CN108123711A - A kind of temperature control system of atomic frequency standard - Google Patents

Abstract

The invention discloses a kind of temperature control systems of atomic frequency standard, belong to Technology of Atomic Frequency Standards field.Atomic frequency standard includes voltage controlled crystal oscillator, electronic circuit, physical system and servo module；Voltage controlled crystal oscillator is used to export original frequency signal；Electronic circuit is used to carry out frequency multiplication and mixing to original frequency signal, generates microwave interrogation signals；Physical system is used to carry out frequency discrimination to microwave interrogation signals, generates light inspection signal；Servo module is used to carry out light inspection signal frequency-selecting amplification, square wave shaping and synchronous phase demodulation, generates correction voltage and acts on voltage controlled crystal oscillator, to adjust the output frequency of voltage controlled crystal oscillator；Temperature control system includes：Isolation circuit, for isolating to correction voltage；Amplifying circuit for being amplified to correction voltage, generates temperature control voltage；Temperature-compensation circuit, under the driving of temperature control voltage, adjusting the environment temperature of atomic frequency standard.Environment temperature can be adjusted to the preference temperature of work by the present invention.

Description

A kind of temperature control system of atomic frequency standard

Technical field

The present invention relates to Technology of Atomic Frequency Standards field, more particularly to a kind of temperature control system of atomic frequency standard.

Background technology

Atomic frequency standard is to provide standard frequency and the equipment of time.Rb atom frequency marking because of it with small, low-power consumption and The ability of preferable anti-adverse environment, and as a kind of most widely used atomic frequency standard.It has preferable index, energy simultaneously Meet the needs of most dual-use engineerings, be particularly used in early warning plane, opportunity of combat, electronic countermeasure, the third generation and move and lead to Believe the engineering fields such as technical network and power monitoring.

Existing atomic frequency standard includes voltage controlled crystal oscillator, physical system, electronic circuit and servo module.Wherein, voltage-controlled crystalline substance It shakes to export original frequency signal；Electronic circuit is used to carry out frequency multiplication and mixing to original frequency signal, generates microwave and inquires after Signal；Physical system is used to carry out frequency discrimination to microwave interrogation signals, generates light inspection signal；Servo module be used for light inspection signal into Row frequency-selecting amplification, square wave shaping and synchronous phase demodulation generate correction voltage and act on voltage controlled crystal oscillator, to adjust voltage controlled crystal oscillator Output frequency；By said structure unit, most the output frequency of voltage controlled crystal oscillator is locked in atomic ground state hyperfine 0-0 centers at last In frequency.

In the implementation of the present invention, inventor has found that the prior art has at least the following problems：

Since voltage controlled crystal oscillator is highly susceptible to the influence of temperature change, and microwave times frequency mixing module, integration module, servo The performance indicator of module and voltage controlled crystal oscillator is to match, therefore, when the temperature varies, the output signal frequency of voltage controlled crystal oscillator It can occur to change on a large scale, and then lead to not the output frequency of voltage controlled crystal oscillator being locked in atomic ground state hyperfine 0-0 On frequency of heart.

The content of the invention

In order to solve problem of the prior art, an embodiment of the present invention provides a kind of temperature control systems of atomic frequency standard.It is described Technical solution is as follows：

An embodiment of the present invention provides a kind of temperature control system of atomic frequency standard, the atomic frequency standard includes voltage controlled crystal oscillator, electricity Sub-line road, physical system and servo module；The voltage controlled crystal oscillator is used to export original frequency signal；The electronic circuit is used In carrying out frequency multiplication and mixing to the original frequency signal, microwave interrogation signals are generated；The physical system is used for described micro- Ripple interrogation signals carry out frequency discrimination, generate light inspection signal；The servo module is used to carry out frequency-selecting amplification, side to the light inspection signal Ripple shaping and synchronous phase demodulation generate correction voltage and act on the voltage controlled crystal oscillator, to adjust the output of voltage controlled crystal oscillator frequency Rate；

The temperature control system includes：

Isolation circuit, for isolating to the correction voltage；

Amplifying circuit for being amplified to the correction voltage, generates temperature control voltage；

Temperature-compensation circuit, under the driving of the temperature control voltage, adjusting the environment temperature of the atomic frequency standard.

