CN205157775U - Wireless pulse send -receiver device - Google Patents

Abstract

The utility model relates to a wireless pulse send -receiver device, including wireless synchronization pulse transmitter and wireless synchronization pulse receiver, wherein: wireless synchronization pulse transmitter is including the frequency source, RF switch, attenuator, power amplifier and the first antenna that connect gradually, wireless synchronization pulse receiver is including the second antenna, cavity filter, low -noise amplifier, driving amplifier, logarithm detection amplifier, threshold compataror and the reshaper that connect gradually, wireless synchronization pulse transmitter is through the second antenna wireless connection of first antenna with wireless synchronization pulse receiver. The utility model provides a wireless pulse send -receiver device transmits synchronization pulse through wireless mode between radar and mark school tower, the synchronization pulse signal passes through the space transmission to replaced long cable, avoided the overhead line difficult, use inconvenient defect, whole device light in weight, it is nimble convenient, with low costs to use, can satisfy practical application's needs well.

Description

A kind of wireless pulses R-T unit

Technical field

The utility model belongs to radar debugging apparatus technical field, is specifically related to a kind of wireless pulses R-T unit.

Background technology

When wireless synchronization pulse R-T unit is used for radar Installation and Debugging, need radar synchronizing pulse between radar and calibration tower, the synchronizing pulse that this device just completes between radar and calibration tower transmits.

Synchronizing pulse between existing radar and calibration tower transmits and normally draws a very long cable, and when calibration tower position is far away, difficulty placed by cable, in use very inconvenient, has the place of barrier to lay time-consuming bothersome especially especially.

The synchronizing pulse existed in prior art between radar and calibration tower transmits the defect that stringing is difficult, use inconvenience.

Utility model content

For above-mentioned problems of the prior art, the purpose of this utility model is to provide a kind of wireless pulses R-T unit avoiding occurring above-mentioned technological deficiency.

In order to realize above-mentioned utility model object, the technical solution adopted in the utility model is as follows:

A kind of wireless pulses R-T unit, is characterized in that, comprise wireless synchronization pulse transmitter and wireless synchronization pulse receiver, wherein:

Described wireless synchronization pulse transmitter comprises the frequency source, radio-frequency (RF) switch, attenuator, power amplifier and the first antenna that connect successively;

Described wireless synchronization pulse receiver comprises the second antenna, cavity body filter, low noise amplifier, driving amplifier, logarithmic detector amplifier, threshold compataror and the reshaper that connect successively;

Described wireless synchronization pulse transmitter is connected with described second antenna wireless of described wireless synchronization pulse receiver by described first antenna.

Further, described frequency source comprises the temperature compensating crystal oscillator, phaselocked loop, passive third order PLL path filter, voltage controlled oscillator and the power splitter that connect successively, and described power splitter is also connected with described phaselocked loop.

Further, the model of described power splitter is SBTC-2-10L+.

Further, the model of described voltage controlled oscillator is V582ME19-LF.

Further, described frequency source is 1000MHz frequency source.

Further, the model of described logarithmic detector amplifier is AD8319ACPZ-R2.

The wireless pulses R-T unit that the utility model provides, wirelessly transmitting synchronous pulse between radar and calibration tower, synchronization pulse passes through space propagation, thus instead of long cable, avoid stringing difficulty, use inconvenient defect, whole installation weight is light, flexible and convenient to use, cost is low, can meet the needs of practical application well.

Accompanying drawing explanation

Fig. 1 is structured flowchart of the present utility model;

Fig. 2 is the circuit structure block diagram of wireless synchronization pulse transmitter;

Fig. 3 is the circuit structure block diagram of wireless synchronization pulse receiver;

Fig. 4 is the circuit structure block diagram of frequency source;

Fig. 5 is the circuit diagram of frequency source;

Fig. 6 is the circuit connection diagram of radio-frequency (RF) switch and attenuator;

Fig. 7 is the circuit connection diagram of logarithmic detector amplifier, threshold compataror and reshaper.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with the drawings and specific embodiments, the utility model is described further.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, a kind of wireless pulses R-T unit, comprise wireless synchronization pulse transmitter and wireless synchronization pulse receiver, synchronizing pulse inputs from wireless synchronization pulse transmitter end, by space propagation, finally by wireless synchronization pulse receiver output sync pulse signal.

