JPH087462Y2 - Reference power circuit - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a standard power supply circuit, and more particularly to a standard power supply circuit that obtains a standard voltage by using a digital IC having output terminals for high level voltage and low level voltage.

2. Description of the Related Art Generally, a predetermined reference voltage is required to obtain an AC waveform. For example, when trying to obtain an AC waveform that is a sine waveform from a certain signal, the digital IC that constitutes the circuit
In some cases, the center voltage between the high level voltage and the low level voltage, etc. is used as the reference voltage.

Conventionally, there is a circuit shown in FIG. 4 as a circuit for obtaining a reference voltage. In FIG. 4, resistors R ₂₀ , R from the power source E
Voltage is applied to the series circuit of ₂₁ , V _R (variable) and R ₂₂ . The Zener diode ZD is a diode for constant voltage, and its cathode is connected to the connection point of the resistors R ₂₀ and R ₂₁ . The reference from the variable terminal of the variable resistor V _R voltage V _ref
Is output. That is, the Zener diode ZD are those Zener voltage has the characteristic higher than the reference voltage V _ref is used, reference voltage V _ref is set by adjusting the variable resistor V _R.

Problems to be Solved by the Invention By the way, since the reference voltage V _ref becomes a standard of a desired output level, it must be constant regardless of any cause, and at the same time, cost reduction is also desired. ing.

However, in the circuit for obtaining the reference voltage as described above, the final setting of the reference voltage V _ref is performed by the variable resistor V _R , and an adjustment process is required, which is complicated. Further, since the Zener diode ZD is used, there is a problem that the reference voltage V _ref fluctuates due to the change of the Zener voltage under the influence of temperature.

On the other hand, various methods of improving the temperature characteristics by performing temperature compensation on the Zener diode ZD have been considered, but this leads to high cost and is contrary to the purpose of low cost.

Therefore, the present invention has been made in view of the above points, and an object of the present invention is to provide a reference power supply circuit that can obtain a reference voltage inexpensively without being affected by temperature.

Means for Solving the Problems In order to solve the above problems, the present invention focuses on the fact that the reference voltage can be set by using a digital IC (control IC) and a resistor used in a conventional circuit configuration. A standard power supply circuit including an IC, a series circuit of first and second resistors, and a standard voltage terminal was configured.

That is, the reference power supply circuit of the present invention includes a terminal that outputs a digital signal of a predetermined frequency that obtains the AC waveform based on the reference voltage, and outputs a high-level voltage and a low-level voltage that are sources of the reference voltage. A digital IC having a high level voltage terminal and a low level voltage terminal for outputting, and between the high level voltage terminal and the low level voltage terminal, according to the internal resistance of the high level voltage and the low level voltage output from each terminal. A series circuit including first and second resistors connected to each other, and a connection point between the first and second resistors of the series circuit, the voltage divided by the series circuit is output as a reference voltage. And a reference voltage terminal that operates.

Action The digital IC is a control IC used in circuits that require a reference voltage, and it has a terminal that outputs a digital signal of a predetermined frequency, a high-level voltage terminal that outputs a high-level constant voltage, and a low-level terminal. It includes a low-level voltage terminal that outputs a constant voltage. First and second
The series circuit of resistors is connected between the high-level voltage terminal and the low-level voltage terminal of the digital IC and divides the output voltage between them. This divided voltage is output as a reference voltage from the reference voltage terminal at the connection point of the first and second resistors. Then, a desired AC waveform is formed from the digital signal of a predetermined frequency output with this reference voltage as the center voltage.

As a result, without using a Zener diode,
By using an existing digital IC and resistor series circuit, the desired reference voltage is set without adjustment. Further, it is inexpensive as a power supply for obtaining the reference voltage by comparing the output levels of digital ICs and the like, and the temperature change does not affect the reference voltage.

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

FIG. 1 is a circuit diagram showing a reference power supply circuit of the present invention. In FIG. 1, a digital IC1 used as a control IC has a high level voltage terminal A and a low level voltage terminal B, and the high level voltage terminal A outputs a constant voltage of a high level voltage V _OH and Level voltage terminal B
Outputs a constant voltage of low level voltage V _OL . A series circuit of a _first resistor R ₁ and a second resistor R ₂ is connected between the high level voltage terminal A and the low level voltage terminal B.
The reference voltage terminal 2 for outputting a reference voltage V _ref from a connection point of the first resistor R ₁ and a second series circuit of a resistor R ₂
Is derived. Also, the first resistor R ₁ and the second resistor
R ₂ is set to a predetermined resistance value in order to obtain a desired reference voltage V _ref . The terminal C of the digital IC 1 is a terminal for outputting a digital signal of a predetermined frequency.

In the circuit of FIG. 1, the series circuit of the first resistor R ₁ and the second resistor R ₂ is the output voltage V _OH of the high level voltage terminal A and the output voltage V of the low level voltage terminal B of the digital IC 1. _Divide the potential difference (V _OH −V _OL ) from _OL . The divided voltage is proportional to the resistance value of the first resistor R _{1 and} the resistance value of the second resistor R ₂ , and this voltage is output from the reference voltage terminal 2 as the reference voltage V _ref . That is, the reference voltage V _ref can be set to a desired voltage value by arbitrarily setting the resistance values of the first resistor R ₁ and the second resistor R ₂ . For example, in order to obtain a reference voltage V _ref intermediate between the high level voltage V _OH and the low level voltage V _OL , the resistance value may be set to R ₁ = R ₂ .

