CN200990158Y - Intelligent digital experimental apparatus - Google Patents

Intelligent digital experimental apparatus Download PDF

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Publication number
CN200990158Y
CN200990158Y CN 200620141885 CN200620141885U CN200990158Y CN 200990158 Y CN200990158 Y CN 200990158Y CN 200620141885 CN200620141885 CN 200620141885 CN 200620141885 U CN200620141885 U CN 200620141885U CN 200990158 Y CN200990158 Y CN 200990158Y
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sensor
experimental provision
intelligent digital
measured signal
signal
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CN 200620141885
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Chinese (zh)
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李彩珍
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Individual
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Abstract

The utility model relates to an intelligent digital experiment equipment, comprising a display screen, a computer, a main power supply source, a control line which is respectively connected with the display screen and the computer, a main controller which is arranged on the control circuit, two power source modules, a USB interface which is connected to the main controller, a memory which is connected to the main controller, an I<2> C bus which is connected to the main controller, and an intelligent transducer which is connected with the I<2> C bus by a multi core terminal. The main controller collects and processes data from the intelligent transducer; then finally displays the corresponding detected signal value by the display screen, stores in the memory and outputs through the USB interface. The intelligent transducer comprises a transducer controller which can control the on line detecting and debugging of the transducer; can do the hot plugging detecting of the transducer; and can be immediately inserted and used by the multi core terminal, convenient to operate and the measuring precision can be improved by at least 10 percent.

