CN202216721U - Object internal information nondestructive testing system based on ultra wide band - Google Patents

Abstract

The utility model discloses an object internal information nondestructive testing system based on an ultra wide band, which comprises a digital process module, an emission control module, a rotating table control module, a storage module, an ultra wide band receiving module, an ultra wide band emission module, a display module, an input module and an elevating rotary table. The ultra wide band receiving module, the storage module, the control module, the display module and the input module are respectively connected with the digital process module. The ultra wide band emission module is connected with the emission control module. The elevating rotary table is connected with the rotary table control module. The object internal information nondestructive testing system adopts an ultra wide band impulse testing method, utilizes an ultra wide band antenna array to detect the position of an object to be tested, and detects various information of the inside of the target object to be tested accordingly to received signals of direct wave and reflected wave of the ultra wide band impulse. The object internal information nondestructive testing system is simple in system, relatively low in cost, convenient to operate, safe, free of radiation pollution during the testing process, good in anti-interference performance, fast in detection and high in detection accuracy.

Description

A kind of interior of articles information lossless detection system based on ultra broadband

Technical field

The utility model relates to the ultra broadband technical field of nondestructive testing, is specifically related to a kind of system that utilizes UWB Impulse input object internal information.

Background technology

Along with the develop rapidly of modern science and technology, the technological means and the method for inspected object internal information become increasingly abundant.Dynamic Non-Destruction Measurement is as a kind of emerging comprehensive application technology; Under the prerequisite of not destroying or damage detected object; According to the reaction of object materials inner structure and inner character to heat, sound, light, electricity, magnetic etc.; Come the inner information of inspected object, and judgement and evaluation are made in interior of articles type of material, character, quantity, shape, position, size, distribution and variation thereof.

At present; The major technique means and the method for Non-Destructive Testing interior of articles information have ultrasound detection, laser detection, infrared detection, ray detection and magnetic resonance detection etc.; But these technology exist various limitations when concrete inspected object internal information is used; For example the coupled problem on ultrasound examination existence and inspected object surface requires working surface level and smooth; Laser detection can't be through the inside of non-transparent material; Infrared detection is utilized principle of infrared radiation, is confined to utilize the characteristics of the temperature distributing disproportionation of inspected object to detect; The price of ray detection and magnetic resonance detection technology is higher, and can produce radiation effect to object.Except above-mentioned limitation, the correlation technique of above-mentioned present inspected object internal information only is confined to detect the character (like internal imaging) of the single aspect of target object to be detected.

Increase along with various industry, agricultural production and application demand in life; Require to propose a kind of safer, convenient; Realize detecting the nondestructive detection system and the method for the inner multiple information of object to be detected simultaneously, its function comprises the inner foreign matter that exists of electromagnetic property, target object internal moisture content, target object that detects target object inner structure, target object internal imaging, target object material, the multiple information such as the inner impurity content of inner materials, target object density and target object of target object.

(Ultral WideBand, UWB) thereby technology is transmission and receives the very low impulse (nanosecond width) of dutycycle the transmission technology of acquisition GHz magnitude bandwidth ultra broadband.Because the non-dielectric material is had good penetration capacity; And have bandwidth, resolution height, direct wave and reflection wave signal and can carry the abundant characteristics such as characteristic information of measured target object; Super-broadband tech becomes a focus of Non-Destructive Testing aspect technical research, is being with a wide range of applications aspect the inspected object internal information especially.

The principal feature of ultra broadband detection technique is: (1) emissive power is low, and transfer rate is high, carries containing much information of target object, and is strong to the penetration capacity of object; (2) used pulse signal frequency is higher, and wavelength is shorter, and detection resolution is high, can realize the accurate detection of target object information; (3) frequency band broad can realize that multiband detects, and realizes the materials with different properties object is detected; (4) cost is low, and system's implementation complexity is low.

(application number/patent No.: 200480006704.4) disclose the method and system of a kind of use ultra broadband (UWB) RF input interested object in the target area that the Chinese patent of authorizing on 09 08th, 2010 " uses the equipment and the method for time domain impulsive signals fast detecting object ".But still there are following deficiency in this equipment and method when being applied to inspected object:

(1) only comes inspected object, do not make full use of the entrained information of direct wave signal that the RF pulse signal passes object to be detected through the reflection wave signal that receives the RF pulse signal;

(2) this method can only be used to judge the classification of object to be detected, can't obtain the object to be detected internal information.

