CN1642012A - Reference signal source rein forcing device and satellite signal emitter - Google Patents

Abstract

The invention relates to a reference signal source enhancing device that make the input power has the greater and more stable dynamic range by using the function of filter and amplifier and decreases the influence from the temperature variation. The invention comprises power supply, the first low pass filter that connects to a reference frequency signal, the second low pass filter that connects to the first low pass filter, band-pass filter and signal amplifier. Thus, it supplies reference signal source enhancing device and the satellite signal generator using the device.

Description

Derived reference signal intensifying device and satellite-signal reflector

Technical field

The present invention relates to a kind of derived reference signal intensifying device, particularly relate to and utilize filter and amplifier function, make derived reference signal that a kind of derived reference signal intensifying device and the satellite-signal reflector of bigger and more stable input power dynamic range be arranged.

Background technology

Phase locked loop oscillator (phase lock loop oscillators, PLO) be to use circuit precisely inner, the extremely low frequency of oscillation source of frequency variation amount is as reference, feedback effect via the closed-loop path automatic control system, it is not accurate to drive another action, the frequency of operation of the effect assembly that the frequency variation amount is high, make it can be fast and keep stable and correct the frequency reference source always and reach homophase or even homophase again with state frequently, thus, if it is precisely outside with circuit, the extremely low frequency of oscillation source of frequency variation amount is as reference, it is precisely inner to order about circuit, the frequency of oscillation source that the frequency variation amount is extremely low, achieve the state of phase locking, promptly can be used as the modulation and demodulation circuit of communication system.

Any phase locked loop oscillator (phase lock loop oscillators, PLO) must need a derived reference signal (reference signal), entire circuit ability regular event, under the intact situation of PLO circuit design, interior phase noise (phase noise) characteristic of loop frequency range (loop bandwidth) just depends on this signal source fully, but this signal source is in being sent to the process of PLO, interfere with this signal source as transmission line loss, airborne noise or other circuit noise, all can reduce the characteristic quality of whole PLO.

Summary of the invention

In view of this, main purpose of the present invention provides a kind of derived reference signal intensifying device, particularly, make derived reference signal that a kind of derived reference signal intensifying device and the satellite-signal reflector of bigger and more stable input power dynamic range be arranged relevant for utilizing filter and amplifier function.

For achieving the above object, the present invention proposes a kind of derived reference signal intensifying device, comprise a power supply, one first low pass filter coupled, one reference frequency signal, in order to a first frequency of eliminating reference frequency signal (ultra-high frequency ultrahigh frequency for example, UHF or be higher than the frequency signal of ultra-high frequency), one second low pass filter coupled, first low pass filter, in order to the harmonic wave of eliminating reference frequency signal or the frequency signal that is higher than reference frequency signal, one band pass filter couples second low pass filter, in order to eliminate a second frequency of reference frequency signal.

One signal amplifying apparatus comprises that one first amplifier couples band pass filter, in order to enlarge the input power of spendable input power dynamic range of reference frequency signal and the above-mentioned reference frequency signal of reduction, and amplify above-mentioned reference frequency signal, one second amplifier couples first amplifier, in order to reduce the low-frequency noise of power supply, and amplify reference frequency signal and one the 3rd amplifier operates in the output saturation condition, couple second amplifier, in order to the low-frequency noise of reduction power supply, and the restriction reference frequency signal is in stable power bracket output.

For above-mentioned purpose of the present invention, feature and advantage can be become apparent, some embodiment cited below particularly, and be described with reference to the accompanying drawings as follows.

Description of drawings

Fig. 1 represents the block diagram of first embodiment of the present invention derived reference signal intensifying device.

Fig. 2 represents the circuit diagram of second embodiment of the present invention derived reference signal intensifying device.

Fig. 3 represents the schematic diagram of third embodiment of the present invention satellite-signal reflector.

