KR20080061217A - Temperature compensated cmos oscillator and compensation method thereof - Google Patents

Abstract

A CMOS(Complementary Metal Oxide Semiconductor) oscillator with a temperature compensation function and a temperature compensating method thereof are provided to decrease a sensitivity of the CMOS oscillator with respect to a temperature variation by embedding a reference current generator and a reference voltage generator in a semiconductor chip. A CMOS oscillator(20) includes a reference voltage generator, an oscillator, and a reference current generator. The reference voltage generator divides a current from the reference voltage generator using resistors and generates a reference voltage. The oscillator is connected to the reference voltage generator. The reference current generator supplies a reference current to a current source in the oscillator. The reference voltage generator and the current generator have temperature compensation functions. The oscillator includes a capacitor(25), comparators(23,24), and a current switch. The capacitor is charged by the reference current supplied from the reference current generator. Reference input terminals of the comparators are connected to an output terminal of the reference voltage generator. Comparison input terminals of the comparators are connected to the capacitor. The comparator outputs an oscillator signal according to a voltage difference between the reference input terminal and the comparison input terminal. The current switch is connected between output terminals of the comparator and the reference current generator and controlled by the comparators.

Description

CMOS oscillator with temperature compensation function and compensation method {Temperature compensated CMOS oscillator and compensation method

1 is a circuit diagram showing the configuration of a conventional general oscillator.

2 is a circuit diagram showing the configuration of a CMOS oscillator with a temperature compensation function according to an embodiment of the present invention.

3 is a graph showing an output waveform and an oscillator output waveform of a voltage charged in a capacitor according to an embodiment of the present invention.

※ Explanation of codes for main parts of drawing

10, 20: oscillator

11, 21: reference voltage generator

12, 22: reference current generator

14, 23, 24: comparator

15, 25: capacitor

16: current switch

TECHNICAL FIELD The present invention relates to a CMOS oscillator circuit and a compensation method thereof, and more particularly, to a CMOS oscillator circuit having a temperature compensation function for generating a temperature compensated clock manufactured by semiconductor technology and a compensation method thereof.

In general, an oscillator is an apparatus for continuously generating a periodic signal having a constant frequency, and is divided into an external oscillator represented by a crystal oscillator and an embedded oscillator mainly embedded in a semiconductor chip.

Such oscillators are widely used in various electronic devices such as computer systems, semiconductor devices and communication devices. In particular, in recent years, as the popularity of mobile communication has increased, its use has increased in mobile communication terminals such as mobile phones and personal digital assistants (PDAs). For example, it is used for a smart battery used for a mobile phone.

Therefore, the oscillator is required to have high precision and stability with respect to its output, and a low power and low cost structure with low battery consumption is also required to be easily mounted on a mobile communication terminal.

1 is a circuit diagram showing the configuration of a conventional general oscillator.

Referring to FIG. 1, the conventional oscillator 10 includes a reference voltage generator 11 for generating a reference voltage V _r , a reference current generator 12 for generating a reference current I _r , and a reference voltage generator. And an oscillator 13 for outputting an oscillation signal OSC using the reference voltage V _r generated from 11 and the reference current I _r generated from the reference current generator 12.

At this time, the oscillator 13 is connected to the comparator 14 connected to the output terminal of the reference voltage generator 11 and the comparator input terminal respectively connected to the output terminal of the reference current generator 12 and the comparator input terminal of the comparator 14. Comprising a capacitor 15 and a switch 16 connected in parallel, respectively, the switch 16 is turned on by the oscillation signal OSC which is the output of the comparator 14.

Looking at the operation of the oscillator 13 as described above, when the charge is charged to the capacitor 15 by the reference current (I _r ), the comparison voltage (V _c ) of the comparator 14 rises, at this time of the comparator 14 When the comparison voltage V _c rises above the reference voltage V _r , the output of the comparator 14 turns on the switch 16 and instantaneously discharges the comparison voltage V _c to the same level as the ground voltage.

In addition, the comparison result of the reduced comparison voltage (V _c ) and the reference voltage (V _r ) at the time of discharge causes the switch to turn off again, so that the charging of the comparison voltage (V _c ) is performed. . By repeating this process, the oscillation signal OSC is output from the comparator 14.

