CN201956971U - Digital temperature compensation crystal oscillator - Google Patents

Abstract

The utility model discloses a digital temperature compensation crystal oscillator, which comprises a power circuit, an oscillation circuit and a digital compensation circuit, wherein the oscillation circuit is connected with the power circuit and the digital compensation circuit; the digital compensation circuit comprises a temperature sensor, an analogue-to-digital conversion module, a data processing unit, a digital signal processing unit, a digital-to-analogue converter and a voltage-controlled crystal oscillation circuit; the temperature sensor is connected with the data processing unit by the analogue-to-digital conversion module; and the data processing unit is connected with the voltage-controlled crystal oscillation circuit by the digital signal processing unit and the digital-to-analogue converter. The digital temperature compensation crystal oscillator is characterized in that: the digital compensation circuit comprises a dithering signal generator which is connected with the data processing unit and the digital-to-analogue converter. The circuit with a digital dithering function preserves the performance advantages of the conventional crystal oscillator adopting a digital compensation way, and can fulfill the aim of high accuracy by the circuit of a low-accuracy analogue-to-digital converter (ADC) or digital-to-analogue converter (DAC) so as to greatly reduce the area of an integrated circuit (IC) as well as the cost of the IC.

Description

A kind of digital temperature compensated crystal oscillator

Technical field

The utility model relates to a kind of crystal oscillator, especially a kind of digital temperature compensated crystal oscillator.

Background technology

Temperature compensating crystal oscillator is a kind of electro coupled oscillator that extensive use is arranged in various electronic circuits.It provides the triggering benchmark of pulse clock signal as digital signal.Wireless and broadband communications equipment and material such as mobile phone, WLAN (wireless local area network), GPS, DSL and CABLE transceiver or the like all have very high requirement to the precision of clock signal, are generally (2 ~ 3) * 10-6.For high like this precision, the electro coupled oscillator of being made up of simple oscillating crystal and reverser can not reach requirement in certain temperature range.In-40 ℃～+ 85 ℃ temperature range, the precision of above-mentioned simple electro coupled oscillator can only reach ± 50*10-6, so add temperature compensator or temperature-compensation circuit must for simple electro coupled oscillator.

At present, temperature compensating crystal oscillator commonly used in the crystal oscillator industry is a kind ofly to introduce compensation to improve its stable crystal oscillator by changing the voltage-controlled voltage of crystal oscillator.General compensation way is divided into two kinds of analog compensation and digital compensations.With maximum be that front end at temperature compensating crystal oscillator adds a thermo-compensator network, this belongs to a kind of analog compensation mode, the method of this increase thermo-compensator network, because it is very big influenced by thermistor and fixed resistance value, product frequency stability in-40 ℃～+ 85 ℃ temperature range can only reach 0.5～1ppm.Another is the indirect analog bucking-out system, and in this system, the crystal oscillator that carry out temperature-compensating is voltage-controlled crystal oscillating circuit (VCXO), as shown in Figure 1.In order to carry out temperature-compensating, temperature sensor 1 detects the working temperature of crystal oscillator, and temperature-compensated voltage produces circuit 2 and produces temperature-compensated voltage, is used for the temperature characterisitic according to above-mentioned detected temperatures compensated crystal resonator.At this moment, apply temperature-compensated voltage, it is carried out temperature-compensating by voltage controling end to voltage-controlled crystal oscillating circuit 3.When crystal resonator was made by AT-cut crystal, its temperature characterisitic can be accurately approximate by cubic function.Therefore, temperature-compensation circuit generally constitutes by the temperature sensor with temperature characterisitic of being represented by linear function with according to the cubic function generation circuit that the temperature that is detected by temperature sensor produces cubic function.

Along with the market demand voltage-controlled crystal (oscillator) of high stability more, stability ± 1～± voltage-controlled crystal (oscillator) of 2.5ppm can not satisfy the demands, and is difficult to be integrated among the IC at this analog compensation formula crystal oscillator, uses the separate type components and parts to form mostly.Analog form is integrated can be accomplished, but maximum difficulty is to make lower precision.In this case, the crystal oscillator with digital compensation mode arises at the historic moment.This kind crystal oscillator can carry out the compensation of voltage more accurately, remains in the comparatively stable frequency range to keep described voltage controlled crystal oscillator.Yet adopt digital compensation can use single-chip microcomputer usually; adopt the low-power consumption programming technique to reduce the power consumption of crystal oscillator simultaneously; but crystal-oscillator circuit is an analog circuit; if adopt the digital compensation means; when adopting same power supply to power; temperature compensation network can produce the crystal oscillator loop and disturb; cause making an uproar mutually of temperature compensating crystal oscillator bad; thereby influence the stability of crystal oscillator output frequency; and digit compensated crystal oscillator before need use 15～16 high-precision adc or DAC; the circuit design difficulty height of this kind ADC or DAC, the circuit complexity is very huge again, so the IC cost is very high.