The reference numeral explanation

10-derived reference signal intensifying device, 20-first low pass filter, 30-second low pass filter, the 40-band pass filter, 50-signal amplifying apparatus, 60-first amplifier, 70-second amplifier, 80-the 3rd amplifier, 90-satellite-signal reflector, the 100-phase locked loop oscillator, the 110-mixer, 120-radio frequency amplifier, 130-antenna, the 140-power supply, R ₁-R ₁₂-resistance, C ₁-the first electric capacity, C ₂-the second electric capacity, C ₃-Di three electric capacity, C ₄-Di four electric capacity, C ₅-Di five electric capacity, C ₆-Di six electric capacity, C ₇-Di seven electric capacity, C ₈-Di eight electric capacity, C _A-the first coupling capacitance, C _B-the second coupling capacitance, C _C-Di three coupling capacitances, C _D-Di four coupling capacitances, C _E-Di five coupling capacitances, L ₁-the first inductance, L ₂-the second inductance, L ₃-Di three inductance, L ₄-Di four inductance, L ₅-Di five inductance, Q ₁-the first transistor, Q ₂-transistor seconds, Q ₃-Di three transistors, S _L-microstrip line, F _R-reference frequency signal, f ₁-first frequency, f ₂-first frequency, I ₁-input signal, M ₁-carrier signal, N ₁-the first signal, the GND-earth terminal.

Embodiment

Embodiment one:

Fig. 1 represents the block diagram of first embodiment of the present invention derived reference signal intensifying device, as shown in Figure 1, derived reference signal intensifying device 10 comprises: a power supply 140, one first low pass filter 20, one second low pass filter 30, a band pass filter 40 and a signal amplifying apparatus 50.

The operation principle of present embodiment derived reference signal intensifying device 10 is as described below.First low pass filter 20 couples a reference frequency signal F _R, in order to eliminate reference frequency signal F _RA first frequency f ₁(ultra-high frequency ultrahigh frequency for example, UHF or be higher than the frequency signal of ultra-high frequency), second low pass filter 30 couples first low pass filter 20, in order to eliminate reference frequency signal F _RHarmonic wave (for example frequency-doubled signal) or be higher than reference frequency signal F _RFrequency signal, band pass filter 40 couples second low pass filter 30, in order to eliminate reference frequency signal F _RA second frequency f ₂(for example low-frequency noise).

Signal amplifying apparatus 50 comprises that one first amplifier 60 couples band pass filter 40, in order to enlarge reference frequency signal F _RSpendable input power dynamic range and reduction reference frequency signal F _RInput power, and amplify reference frequency signal F _R, one second amplifier 70 couples first amplifier 60, in order to reducing the low-frequency noise of power supply 140, and amplifies reference frequency signal F _R, and one the 3rd amplifier 80, operate in the output saturation condition and couple second amplifier, 70 usefulness so that gain reduces, can reduce the low-frequency noise that power supply 140 is brought, and limit reference frequency signal F _RIn stable power bracket output.

The function of derived reference signal intensifying device 10 makes reference frequency signal F _RBigger and more stable input power dynamic range is arranged, reduce outside noise reference frequency signal F _RInterference and can resist high low temperature and change, but from-40 ℃～+ 80 ℃ operate as normal all, make reference frequency signal F _RIn the process that is sent to phase locked loop oscillator (PLO) 100, can avoid transmission line loss, airborne noise or other circuit noise to interfere with this signal source, to promote the characteristic quality of whole phase locked loop oscillator 100.

Embodiment two:

Fig. 2 represents the circuit diagram of second embodiment of the present invention derived reference signal intensifying device.

As shown in Figure 2, the operation principle of present embodiment is as described in first embodiment, and the circuit structure of its derived reference signal intensifying device 10 is as follows.First low pass filter 20 comprises a microstrip line (strip line) S _LCouple a reference frequency signal F _R, and one first capacitor C ₁Be coupled in microstrip line S _L, the first coupling capacitance C _AAnd one between the earth terminal GND, in order to eliminate reference frequency signal F _RA first frequency f ₁(ultra-high frequency ultrahigh frequency for example, UHF or be higher than the frequency signal of ultra-high frequency), wherein, microstrip line S _LConstitute an inductor; Second low pass filter 30 couples first low pass filter 20, in order to eliminate reference frequency signal F _RHarmonic wave (for example frequency-doubled signal) or be higher than reference frequency signal F _RFrequency signal, band pass filter 40 comprises one the 5th capacitor C ₅And connect one the 4th inductance L ₄Couple second low pass filter 30, in order to eliminate reference frequency signal F _RA second frequency f ₂(for example low-frequency noise), wherein; Second low pass filter 30 comprises one first inductance L ₁Couple the first coupling capacitance C _A, one second inductance L ₂Couple first inductance L ₁, one the 3rd inductance L ₃Be coupled in second inductance L ₂And between the band pass filter 40, one second capacitor C ₂Couple first inductance L ₁, second inductance L ₂And between the earth terminal GND, one the 3rd capacitor C ₃Connect second inductance L ₂, the 3rd inductance L ₃And between the earth terminal GND and one the 4th electric capacity L ₄Couple the 3rd inductance L ₃, between band pass filter 40 and the earth terminal GND.