On the other hand, since the oscillator performs a function of providing a timing signal such as a clock signal inside the system, if the output signal of the oscillator does not have a target frequency, there is a high probability of directly connecting to a malfunction of the system itself. Therefore, the characteristics of the oscillator can be said to be one of the very important factors that determine the performance of the system.

However, the conventional oscillator may change its output frequency due to its use process or environmental factors, especially temperature. For example, over a wide temperature range of about -30 ° C to 140 ° C, the oscillation signal output by the oscillator is not stable and the frequency characteristic is varied.

Therefore, in the related art, various types of compensation circuits are provided to compensate for the change in the oscillation signal according to the change of the external environment. For example, a compensation circuit may be implemented by compensating a temperature difference by implementing an oscillator insensitive to temperature by using a crystal oscillator or the like externally, or by generating a current in inverse proportion to the temperature change in the reference current generator.

However, these compensating circuits have high power consumption because they have a complicated circuit configuration, and are likely to cause problems such as increased test time and increased cost due to the use of additional external devices.

Due to these problems, the conventional oscillator compensation circuits do not sufficiently meet the requirements for ease of oscillator configuration, low power, and high precision.

SUMMARY OF THE INVENTION The present invention solves the problems described above, and implements a temperature compensated CMOS oscillator without an external device by including a temperature compensated reference current generator and a reference voltage generator inside the chip, so that the output frequency is very sensitive to temperature changes. The purpose is to provide a dull oscillator.

In addition, another object of the present invention is to provide a method for compensating a CMOS oscillator capable of efficiently compensating such a CMOS oscillator.

In accordance with another aspect of the present invention, a CMOS oscillator includes: a reference voltage generator configured to distribute a current generated by a reference voltage generator to a resistor to generate a reference voltage; An oscillator connected to the reference voltage generator; And a reference current generator supplying a reference current to a current source to be used in the oscillator in the reference current generator, wherein the reference voltage generator and the current generator have a temperature compensation function.

The oscillator constituting the CMOS oscillator of the present invention, the capacitor to charge the reference current provided from the reference current generator; A comparator coupled to an output terminal of the reference voltage generator and a comparator input terminal coupled to a capacitor to output an oscillation signal according to a voltage difference between the reference input terminal and the comparison input terminal; And a current switch connected between the output terminal of the comparator and the output terminal of the reference current generator and controlled according to the operation of the comparator.

Looking at the operation of the oscillator, the capacitor is charged or discharged by comparing the comparison voltage input from the comparison input terminal of the comparator with the reference voltage to turn on / off the current switch.

On the other hand, the CMOS oscillator compensation method according to the present invention comprises the steps of: generating a reference voltage by distributing the reference current generated by the reference voltage generator to the resistance; Generating a reference current in the reference current generator; Charging a reference current provided from the reference current generator in the capacitor section; And outputting an oscillation signal by a voltage difference between the reference input terminal and the comparison input terminal in a comparator having a reference input terminal connected to an output terminal of the reference voltage generator and a comparison input terminal respectively connected to a capacitor. The current generator is characterized by having a temperature compensation function.

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

2 is a circuit diagram showing a configuration of a CMOS oscillator having a temperature compensation function according to an embodiment of the present invention, the CMOS oscillator 20 according to an embodiment of the present invention is a reference voltage generator, a reference current generator, and It consists of an oscillation part.

As shown in FIG. 2, the reference voltage generator has a configuration in which three resistors are connected in series to the reference voltage generator 21. The reference current generated by the reference voltage generator 21 is distributed to each resistor to generate two reference voltages of vref1 and vref2. According to an embodiment of the present invention, a bandgap reference voltage generator may be used as such a reference voltage generator.

In addition, the reference current generator is composed of a reference current generator 22, and is connected to the oscillator serves to supply current to two DC current sources to be used in the oscillator.

Referring to FIG. 2, the oscillator includes two capacitors 25, two comparators 23 and 24 having a reference input connected to an output terminal of the reference voltage generator, and a comparison input connected to the capacitor 25, and comparators 23 and 24. It is composed of a current switch connected between the output terminal of the reference) and the output terminal of the reference current generator (22).

Here, the capacitor 25 charges the reference current provided from the reference current generator 22, and the comparators 23 and 24 output the oscillation signal by the voltage difference between the reference input terminal and the comparison input terminal.