Another indirect digital compensation system removes the temperature that is detected by temperature sensor 1 and is carried out digital processing and produces outside the temperature-compensated voltage, about the basic conception of the temperature-compensating of this system and above-mentioned indirect analog system class seemingly.Promptly in this temperature compensation system, as shown in Figure 2, the temperature that is detected by temperature sensor 1 changes into digital value by AD converter 5.Then, the temperature compensation data of the digital value of reading and the being converted temperature characterisitic that is used for the compensated crystal resonator of in the address of nonvolatile storage 6, being stored in advance accordingly.The temperature compensation data of being read is undertaken by DA transducer 7 that DA is converted to be the temperature-compensated voltage of analog form.By voltage-controlled crystal oscillating circuit 3 being applied the temperature-compensated voltage of analog form, carry out temperature-compensating.Wherein, can use EEPROM or analog as nonvolatile storage 6.

Therefore, be badly in need of a kind of low noise, low-power consumption, high stable, temperature compensating crystal oscillator cheaply.

The utility model content

The utility model purpose is: a kind of low noise, low-power consumption, high stable, digital temperature compensated crystal oscillator cheaply are provided.

The technical solution of the utility model is: a kind of digital temperature compensated crystal oscillator, comprise power circuit, oscillating circuit, digital compensation circuit, described oscillating circuit links to each other with digital compensation circuit with power circuit, described digital compensation circuit comprises temperature inductor, analog-to-digital conversion module, data processing unit, digital signal processing unit, digital to analog converter and voltage-controlled crystal oscillating circuit, described temperature inductor links to each other with data processing unit by analog-to-digital conversion module, described data processing unit links to each other with voltage-controlled crystal oscillating circuit by digital signal processing unit and digital to analog converter, it is characterized in that, described digital compensation circuit comprises the dither signal generator, and described dither signal generator links to each other with digital to analog converter with data processing unit.

Further, substitute described digital to analog converter and voltage-controlled crystal oscillating circuit with the digital compensation crystal oscillator, described digital compensation crystal oscillator links to each other with described dither signal generator.

Further, described data processing unit is EEPROM.

Further, described dither signal generator comprises:

Oscillating circuit produces sawtooth signal;

Decoding circuit, described oscillation frequency signal input decoding circuit, and control described decoding circuit and produce some pulse signals;

Level is selected circuit, and described pulse signal control level is selected circuit, produces the outputs level signals with the pulse output signals change;

Comparator circuit, more described frequency of oscillation sawtooth signal and outputs level signals produce the frequency jitter signal.

Further, described digital compensation crystal oscillator is the digital compensation crystal oscillator of band independent capacitance matrix.

Further, described each circuit can be integrated on the chip piece.

The utility model has the advantages that:

Digital temperature compensated crystal oscillator of the present utility model has kept the performance advantage of the crystal oscillator of former digital compensation mode, can use low accuracy A DC again or the circuit of DAC reaches high-precision purpose, so just can reduce the area of IC greatly, its cost is reduced.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further described:

Fig. 1 is traditional simulation TCXO schematic diagram;

Fig. 2 is traditional digital TCXO schematic diagram;

Fig. 3 is a TCXO schematic diagram of the present utility model;

Fig. 4 is the another kind of schematic diagram of the TCXO of utility model;

Fig. 5 is the DCXO schematic diagram of band independent capacitance matrix;

Fig. 6 is the dither circuit schematic diagram.