Optionally, the temperature-compensation circuit includes：

The first branch, for when the temperature control voltage is more than 0, raising the environment temperature of the atomic frequency standard；

The second branch, for when the temperature control voltage is less than 0, reducing the environment temperature of the atomic frequency standard.

Preferably, the first branch is equipped with the first diode and heating coil, and the second branch is equipped with second The cathode of diode and cooling fan, the anode of first diode and second diode respectively with the amplifying circuit Connection, the cathode of first diode are connected with the heating coil, the anode of second diode and the cooling wind Fan connection.

Optionally, the temperature-compensation circuit includes：

Bridge rectifier, for the temperature control voltage to be adjusted to forward voltage；

The first branch, under the driving of the forward voltage, raising the environment temperature of the atomic frequency standard；

The second branch, under the driving of the forward voltage, reducing the environment temperature of the atomic frequency standard；

Selector, for the environment temperature of the atomic frequency standard be less than the atomic frequency standard operating temperature when, by institute Forward voltage is stated to act in the first branch；It is more than the work of the atomic frequency standard in the environment temperature of the atomic frequency standard During temperature, the forward voltage is acted in the second branch.

Preferably, the selector includes：

Temperature sensor, for measuring the environment temperature of the atomic frequency standard；

Comparator, for the environment temperature of the atomic frequency standard and the operating temperature of the atomic frequency standard to be compared, And control signal is exported according to comparing result；

Relay, for the forward voltage to be acted on the first branch and described according to control signal selection On one in the second branch.

Preferably, the first branch is equipped with heating coil, and the second branch is equipped with cooling fan, the heating Coil and the cooling fan are connected respectively with the relay.

Optionally, the amplifying circuit includes triode, and the base stage of the triode is connected with the isolation module, described The collector of triode is connected with the temperature-compensation circuit；Alternatively,

The amplifying circuit includes field-effect tube, and the grid of the field-effect tube is connected with the isolation module, the field The drain electrode of effect pipe is connected with the temperature-compensation circuit.

Optionally, the isolation circuit includes voltage follower, the input terminal of the voltage follower and the servo mould Block connects, and the output terminal of the voltage follower is connected with the amplifying circuit.

Optionally, the temperature control system further includes babinet, and the atomic frequency standard and the temperature control system are arranged on the case In vivo.

Preferably, the babinet is made of thermal insulation material.

The advantageous effect that technical solution provided in an embodiment of the present invention is brought is：

Due to voltage controlled crystal oscillator variation of ambient temperature when, the output frequency of voltage controlled crystal oscillator may also change accordingly, and voltage-controlled crystalline substance The correction voltage swing positive correlation that the variation size of the output frequency to shake is generated with servo module, therefore when the environment of voltage controlled crystal oscillator During temperature change, servo module can generate corresponding correction voltage.The embodiment of the present invention is by being amplified correction voltage To temperature control voltage, and under the driving of temperature control voltage adjust atomic frequency standard environment temperature, so as to according to correction voltage size The corresponding environment temperature for adjusting atomic frequency standard makes the environment temperature of atomic frequency standard be adjusted to the preference temperature of atomic frequency standard work, The output frequency of voltage controlled crystal oscillator can be locked in atomic ground state hyperfine 0-0 centre frequencies by atomic frequency standard.

Description of the drawings

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the present invention, for For those of ordinary skill in the art, without creative efforts, other are can also be obtained according to these attached drawings Attached drawing.

