV / bit, and the resolution is 15.625 g per bit. This A / D data resolution is not suitable for measuring the weight of a small weight object (for example, one loaf of bread) having a predetermined weight (15 g) or less. Therefore, it is difficult to apply it to toaster range, for example.

Meanwhile, some microcomputers have, for example, an external reference power supply port dedicated to the A / D converter, and if the voltage applied to that port is VR +, then a resolution of VR + / 256 is obtained for the time being. It will be.

[0008] Therefore, if a microcomputer having an external power supply function as described above is used and VR + = 2.5V, a resolution twice as high as the conventional value of 7.813 g / bit can be obtained. When the input value of is more than 2.5V, there is a problem that measurement becomes impossible.

[0009]

[Means for Solving the Problems]

 The present invention has been made for the purpose of solving the above problems, and an A / D converter for converting analog data input to the microcomputer into digital data and an external A / D converter for the A / D converter. In a microcomputer comprising an external reference power supply port for supplying a reference power supply for inputting, a reference power supply voltage setting means for setting an external reference power supply voltage applied to the external reference power supply port, and the reference power supply. Reference power supply voltage varying means for varying the reference power supply voltage set by the voltage setting means, and switching signal generating means for generating a reference power supply voltage switching signal for operating the reference power supply voltage varying means are provided. The reference power supply voltage varying means is operated by a switching signal from the generating means, and the reference power supply voltage setting means sets the reference power supply voltage. It is characterized in that so as to improve the input data resolution from the A / D converter by varying the reference supply voltage.

[0010]

[Action]

 In the configuration of the input data resolution variable device of the microcomputer of the present invention, as described above, first, the A / D converter for converting the analog data input to the microcomputer into the digital data and the external input input to the A / D converter. In a microcomputer including an external reference power supply port for supplying a built-in reference power supply, reference power supply voltage setting means for setting an external reference power supply voltage applied to the external reference power supply port, and the reference power supply voltage. Reference power supply voltage varying means for varying the reference power supply voltage set by the setting means and switching signal generating means for generating a reference power supply voltage switching signal for operating the reference power supply voltage varying means are provided. The reference power supply voltage varying means is operated by the switching signal from the switching signal generating means to set the reference power supply voltage. Are I Do to increase the input data resolution from the A / D converter by a variable to Rukoto the reference power supply voltage is set to a predetermined value by means.

That is, the microcomputer side switching signal generating means generates the switching signal according to the voltage level of the external input such as the sensor output at that time, and the voltage level of the external input is high, and the current external reference power source is present. When the reference data applied to the port is too low in the resolution of the input data to capture the data, the reference power supply voltage varying means is activated by the switching signal. Then, the reference power supply voltage set by the reference power supply voltage setting means is further increased to increase the resolution itself of the input data. As a result, it is possible to capture data according to the output level of the sensor.

[0012]

Therefore, according to the input data resolution changing device of the microcomputer of the present invention, the input data resolution corresponding to the level of the external input such as the sensor side output can be determined by the capacity of the microcomputer or A / D converter. It can be realized at low cost without increasing the size.

[0013]

【Example】

 1 and 2 show the structure of an input data resolution variable device of a microcomputer according to an embodiment of the present invention and a method of changing the same resolution.

First, FIG. 1 shows a specific circuit configuration of the apparatus of the above-described embodiment. In the figure, reference numeral 1 is a microcomputer of a 4-bit configuration for a microwave oven, for example. The microcomputer 1 has a built-in 8-bit A / D converter for converting an analog signal such as the output of the analog type weight sensor described above into a digital signal and inputting it, and the A / D converter is used as an external port. It has an external reference power supply port Pb for the / D converter.

[0015] Then, the external reference power port Pb, the external reference power supply voltage setting circuit 2 consisting of a series circuit of resistors R ₁ and R ₂ through the operational amplifier A to be described later is connected.

The power supply side terminal of the external reference power supply voltage setting circuit 2 is connected to the constant voltage power supply Vcc, and the ground side terminal of the circuit 2 is grounded via the switching transistor Tr. The V-input terminal of the operational amplifier A is connected so that the feedback input is supplied from the output side thereof, while the V + input terminal is connected to the resistors R ₁ and R _{2 of the} external reference power supply voltage setting circuit _2. It is connected to the reference power supply voltage set point between and forms a voltage follower.

On the other hand, the microcomputer 1 of the present embodiment is further provided with a resolution switching port (output port) Ps, and the resolution switching output Vo is output from the resolution switching port Ps. ing. The resolution switching port Ps is connected to the base of the switching transistor Tr via resistors Rb and Rbe, and the switching transistor Tr is switched by the resolution switching output Vo from the resolution switching port Ps. The external reference power supply voltage, which is turned on and off and is input to the V + input terminal of the operational amplifier A, is switched to two stages, for example, Vcc and (Vcc.R ₂ ) / (R ₁ + R ₂ ).

