CN106301224B - A kind of crystal oscillator automatic temperature compensation system - Google Patents

Abstract

The invention discloses a kind of crystal oscillator temperature compensation systems,Including high-low temperature test chamber,Frequency meter,D.C. regulated power supply,Programmable DC regulated power supply,Host computer,Voltage Controlled Crystal Oscillator to be compensated is placed inside high/low temperature experimental box,Frequency meter measures the output frequency of Voltage Controlled Crystal Oscillator to be compensated,D.C. regulated power supply provides supply voltage to Voltage Controlled Crystal Oscillator to be compensated,PC control high/low temperature experimental box is adjusted into trip temperature,Programmable DC voltage of voltage regulation is controlled under Current Temperatures makes the output frequency of offset voltage Voltage Controlled Crystal Oscillator to be compensated be equal to target frequency to Voltage Controlled Crystal Oscillator to be compensated offer appropriate voltage,To obtain corresponding frequency departure and offset voltage under different temperatures,It obtains frequency departure offset voltage tables of data and is stored to the offset voltage generating means of Voltage Controlled Crystal Oscillator,To realize that the auto thermal compensation to Voltage Controlled Crystal Oscillator controls,Improve the real-time and accuracy of auto thermal compensation.

Description

A kind of crystal oscillator automatic temperature compensation system

Technical field

The invention belongs to crystal oscillator technologies fields, more specifically, are related to a kind of crystal oscillator automatic temperature-adjusting Compensation system.

Background technology

Crystal oscillator (Temperature Compensate Xtal (crystal) Oscillator, TCXO) is answered extensively For the industry of electronic information field, play a part of in electronic system " heart ".Communication, electronic instrument, aviation in recent years The development of the technologies such as space flight, defence and military proposes increasingly higher demands to the accuracy of crystal oscillator and stability.

General crystal oscillator is with the variation of environment temperature, and output frequency will appear drift, with temperature-frequency spy Property indicate, can be approximated to be a cubic curve, as：

F (T)=a₃(T-T₀)³+a₁(T-T₀)+a₀ (1)

Wherein, a₃It is coefficient entry three times, a₁It is coefficient of first order item, a₀It is T₀When frequency of oscillation, T₀It is reference temperature.

For common voltage controlled oscillator (Voltage Controlled Xtal (crystal) Oscillator, VCXO) Linear gain characteristics can approximation be expressed as follows：

F (VC)=- G (VC-VC₀)+f₀ (2)

Wherein, G is the gain of VCXO, and VC is the control voltage of VCXO, VC₀It is the input voltage at the voltage-controlled end of VCXO, f₀It is Input is VC₀When frequency of oscillation.

So, the equation as the voltage VC (T) of compensation crystal oscillator temperature characterisitic can be expressed as：

VC (T)=A₃(T-T₀)³+A₁(T-T₀)+A₀ (3)

At this point, A₃=a₃/ G, A₁=a₁/ G, A₀Be temperature be T₀When offset voltage.Usually definition is painted according to this variation The curve of system is frequency-temperature characteristic curve.Fig. 1 is frequency-temperature characteristic curve exemplary plot.

In order to improve the frequency temperature drift characteristic of crystal oscillator, people use many methods.Existing frequently-used does Method is almost all based on the open loop compensation circuit built using temperature sensor, by the crystal oscillator under different temperature spots Temperature frequency variation, be converted to corresponding voltage, be loaded on the load varactor of oscillator, in order to by oscillator Output frequency stablize in fixed value, usually the on-load voltage of name at this time is offset voltage.Fig. 2 is the crystalline substance based on open loop approach Oscillation body device temperature compensation system structure chart.As shown in Fig. 2, in the crystal oscillator temperature compensation system based on open loop approach, Environment temperature is acquired by temperature sensor, then calculates required offset voltage, obtains the corresponding data of temperature-compensation voltage, It finally is fitted to a temperature compensation curve for carrying high-order component using algorithm, achievees the purpose that temperature-compensating.

