JP2003273645A - Voltage / frequency conversion circuit and control method thereof - Google Patents

Abstract

(57) [Problem] To switch a voltage / frequency conversion range only by a DC input voltage without requiring an external control input, and to output a corresponding voltage / frequency conversion signal. SOLUTION: In a voltage / frequency conversion circuit which varies the frequency of an output signal in proportion to a DC input voltage, a DC input voltage detecting means, and any one of a plurality of voltage / frequency conversion ranges according to the detected DC input voltage. And outputs a corresponding voltage / frequency conversion signal. A voltage comparator is used as DC input voltage detection means, and depending on the output state of the voltage comparator, a signal in any voltage / frequency conversion range is determined. This is to select whether to output.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a voltage / frequency conversion control circuit and its control method.

[0002]

2. Description of the Related Art FIGS. 3 and 4 show one example of a conventional technique of a frequency conversion control range switching system and a voltage / frequency conversion circuit. Here, FIG. 3A shows a general input voltage-frequency characteristic of voltage / frequency conversion. Input voltage vco
The output frequency fout14 is changed by nt13, and when the input voltage vcont13 is v1, the frequency fout14 is changed.
Becomes f1 and the frequency fout14 becomes f4 at the time of v4. Here, the frequency change rate (f4-f1) / (v4
-V1) is assumed to be constant. The colored portion shows the effective portion for voltage / frequency conversion. FIG. 3B shows characteristics when different frequency parts are used. As in FIG. 3A, the output frequency fout14 changes due to the input voltage vcont13, and the input voltage vco
When nt13 is v1, the frequency fout14 is f1, and when v2 is v2, the frequency fout14 is f2. Similarly, when the input voltage vcont13 is v3, the frequency f
out14 becomes f3, and the input voltage vcont13 becomes v
When 4, the frequency fout14 becomes f4. f1 to f
If only 2 and the voltage / frequency conversion range of f3 to f4 is used, the input voltage is used only in the range of v1 to v2 and v3 to v4 and has no meaning in the range of v2 to v3. FIG. 3C is an input voltage-frequency characteristic of voltage / frequency conversion having two types of frequency regions varying from v1 to v4. Similar to the above, the input voltage vcont1
3, the output frequency fout14 changes, and the input voltage vout
When the cont13 is v1, the frequency fout14 is f1 and f6, and when the cont13 is v4, the frequency fout14 is f2 and f4. The frequency domains fL7 and fH8 are switched by inputting an external signal dedicated to frequency domain switching. Figure 4
Is a voltage / frequency conversion circuit having a switching signal input terminal. When the external input signal 11 is "H",
The frequency domain fL7 in (c) and the frequency domain fH8 when the external input signal 11 is "L".

[0003]

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention
There is a drawback that a dedicated input signal must be applied from the outside in order to supply a signal for switching the voltage / frequency conversion range. It is an object of the present invention to eliminate the above-mentioned drawbacks and to switch the voltage / frequency conversion range only by the DC input voltage.

[0004]

In order to achieve the above object, the present invention provides a DC / DC input voltage detecting means and a DC / DC input voltage detecting means in a voltage / frequency conversion circuit for varying the frequency of an output signal in proportion to a DC input voltage. According to the DC input voltage, any one of a plurality of voltage / frequency conversion ranges is selected and a corresponding voltage / frequency conversion signal is output. Also,
A voltage comparator is used as the DC input voltage detecting means, and which voltage / frequency conversion range signal to output is selected according to the output state of the voltage comparator. Further, the voltage / frequency conversion characteristics of each voltage / frequency conversion range are made different.

[0005]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described in detail below with reference to FIGS. FIG. 1 shows a voltage / frequency conversion circuit of the present invention, and FIG. 2 shows an embodiment of a voltage / frequency conversion range switching system. FIG. 2A is an input voltage vs. frequency characteristic diagram of the voltage / frequency conversion of the present invention.
Output frequency fout1 according to input voltage vcont13
4 changes, the frequency fout14 becomes f1 when the input voltage vcont13 is v1, and the frequency fo is v2 when the input voltage vcont13 is v2.
ut14 becomes f2. In addition, the input voltage vcont13
Is f3, the frequency fout14 becomes f3, and when v4, the frequency fout14 becomes f4. In this example, the frequency change rate is (f2-f1) / (v2-v1), (f4-
It is assumed that f3) / (v4-v3) is constant. The shaded portion in the figure shows the effective portion of the voltage / frequency conversion. Here, f1 to f2 and f3 to
When using only the voltage / frequency conversion range of f4, the input voltage is used only in the range of v1 to v2 and v3 to v4, and has no meaning in the range of v2 to v3. Also, v2
And v3 have arbitrary intervals with reference to the reference voltage vcomp0. The above is the case where the frequency change rates of flow 5 and fhigh 6 are the same, but as shown in FIG. 2B, (f2-f
1) / (v2-v1) against (f4-f5) / (v4-v
5) may be large or small.