As shown in Figure 2, wireless synchronization pulse transmitter comprises the frequency source, radio-frequency (RF) switch, attenuator, power amplifier and the first antenna that connect successively; Frequency source is 1000MHz frequency source; The signal of 1000MHz frequency source becomes the radiofrequency signal of modulation through the radio-frequency (RF) switch triggered by synchronizing pulse, after power amplifier amplifies, by the space radiation of first day alignment.The concrete technical indicator of wireless synchronization pulse transmitter has: 1, peak power output >=10 watt; 2, power adjustment 31dB; 3, frequency source phase noise≤-90dBc/Hz1kHz.

As shown in Figure 4 and Figure 5, described frequency source comprises the temperature compensating crystal oscillator, phaselocked loop, passive third order PLL path filter, voltage controlled oscillator and the power splitter that connect successively, and described power splitter is also connected with described phaselocked loop.The index of 1000MHz frequency source has: 1, export 1000MHz signal, and 2, output power >=1 milliwatt, 3, phase noise≤-90dBc/Hz1kHz.The phase-locked loop chip of 1000MHz frequency source adopts the ADF4106BRUZ of ANALOG company, and this chip maximum operation frequency is 6GHz, and a normalization noise of making an uproar is-219dBc/Hz.Adopt the temperature compensating crystal oscillator CXOSD5 of rich subelectron 10MHz with reference to crystal oscillator, this temperature compensating crystal oscillator phase noise is-145dBc/Hz1kHz, and frequency stability is ± 0.5PPM within the scope of-40 DEG C to 85 DEG C.VCO (voltage controlled oscillator) adopts the V582ME19-LF of Z-COM company, reference frequency output 980-1155MHz, and tuning sensitivity is 60MHz/V, and output power is 5dBm.Power splitter chip adopts the SBTC-2-10L+ of MINI-CIRCUIT company.Connecting circuit schematic diagram between each device of frequency source as shown in Figure 5, the output of temperature compensating crystal oscillator U4 connects 8 pin of phaselocked loop U2, reference frequency is provided to phaselocked loop U2, be connected with passive third order PLL path filter between the CP pin of phaselocked loop U2 and the tuning end TUNE of voltage controlled oscillator U1, this third order PLL path filter is by C6, C3, the second order filter of R2 composition and R3, synthesized by the extension filter of C5 composition, phase demodulation frequency is 10MHz, loop bandwidth is designed to 200KHz, it is 330pF that the value of calculating third order PLL path filter is respectively C6, C3 is 4.7nF, R2 is 470 ohm, R3 is 910 ohm, C5 is 150pF.Third order PLL path filter object converts the phase demodulation electric current that the CP pin of U2 exports to control voltage, and suppress the output ripple of phase demodulation frequency.The radio frequency that the radio-frequency (RF) output end of U1 meets two power splitter U3 inputs 6 pin, and 4 pin of U3 are input to 6 pin of U2 as the RF FEEDBACK signal of phaselocked loop.3 pin of U3 are as the output signal of frequency source.

Fig. 6 is the circuit connection diagram of radio-frequency (RF) switch and attenuator, and the radio frequency in Fig. 5 exports the radio frequency input in map interlinking 6, and as shown in Figure 6, radio-frequency (RF) switch U1 and U2 adopts the HMC194AMS8E of high isolation, and Transistor-Transistor Logic level controls, and single switch isolation can reach 50dB.For adopting two-stage radio-frequency switch by isolation.Radio-frequency (RF) switch exports and meets attenuator U3, and U2 adopts HMC274QS16E, the 5 31dB attenuators controlled for Transistor-Transistor Logic level, stepping 1dB; Synchronizing pulse input drives through U4 NOT gate chip SN74HC04DP and produces control signal A1 and B1, A1 connects 1 pin of radio-frequency (RF) switch U1 and 2 pin of U2, B1 connects 2 pin of radio-frequency (RF) switch U1 and 1 pin of U2, synchronizing pulse high level radio-frequency (RF) switch is in open state, and low level radio-frequency (RF) switch is in off status.