Signal amplifying apparatus 50 comprises that one first amplifier 60 couples band pass filter 40, the first amplifiers 60 and comprises a first transistor Q ₁, the first transistor Q ₁First end in order to output reference frequency signal F _R, and via a resistance R ₁ Couple power supply 140, the first transistor Q ₁Second end couple one second coupling capacitance C _B, and via a resistance R ₂ Couple power supply 140, and via a resistance R ₃Couple earth terminal GND and the first transistor Q ₁The 3rd end couple a resistance R respectively ₄With one the 6th capacitor C ₆To earth terminal GND, in order to enlarge reference frequency signal F _RSpendable input power dynamic range and reduction reference frequency signal F _RInput power, and amplify reference frequency signal F _R, one second amplifier 70 couples first amplifier, 60, the second amplifiers 70 and comprises a transistor seconds Q ₂, transistor seconds Q ₂First end in order to output reference frequency signal F _R, and via a resistance R ₅ Couple power supply 140, transistor seconds Q ₂Second end couple one the 3rd coupling capacitance C _C, and via a resistance R ₆ Couple power supply 140, and via a resistance R ₇Couple earth terminal GND and transistor seconds Q ₂The 3rd end couple a resistance R respectively ₈With one the 7th capacitor C ₇To earth terminal GND,, and amplify reference frequency signal F in order to the low-frequency noise of reduction power supply 140 _R, and one the 3rd amplifier 80 operate in the output saturation condition and couple second amplifier, 70, the three amplifiers 80 and comprise one the 3rd transistor Q ₃, the 3rd transistor Q ₃First end in order to output reference frequency signal F _R, and via a resistance R ₉Couple power supply, the 3rd transistor Q ₃Second end couple one the 4th coupling capacitance C _D, and via a resistance R ₁₀ Couple power supply 140, and via a resistance R ₁₁Couple earth terminal GND and the 3rd transistor Q ₃The 3rd end couple a resistance R respectively ₁₂With one the 8th capacitor C ₈To earth terminal GND, in order to the low-frequency noise of reduction power supply 140, and restriction reference frequency signal F _RIn stable power bracket output.

Wherein, one first coupling capacitance C _ABe coupled between first low pass filter 20 and second low pass filter 30, the second coupling capacitance C _BBe coupled between the band pass filter 40 and first amplifier 60, the 3rd coupling capacitance C _CBe coupled between first amplifier 60 and second amplifier 70, the 4th coupling capacitance C _DBe coupled between second amplifier 70 and the 3rd amplifier 80, one the 5th coupling capacitance C _ECouple the output of the 3rd amplifier 80, in order to stop the DC power supply composition between at different levels and to reduce low-frequency noise and one the 5th inductance L ₅Be coupled between power supply 140 and the signal amplifying apparatus 50, in order to reduce high-frequency noise.

Embodiment three:

Fig. 3 represents the schematic diagram of third embodiment of the present invention satellite-signal reflector, as shown in Figure 3, satellite-signal reflector 90 comprises a power supply 140, a derived reference signal intensifying device 10, a phase locked loop oscillator 100, a mixer 110 and a radio frequency amplifier 120, wherein, the structure of derived reference signal intensifying device 10 and principle are shown in first embodiment.

The operation principle of present embodiment satellite-signal reflector 90 is as described below.Derived reference signal intensifying device 10 comprises that first low pass filter 20 couples a reference frequency signal F _R, in order to eliminate reference frequency signal F _RA first frequency f ₁(ultra-high frequency ultrahigh frequency for example, UHF or be higher than the frequency signal of ultra-high frequency), wherein, microstrip line S _LSystem constitutes an inductor; Second low pass filter 30 couples first low pass filter 20, in order to eliminate reference frequency signal F _RHarmonic wave (for example frequency-doubled signal) or be higher than reference frequency signal F _RFrequency signal, band pass filter 40 couples second low pass filter 30, in order to eliminate reference frequency signal F _RA second frequency f ₂(for example low-frequency noise).