The current switch is controlled according to the operation of the comparators 23 and 24. The comparators 23 and 24 compare the reference voltages vref1 and vref2 from the reference voltage generator with the voltage v_tri charged in the capacitor 25. The current switch is turned on / off to charge or discharge the capacitor 25.

That is, assuming that no charge is initially charged in the capacitor 25, the voltage of v_tri is grounded, and thus the voltage of v_tri is less than vref1 by the comparators 23 and 24, so that the gate voltage of M1 is It becomes " low " so that a current of 2i is charged to the capacitor 25 by Idc1. At this time, the gate voltage of M2 is also " low ", so that Idc2 does not operate.

When a current of 2i is charged to the capacitor 25 by Idc1, the voltage of v_tri rises constantly with time. When the voltage of v_tri reaches vref1, the gate voltages of M1 and M2 are " high " by the comparators 23 and 24, so that Idc1 does not operate, and the current of i is driven by Idc2 to the capacitor 25. Discharged at.

When the voltage of v_tri falls below vref2, the gate voltages of M1 and M2 become " low " again, and the charging operation is repeated in the capacitor 25 again.

Accordingly, as shown in FIG. 3, the voltage of v_tri is linearly increased and decreased with time, and becomes a triangular wave, which is converted into a square wave through two inverters. do. At this time, the output frequency is expressed by the following equation.

In the CMOS oscillator of the present invention, the output frequency is determined by only the internal reference voltage generator and the reference current generator and the capacitor capacity, as shown in Equation 1 above. In general, capacitors are known to be almost insensitive to temperature.

Therefore, when the temperature compensated reference voltage generator and the temperature compensated reference current generator are provided inside the oscillator, the CMOS oscillator according to the above-described configuration of the present invention can realize an output frequency very insensitive to temperature.

According to the above-described configuration of the present invention, an output frequency consisting only of a temperature compensated voltage generator, a temperature compensated current generator and a capacitor can constitute a CMOS oscillator that is very insensitive to temperature.

In other words, by implementing a temperature-compensated reference current generator and a reference voltage generator inside the chip to implement a temperature-compensated CMOS oscillator without an external device, it is possible to provide an oscillator whose output frequency is very insensitive to temperature changes. It is possible to provide a compensating method of an oscillator that can compensate.

Accordingly, it is possible to accurately reflect the change in the oscillation signal generated due to external environmental factors such as temperature change.

Claims (9)

A reference voltage generator configured to distribute a current generated by the reference voltage generator to a resistor to generate a reference voltage; An oscillator connected to the reference voltage generator; And A reference current generator for supplying a reference current to a current source to be used in the oscillator in a reference current generator, And the reference voltage generator and the current generator have a temperature compensation function. The method of claim 1, wherein the oscillator, A capacitor charging the reference current provided from the reference current generator; A comparator having a reference input connected to an output of the reference voltage generator and a comparison input connected to the capacitor to output an oscillation signal according to a voltage difference between the reference input and the comparison input; And And a current switch connected between an output terminal of the comparator and an output terminal of the reference current generator and controlled according to an operation of the comparator. The method of claim 2, wherein the oscillator, And the capacitor is charged / discharged by comparing the voltage input from the comparator input terminal of the comparator with the reference voltage to turn on / off the current switch. The method of claim 3, wherein CMOS oscillator, characterized in that the linear voltage increase / decrease waveform by the charge / discharge of the capacitor. The method of claim 2, And the comparator is an operational amplifier. Distributing a reference current generated by the reference voltage generator to a resistor to generate a reference voltage; Generating a reference current in the reference current generator; Charging in a capacitor a reference current provided from the reference current generator; Outputting an oscillation signal by a voltage difference between the reference input terminal and the comparison input terminal, in a comparator having a reference input terminal connected to an output terminal of the reference voltage generator and a comparison input terminal respectively connected to the capacitor, And the reference voltage generator and the current generator have a temperature compensation function. The method of claim 6, And comparing the voltage input from the comparison input terminal of the comparator with the reference voltage to turn on / off a current switch connected in series to the capacitor, thereby charging / discharging the capacitor. CMOS oscillator compensation method. The method of claim 7, wherein Compensating the CMOS oscillator, characterized in that for implementing a linear voltage increase / decrease waveform by the charge / discharge of the capacitor. The method of claim 6, And the comparator is an operational amplifier.

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