This open-loop compensation mode during the output of frequency there are apparent temperature hysteresis phenomenon, and compensated curve Sampled point be limited, the curve that offset voltage varies with temperature is filled by the interpolation of function, it may appear that actual Offset voltage and the not quite identical situation of required offset voltage, this will result in the unstable of output frequency curve and by a small margin Shaking.And in calculating process, the offset voltage of existing system can pass through the improvement offset voltage of interpolating function；Certainly The modes such as Fourier function may be used, improve the exponent number of compensated curve polynomial function, make matched curve closer to practical song Line.But since calculating process is more complicated, inevitably there is delay so that the real-time of offset voltage is affected, To influence the compensation precision of temperature compensating crystal oscillator.

Invention content

It is an object of the invention to overcome the deficiencies of the prior art and provide a kind of crystal oscillator auto thermal compensation systems System, solves the problems, such as temperature hysteresis, to improve the real-time and accuracy of crystal oscillator auto thermal compensation.

For achieving the above object, crystal oscillator temperature compensation system of the present invention includes high-low temperature test chamber, frequency Meter, D.C. regulated power supply, programmable DC regulated power supply and host computer, wherein：

Place Voltage Controlled Crystal Oscillator to be compensated inside high/low temperature experimental box, high/low temperature experimental box according to host computer temperature Regulating command adjusts its temperature；

Frequency meter measures the output frequency of Voltage Controlled Crystal Oscillator to be compensated, is sent to host computer；

D.C. regulated power supply provides supply voltage V to Voltage Controlled Crystal Oscillator to be compensated_CC；

Programmable DC regulated power supply is used to provide control voltage to Voltage Controlled Crystal Oscillator to be compensated, and programmable DC is steady For voltage source in the reset signal for receiving host computer, control voltage is nominal control voltage V₀；Receiving host computer When controlling voltage regulating command, control voltage is adjusted；After receiving the inquiry instruction of host computer, uploaded to host computer Current control voltage V (T)；

Host computer is according to Voltage Controlled Crystal Oscillator operating ambient temperature range [T to be compensated_min,T_max] to high/low temperature experimental box Temperature adjustment instructions are sent, successively from minimum temperature T_minIt is adjusted to maximum temperature T_max；Host computer is sending temperature adjusting every time Instruction sends reset instruction simultaneously, to programmable DC regulated power supply, and control voltage is made to restore to V₀；Host computer receives frequency meter The output frequency of upload calculates the target frequency f with Voltage Controlled Crystal Oscillator to be compensated₀Frequency deviation f (T)=f (T)-f₀ And record, it is then sent to programmable DC regulated power supply and controls voltage regulating command, the output frequency that monitoring frequency meter is sent, When the output frequency that frequency meter uploads is equal to target frequency f₀When, send inquiry instruction, record to programmable DC regulated power supply The control voltage V (T) that programmable DC regulated power supply is replied is calculated and is recorded current corresponding offset voltage Δ V (T)=V (T)-V₀, V₀Indicate nominal control voltage；Host computer is by temperature range [T_min,T_max] in all frequency deviation f (T) and mend It repays voltage Δ V (T) integration and obtains frequency departure-offset voltage tables of data, and stored to Voltage Controlled Crystal Oscillator to be compensated Offset voltage generating means.

Crystal oscillator temperature compensation system of the present invention, including high-low temperature test chamber, frequency meter, D.C. regulated power supply, can D.C. regulated power supply, host computer are programmed, places Voltage Controlled Crystal Oscillator to be compensated inside high/low temperature experimental box, frequency meter measurement waits for The output frequency of Voltage Controlled Crystal Oscillator is compensated, D.C. regulated power supply provides supply voltage to Voltage Controlled Crystal Oscillator to be compensated, PC control high/low temperature experimental box is adjusted into trip temperature, and programmable DC voltage of voltage regulation is controlled under Current Temperatures to be compensated Voltage Controlled Crystal Oscillator, which provides appropriate voltage, makes the output frequency of offset voltage Voltage Controlled Crystal Oscillator to be compensated be equal to target frequency Rate obtains frequency departure-offset voltage tables of data and incites somebody to action to obtain corresponding frequency departure and offset voltage under different temperatures It is stored to the offset voltage generating means of Voltage Controlled Crystal Oscillator, to realize that the automatic temperature-adjusting to Voltage Controlled Crystal Oscillator is mended Repay control.