Signal amplifying apparatus 50 comprises that one first amplifier 60 couples band pass filter 40, in order to enlarge reference frequency signal F _RSpendable input power dynamic range and reduction reference frequency signal F _RInput power, and amplify reference frequency signal F _R, one second amplifier 70 couples first amplifier 60, in order to reducing the low-frequency noise of power supply 140, and amplifies reference frequency signal F _R, and one the 3rd amplifier 80 operate in the output saturation condition, couple second amplifier 70 in order to reducing the low-frequency noise of power supply 140, and restriction reference frequency signal F _RIn stable power bracket output.

Phase locked loop oscillator 100 couples derived reference signal intensifying device 10, the reference frequency signal F that is exported according to the 3rd amplifier 80 _RAnd export a carrier signal M ₁, mixer 110 is in order to carrier signal M ₁With an input signal I ₁Synthetic, and export one first signal N ₁, radio frequency amplifier 120 couples mixer 110, in order to increase the first signal N ₁Intensity and see through an antenna 130 outputs.

Though the present invention discloses as above with three embodiment; right its is not in order to limit the present invention; those skilled in the art can do some changes and retouching under the premise without departing from the spirit and scope of the present invention, so protection scope of the present invention is looked accompanying Claim and is as the criterion.

Claims (18)

1. a derived reference signal intensifying device is applicable to phase locked loop oscillator, and above-mentioned derived reference signal intensifying device comprises:

One power supply;

One first low pass filter couples a reference frequency signal, in order to eliminate a first frequency of above-mentioned reference frequency signal;

One second low pass filter couples above-mentioned first low pass filter, in order to the harmonic wave of eliminating above-mentioned reference frequency signal or the frequency signal that is higher than above-mentioned reference frequency signal;

One band pass filter couples above-mentioned second low pass filter, in order to eliminate a second frequency of above-mentioned reference frequency signal;

One signal amplifying apparatus comprises:

One first amplifier couples above-mentioned band pass filter, in order to enlarging the spendable input power dynamic range of above-mentioned reference frequency signal and to reduce the input power of above-mentioned reference frequency signal, and amplifies above-mentioned reference frequency signal;

One second amplifier couples above-mentioned first amplifier, in order to reducing the low-frequency noise of above-mentioned power supply, and amplifies above-mentioned reference frequency signal;

One the 3rd amplifier operates in the output saturation condition, couples above-mentioned second amplifier, in order to reducing the low-frequency noise of above-mentioned power supply, and limits above-mentioned reference frequency signal in stable power bracket output.

2. derived reference signal intensifying device as claimed in claim 1, comprise also that one first coupling capacitance is coupled between above-mentioned first and second low pass filters, one second coupling capacitance is coupled in above-mentioned band pass filter and above-mentioned first amplifier between, one the 3rd coupling capacitance is coupled between above-mentioned first and second amplifiers, one the 3rd coupling capacitance is coupled between the above-mentioned second and the 3rd amplifier and one the 4th coupling capacitance couples the output of above-mentioned the 3rd amplifier.

3. derived reference signal intensifying device as claimed in claim 1, wherein, above-mentioned first low pass filter comprises that a microstrip line couples above-mentioned reference frequency signal and one first electric capacity is coupled between above-mentioned microstrip line, above-mentioned first coupling capacitance and the earth terminal, wherein, above-mentioned microstrip line constitutes an inductor.

4. derived reference signal intensifying device as claimed in claim 1, wherein, above-mentioned second low pass filter comprises that one first inductance couples above-mentioned first coupling capacitance, one second inductance and couples that above-mentioned first inductance, one the 3rd inductance are coupled between above-mentioned second inductance and the above-mentioned band pass filter, one second electric capacity couples between above-mentioned first, second inductance and the above-mentioned earth terminal, one the 3rd electric capacity connects between above-mentioned second, third inductance and the above-mentioned earth terminal and one the 4th electric capacity couples between above-mentioned the 3rd inductance, above-mentioned band pass filter and the above-mentioned earth terminal.

5. derived reference signal intensifying device as claimed in claim 1, wherein, above-mentioned band pass filter comprises one the 5th electric capacity and connects one the 4th inductance.

6. derived reference signal intensifying device as claimed in claim 1 comprises that also one the 5th inductance is coupled between above-mentioned power supply and the above-mentioned signal amplifying apparatus.