The radio frequency of Fig. 6 exports the input connecing power amplifier, and adopt half integrated MHWIC910 mmic power amplifier of High Linear LDMOS technique, gain is 39dB, and output power is 40dBm.This one chip amplifier is directly welded on silver-plated copper pedestal, more fixing on a heat sink, can prevent that power tube is overheated to be burnt.In order to improve reliability and the amplification of linear employing balance, output terminal isolator is protected.

As shown in Figure 3, described wireless synchronization pulse receiver comprises the second antenna, cavity body filter, low noise amplifier, driving amplifier, logarithmic detector amplifier, threshold compataror and the reshaper that connect successively.Described wireless synchronization pulse transmitter is connected with described second antenna wireless of described wireless synchronization pulse receiver by described first antenna.The effect of cavity body filter is that the radiofrequency signal outside frequency of operation is curbed, make useful signal input low noise amplifier, the output of low noise amplifier connects the input of driving amplifier, RF small signals are further amplified, radiofrequency signal input logarithmic detector amplifier after amplification, rf modulated signal is converted to vision signal, and vision signal exports as synchronization pulse after threshold compataror, and synchronization pulse exports through reshaper.

Cavity body filter frequency of operation is 980-1020MHz, and Insertion Loss is less than 2dB, departs from centre frequency 100MHz, suppresses to be greater than 65dB.Cavity body filter exports and connects low noise amplifier, and require low noise amplifier noise figure≤2, gain >=20Db, standing wave is less than 1.5.Driving amplifier gain >=30dB, standing wave is less than 1.5, rf inputs in the output map interlinking 7 of driving amplifier, as shown in Figure 7, radio frequency input logarithmic detector amplifier U1, U1 adopts the AD8319ACPZ-R2 of ANALOG company, frequency of operation is from 1MHz to 10GHz, detection dynamic range is 45dB, low in energy consumption, and the linearity is good.U1 detection exports as negative slope level, input radio frequency power is higher, U1 detection output level is lower, needing negative slope level conversion is positive slope (detection output level is directly proportional to input radio frequency power) level, pulse signal amplifier U2 (AD8051ARZ) after detection realizes subtraction amplification circuit, and subtraction amplification circuit is made up of R4, R5, R6, R7, R8 and U2.The output of U2 enters threshold compataror U3, produces adjustable thresholding with variohm R11, and the output access d type flip flop U4 of U3 carries out shaping pulse, and synchronizing pulse exports through U4.

The wireless pulses R-T unit that the utility model provides, wirelessly transmitting synchronous pulse between radar and calibration tower, synchronization pulse passes through space propagation, thus instead of long cable, avoid stringing difficulty, use inconvenient defect, whole installation weight is light, flexible and convenient to use, cost is low, can meet the needs of practical application well.

The above embodiment only have expressed embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (6)

1. a wireless pulses R-T unit, is characterized in that, comprises wireless synchronization pulse transmitter and wireless synchronization pulse receiver, wherein:

Described wireless synchronization pulse transmitter comprises the frequency source, radio-frequency (RF) switch, attenuator, power amplifier and the first antenna that connect successively;

Described wireless synchronization pulse receiver comprises the second antenna, cavity body filter, low noise amplifier, driving amplifier, logarithmic detector amplifier, threshold compataror and the reshaper that connect successively;

Described wireless synchronization pulse transmitter is connected with described second antenna wireless of described wireless synchronization pulse receiver by described first antenna.

2. wireless pulses R-T unit according to claim 1, it is characterized in that, described frequency source comprises the temperature compensating crystal oscillator, phaselocked loop, passive third order PLL path filter, voltage controlled oscillator and the power splitter that connect successively, and described power splitter is also connected with described phaselocked loop.

3. wireless pulses R-T unit according to claim 2, is characterized in that, the model of described power splitter is SBTC-2-10L+.

4. wireless pulses R-T unit according to claim 2, is characterized in that, the model of described voltage controlled oscillator is V582ME19-LF.

5. wireless pulses R-T unit according to claim 1, is characterized in that, described frequency source is 1000MHz frequency source.

6. wireless pulses R-T unit according to claim 1, is characterized in that, the model of described logarithmic detector amplifier is AD8319ACPZ-R2.