CN203596095U - Device and system for collecting - Google Patents

Abstract

The utility model discloses a device and a system for collecting. The device comprises a signal probe connected with equipment to be detected, a data collector which is used for collecting various data of the equipment to be detected and is connected with the equipment to be detected through the signal probe, a main processor which is used for performing format treatment on the data collected by the data collector and is connected with the data collector, and a wireless communication module which is used for sending the outputted data of the main processor to a data processing centre for signal analyzing treatment, is used for receiving the signal analyzing result of the data processing centre, and is connected with connected with the main processor and the data processing centre. According to the utility model, collecting and analyzing are performed individually, and the collected data is sent to the data processing centre for analysis, so that the utilization efficiency is increased.

Description

A kind of harvester and system

Technical field

The utility model relates to signal testing field, specially refers to a kind of harvester and system.

Background technology

Along with scientific and technological development, the integrated level of various electronic equipments (as televisor) is more and more higher, and it is increasing that its complicacy also becomes thereupon.How to guarantee efficiently the reliability and stability of the function of designed electronic equipment out, just become the critical problem that research staff faces, high-performance and easy to operate professional test equipment just become the indispensable weapon that solves above-mentioned critical problem.But, the testing apparatus of specialty is all expensive, what we usually encountered is, and multiple research staff queue up waits and investigate and orientation problem by an only testing apparatus, or not at all easy test environment of putting up, test out data, but in adjustment report of the receipts of freight and miscellany, but caught sight of not record of a certain data, have no idea to remedy, can only again wait for that testing apparatus builds that item number certificate that test environment and then benefit are leaked hunting again; Again or the electronic equipment operation of delivering to the new research and development at guest place be out of order, but suffer from testing apparatus too valuable and huge and be not easy to bring to scene and carry out positioning problems and analysis.Existing testing apparatus has following defect: one, existing testing apparatus centralized procurement integrates and analysis, the probe of testing apparatus is wired, same testing apparatus can only be for the equipment under test that is connected to its fuselage probe, can only the signal of the equipment under test being connected with the probe of testing apparatus be gathered and be analyzed, service efficiency is low, and the inconvenient shift position of this testing apparatus; Two, existing testing apparatus price is high, bulky, is unfavorable for carrying.

Utility model content

Fundamental purpose of the present utility model, for a kind of harvester and system are provided, will gather and Analyze & separate, can be by multiple harvesters to multiple equipment under test image data, and send to data processing centre (DPC) to analyze image data simultaneously, improve service efficiency.

The utility model provides a kind of harvester, and described device comprises:

The signal probe being connected with equipment under test;

For the data acquisition unit that the different types of data of equipment under test is gathered, described data acquisition unit is connected with equipment under test by described signal probe;

For the data of data acquisition unit collection being carried out to the primary processor of format analysis processing, described primary processor is connected with described data acquisition unit;

For sending to data processing centre (DPC) to carry out signal analysis and processing the output data of primary processor, and for receiving the wireless communication module of signal analysis result of described data processing centre (DPC), described wireless communication module is connected with described primary processor, data processing centre (DPC).

Preferably, described device also comprises the first interface module for the output data of described primary processor being sent to mobile terminal, and described first interface module is connected with described primary processor.

Preferably, described device also comprises the Ethernet interface for the output data of described primary processor being sent to data processing centre (DPC), and described Ethernet interface is connected with described primary processor.

Preferably, described device also comprises the camera of the video information for obtaining described equipment under test current state, carry out analog-to-digital analog-to-digital conversion module for the video information that camera is obtained, described analog-to-digital conversion module is connected with described camera, primary processor respectively;

Described primary processor also carries out format analysis processing for the video information to after this analog to digital conversion;

Described wireless communication module is also for sending to this data processing centre (DPC) to carry out image analysis processing the video information after described primary processor format analysis processing, and for receiving the graphical analysis result of described data processing centre (DPC).

Preferably, described signal probe at least comprises: radio frequency interface, HDMI interface, normal video input interface, current probe or voltage probe.