FIG. 1A shows an embodiment of a voltage / frequency conversion circuit which can realize the characteristics of FIG. 2A. This circuit has a voltage comparator 1, and one of the voltage comparators 1 has Vc
When the reference voltage 2 ′ obtained by dividing c2 is input and the input voltage Vcont3 is input to the other, if the voltage of Vcont3 is lower than the reference voltage 2 ′, Comp_out4 is “H”, v
If cont3 is higher than the reference voltage 2 ', Comp_ou
t4 becomes "L", and the frequency domain in FIG. 2A is switched to flow5 and fhigh6. For example, in FIG.
In (a) of Figure 3, the positive side "+" of the voltage comparator 1 is changed to R
1 and R2, and the negative side of voltage comparator 1 "-"
Are connected between L1 and D1 respectively, and Comp_ou
Connect t4 between R3 and C1. Where Vcc2
Is 5 V and R1 = R2, 2.5 V is applied to the positive side “+” of the voltage comparator 1. Vcont3 is 0V
At this time, since the output Comp_out4 of the voltage comparator 1 becomes "H", D2 is turned on, and the output Comp_out4 shown in FIG.
The frequency region at is flow5. Vcont
It becomes flow5 until 3 is less than 2.5V,
When Vcont3 exceeds 2.5V, Comp_out
Since 4 becomes "L", D2 is in the OFF state and the frequency domain is fhigh6. No more Vcont3
However, when Vcont3 becomes less than 2.5V, the frequency domain becomes flow5 again. In this case, the reference voltage of the voltage comparator 1 is 2.5V,
This voltage can be set arbitrarily, and by providing a dead band of a specific width with respect to the reference voltage, instability at the time of switching can be avoided. The width of this dead zone can be set in the range from v2 to v3 in FIG. Further, by arbitrarily setting the frequency conversion unit 15 indicated by the one-dot chain line portion, as shown in FIG. 2B, (f2-f1) / (v2-v1) and (f4-f)
5) / (v4-v5) can be realized even if the inclination is different.

On the other hand, FIG. 2 (c) shows the input voltage-frequency characteristic of the voltage / frequency conversion having two kinds of frequency regions varying from v1 to v4. Similarly to the above, the output frequency fout14 is changed by the input voltage vcont13, and the frequency f is changed when the input voltage vcont13 is v1.
out14 becomes f1 and f6, and when v4, the frequency fout14 becomes f2 and f4. Here, when the frequency domain is fL7 and the input voltage exceeds v4, that is, when vcomp2, the frequency domain is switched from fL7 to fH8 and the frequency f2 is switched to f4. When the frequency region is fH8, the input voltage is v
When it is less than 1, that is, vcomp1, the frequency domain switches from fH8 to fL7, and the frequency f6 switches to f1. In this case, (f2-f1) / (v4-
v1) and (f4-f6) / (v4-v1) are constant but arbitrary. Further, in this example, the frequency f2
In the case of <f6, f2> f6, that is,
There may be a region where the frequency regions fL7 and fH8 overlap.

FIG. 1B shows an embodiment of a voltage / frequency conversion circuit which can realize the characteristics shown in FIG. 2C. It has two voltage comparators 1-1 and 1-2, and a first voltage comparator 1-
The reference voltage 2 ′ obtained by dividing Vcc2 is input to one of the first and second voltage comparators 1-2, and the input voltage Vcont is input to the other.
Enter 3. Also, the output C of the first voltage comparator 1-1
omp_out4-1 and the second voltage comparator 1-2
Output Comp_out4-2 of each of the bistable circuits 9
To enter. For example, in FIG. 1B, the minus side “−” of the first voltage comparator 1-1 is connected between R4 and R5, and the plus side “+” of the second voltage comparator 1-2. Is connected between R5 and R6, and the positive side “+” of the first voltage comparator 1-1 and the negative side “−” of the second voltage comparator 1-2 are respectively connected between L1 and D1. Connecting. For example,
With Vcc2 set to 5V, 4.5V is applied to the negative side “−” of the first voltage comparator 1-1, and 0.5V is applied to the positive side “+” of the second voltage comparator 1-2. The constants of R4, R5 and R6 are determined as follows.