Description

The intelligent digital experimental provision
Technical field
The utility model relates to a kind of intelligent digital experimental provision, is applicable to the device of measuring various signal datas, comprising: the proving installation of electric current, voltage, air pressure, power, magnetic field, temperature and light intensity etc.
Background technology
In the past, in the laboratory in middle school, be to do experiment with discrete experimental apparatus, measure a kind of data, change a kind of instrument, not only test dumb convenience, and the experiment place can only be limited in the laboratory also.(formerly in the technology) at present, a kind of digital experiment device has appearred in the laboratory, but it is lower that it exists the measurement essence, man-machine exchange more complicated, do not possess portable off-line test function, perhaps the running time is short during off-line, and memory space is lower and less with computer interface, measures problems such as inconvenience.
Summary of the invention
The purpose of this utility model provides a kind of intelligent digital experimental provision, can overcome the problem that exists in the above-mentioned technology formerly.
Technical solution adopted in the utility model is: a kind of intelligent digital experimental provision is provided, comprise: display screen, computing machine, total power supply, the operation circuit that is connected with computing machine with display screen respectively, place the master controller on the operation circuit, be connected in the USB interface between master controller and the computing machine, be connected to storer, I on the master controller 2C bus and analog photoelectricity coupling mechanism are with I 2The multicore terminal that the C bus is connected places two power modules that are connected with total power supply on the operation circuit, is connected to the intelligence sensor on the multicore terminal.
Described intelligence sensor comprises: be connected to the sensor controller that has the multiway interface on the multicore terminal, be connected to the signal conditioning circuit on the multicore terminal, the measured signal input source that is connected with signal conditioning circuit.
As above-mentioned structure of the present utility model, when using the utility model experimental provision, computing machine sends instruction by USB interface to master controller, simultaneously, with the corresponding intelligence sensor of want measurement data, such as to measure air pressure signal, just intelligent baroceptor is inserted on the multicore terminal, signal conditioning circuit in the intelligence sensor receives the measured signal from measured signal input source (can be and the corresponding common baroceptor of measured signal " air pressure "), and its measured signal is normalized to the unified standard signal as 0~5V, this standard signal is by multicore terminal and I 2The C bus, be input into master controller, master controller is converted to digital signal with its voltage analog signal, and through after calculating comparison, with the digital signal of net result be converted to the signal value that requires to measure such as magnitude of voltage, current value, atmospheric pressure value, force value, temperature value, light intensity value etc., again this measurement result is presented on the display screen, and is stored in the storer or outputs on the computing machine by USB interface, or printing etc.In the sensor controller that comprises in the described intelligence sensor, store the identity information of sensor, self check information, check information, check codes etc. can online detection and on-line debugging.
Aforesaid experimental provision effect of the present utility model is remarkable.
As above-mentioned structure, because comprise the master controller that places on the operation circuit in the utility model, it can finish the various demonstrations of wanting measuring-signal, storage and output;
The utility model is because by the multicore terminal, can insert multiple intelligence sensor simultaneously, and intelligence sensor can really be realized plug and play;
The utility model is because comprise the analog photoelectricity coupling mechanism that is connected on the master controller, and it can isolate out the interference from the simulating signal on the power module, makes the measured signal value of its master controller output more accurate, and measuring accuracy is higher;
The utility model comprises sensor controller because what adopt is intelligence sensor in the intelligence sensor, can the detecting line sensor operation conditions, online detection, debugging formerly can self-correcting, by calibration and compensation, can make the precision of sensor improve more than 10%;
The utility model places two power modules that are connected with total power supply on the operation circuit because of comprising, even total these two power modules and power supply disconnect, also can power for a long time to experimental provision independently, keeps the operation of test unit;
In sum, experimental provision of the present utility model is simple in structure, can make portable experimental provision, contain USB interface and computing machine is easy to connect, contain the multicore terminal, easy to connect with intelligence sensor, so the place that the utility model uses is extensive, not only is limited in the laboratory and uses.
Description of drawings
Fig. 1 is the structural representation of the utility model experimental provision;
Fig. 2 is the structural representation of intelligence sensor among Fig. 1.
Embodiment
Further below in conjunction with accompanying drawing, architectural feature of the present utility model is described.
As shown in Figure 1, the utility model experimental provision comprises: display screen 1, computing machine 3, total power supply 5, the operation circuit 2 that is connected with computing machine 3 with display screen 1 respectively, place the master controller 201 in the operation circuit 2, be connected in the USB interface between master controller 201 and the computing machine 3, be connected to storer 203, I on the master controller 201 2 C bus 204 and analog photoelectricity coupling mechanism 206 are with I 2The multicore terminal 205 that the C bus connects places first power module 207, the second source module 208 that are connected with total power supply 5 in the operation circuit 2, the intelligence sensor 4 that is connected with multicore terminal 205.
Fig. 2 is the structural representation of intelligence sensor 4 among Fig. 1.As shown in Figure 2, intelligence sensor 4 comprises: be connected to the sensor controller that has multiway interface 401 402 on the multicore terminal 205, be connected to the signal conditioning circuit 404 on the multicore terminal 205, the measured signal input source 403 that is connected with signal conditioning circuit 404.
Described measured signal input source 403, when intelligence sensor 4 was intelligent current sensor, when promptly measured signal was current signal, measured signal input source 403 can be the current-voltage conversion circuit that is connected on the tested current signal input source.Be input in the signal conditioning circuit 404 after by this current-voltage conversion circuit current signal being transformed into voltage signal, its voltage signal is normalized to 0~5V;
When intelligence sensor 4 is intelligent voltage sensor, be that measured signal is when being voltage signal, measured signal input source 403 can be the bleeder circuit that is connected on the tested voltage signal source, the tested voltage signal that to import by this bleeder circuit is divided into needed magnitude of voltage, is input in the signal conditioning circuit 404 again and is normalized to 0~5V;
When intelligence sensor 4 is when measuring signal such as air pressure, pressure, magnetic field, temperature, light intensity, measured signal input source 403 and measured signal corresponding (common) sensor, corresponding with described measured signal is baroceptor, pressure transducer, magnetic field sensor, temperature sensor, light intensity sensor etc., by common sensor measured signal is converted to be input in the signal conditioning circuit 404 behind the voltage signal to be normalized to 0~5V.
In the present embodiment, described sensor controller 402 and master controller 201 all are the singlechip chips that contains mixed signal that has the embedded A/D converter of various ports.In the present embodiment, be the C805 1F series mixed signal SOC singlechip chip that adopts Silicon Laboratories, adopt the mixed signal SOC singlechip chip of C8051F06x series more specifically.The C8051F family chip all has abundant port resource, for example: ports such as I2C, SPI, UART, PCA, embedded 16 A/D, very easy to use; Have the JTAG debug port simultaneously, can realize online detection, on-line debugging; It contains high-frequency clock, can effectively improve the reaction velocity of device; Chip power-consumption is lower, is fit to the exploitation portable product.Adopt this chip to significantly reduce the peripheral circuit of device, also improved the stability of device greatly, and provided cost savings, chip piece just can be saved 300 yuan of costs (Renminbi).
In the present embodiment, display screen 1 adopts the alternating interface between man and computer easily of big screen LCD and touch-screen construction device.Rich display information, convenient to operation, provide good platform for installing abundant off-line test function operations.
In the present embodiment, storer 203 adopts the high capacity FLASH storer, can store the data that off-line is gathered.The data content of storage is abundant, comprises measuring number of times, data such as experiment place, experimental period and measurement data.Can realize multichannel data acquisition and storage.
In the present embodiment, total power supply 5 adopts jumbo lithium polymer battery and more advanced energy-conservation mechanism, the test duration that can improve the device offline state greatly, makes the device stand-by time above 10 hours.
In the present embodiment, USB interface 202 adopts USB2.0 interface at a high speed, finishes and the communicating by letter of computing machine, and has solved original like product and has adopted RS232 communication interface transfer rate lower, interface uses not general problem, and the viability of product is increased greatly.
In the present embodiment, adopt the insulating power supply structure, comprise two power modules 207,208, realize that the sensor power supply (first power module 207) and the power supply (second source module 208) of master controller isolate fully, prevented that controller is subjected to the impact of circuit-under-test power supply and fluctuation of service.
In the present embodiment, analog photoelectricity coupling mechanism 206 adopts HCNR200 analog photoelectricity coupling mechanism, and this is to have adopted the simulating signal interrupter, realizes the isolation fully with simulating signal.Prevent of the impact of the simulating signal of sensor to controller.
In the present embodiment, multicore terminal 205 adopts 10 unified transmission simulation of core S terminal and digital signals.Interface between intelligence sensor and the multicore terminal 205 adopts I in the present embodiment 2The C bus is passed through I 2The C bus connects master controller and intelligence sensor.I 2The identity information of C bus transmission intelligence sensor, self check information, check code etc. also have the calibration information of each intelligence sensor and the coefficient of penalty function etc.By these information that characterizes intelligence sensor, intelligence sensor can be realized real plug and play, and by calibration and compensation, can improve the measuring accuracy of intelligent sensor more than 10%.