Preferably, described wireless communication module is wifi unit.

Preferably, described device also comprises the memory module for the output data of described primary processor are stored, and described memory module is connected with described primary processor.

The utility model also provides a kind of acquisition system, comprises the harvester described in above-mentioned any one, and the data processing centre (DPC) being connected with described harvester communication;

Described harvester is used for the different types of data of equipment under test gather and the data that gather are carried out to format analysis processing, and image data after treatment is sent to data processing centre (DPC); Described data processing centre (DPC) is used for receiving the image data that described harvester sends over, and the image data receiving is carried out to signal analysis and processing, and signal analysis result is sent to harvester.

Adopt embodiment of the present utility model, gather the different types of data of equipment under test by harvester, and send to data processing centre (DPC) to carry out signal analysis and processing the data of collection by wireless communication module, and receive signal analysis result from this data processing centre (DPC).In the utility model, this collection and Analyze & separate, can be by multiple harvesters to multiple equipment under test image data, and send to data processing centre (DPC) to analyze image data simultaneously, improve service efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of harvester of the present utility model;

Fig. 2 is the structural representation of acquisition system of the present utility model.

Realization, functional characteristics and the advantage of the utility model object, in connection with embodiment, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

With reference to Fig. 1, the structural representation that Fig. 1 is harvester of the present utility model, this harvester 100 comprises:

The signal probe 11 being connected with equipment under test;

For the data acquisition unit 12 that the different types of data of equipment under test is gathered, this data acquisition unit 12 is connected with equipment under test by this signal probe 11;

For the data of data acquisition unit collection being carried out to the primary processor 13 of format analysis processing, this primary processor 13 is connected with this data acquisition unit 12;

For sending to data processing centre (DPC) to carry out signal analysis and processing the output data of primary processor 13, and for receiving the wireless communication module 14 of signal analysis result of this data processing centre (DPC), this wireless communication module 14 is connected with this primary processor 13, data processing centre (DPC).

This harvester 100 is portable set, and user can carry.This equipment under test can be any electronic equipment, if this equipment under test can be televisor, as this televisor is specially general vacuum tube (CRT) televisor, liquid crystal (LCD) televisor, plasma (PDP) televisor etc.

The different types of data of this equipment under test comprises vision signal, sound signal, voltage signal, current signal or network signal etc.This signal probe 11 can be selected different signal probes according to the different types of data of equipment under test.

This data processing centre (DPC) comprises multiple analytical equipment, as: oscillograph, network analyzer, spectrum analyzer, audio frequency and video analyser etc.This data processing centre (DPC) receives the image data that this harvester 100 sends over, and uses corresponding analytical equipment to carry out signal analysis and processing, to draw signal analysis result.

This harvester 100 is set up wireless telecommunications by wireless communication module 14 with data processing centre (DPC) and is connected, so that the data of collection are connected and sent to this data processing centre (DPC) by the wireless telecommunications of setting up.Concrete, can be before harvester 100 carries out data acquisition to equipment under test, this harvester 100 is set up wireless telecommunications with this data processing centre (DPC) and is connected; Also can be after harvester 100 carry out data acquisition to equipment under test, this harvester 100 is set up wireless telecommunications with this data processing centre (DPC) and is connected.

Can be according to the acquisition interface type of the equipment under test (acquisition interface corresponding to different types of data of equipment under test, same type data also can corresponding different acquisition interface) and select different signal probe 11, if the acquisition interface when this equipment under test is AV interface, this signal probe 11 is AV interface; When the acquisition interface of this equipment under test is S terminal, signal probe 11 is S terminal; When the acquisition interface of equipment under test is radio frequency interface, signal probe 11 is radio frequency interface; When the acquisition interface of equipment under test is HDMI interface, signal probe 11 is HDMI interface; When the acquisition interface of equipment under test is normal video input interface (RCA), signal probe 11 is HDMI interface; When the acquisition interface of equipment under test is VGA interface, signal probe 11 is VGA interface; When the acquisition interface of equipment under test is component vide interface, signal probe 11 is component vide interface; When the acquisition interface of equipment under test is bnc interface, signal probe 11 is bnc interface; When the acquisition interface of equipment under test is DVI interface, signal probe 11 is DVI interface; When the acquisition interface of equipment under test is current interface, signal probe 11 is current probe; When the acquisition interface of equipment under test is voltage interface, signal probe 11 is voltage probe; Etc..