The utility model content

Mention existing technical matters to above-mentioned, the utility model purpose is to propose a kind of interior of articles information lossless detection system based on ultra broadband.The utility model utilizes the UWB Impulse signal that the penetration capacity of object is detected object; Utilize the characteristics of ultra broadband impulse signal bandwidth to obtain target object multi-frequency pulse information to be detected simultaneously; According to the dielectric property of object to be detected material and the direct wave and the reflection wave signal of UWB Impulse signal; Obtain the inner multiple information of target object, comprise the inner inner impurity content of material, target object density and target object of the inner foreign matter that exists of electromagnetic property, target object internal moisture content, target object, target object that detects target object inner structure, target object internal imaging, target object material.

In order to achieve the above object, the utility model adopts following technical scheme:

A kind of interior of articles information lossless detection system based on ultra broadband comprises data processing module, emission control module, universal stage control module, memory module, ultra broadband receiver module, ultra broadband transmitter module, display module, load module and liftable universal stage.Wherein above-mentioned ultra broadband receiver module, memory module, control module, display module and load module are connected with data processing module respectively; Above-mentioned ultra broadband transmitter module is connected with the emission control module; Above-mentioned liftable universal stage is connected with the universal stage control module.

In the above-mentioned nondestructive detection system, the ultra broadband receiver module comprises a plurality of UWB wireless modules.The ultra broadband transmitter module comprises time-base signal unit, emitting antenna, power amplifier and impulse generator; Emitting antenna, power amplifier are connected with impulse generator in order, and the time-base signal unit is connected with impulse generator.The emission control module comprises emission controlling unit and controlled delay unit.

Said universal stage control module comprises universal stage control module and controlled delay unit, and wherein controlled delay unit comprises a plurality of timers, the shared controlled delay unit of emission control module and universal stage control module.Memory module comprises the object information database; Data processing module comprises target position information extraction unit, data fusion unit, target's feature-extraction unit, target classification unit, microprocessor and a plurality of Signal Pretreatment unit, and wherein the data fusion unit comprises raw data integrated unit and target data integrated unit.

Said liftable universal stage is used to go up and down the height of appointment and the angle of rotation appointment.

Said universal stage control module is used to control the angular dimension of liftable universal stage rotation and the height size of up-down.

Aerial array in the said ultra broadband receiver module is made up of a plurality of super wideband wireless receiving antennas.

Said emission control module be used to control the ultra broadband transmitter module emission and to launch the parameter of ultra-broadband signal, wherein the parameter of above-mentioned ultra-broadband signal comprises superwide band pulse wave, pulse width, pulse height, pulse power and repetition frequency.

Said memory module comprises object information database and other storage unit.Wherein store the characterisitic parameter, the computing formula under different conditions between the various characteristics parameter of different materials in the object information database, through obtaining the ultra broadband direct wave of corresponding object and the characteristic information of transmitted wave impulse signal after the typical objects of the various materials of test.Wherein the characterisitic parameter of above-mentioned material comprises type of material, relative dielectric constant, magnetic permeability, conductivity, moisture, density of material and material; Above-mentioned state comprises interior of articles temperature, external and internal pressure situation; Above-mentioned characteristic information comprises pulse waveform, pulse width, pulse height, pulse power, repetition frequency, pulse delay, pulsed frequency skew and the phase deviation of the ultra-broadband signal direct wave and the reflection wave of reception.

The UWB Impulse signal that said data processing module is received according to the ultra broadband receiver module obtains the positional information of object; And with the ultra broadband receiver module in the respective material object information stored in the UWB Impulse signal that receives, object information database of each antenna carry out data fusion; Extract the ultra broadband direct wave of target object to be detected and the characteristic information of transmitted wave impulse signal then; According to the computing formula between the various characteristics parameter of storing in parameter that target object to be detected is asked and existing parameter condition, the object information database, calculate the concrete parameter value that target object to be detected is asked again.

Above-mentioned interior of articles information lossless detection system based on ultra broadband, the object information database in the said memory module is set up corresponding object information database through before detecting beginning, adopting the typical test object of different materials to detect training.The detection data of the corresponding or similar typical material object that object information database capable of using has had in the parameter input process after detecting beginning are carried out parameter matching to the object to be detected unknown parameter.

