It is a portable measuring system with ip67 coverage. These features predetermine
Magic xbm to outdoor measuring and working in heavier climatic
Conditions. The system enables to measure three values at a time (depending on
The type of the smart probe) and gives the possibility to use a submersible probe
With ip 68 coverage. Laboratory probes can be connected as well. All types of
Smart probes are interchangeable and compatible. The linking interface is a part
Of the pda.
The time of data recording during the dataloger function
Example: when the record interval is 20 minutes, the outdoor xbm can work
About 1 month on its own internal energy source. A reserve accumulator can be
Supplied for longer lasting or more frequent monitoring.
7
Another version of magic xbm is a bench pda, which can measure up to 4
Values at a time. The pda is placed in a voltage bolster from which up to 4
Sensors can be supplied. Next to the bolster one sensor can be connected directly
To the pda. When the pda is not used for measuring, it can be used as a
Personal organiser.
This version of magic xbm is capable of precise laboratory measurements and
Can replace all types of bench and portable measuring instruments
8''All Infrared Detection Body Temperature Intelligent Fast Face Recognition Android all-in-one machine
Suitable for scenic spot,office,hotel,school,shopping mall,community or any other places require auto face recognition.
M(Magneto)-EL(Electroluminescence) Measurement System (CTS-104):
Applications Measurement of luminescence intensity change according to
the influence of magnetic field of organic materials (MEL)
Specification Magnetic field range: 1mT to 270mT
Input Range: (Voltage/Current) 20V / 1A
Key components Permanent Magnet, Source Meter, Photo Detector, Multimeter, Automatic Transfer Device,
Element fixing device, Fiber Optic Measurement/Analysis Software, Operating PC (Option)
Temperature Control Element Fixing Device, Low Temperature Cryostat
Applied Areas & Characteristics
- OLED Device : TEG, CELL(Panel)
- QLED Device
- uLED Device
- T-EL(Transient Electroluminescence) : Rising/Falling Characteristic Measurement, Electron Mobility
- Data Analysis : Slop Calculation, Normalization, Turn-on Time(T0) Calculation, Raise/Falling Sections, EL Reserve Dataprocessing
Applications :Measurement and analysis of electroluminescence response characteristics
Specification : Contact separately
Key components : Pulse signal generator, Oscilloscope, Photodetector, Element fixing device, Measurement/analysis software,
Facility operating PC (Option) Optical system, Temperature control device
M(Magneto)-EL(Electroluminescence) Measurement System (CTS-104):
Applications Measurement of luminescence intensity change according to
the influence of magnetic field of organic materials (MEL)
Specification Magnetic field range: 1mT to 270mT
Input Range: (Voltage/Current) 20V / 1A
Key components Permanent Magnet, Source Meter, Photo Detector, Multimeter, Automatic Transfer Device,
Element fixing device, Fiber Optic Measurement/Analysis Software, Operating PC (Option)
Temperature Control Element Fixing Device, Low Temperature Cryostat
The non-contact diameter measuring system, is mainly used in the measurement of the outer diameter of various wire rods, bars, wires and pipes. The system can detect the change of the diameter (outer diameter) of the measured object in real time under the high temperature state.
The working principle
The diameter measuring system takes the laser scanning method as an example. It adopts the probe imported from Japan, which can achieve an accuracy of plus or minus 2 microns in the range of 0.3 to 30 mm. The acquisition frequency reaches 2000 times/second. The probe uses a self-excited infrared light source, which overcomes the measurement problem in dim environments.
It adopts the measurement method of pulse parallel light scanning, and has a strong ability to resist the jitter of the measured object. (As shown in Figure 1) Since the shaking frequency of the measured object is much smaller than the scanning frequency, when the measured object A moves in the shakeable area, the measurement result will be able to ensure its accuracy because the time it blocks the beam does not change.