This data acquisition unit 12 can be ADC collector, and this ADC collector has the quantification gradation up to sampling rate and 12 bit depth of 40Ghz, can process 20Ghz bandwidth with interior optional frequency signal.

The image data that this primary processor 13 obtains data acquisition unit 12 is processed, as adopted MPEG-2/MPEG-4 technology to the sound signal in image data and/or encoding video signal and compression.Concrete, in the time that the image data that data acquisition unit is obtained is processed, also acquisition time is endorsed in image data.

This harvester 100 sends to data processing centre (DPC) by wireless communication module 14 by the image data after primary processor 13 format analysis processing, can realize remote transmission.This wireless communication module 14 can be wifi unit.

Analysis result is fed back to harvester 100 by data processing centre (DPC), and this harvester 100 receives by wireless communication module 14 the signal analysis result that data processing centre (DPC) sends over, and can make the duty of the convenient understanding equipment under test of user.This data processing centre (DPC) can initiatively send to harvester 100 by analysis result; This data processing centre (DPC) is receiving after the inquiry request of harvester 100, analysis result is sent to harvester 100, this inquiry request comprises IPv6Mac address and the query time of harvester to be checked 100, upload to the data results of data processing centre (DPC) on January 1st, 2013 as user wonders equipment under test, can be set on January 1st, 2013 by query time.

Further, this device also comprises the first interface module 15 for the output data of this primary processor 13 being sent to mobile terminal, and this first interface module 15 is connected with this primary processor 13.

The image data that the first interface module 15 of this harvester 100 receives is certainly sent to this data processing centre (DPC) by this mobile terminal.

This first interface module 15 can be USB interface, HDMI interface.Cannot set up communication while being connected with data processing centre (DPC) at this harvester 100, image data after the primary processor of this harvester 100 13 format analysis processing can be sent to mobile terminal, as harvester 100 can pass through HDMI(High Definition Multimedia Interface, HDMI, HDMI (High Definition Multimedia Interface)) interface or USB interface be connected with mobile terminal, then by this mobile terminal, image data sent to data processing centre (DPC).This mobile terminal can be notebook, mobile phone, intelligent television etc.The image data receiving from harvester 100 is sent to data processing centre (DPC) by this mobile terminal, realizes the data that harvester 100 is gathered and send to data processing centre (DPC).

Further, this device also comprises the Ethernet interface 16 for the output data of this primary processor 13 being sent to data processing centre (DPC), and this Ethernet interface is connected with this primary processor.

When this harvester 100 also can connect with data processing centre (DPC) by Ethernet interface 16, so that the image data (as: data that gather by data acquisition unit) after these primary processor 13 format analysis processing is sent to data processing centre (DPC).

Further, this device also comprises the camera 17 of the video information for obtaining this equipment under test current state, carry out analog-to-digital analog-to-digital conversion module 18 for the video information that camera 17 is obtained, this analog-to-digital conversion module 18 is connected with this camera 17, primary processor 13 respectively;

This primary processor 13 also carries out format analysis processing for the video information to after this analog to digital conversion;

This wireless communication module 14 is also for sending to this data processing centre (DPC) to carry out image analysis processing the video information after these primary processor 13 format analysis processing, and for receiving the graphical analysis result of this data processing centre (DPC).

Take the video information of equipment under test current state by this camera 17, this camera can be threaded connection on the top of this harvester 100, between camera 17 and this harvester 100, can be connected by the supporting arm of hovering arbitrarily.This camera 17 can be back-illuminated type CMOS camera, and this camera pixel can be 1200M pixel.By this camera 17, state that can Real-Time Monitoring equipment under test, when equipment under test occurs when abnormal, can know abnormal particular location occurs from the monitoring picture of camera collection, and then the content such as Information Monitoring more effectively and accurately.