Fig. 1 is a kind of structure diagram of atomic frequency standard provided in an embodiment of the present invention；

Fig. 2 is a kind of structure diagram of the temperature control system of atomic frequency standard provided in an embodiment of the present invention；

Fig. 3 is a kind of structure diagram of realization method of temperature-compensation circuit provided in an embodiment of the present invention；

Fig. 4 is the structure diagram of another realization method of temperature-compensation circuit provided in an embodiment of the present invention.

Specific embodiment

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with attached drawing to embodiment party of the present invention Formula is described in further detail.

Embodiment

An embodiment of the present invention provides a kind of temperature control system of atomic frequency standard, Fig. 1 is the structure diagram of atomic frequency standard, is joined See Fig. 1, atomic frequency standard includes voltage controlled crystal oscillator 11, electronic circuit 12, physical system 13 and servo module 14.

Wherein, voltage controlled crystal oscillator 11, for exporting original frequency signal；

Electronic circuit 12 for carrying out frequency multiplication and mixing to original frequency signal, generates microwave interrogation signals；

Physical system 13 for carrying out frequency discrimination to microwave interrogation signals, generates light inspection signal；

Servo module 14 for carrying out frequency-selecting amplification, square wave shaping and synchronous phase demodulation to light inspection signal, generates correction Voltage acts on voltage controlled crystal oscillator, to adjust the output frequency of voltage controlled crystal oscillator.

Fig. 2 is the structure diagram of temperature control system, and referring to Fig. 2, temperature control system includes isolation circuit 20,21 and of amplifying circuit Temperature-compensation circuit 22.

Wherein, isolation circuit 20, for isolating to correction voltage；

Amplifying circuit 21 for being amplified to correction voltage, generates temperature control voltage；

Temperature-compensation circuit 22, under the driving of temperature control voltage, adjusting the environment temperature of atomic frequency standard.

Due to voltage controlled crystal oscillator variation of ambient temperature when, the output frequency of voltage controlled crystal oscillator may also change accordingly, and voltage-controlled crystalline substance The correction voltage swing positive correlation that the variation size of the output frequency to shake is generated with servo module, therefore when the environment of voltage controlled crystal oscillator During temperature change, servo module can generate corresponding correction voltage.The embodiment of the present invention is by being amplified correction voltage To temperature control voltage, and under the driving of temperature control voltage adjust atomic frequency standard environment temperature, so as to according to correction voltage size The corresponding environment temperature for adjusting atomic frequency standard makes the environment temperature of atomic frequency standard be adjusted to the preference temperature of atomic frequency standard work, The output frequency of voltage controlled crystal oscillator can be locked in atomic ground state hyperfine 0-0 centre frequencies by atomic frequency standard.

Fig. 3 is a kind of structure diagram of realization method of temperature-compensation circuit, referring to Fig. 3, in one kind of the present embodiment In realization method, temperature-compensation circuit 22 can include：

The first branch 221, for when temperature control voltage is more than 0, raising the environment temperature of atomic frequency standard；

The second branch 222, for when temperature control voltage is less than 0, reducing the environment temperature of atomic frequency standard.

Specifically, as shown in Fig. 2, the first diode 221a and heating coil 221b can be equipped in the first branch 221, the The second diode 222a and cooling fan 222b, the anode and the two or two of the first diode 221a can be equipped on two branches 222 The cathode of pole pipe 222a is connected respectively with amplifying circuit 21, and the cathode of the first diode 221a is connected with heating coil 221b, the The anode of two diode 222a is connected with cooling fan 222b.

Specific implementation when, if the environment temperature of atomic frequency standard be less than atomic frequency standard operating temperature (atomic frequency standard Operating temperature refers to the preference temperature of atomic frequency standard work, such as 25 DEG C in the present embodiment), then the output frequency of voltage controlled crystal oscillator is less than Atomic ground state hyperfine 0-0 centre frequencies, servo module generate the correction voltage more than 0.Due to the one-way conduction of diode, The first diode 221a is turned at this time, and the second diode 222a cut-offs, i.e., the first branch 221 turns on, and the second branch 222 is ended, The temperature control voltage that correction voltage amplification obtains is acted on heating coil 221b, raises the environment temperature of atomic frequency standard.