Above-mentioned interior of articles information lossless detection system based on ultra broadband; Said data processing module is according to the computing formula between the various characteristics parameter of storing in ultra-broadband signal, the ultra-broadband signal that the ultra broadband receiver module is received, the detected parameters that load module is imported and the parameter that target object to be detected is asked of transmitter module emission and existing parameter condition, the object information database; Calculate the parameter values of asking of target object to be detected, show with image, waveform, numerical value mode through display module.

The mode that the utility model adopts UWB Impulse to detect, the multiple information of required detection target object inside is detected in the position that utilizes the ultra-wideband antenna array to record testee according to the direct wave and the reflection wave signal of the UWB Impulse that is received.The Non-Destructive Testing process may further comprise the steps:

(1) the typical test object of choosing some different materials detects training to system, sets up the object information database;

(2) the interior of articles information of required detection is set, judge then known object information whether enough satisfy the precondition of the interior of articles information that detects required detection; If precondition does not satisfy, then select whether carry out parameter fuzzy and estimate, estimate then to return the known internal information of object of re-entering required detection if select not carry out parameter fuzzy, be met until detecting required precondition; Wherein the parameter fuzzy estimation approach be the detection data of selecting corresponding typical material object in the object information database according to the Given information of required inspected object to the object parameters that will detect carry out parameter matching;

(3) emission control module is provided with according to the interior of articles information of the required detection emission parameter to the UWB Impulse signal; The universal stage control module is provided with initial angle and the elemental height that the liftable universal stage detects, and in testing process to the angle of liftable universal stage with highly adjust the orientation that changes detection;

(4) the ultra broadband transmitter module according to fixed UWB Impulse signal emission parameter emission UWB Impulse; The orientation of the angle through the rotation of adjustment liftable universal stage and the Level Change target object to be detected of up-down recurs and penetrates the UWB Impulse signal; After the detection of accomplishing set angle and altitude range; The emission parameter of adjustment UWB Impulse signal in the ultra broadband band limits; The step that repeats above-mentioned emission UWB Impulse signal according to new emission parameter is then launched the UWB Impulse signal again; Repeat its transmission like this is until the detection of accomplishing band limits; Wherein emission parameter comprises pulse waveform, pulse width, pulse height, emissive power and the repetition frequency of pulse signal;

(5) the ultra broadband receiver module receives after the UWB Impulse signal that the ultra broadband transmitter module launched, and earlier the UWB Impulse signal that receives is carried out the Wave data pre-service, wherein pre-service comprise pulse signal denoising, filtering with smoothly; And use location algorithm to obtain the more specific location information of inspected object according to the UWB Impulse signal that the ultra broadband receiver module receives; Then the positional information of UWB Impulse signal that receives and inspected object is carried out data fusion with the stored corresponding information of object information database; Extract the ultra broadband direct wave of target object to be detected and the characteristic information of transmitted wave impulse signal, again according to the computing formula between the various characteristics parameter of storing in parameter that target object to be detected is asked and existing parameter condition, the object information database calculate the parameter value of the interior of articles information that will detect.The characteristic information of said transmitted wave impulse signal comprises pulse waveform, pulse width, pulse height, pulse power, repetition frequency, pulse delay, pulsed frequency skew and the phase deviation of the ultra-broadband signal direct wave and the reflection wave of reception;

(6) adopt the three-dimensional imaging technology, inner structure, physical location and object size, shape and the parameter that is detected and the result with object to be detected shows with image, waveform, numerical value mode through display module.

In the above-mentioned lossless detection method; Also comprise between step (5) and the step (6): the impulse parameter and the data processed result data that receive the information of target object to be detected, ultra broadband receiver module add original object information database, obtain the object information database that upgrades thus.

In the above-mentioned lossless detection method; Pass through to gather ultra broadband direct wave and the reflection wave data of UWB Impulse signal in the step (1) through the typical test object of different materials; The known features parameter of the internal information of corresponding object, corresponding test material and such test object impulse parameter of all directions direct wave and reflection wave in the ultra broadband receiver module is deposited into the object information database, and wherein the impulse parameter comprises pulse waveform, duration of pulse, pulse height and the pulse repetition rate of direct wave and reflection wave; Said internal information comprises inner structure, internal temperature and external and internal pressure situation; Said known features parameter comprises type of material, relative dielectric constant, magnetic permeability, conductivity, moisture, density of material and material.