Next, a method of switching the external reference power supply voltage will be described in detail with reference to the flowchart of FIG.

That is, first, for example, the output Vo of the resolution switching port Ps of the microcomputer 1 is set to H (high) level (step S ₁ ), and in this state, for example, the output of the weight sensor or the like from the A / D converter side. Input data is taken into the CPU (step S ₂ ).

When the switching output Vo of the resolution switching port Ps becomes H as described above, the switching transistor Tr is turned ON and the resistance R ₂ of the external reference power supply voltage setting circuit 2 is dropped to the ground. Then, as a result, the reference power supply voltage set point between the resistors R ₁ and R _2, in partial pressure ratio of the resistor R ₁ and _{R 2 {R 2 / (R} 1 + R 2)} the power supply voltage Vcc min A divided voltage V ₁ {V ₁ = (Vcc · R ₂ ) / (R ₁ + R ₂ )} is generated, and the voltage V ₁ (V ₁ <V cc) is input to the V + input terminal of the operational amplifier A. , The reference power supply voltage VR + of the microcomputer 1 is applied to the external reference power supply port Pb. As a result, the input data resolution of the upper Symbol microcomputer 1 Ri Do 1 bit per V _1/256, is set to the highest state. Then, the A / D conversion data such as the weight sensor output is fetched as described above at the highest input data resolution (operation of the above step S ₂ ).

Next, on the premise of the above processing, the input data voltage V (A / D) on the A / D converter side that is actually input is larger than the FF H indicating the current external reference power supply voltage VR +. Is determined (step S ₃ ).

As a result, when YES FFH ≦ V (A / D), the input data resolution switching output V o of the microcomputer 1 is set to the above H level because the input data resolution lower than the current one is sufficient. To L (low) level (step S ₄ ). On the other hand, in the case of NO, since the current input data resolution set in step S ₁ is appropriate, the process directly proceeds to the next process (for example, the process of setting the high-frequency heating time for thawing frozen food).

When the resolution switching output Vo is switched to the L level in step S ₄ , the switching transistor Tr is turned off, so that the voltage division of the resistors R ₁ and R ₂ of the external reference power supply voltage setting circuit 2 is performed. The function does not work, and the power source voltage Vcc of the constant voltage power source Vcc is directly input to the V + input terminal of the operational amplifier A. Therefore, the output of the operational amplifier A which constitutes the voltage follower as described above also becomes the power supply voltage Vcc, and the power supply voltage Vcc (Vcc> V ₁ ) is applied to the reference power supply voltage VR + at the external reference power supply port Pb of the microcomputer 1. Is applied as.

At this time, the data resolution of the input section of the A / D converter is Vcc / 256 per bit, which is relatively lower by a predetermined level.

In the above case, when the internal circuit of the resolution switching port Ps of the microcomputer 1 has, for example, an open drain structure having a ladder resistance, the switching transistor Tr may be omitted. it can.

As described above, according to the configuration of the present embodiment, the reference power supply voltage value VR + applied to the external reference power supply port Pb of the microcomputer 1 is set to a plurality of stages (two stages in the embodiment) as necessary. By making it variable, the dynamic range of the input data resolution of the A / D converter can be expanded in the end, and for example, the measured value of a small weight object of a microwave oven weight sensor can be accurately captured in the CPU of the microcomputer. become.

Further, in the above-mentioned configuration, either _one of the resistors R ₁ and R ₂ may be a variable resistor, and the reference voltage level itself may be arbitrarily varied.

[Brief description of drawings]

FIG. 1 is an electric circuit diagram of an input data resolution varying device of a microcomputer according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a resolution varying method by the same apparatus.

[Explanation of symbols]

Reference numeral 1 is a microwave oven microcomputer, 2 is an external reference power supply voltage setting circuit, and A is an operational amplifier.

Claims (1)

[Scope of utility model registration request] 1. An A / D converter for converting analog data input to the microcomputer into digital data, and an external reference power supply port for supplying the A / D converter with a reference power supply for receiving an external input. In the microcomputer, the reference power supply voltage setting means for setting the external reference power supply voltage applied to the external reference power supply port, and the reference power supply voltage varying means for varying the reference power supply voltage set by the reference power supply voltage setting means. A switching signal generating means for generating a reference power source voltage switching signal for operating the reference power source voltage varying means, and operating the reference power source voltage varying means by the switching signal from the switching signal generating means, By varying the reference power source voltage set by the power source voltage setting means, the A / D is set.
A variable input data resolution device for a microcomputer, characterized in that the resolution of input data from a converter is improved.