The present invention has following technology excellent compared with the existing crystal oscillator temperature compensation system based on open loop approach Point：

1) temperature in use sensor is not needed, sluggishness during generating offset voltage change output frequency is effectively improved Phenomenon, it is easier to realize that real-time high-precision compensates,；

2) framework mode is compensated using closed loop feedback, frequency departure-offset voltage tables of data is that direct acquisition comes out , the error of offset voltage is reduced from principle, makes output frequency within the scope of wider temperature, it is more stable more accurate.

Description of the drawings

Fig. 1 is frequency-temperature characteristic curve exemplary plot；

Fig. 2 is the crystal oscillator temperature compensation system structure chart based on open loop approach；

Fig. 3 is the structure chart of crystal oscillator temperature compensation system of the present invention；

Fig. 4 is offset voltage generating means structure chart in the present embodiment.

Specific implementation mode

The specific implementation mode of the present invention is described below in conjunction with the accompanying drawings, preferably so as to those skilled in the art Understand the present invention.Requiring particular attention is that in the following description, when known function and the detailed description of design perhaps When can desalinate the main contents of the present invention, these descriptions will be ignored herein.

Embodiment

Fig. 3 is the structure chart of crystal oscillator temperature compensation system of the present invention.As shown in figure 3, crystal oscillator of the present invention Temperature compensation system includes high-low temperature test chamber 1, frequency meter 2, D.C. regulated power supply 3, programmable DC regulated power supply 4, upper Machine 5.

Voltage Controlled Crystal Oscillator to be compensated is placed in 1 inside of high/low temperature experimental box, and high/low temperature experimental box 1 is according to host computer 5 Temperature adjustment instructions adjust its temperature.

Frequency meter 2 measures pressure to be compensated for being monitored in real time to the output frequency of Voltage Controlled Crystal Oscillator to be compensated The output frequency for controlling crystal oscillator, is sent to host computer 5.

D.C. regulated power supply 3 provides supply voltage V to Voltage Controlled Crystal Oscillator to be compensated_CC。

Programmable DC regulated power supply 4 is used to provide control voltage, programmable DC to Voltage Controlled Crystal Oscillator to be compensated For regulated power supply 4 when receiving the reset signal of host computer 5, control voltage is nominal control voltage V₀；It is upper receiving When the control voltage regulating command of machine 5, control voltage is adjusted；After the inquiry instruction for receiving host computer 5, to upper Machine 5 uploads current control voltage V (T).

Host computer 5 is according to Voltage Controlled Crystal Oscillator operating ambient temperature range [T to be compensated_min,T_max] tested to high/low temperature Case 1 sends temperature adjustment instructions, successively from minimum temperature T_minIt is adjusted to maximum temperature T_max；Host computer 5 is sending temperature every time Regulating command sends reset instruction simultaneously, to programmable DC regulated power supply 4, and control voltage is made to restore to V₀；Host computer 5 receives The output frequency that frequency meter 2 uploads calculates the target frequency f with Voltage Controlled Crystal Oscillator to be compensated₀Frequency deviation f (T) =f (T)-f₀And record, control voltage regulating command then is sent to programmable DC regulated power supply 4, monitoring frequency meter 2 is sent Output frequency, when frequency meter 2 upload output frequency be equal to target frequency f₀When, it is sent to programmable DC regulated power supply 4 Inquiry instruction, the control voltage V (T) that record programmable DC regulated power supply 4 is replied are calculated and are recorded current corresponding compensation electricity Press Δ V (T)=V (T)-V₀, V₀Indicate nominal control voltage；Host computer 5 is by temperature range [T_min,T_max] in all frequencies it is inclined Poor Δ f (T) and offset voltage Δ V (T) integration obtain frequency departure-offset voltage tables of data, store to voltage-controlled crystal (oscillator) to be compensated The offset voltage generating means of oscillator.

The workflow of crystal oscillator temperature compensation system of the present invention can be summarized as follows：First to high/low temperature experimental box 1 Temperature setting is carried out, is then nominal control voltage V in the control voltage of Voltage Controlled Crystal Oscillator to be compensated₀In the case of, it obtains To Current Temperatures lower frequency deviation delta f (T), then by controlling 4 adjusting control voltage of programmable DC regulated power supply, make to wait mending The output frequency for repaying Voltage Controlled Crystal Oscillator is target frequency f₀, i.e. frequency departure is 0, and record controls voltage deviation at this time, i.e., For offset voltage.To obtain the frequency deviation f (T) for needing to compensate and corresponding offset voltage Δ by closed feedback loop V (T) obtains a mutual corresponding tables of data of frequency departure-offset voltage, in this, as voltage-controlled by constantly changing temperature Compensation basis in crystal oscillator actual application.