Claims (8)

1. intelligent digital experimental provision, comprise display screen, computing machine, total power supply, it is characterized in that comprising: the operation circuit that is connected with computing machine with display screen respectively, place the master controller on the operation circuit, be connected in the USB interface between master controller and the computing machine, be connected to storer, I on the master controller 2C bus and analog photoelectricity coupling mechanism are with I 2The multicore terminal that the C bus is connected places two power modules that are connected with total power supply on the operation circuit, is connected to the intelligence sensor on the multicore terminal.
2. intelligent digital experimental provision according to claim 1, it is characterized in that described intelligence sensor comprises: be connected to the sensor controller that has the multiway interface on the multicore terminal, be connected to the signal conditioning circuit on the multicore terminal, the measured signal input source that is connected with signal conditioning circuit.
3. intelligent digital experimental provision according to claim 2 is characterized in that described measured signal input source is the current-voltage conversion circuit that is connected on the tested current signal input source.
4. according to the described intelligent digital experimental provision of claim 2, it is characterized in that described measured signal input source is the bleeder circuit that is connected on the tested voltage signal source.
5. intelligent digital experimental provision according to claim 2 is characterized in that described measured signal input source is and the corresponding sensor of measured signal.
6. intelligent digital experimental provision according to claim 5 is characterized in that described and the corresponding sensor of measured signal is a baroceptor, or pressure transducer, or magnetic field sensor, or temperature sensor, or light intensity sensor.
7. intelligent digital experimental provision according to claim 2 is characterized in that described sensor controller is the singlechip chip that contains mixed signal that has the embedded A/D converter of various ports.
8. intelligent digital experimental provision according to claim 1 is characterized in that described master controller is the singlechip chip that contains mixed signal that has the embedded A/D converter of various ports.
CN 200620141885 2006-12-31 2006-12-31 Intelligent digital experimental apparatus Expired - Fee Related CN200990158Y (en)

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Application Number Priority Date Filing Date Title
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101042813B (en) * 2006-12-31 2010-05-19 李彩珍 Intelligent digital experiment system
CN104205188A (en) * 2012-11-28 2014-12-10 费斯托技术教育和培训有限责任两合公司 Automation device, method for virtual functional linking of external components and computer program product
CN104751716A (en) * 2015-03-27 2015-07-01 王浩聿 Ohm law digital demonstrating instrument

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101042813B (en) * 2006-12-31 2010-05-19 李彩珍 Intelligent digital experiment system
CN104205188A (en) * 2012-11-28 2014-12-10 费斯托技术教育和培训有限责任两合公司 Automation device, method for virtual functional linking of external components and computer program product
CN104205188B (en) * 2012-11-28 2018-11-09 费斯托培训部欧洲公司 Automation equipment and method for virtually function combination external component
CN104751716A (en) * 2015-03-27 2015-07-01 王浩聿 Ohm law digital demonstrating instrument

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