If the environment temperature of atomic frequency standard is more than the operating temperature of atomic frequency standard, the output frequency of voltage controlled crystal oscillator is higher than Atomic ground state hyperfine 0-0 centre frequencies, servo module generate less than 0 correction voltage.Due to the one-way conduction of diode, The first diode 221a ends at this time, and the second diode 222a conductings, i.e., the first branch 221 is ended, and the second branch 222 turns on, The temperature control voltage that correction voltage amplification obtains is acted on cooling fan 222b, reduces the environment temperature of atomic frequency standard.

Fig. 4 is the structure diagram of another realization method of temperature-compensation circuit, referring to Fig. 4, in the another of the present embodiment In a kind of realization method, temperature-compensation circuit 22 can include：

Bridge rectifier 223, for temperature control voltage to be adjusted to forward voltage；

The first branch 224, under the driving of forward voltage, raising the environment temperature of atomic frequency standard；

The second branch 225, under the driving of forward voltage, reducing the environment temperature of atomic frequency standard；

Selector 226, for the environment temperature of atomic frequency standard be less than atomic frequency standard operating temperature when, by forward voltage It acts in the first branch 224；When the environment temperature of atomic frequency standard is more than the operating temperature of atomic frequency standard, forward voltage is made With in the second branch 225.

Wherein, the operating temperature of atomic frequency standard refers to the temperature of atomic frequency standard normal work, i.e., atomic frequency standard work is suitable Suitable temperature, such as 25 DEG C.If the operating temperature of atomic frequency standard is a temperature range, the operating temperature less than atomic frequency standard is Refer to, less than the minimum value in this temperature range；Operating temperature more than atomic frequency standard refers to, more than in this temperature range Maximum.

Specifically, as shown in figure 3, selector 226 can include：

Temperature sensor 226a, for measuring the environment temperature of atomic frequency standard；

Comparator 226b, for the operating temperature of the environment temperature of the atomic frequency standard and the atomic frequency standard to be carried out couple Than, and control signal is exported according to comparing result；

Relay 226c, for according to the control signal selection by the forward voltage act on the first branch and On one in the second branch.

It specifically, can be with as shown in figure 3, heating coil 224a can be equipped in the first branch 224, in the second branch 225 Equipped with cooling fan 225a, heating coil 224a and cooling fan 225a are connected respectively with relay 226c.

In specific implementation, no matter temperature control voltage is also less than 0 more than 0, and bridge rectifier 223 can ensure to export Forward voltage more than 0.

If the environment temperature of the atomic frequency standard of temperature sensor 226a measurements is less than the operating temperature of atomic frequency standard, compare Device 226b controls relay 226c connects bridge rectifier 223 with the first branch 224, and forward voltage acts on heating coil On 224a, the environment temperature of atomic frequency standard is raised.

If the environment temperature of the atomic frequency standard of temperature sensor 226a measurements is more than the operating temperature of atomic frequency standard, compare Device 226b controls relay 226c connects bridge rectifier 223 with the second branch 225, and forward voltage acts on cooling fan On 225a, the environment temperature of atomic frequency standard is reduced.

Optionally, amplifying circuit 21 can include triode, and the base stage of triode is connected with isolation module, the collection of triode Electrode is connected with temperature-compensation circuit.

Optionally, amplifying circuit 21 can include field-effect tube, and the grid of field-effect tube is connected with isolation module, field-effect The drain electrode of pipe is connected with temperature-compensation circuit.

Optionally, isolation circuit 20 can include voltage follower, and the input terminal of voltage follower is connected with servo module, The output terminal of voltage follower is connected with amplifying circuit.

Optionally, temperature control system can also include babinet, and atomic frequency standard and temperature control system are arranged in babinet, to improve temperature Spend the regulating effect of compensation circuit.