Compared with prior art, the utlity model has following advantage and technique effect:

1. the utility model method, signal strong to the object penetration ability carries the strong point that contains much information, and makes full use of the entrained information of UWB Impulse direct wave and reflection wave, to interior of articles character realization quite good detecting effectiveness;

2. the utility model provides the method for the inner various different qualities information of inspected object simultaneously, and with ray detection and magnetic resonance detection compared with techniques, pick-up unit is simpler, and cost is lower, easy to operate, safety and the radiationless pollution of testing process;

3. the utility model adopts the ultra broadband array that the UWB Impulse signal is received, and compares with ultrasonic detection technology, does not have inspected object surface coupled problem, and anti-external interference property is good, and detection speed is fast, and it is high to detect degree of accuracy;

4. the utility model adopts the form of setting up the inspected object information database with the target object information stores, and the method for available parameter coupling reduces the requirement to input parameter when input parameter, is convenient to the expansion and the practical application of system;

5. the utility model carries out multi-faceted detection through the method for the rotation of going up and down to object, can realize the three-dimensional imaging and the complete detection of interior of articles.

Description of drawings

Fig. 1 is the utility model system architecture synoptic diagram.

Fig. 2 is the hardware structure diagram of the utility model embodiment.

Fig. 3 is the workflow diagram of the utility model embodiment ultra-broadband signal transmitting terminal.

Fig. 4 is the workflow diagram of the utility model embodiment ultra-broadband signal receiving end.

Embodiment

Through a more excellent embodiment of the utility model, come the embodiment of the utility model is specified, but enforcement of the utility model and protection are not limited thereto below.

Fig. 1 has provided at the system architecture diagram of the utility model based on the interior of articles information lossless detection system of ultra broadband array, comprises data processing module 1, emission control module 2, universal stage control module 3, memory module 4, ultra broadband receiver module 5, ultra broadband transmitter module 6, display module 7, load module 8 and liftable universal stage 9.Wherein emission control module 2, universal stage control module 3, memory module 4, array signal receiver module 5 are connected with data processing module 1 respectively; Ultra broadband transmitter module 6 is connected with emission control module 2; Liftable universal stage 9 is connected with universal stage control module 3.

Fig. 2 has provided the hardware structure diagram based on the interior of articles information lossless detection system of ultra broadband array in the present embodiment.Wherein: ultra broadband receiver module 5 is made up of n UWB wireless module (this embodiment gets n=11); Ultra broadband transmitter module 6 is made up of impulse generator 61, time-base signal unit 62 and power amplifier 63; Emission control module 2 comprises emission controlling unit 21 and controlled delay unit 22; Universal stage control module 3 comprises universal stage control module 31 and controlled delay unit 22, and wherein controlled delay unit 22 is made up of a plurality of timers, wherein emission control module 2 and universal stage control module 3 shared controlled delay units 22; Memory module 4 comprises object information database 41 and other storage unit 42; Data processing module 1 comprises n Signal Pretreatment unit (this embodiment gets n=11), target position information extraction unit 12, data fusion unit 13, target's feature-extraction unit 14, target classification unit 15 and microprocessor 16, and wherein data fusion unit 13 is divided into raw data integrated unit 131 and target data integrated unit 132.

Load module 8 is through the parameter of the required detection of microprocessor 16 inputs and the relevant known parameters information of target object to be detected, and with these parameters and data storage in memory module 4.

Microprocessor 16 sends steering order to emission controlling unit 21, and pulse waveform, pulse width, pulse height, emissive power and repetition frequency that UWB Impulse transmits are set.Controlled delay unit 22 transmits the time interval that parameter changes to UWB Impulse through emission controlling unit 21 control at every turn.

Microprocessor 16 is through the angle of universal stage control module 3 control liftable universal stages 9 each rotations and the height of up-down, and controlled delay unit 22 carries out the time interval of angle rotation and lift in height at every turn to liftable universal stage 9 through 3 controls of universal stage control module.

Ultra broadband array signal receiver module 5 receives after the UWB Impulse signal, and n data pretreatment unit (this embodiment gets n=11) carries out rough handling to received signal, and wherein pre-service comprises pulse signal denoising, filtering and level and smooth; Target position information extraction unit 12 is according to receiving the positional information that signal obtains object to be detected simultaneously.Data after the 13 pairs of pre-service in data fusion unit are carried out data fusion then, and carry out target classification according to the object information of 41 li storages of object information database.Target's feature-extraction unit 14 extracts the ultra broadband direct wave of target object to be detected and the characteristic information of transmitted wave impulse signal according to the information after merging.Display module 7 receives the display message of microprocessors 16, adopts the three-dimensional imaging technology, and inner structure, physical location and object size, shape and the parameter that is detected and the result of object shown with image, waveform, numerical value mode.Wherein above-mentioned characteristic information comprises pulse waveform, pulse width, pulse height, pulse power, repetition frequency, pulse delay, pulsed frequency skew and the phase deviation of the ultra-broadband signal direct wave and the reflection wave of reception.