Embodiment

Embodiment 1: digital temperature compensated crystal oscillator as shown in Figure 3, comprise power circuit, oscillating circuit, digital compensation circuit, described oscillating circuit links to each other with digital compensation circuit with power circuit, described digital compensation circuit comprises temperature inductor, analog-to-digital conversion module, EEPROM, the DSP unit, digital to analog converter and voltage-controlled crystal oscillating circuit, described temperature inductor links to each other with data processing unit by analog-to-digital conversion module, described EEPROM is by the DSP unit, digital to analog converter links to each other with voltage-controlled crystal oscillating circuit, described digital compensation circuit comprises the dither signal generator, and described dither signal generator links to each other with digital to analog converter with data EEPROM.Dither signal generator as shown in Figure 6 comprises: oscillating circuit produces sawtooth signal; Decoding circuit, described oscillation frequency signal input decoding circuit, and control described decoding circuit and produce some pulse signals; Level is selected circuit, and described pulse signal control level is selected circuit, produces the outputs level signals with the pulse output signals change; Comparator circuit, more described frequency of oscillation sawtooth signal and outputs level signals produce the frequency jitter signal.It is smaller that present analog temperature compensating crystal oscillator chip can design, but precision is low, can only reach 0.5～1ppm, the demand that can not adapt to the high accuracy product, and digital temperature compensated crystal oscillator chip need be used 15 ADC or DAC circuit, difficult design, the IC area is big, and cost is higher.Present embodiment combines digital high-precision advantage to be had and has overcome its shortcoming, the utility model of unique innovation the digital temperature compensated crystal oscillator chip of band numeral shake, between EEPROM and DAC, increased the circuit module of a dither signal generator, make that required precision reduces circuit greatly to DAC, just because of use this novel circuit module design chips, so only need 8 DAC just can realize originally using the precision of 15 required 0.01ppm that reach of DAC.

Embodiment 2: as shown in Figure 4, embodiment 1 is directly removed DAC and VCXO circuit, by DCXO(digital compensation crystal oscillator) replace.The circuit module of digital data signal among the EEPROM via DSP unit and dither signal generator directly is loaded among the DCXO.This DCXO must be digital, is the circuit model of DCXO as Fig. 5.Originally needed 15 capacitance matrix for the precision that reaches 0.01ppm, this capacitance matrix design difficulty height, design area is big, and the consistency in producing is relatively poor, yield is very low, but the circuit module that has been to use dither signal generator reduces greatly for the requirement of the figure place of capacitance matrix.

The circuit of this novel band numeral dither functions has promptly kept the performance advantage of the crystal oscillator of former digital compensation mode, can use low accuracy A DC again or the circuit of DAC reaches high-precision purpose, so just can reduce the area of IC greatly, its cost is reduced.

Claims (6)

1. digital temperature compensated crystal oscillator, comprise power circuit, oscillating circuit, digital compensation circuit, described oscillating circuit links to each other with digital compensation circuit with power circuit, described digital compensation circuit comprises temperature inductor, analog-to-digital conversion module, data processing unit, digital signal processing unit, digital to analog converter and voltage-controlled crystal oscillating circuit, described temperature inductor links to each other with data processing unit by analog-to-digital conversion module, described data processing unit links to each other with voltage-controlled crystal oscillating circuit by digital signal processing unit and digital to analog converter, it is characterized in that, described digital compensation circuit comprises the dither signal generator, and described dither signal generator links to each other with digital to analog converter with data processing unit.

2. digital temperature compensated crystal oscillator according to claim 1, it is characterized in that, substitute described digital to analog converter and voltage-controlled crystal oscillating circuit with the digital compensation crystal oscillator, described digital compensation crystal oscillator links to each other with described dither signal generator.

3. digital temperature compensated crystal oscillator according to claim 1 and 2 is characterized in that, described data processing unit is EEPROM.

4. digital temperature compensated crystal oscillator according to claim 1 and 2 is characterized in that, described dither signal generator comprises:

Oscillating circuit produces sawtooth signal;

Decoding circuit, described oscillation frequency signal input decoding circuit, and control described decoding circuit and produce some pulse signals;

Level is selected circuit, and described pulse signal control level is selected circuit, produces the outputs level signals with the pulse output signals change;

Comparator circuit, more described frequency of oscillation sawtooth signal and outputs level signals produce the frequency jitter signal.

5. digital temperature compensated crystal oscillator according to claim 2 is characterized in that, described digital compensation crystal oscillator is the digital compensation crystal oscillator of band independent capacitance matrix.

6. digital temperature compensated crystal oscillator according to claim 1 is characterized in that, described each circuit can be integrated on the chip piece.

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