Next, FIG. 2 shows a circuit diagram for obtaining a sinusoidal waveform which is an AC waveform by using the standard power supply circuit of FIG. FIG. 2 shows that the series circuit of the resistors R _A and R _B is connected in parallel to the series circuit of the first resistor R ₁ and the second resistor R ₂ in the circuit of FIG. Connecting points. Further, the reference voltage terminal 2 is connected to the plus input terminal of the operational amplifier 3 via the resistor R ₃ , and the plus input terminal is grounded via the resistor R ₄ . On the other hand, the output terminal C of the digital IC 1 is connected to the negative input terminal of the operational amplifier 3 via the resistor R ₅ , and the resistor R ₆ and the capacitor C ₁ are connected in parallel between the output terminal and the negative input terminal of the operational amplifier 3. The circuits are connected.

The circuit of FIG. 2 will be briefly described. The reference voltage V _ref of the reference voltage terminal 2 is input to the plus input terminal of the operational amplifier 3, and this reference voltage becomes the center voltage of the sine waveform output from the operational amplifier 3. Then, a digital output signal of a predetermined frequency is input from the terminal C of the digital IC 1 to the negative input terminal of the operational amplifier 3, integrated by the resistor R ₅ and the capacitor C ₁ , and a sine waveform of the same frequency is output from the operational amplifier 3. is there. Where resistor R _A
And R _B , when there is a difference in the internal resistance of the high level voltage V _OH and the low level voltage V _OL output from the digital IC1,
It is provided for the purpose of eliminating the difference in order to prevent the influence on the reference voltage V _ref .
Therefore, when there is no difference in the internal resistance of the high level voltage V _OH and the low level voltage V _OL , the resistors R _A and R _B are unnecessary.

On the other hand, as shown in FIGS. 3A and 3B, even if there is a difference in internal resistance between the high level voltage V _OH and the low level voltage V _OL , either internal resistance can be ignored. If
The resistors R _A and R _B in FIG. 2 are unnecessary.

FIG. 3A shows a case where the internal resistance of the high level voltage V _OH can be ignored. Connect the series circuit of the first resistor R ₁₀ and the second resistor R ₁₁ between the power supply voltage Vcc of IC1 and the low level voltage terminal B of IC1, and connect the connection point of the series circuit to the reference voltage (reference voltage terminal). 2).

FIG. 3B shows a case where the internal resistance of the low level voltage V _OL can be ignored. The series circuit of the first resistor R ₁₂ and the second resistor R ₁₃ is connected between the high level voltage terminal A and the ground level GND of IC1, and the connection point of the series circuit is set as the reference voltage (reference voltage terminal 2). It was done.

These are the IC power supply voltage depending on the low level voltage V _OL or the high level voltage V _OH that is output constantly from the digital IC1.
First resistor R ₁₀ (R ₁₂ ) between Vcc or ground level GND
Also, the voltage is divided by the second resistor R ₁₁ (R ₁₃ ) and the reference voltage V _ref is output from the reference voltage terminal 2. That is, since either the high level voltage terminal or the low level voltage terminal B of the digital IC1 is used, the IC1
It is not necessary to consider the internal resistance difference of the output terminal when comparing the other output. In this case, the same as in FIG.
By setting the resistance values of the second resistors R ₁₀ (R ₁₂ ) and R ₁₁ (R ₁₃ ), the desired reference voltage V _ref can be obtained.

When obtaining an AC waveform using the standard power supply circuit of the present invention, the same applies not only to a sine waveform as in the above embodiment but also to obtaining a cosine waveform, and also when a rectangular AC waveform is formed. It is the same.

As described above, according to the present invention, the output based on the reference voltage generated by the digital IC that outputs the high level voltage and the low level voltage and the series circuit of the first resistor and the second resistor is output. By obtaining a desired AC waveform from a digital signal of a specified frequency, a Zener diode and a variable resistor are not required, so the number of components that make up the circuit is small, and it is simple and inexpensive. As a reference power source, it can be made unaffected by temperature.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a reference power supply circuit of the present invention, FIG. 2 is a circuit diagram for obtaining a sine waveform using the reference power supply circuit of the present invention, and FIG. 3 is an inside of the output voltage in FIG. FIG. 4 is a circuit diagram for compensating for the difference in resistance, and FIG. 4 is a circuit diagram for obtaining a conventional reference voltage. 1 ...... digital IC, 2 ...... reference voltage terminal, A ...... high voltage terminal, B ...... low level voltage terminal, R ₁ ...... first resistor, R ₂ ...... second resistor.

Claims (1)

[Scope of utility model registration request] 1. A standard power supply circuit for setting a standard voltage for obtaining a predetermined AC waveform, comprising a terminal for outputting a digital signal of a predetermined frequency for obtaining the AC waveform based on the standard voltage, and A digital IC having a high-level voltage terminal and a low-level voltage terminal that output a high-level voltage and a low-level voltage that are sources of generating the reference voltage, and the terminals between the high-level voltage terminal and the low-level voltage terminal. A series circuit composed of first and second resistors connected in accordance with the internal resistances of the high-level voltage and the low-level voltage output from, and a connection point of the first and second resistors of the series circuit. There
A standard power supply circuit having a standard voltage terminal for outputting a voltage divided by the series circuit as the standard voltage.