Present embodiment is realized workflow diagram such as Fig. 3, shown in Figure 4 of a kind of interior of articles information lossless detection system and method based on ultra broadband; Wherein Fig. 3 is the workflow diagram of ultra-broadband signal transmitting terminal; Fig. 4 is the workflow diagram of ultra-broadband signal receiving end, may further comprise the steps:

After step 1, the system start-up, at first carry out the software and hardware initialization.

Step 2, the typical test object of choosing some different materials detect training to system.Through gathering ultra broadband direct wave and the reflection wave data of UWB Impulse signal, the object of the known features parameter (comprising type of material, relative dielectric constant, magnetic permeability, conductivity, moisture, density of material and material) of the internal information (comprising inner structure, internal temperature and external and internal pressure situation) of corresponding object, corresponding test material and the said material impulse parameter of all directions direct wave and reflection wave in the ultra broadband receiver module is deposited into object information database 41 through the typical test object of different materials.Wherein above-mentioned impulse parameter comprises pulse waveform, pulse width, pulse height, pulse power and the repetition frequency of direct wave and reflection wave.

Step 3, the interior of articles information parameter of required detection is set through load module 7, judge then known object information parameter whether enough satisfy the precondition of the interior of articles information parameter that detects required detection, comprising following steps:

If all detection preconditions of step 3.1 all are met, then jump to step 4;

Do not satisfy if step 3.2 detects precondition, then select whether to carry out parameter fuzzy and estimate, comprising following steps:

Step 3.2.1, if selecting not carry out parameter fuzzy estimates, then be back to step 3, re-enter the known internal information of target object to be detected;

Step 3.2.2, if selecting to carry out parameter fuzzy estimates, then use the parameter of the typical test object of same material in the object information database 41 that unknown parameter is carried out parameter matching.Wherein the parameter fuzzy estimation approach is according to the interior of articles information parameter of required detection and detects required unknown parameter in the above-mentioned steps, selects to be stored in the detected parameters data of the typical objects of 41 li same materials of object information database the parameter that is lacked in the precondition is carried out parameter matching.

Step 4, emission controlling unit 21 are provided with according to the interior of articles information parameter of the required detection emission parameter to ultra-broadband signal, and the emission parameter of UWB Impulse signal comprises transmitting pulse waveform, pulse width, pulse height, emissive power and repetition frequency.Universal stage control module 3 is provided with initial angle and the elemental height that the liftable universal stage detects, and the angle that in testing process, up-down rotary display stand 9 is detected and highly adjusting.Timer in the controlled delay unit 22 carries out timing controlled to the flyback pulse signal repetition time in the emission controlling unit 21, the adjustment time interval in the universal stage control module 3.

Step 5, ultra broadband transmitter module 6 emission UWB Impulse signals may further comprise the steps:

The UWB Impulse signal emission parameter emission UWB Impulse that step 5.1, pulse generator 61 are set according to emission controlling unit 21;

After step 5.2, the certain time-delay set through controlled delay unit 22, the angle through 9 rotations of adjustment liftable universal stage and the height of up-down change the orientation of target object to be detected, repeat its transmission UWB Impulse signal;

Step 5.3, after the detection of accomplishing set angle and altitude range; The emission parameter of the UWB Impulse signal in the ultra broadband band limits in the adjustment emission controlling unit 21; Return the step that step 5.1 repeats above-mentioned emission UWB Impulse signal according to new argument then and launch the UWB Impulse signal again; Repeat its transmission like this is until the detection of accomplishing band limits.Wherein above-mentioned emission parameter comprises pulse waveform, pulse width, pulse height, emissive power and the repetition frequency of pulse signal.