Preferably, babinet may be employed thermal insulation material and be made, such as foam.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all the present invention spirit and Within principle, any modifications, equivalent replacements and improvements are made should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of temperature control system of atomic frequency standard, the atomic frequency standard include voltage controlled crystal oscillator, electronic circuit, physical system and Servo module；The voltage controlled crystal oscillator is used to export original frequency signal；The electronic circuit is used for the original frequency signal Frequency multiplication and mixing are carried out, generates microwave interrogation signals；The physical system is used to carry out the microwave interrogation signals frequency discrimination, production Raw light inspection signal；The servo module is used to carry out the light inspection signal frequency-selecting amplification, square wave shaping and synchronous phase demodulation, It generates correction voltage and acts on the voltage controlled crystal oscillator, to adjust the output frequency of the voltage controlled crystal oscillator；

It is characterized in that, the temperature control system includes：

Isolation circuit, for isolating to the correction voltage；

Amplifying circuit for being amplified to the correction voltage, generates temperature control voltage；

Temperature-compensation circuit, under the driving of the temperature control voltage, adjusting the environment temperature of the atomic frequency standard.

2. temperature control system according to claim 1, which is characterized in that the temperature-compensation circuit includes：

The first branch, for when the temperature control voltage is more than 0, raising the environment temperature of the atomic frequency standard；

The second branch, for when the temperature control voltage is less than 0, reducing the environment temperature of the atomic frequency standard.

3. temperature control system according to claim 2, which is characterized in that the first branch is equipped with the first diode and adds Heat coil, the second branch are equipped with the second diode and cooling fan, the anode of first diode and described second The cathode of diode is connected respectively with the amplifying circuit, and the cathode of first diode is connected with the heating coil, institute The anode for stating the second diode is connected with the cooling fan.

4. temperature control system according to claim 1, which is characterized in that the temperature-compensation circuit includes：

Bridge rectifier, for the temperature control voltage to be adjusted to forward voltage；

The first branch, under the driving of the forward voltage, raising the environment temperature of the atomic frequency standard；

The second branch, under the driving of the forward voltage, reducing the environment temperature of the atomic frequency standard；

Selector, for the environment temperature of the atomic frequency standard be less than the atomic frequency standard operating temperature when, by it is described just It is acted on to voltage in the first branch；It is more than the operating temperature of the atomic frequency standard in the environment temperature of the atomic frequency standard When, the forward voltage is acted in the second branch.

5. temperature control system according to claim 4, which is characterized in that the selector includes：

Temperature sensor, for measuring the environment temperature of the atomic frequency standard；

Comparator, for the environment temperature of the atomic frequency standard and the operating temperature of the atomic frequency standard to be compared, and root Control signal is exported according to comparing result；

Relay, for the forward voltage to be acted on the first branch and described second according to control signal selection On one in branch.

6. temperature control system according to claim 4, which is characterized in that the first branch is equipped with heating coil, described The second branch is equipped with cooling fan, and the heating coil and the cooling fan are connected respectively with the relay.

7. according to claim 1~6 any one of them temperature control system, which is characterized in that the amplifying circuit includes triode, The base stage of the triode is connected with the isolation module, and the collector of the triode is connected with the temperature-compensation circuit； Alternatively,

The amplifying circuit includes field-effect tube, and the grid of the field-effect tube is connected with the isolation module, the field-effect The drain electrode of pipe is connected with the temperature-compensation circuit.

8. according to claim 1~6 any one of them temperature control system, which is characterized in that the isolation circuit include voltage with With device, the input terminal of the voltage follower is connected with the servo module, and the output terminal of the voltage follower is put with described Big circuit connection.

9. according to claim 1~6 any one of them temperature control system, which is characterized in that the temperature control system further includes babinet, The atomic frequency standard and the temperature control system are arranged in the babinet.

10. temperature control system according to claim 9, which is characterized in that the babinet is made of thermal insulation material.