7. derived reference signal intensifying device as claimed in claim 1, wherein, above-mentioned first frequency is ultra-high frequency or the frequency signal that is higher than ultra-high frequency.

8. derived reference signal intensifying device as claimed in claim 1, wherein, the harmonic wave of above-mentioned reference frequency signal is a frequency-doubled signal.

9. derived reference signal intensifying device as claimed in claim 1, wherein, above-mentioned second frequency is a low-frequency noise.

10. satellite-signal reflector comprises:

One power supply;

One derived reference signal intensifying device couples a reference frequency signal, and above-mentioned derived reference signal intensifying device comprises:

One first low pass filter couples a reference frequency signal, in order to eliminate a first frequency of above-mentioned reference frequency signal;

One second low pass filter couples above-mentioned first low pass filter, in order to the harmonic wave of eliminating above-mentioned reference frequency signal or the frequency signal that is higher than above-mentioned reference frequency signal;

One band pass filter couples above-mentioned second low pass filter, in order to eliminate a second frequency of above-mentioned reference frequency signal;

One signal amplifying apparatus comprises:

One first amplifier couples above-mentioned band pass filter, in order to enlarging the spendable input power dynamic range of above-mentioned reference frequency signal and to reduce the input power of above-mentioned reference frequency signal, and amplifies above-mentioned reference frequency signal;

One second amplifier couples above-mentioned first amplifier, in order to reducing the low-frequency noise of above-mentioned power supply, and amplifies above-mentioned reference frequency signal;

One the 3rd amplifier operates in the output saturation condition, couples above-mentioned second amplifier, in order to reducing the low-frequency noise of above-mentioned power supply, and limits above-mentioned reference frequency signal in stable power bracket output;

One phase locked loop oscillator couples above-mentioned signal enhancement device, exports a carrier signal according to the above-mentioned reference frequency signal that above-mentioned the 3rd amplifier is exported;

One mixer in order to an above-mentioned carrier signal and an input signal is synthetic, and is exported one first signal;

One radio frequency amplifier couples above-mentioned mixer, also exports by an antenna in order to the intensity that increases above-mentioned first signal.

11. satellite-signal reflector as claimed in claim 10, comprise also that one first coupling capacitance is coupled between above-mentioned first and second low pass filters, one second coupling capacitance is coupled in above-mentioned band pass filter and above-mentioned first amplifier between, one the 3rd coupling capacitance is coupled between above-mentioned first and second amplifiers, one the 3rd coupling capacitance is coupled between the above-mentioned second and the 3rd amplifier and one the 4th coupling capacitance couples the output of above-mentioned the 3rd amplifier.

12. satellite-signal reflector as claimed in claim 10, wherein, above-mentioned first low pass filter comprises that a microstrip line couples above-mentioned reference frequency signal and one first electric capacity is coupled between above-mentioned microstrip line, above-mentioned first coupling capacitance and the earth terminal, wherein, above-mentioned microstrip line is to constitute an inductor.

13. satellite-signal reflector as claimed in claim 10, wherein, above-mentioned second low pass filter comprises that one first inductance couples above-mentioned first coupling capacitance, one second inductance and couples that above-mentioned first inductance, one the 3rd inductance are coupled between above-mentioned second inductance and the above-mentioned band pass filter, one second electric capacity couples between above-mentioned first, second inductance and the above-mentioned earth terminal, one the 3rd electric capacity couples between above-mentioned second, third inductance and the above-mentioned earth terminal and one the 4th electric capacity couples between above-mentioned the 3rd inductance, above-mentioned band pass filter and the above-mentioned earth terminal.

14. satellite-signal reflector as claimed in claim 10, wherein, above-mentioned band pass filter comprises one the 5th electric capacity and connects one the 4th inductance.

15. satellite-signal reflector as claimed in claim 10 comprises that also one the 5th inductance is coupled between above-mentioned power supply and the above-mentioned signal amplifying apparatus.

16. satellite-signal reflector as claimed in claim 10, wherein, above-mentioned first frequency is ultra-high frequency or the frequency that is higher than ultra-high frequency.

17. satellite-signal reflector as claimed in claim 10, wherein, the harmonic wave of above-mentioned reference frequency signal is a frequency-doubled signal.

18. satellite-signal reflector as claimed in claim 10, wherein, above-mentioned second frequency is a low-frequency noise.

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