Step 6, ultra broadband receiver module 5 receive the UWB Impulse signal and handle receiving data, may further comprise the steps:

Step 6.1, UWB wireless module 51 to UWB wireless module 5n (this embodiment gets n=11) are after receiving the UWB Impulse signal that transmitting terminal launches; Earlier the pulse waveform that receives is carried out Signal Pretreatment through Signal Pretreatment unit 11 to Signal Pretreatment unit 1n, wherein pre-service comprises pulse signal denoising, filtering and level and smooth;

Step 6.2, the UWB Impulse signal that receives according to UWB wireless module 51 to UWB wireless module 5n (this embodiment gets n=11) use the ultra broadband location algorithm to obtain the more specific location information of inspected object in target position information extraction unit 12;

Step 6.3, so the positional information of ultra broadband array received signal and inspected object is carried out data fusion with object information database 41 stored corresponding informations in data fusion unit 13, extract the ultra broadband direct wave of target object to be detected and the characteristic information of transmitted wave impulse signal.Above-mentioned characteristic information comprises pulse waveform, pulse width, pulse height, pulse power, repetition frequency, pulse delay, pulsed frequency skew and the phase deviation of the ultra-broadband signal direct wave and the reflection wave of reception;

Step 6.4, (illustrate according to the Given information of object to be detected, the information that detects resulting UWB Impulse signal and the computing formula between the object to be detected internal information parameter by microprocessor 16; According to the electromagnetic energy relation, the energy attenuation amount W (dB) of uhf energy in hydrous matter is:

$W=8.686{\mathrm{\α}}_{B}M{\mathrm{\ρ}}^{\′}\mathrm{Kt}+\left|\mathrm{\τ}\right|e^{-2{\mathrm{\α}}_{B}t}\mathrm{Cos}2\mathrm{Bt}$ (formula 1)

α in the formula _BAttenuation coefficient for water; M is relative moisture; ρ ' is the density factor; K is a material factors; T is the thickness of measured object; | τ | be the mould of the reflection coefficient between air and the measured object; B is the number of phases of hydrous matter.If known α _B, ρ ', k, t, | τ | and B through detecting the energy attenuation amount W of UWB Impulse signal when penetrating this target object, then can calculate the relative moisture M of this target object.In like manner, if having only a variable the unknown in the formula 1, other variable is known, then can be in the hope of this known variables), calculate the parameter value of the interior of articles information that will detect.

Step 7, add original object information database 41 to the pulse parameter of the information of object to be detected, reception and data processed result data, obtain the object information database that upgrades thus.

Step 8, employing three-dimensional imaging technology, man-machine interactive platform shows with image, waveform, numerical value mode through inner structure, physical location and object size, shape and the parameter that is detected and the result of display module 7 with object.

The utility model utilizes the UWB Impulse signal that interior of articles information is detected, and the detection system of realization has fast, accurately detect and characteristics such as portable, is applicable to application scenarios such as industrial product detection, quality of agricultural product detection.

The foregoing description is the utility model preferred implementation; But the embodiment of the utility model is not restricted to the described embodiments; Other any do not deviate from change, the modification done under spirit and the principle of the utility model, substitutes, combination, simplify; All should be the substitute mode of equivalence, be included within the protection domain of the utility model.

Claims (6)

1. the interior of articles information lossless detection system based on ultra broadband is characterized in that comprising data processing module, emission control module, universal stage control module, memory module, ultra broadband receiver module, ultra broadband transmitter module, display module, load module and liftable universal stage; Said ultra broadband receiver module, memory module, control module, display module and load module are connected with data processing module respectively; The ultra broadband transmitter module is connected with the emission control module; The liftable universal stage is connected with the universal stage control module.

2. the interior of articles information lossless detection system based on ultra broadband according to claim 1 is characterized in that the ultra broadband receiver module comprises a plurality of UWB wireless modules.

3. the interior of articles information lossless detection system based on ultra broadband according to claim 1 is characterized in that the ultra broadband transmitter module comprises time-base signal unit, emitting antenna, power amplifier and impulse generator; Emitting antenna, power amplifier are connected with impulse generator in order, and the time-base signal unit is connected with impulse generator.

4. the interior of articles information lossless detection system based on ultra broadband according to claim 1 is characterized in that the emission control module comprises emission controlling unit and controlled delay unit.

5. the interior of articles information lossless detection system based on ultra broadband according to claim 1; It is characterized in that the universal stage control module comprises universal stage control module and controlled delay unit; Wherein controlled delay unit comprises a plurality of timers, the shared controlled delay unit of emission control module and universal stage control module.

6. the interior of articles information lossless detection system based on ultra broadband according to claim 1 is characterized in that memory module comprises the object information database; Data processing module comprises target position information extraction unit, data fusion unit, target's feature-extraction unit, target classification unit, microprocessor and a plurality of Signal Pretreatment unit, and wherein the data fusion unit comprises raw data integrated unit and target data integrated unit.

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