Further, the output Co of the first voltage comparator 1-1
mp_out4-1 is the reset side “R” of the bistable circuit 9.
To the output of the second voltage comparator 1-2 Comp_o
Input ut4-2 to the set side “S” of the bistable circuit 9. Then, the output FF_out10 of the bistable circuit 9 is connected between R3 and C1. Here, Vcont3 is 0
When V, the output Comp_o of the first voltage comparator 1-1
Since ut4-1 is "L", the output Comp_out4-2 of the second voltage comparator 1-2 is "H", the output FF_out10 of the bistable circuit 9 is "H", and D2 is in the ON state. The frequency domain in FIG. 2 (c) is fL7. When Vcont3 is less than 4.5V, it is fL7, but when Vcont3 exceeds 4.5V, it is the first Com.
p_out4-1 is “H”, the second Comp_out4
-2 becomes "L", FFout10 becomes "L",
Since D2 is turned off, the frequency domain is switched from fH7 to fH8. When the input voltage Vcont8 falls below 0.5V, FF_out10 becomes “H” again, and the frequency domain is switched to fL7. Although the above description has been made for the case of having two voltage comparators, a circuit having a large number of voltage comparators and a bistable circuit can further realize a circuit for converting a plurality of voltage / frequency conversion ranges. Further, by arbitrarily setting the frequency conversion unit 15 shown by the one-dot chain line part, as shown in FIG.
-F1) / (v4-v1) and (f4-f6) / (v4-v
It can be realized even when the inclination of 1) is different.

[0010]

As described above, according to the present invention, if a DC input voltage is applied to the detection signal output means, a plurality of voltage / frequency conversion ranges can be selectively output by the signal from the detection signal output means. Can be realized. Further, there is no need for an external input signal for obtaining a plurality of voltage / frequency conversion ranges as in the prior art.

[Brief description of drawings]

FIG. 1 is a block diagram showing a voltage / frequency conversion circuit showing an embodiment of the present invention.

FIG. 2 shows voltage / frequency in the voltage / frequency conversion circuit of the present invention.
Illustration of frequency conversion range switching

FIG. 3 is an explanatory diagram of voltage / frequency conversion range switching in a conventional voltage / frequency conversion circuit.

FIG. 4 is a block diagram showing an example of a conventional voltage / frequency conversion circuit.

[Explanation of symbols]

1, 1-1, 1-2: voltage comparator, 2: Vcc, 2 ':
Reference voltage obtained by dividing Vcc2 3: Input voltage Vcon
t, 4: output of the voltage comparator Comp_out, 4-1:
Output Comp_out of first voltage comparator, 4-2: Output Comp_out of second voltage comparator, 5: frequency domain flow, 6: frequency domain fhigh, 7: frequency domain fL, 8: frequency domain fH, 9: Bistable circuit, 10:
Output of bistable circuit FF_out, 18: vcont, 1
5: Frequency converter.

Claims (5)

[Claims] 1. A voltage / frequency conversion circuit for varying the frequency of an output signal in proportion to a DC input voltage, wherein a DC input voltage detection means and a plurality of voltage / frequency conversion ranges are provided in accordance with the detected DC input voltage. A voltage / frequency conversion circuit comprising means for selecting any one and outputting a corresponding voltage / frequency conversion signal. 2. The voltage comparator according to claim 1, wherein a voltage comparator is used as the DC input voltage detecting means, and which voltage / frequency conversion range signal is to be output is selected according to an output state of the voltage comparator. A voltage / frequency conversion circuit characterized by: 3. The voltage according to claim 1 or 2,
A voltage / frequency conversion circuit having different voltage / frequency conversion characteristics in a frequency conversion range. 4. A voltage / frequency conversion circuit that varies the frequency of an output signal in proportion to a DC input voltage, and selects one of a plurality of voltage / frequency conversion ranges in accordance with the detected DC input voltage and outputs a corresponding voltage. / A frequency / frequency conversion control method characterized by outputting a frequency conversion signal. 5. The voltage / frequency conversion control method according to claim 4, wherein voltage / frequency conversion is performed by different voltage / frequency conversion characteristic coefficients in the plurality of voltage / frequency conversion ranges.