The video information of this primary processor 13 after to analog-to-digital conversion module 18 analog to digital conversion processed, as the video information after adopting MPEG-2/MPEG-4 technology to analog-to-digital conversion module analysis is encoded and compresses.Concrete, in the time that the video information after analog-to-digital conversion module analog to digital conversion is processed, also shooting time is endorsed in video information, also can be endorsed in the IPv6Mac address of harvester 100 in video information (this IPv6 is the abbreviation of Internet Protocol Version6).

Further, this device also comprises the memory module 19 for the output data of this primary processor 13 are stored, and this memory module 19 is connected with this primary processor 13.

Cannot directly set up communication while being connected with data processing centre (DPC) when this harvester 100, also the image data after primary processor 13 format analysis processing can be kept in the memory module 19 of this harvester 100, as, this memory module 19 is SD card or EMMC card.

With reference to Fig. 2, the structural representation that Fig. 2 is acquisition system of the present utility model, this acquisition system comprises above-mentioned harvester 100, and the data processing centre (DPC) 200 being connected with these harvester 100 communications;

This harvester 100, for the different types of data of equipment under test being gathered and the data that gather being carried out to format analysis processing, and sends to data processing centre (DPC) 200 by image data after treatment;

The image data that this data processing centre (DPC) 200 sends over for receiving this harvester 100, and the image data receiving is carried out to signal analysis and processing, and signal analysis result is sent to harvester.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model instructions and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (8)

1. a harvester, is characterized in that, described device comprises:

The signal probe being connected with equipment under test;

For the data acquisition unit that the different types of data of equipment under test is gathered, described data acquisition unit is connected with equipment under test by described signal probe;

For the data of data acquisition unit collection being carried out to the primary processor of format analysis processing, described primary processor is connected with described data acquisition unit;

For sending to data processing centre (DPC) to carry out signal analysis and processing the output data of primary processor, and for receiving the wireless communication module of signal analysis result of described data processing centre (DPC), described wireless communication module is connected with described primary processor, data processing centre (DPC).

2. device according to claim 1, is characterized in that, described device also comprises the first interface module for the output data of described primary processor being sent to mobile terminal, and described first interface module is connected with described primary processor.

3. device according to claim 1, is characterized in that, described device also comprises the Ethernet interface for the output data of described primary processor being sent to data processing centre (DPC), and described Ethernet interface is connected with described primary processor.

4. device according to claim 1, it is characterized in that, described device also comprises the camera of the video information for obtaining described equipment under test current state, carry out analog-to-digital analog-to-digital conversion module for the video information that camera is obtained, described analog-to-digital conversion module is connected with described camera, primary processor respectively;

Described primary processor also carries out format analysis processing for the video information to after this analog to digital conversion;

Described wireless communication module is also for sending to this data processing centre (DPC) to carry out image analysis processing the video information after described primary processor format analysis processing, and for receiving the graphical analysis result of described data processing centre (DPC).

5. device according to claim 1, is characterized in that, described signal probe at least comprises: radio frequency interface, HDMI interface, normal video input interface, current probe or voltage probe.

6. device according to claim 1, is characterized in that, described wireless communication module is wifi unit.

7. device according to claim 1, is characterized in that, described device also comprises the memory module for the output data of described primary processor are stored, and described memory module is connected with described primary processor.

8. an acquisition system, is characterized in that, comprises the harvester as described in claim 1 to 7 any one, and the data processing centre (DPC) being connected with described harvester communication;

Described harvester is used for the different types of data of equipment under test gather and the data that gather are carried out to format analysis processing, and image data after treatment is sent to data processing centre (DPC);

Described data processing centre (DPC) is used for receiving the image data that described harvester sends over, and the image data receiving is carried out to signal analysis and processing, and signal analysis result is sent to harvester.

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