Fig. 4 is offset voltage generating means structure chart in the present embodiment.As shown in figure 4, voltage-controlled crystal (oscillator) shakes in the present embodiment The offset voltage generating means for swinging device include that frequency departure calculates module, frequency-voltage transformation module and filter.Frequency departure Computing module is for calculating frequency departure.Frequency departure calculates module tool, and there are two working conditions：Monitoring state and compensating coefficient, In a monitoring state, when frequency departure absolute value is more than δ, frequency departure calculates module and is sent to frequency-voltage transformation module Then reset signal is converted to compensating coefficient, is not otherwise made any operation.Under compensating coefficient, directly frequency departure is sent To frequency-voltage transformation module, then convert to monitoring state.Frequency-voltage transformation module is for generating offset voltage, when connecing When receiving reset signal, then it is 0 to enable offset voltage, when receiving frequency departure, then in frequency departure-offset voltage tables of data Middle lookup obtains corresponding offset voltage, then generates compensation voltage signal.Filter is filtered compensation voltage signal, obtains To final compensation voltage signal.

Although the illustrative specific implementation mode of the present invention is described above, in order to the technology of the art Personnel understand the present invention, it should be apparent that the present invention is not limited to the range of specific implementation mode, to the common skill of the art For art personnel, if various change the attached claims limit and determine the spirit and scope of the present invention in, these Variation is it will be apparent that all utilize the innovation and creation of present inventive concept in the row of protection.

Claims (1)

1. a kind of crystal oscillator temperature compensation system, which is characterized in that including high-low temperature test chamber, frequency meter, DC voltage-stabilizing Power supply, programmable DC regulated power supply, host computer, wherein：

Voltage Controlled Crystal Oscillator to be compensated is placed inside high/low temperature experimental box, high/low temperature experimental box is adjusted according to the temperature of host computer Instruction adjusts its temperature；

Frequency meter measures the output frequency of Voltage Controlled Crystal Oscillator to be compensated, is sent to host computer；

D.C. regulated power supply provides supply voltage V to Voltage Controlled Crystal Oscillator to be compensated_CC；

Programmable DC regulated power supply is used to provide control voltage, programmable DC voltage stabilizing electricity to Voltage Controlled Crystal Oscillator to be compensated In the reset signal for receiving host computer, control voltage is nominal control voltage V in source₀；In the control for receiving host computer When voltage regulating command, control voltage is adjusted；After receiving the inquiry instruction of host computer, uploaded to host computer current Control voltage V (T)；

Host computer is according to Voltage Controlled Crystal Oscillator operating ambient temperature range [T to be compensated_min,T_max] sent to high/low temperature experimental box Temperature adjustment instructions, successively from minimum temperature T_minIt is adjusted to maximum temperature T_max；Host computer is sending temperature adjustment instructions every time Meanwhile reset instruction is sent to programmable DC regulated power supply, so that control voltage is restored to V₀；Host computer receives frequency meter uploads Output frequency, calculate and the target frequency f of Voltage Controlled Crystal Oscillator to be compensated₀Frequency deviation f (T)=f (T)-f₀And remember Then record sends control voltage regulating command, the output frequency that monitoring frequency meter is sent, when frequency to programmable DC regulated power supply The output frequency that rate meter uploads is equal to target frequency f₀When, inquiry instruction is sent to programmable DC regulated power supply, record can be compiled The control voltage V (T) that journey D.C. regulated power supply is replied is calculated and is recorded current corresponding offset voltage Δ V (T)=V (T)-V₀, V₀Indicate nominal control voltage；Host computer is by temperature range [T_min,T_max] in all frequency deviation f (T) and offset voltage Δ V (T) integration obtains frequency departure offset-offset voltage tables of data, and is stored to Voltage Controlled Crystal Oscillator to be compensated Offset voltage generating means.