Figure 1: Probe Scanning Radiation Area
The detection principle is as follows
Figure 2: Working Principle
First, the crystal oscillator generates self-excited high-frequency pulses, which are sent to the comparator and the stepping servo motor respectively. The stepping servo motor drives the octahedral prism to rotate at a high speed, and reflects the infrared laser emitted by the laser generator to the convex lens A. It becomes parallel light, and then collects on the photosensitive element C through the convex lens B in the infrared receiving probe. The photosensitive element C converts this signal into a corresponding electrical signal and sends it to the other end of the comparator to compare with the original signal.
When there is no object to be measured in the measuring probe, the pulse signal at both ends of the comparator will be the same. Therefore, there is no difference output: when there is an object to be measured in the measuring probe, the photosensitive element C will output no pulse signal during the period of scanning through the object to be measured. Therefore, there will be a difference input for a period of time at both ends of the comparator, which corresponds to the diameter of the measured object. By calculating the oscillation period of the pulse and the length of the time slice without pulse, the diameter of the measured object can be known.
--General Type
1.Measure item: Ratio Error and Phase Error of the CT& PT
2.Complying with ANSI / IEEE C57.13 Standard or IEC 60044-1 Standard (According to the User`s requirements)
3.Testing system included:
ï?·HES Series Control Bench
ï?·HES-1C Series Transformer Tester
ï?·FY Series Current Transformer Burden
ï?·HLS Series Standard Current Transformer (with Current Source)
ï?·FY Series Voltage Transformer Burden
ï?·HJS Seires Standard Voltage Transformer (with Voltage Source)
ï?·High Current Testing Cables
ï?·Secondary Testing Cables of the CT&VT
This is a non-contact flow meter for open water channels mounted above the water surface. It uses a radar velocity sensor and an ultrasonic sensor for water level measurement. The two measurements and the dimensions of the cross section profile are used to calculate the discharge from the continuity equation (velocity-area method). The modular transmitter incorporates a flow computer with all required algorithms and software to ensure accuracy and repeatability of flow measurements. Parameterization of the measurement site, data logging, visualisation and data transfer is possible by using the browser based control and management user interface, which can be run in any standard web browser via PC, notebook, tablet or smart phone, regardless of location, time and operating system. The transmitter can be mounted in a distance up to 100 m from the measuring site with the velocity and level sensors.
Characteristics & Strengths
-Automated TOF Data Measurement System
-Owing to the application of ND-Yag Laser, it could be
Semi-Permanently used without Consumables.
-With the improvement of noise characteristic, it is
possible to measure the TOF Characteristic Signal
in Low-Voltage Field Bias.
-Convenient Measurement of GUI & Automated
Sequence Function
-Zero-Field Mobility Analysis Function
Applications :Measurement and Analysis of Electronic Material Charge Mobility
Specification : Contact separately
Key components :Laser, oscilloscope, Source meter, Optical system, Element fixing device Measurement / Analysis software, Facility operation PC Temperature control device (option)
Stage Introduction:
FS-G series are used to measure optical characteristics of monitor from 17 to 65 inches, TV BLU, light-emitting panel, diffuser, brightness enhancement film, CCFL and LED Light bar Module.
Hardware Motion Characteristics:
Measured BLU is placed flat on the object-loading platform and is motionless when being measured. Optical measurement instrument is driven by motor and can move along X axis and Y axis linearly in two dimensions. It's possible to manually adjust measurement distance between optical instrument and measured BLU surface.
Object-loading platform can extend out/withdraw to place big sized measured BLU.
FS-G series' standard accessories are dark room with dark light-shielding cloth and options are sealed metal dark room with dark baking varnish.
FS-G3 Series Stage Introduction:
As CCFL light source's BLU needs to be warmed up for tens of minutes before measurement and begins measurement after luminance is steady, warm up process takes stage's most of time. FS-G3 series optical measurement stage, produced by FSTAR can warm up and measure multi plates of BLU at the same time so that stage and optical instrument's usage efficiency is greatly improved.
Every Component of Measurement System Specifications:
1. Programmable Power Supplier:
Voltage and current output are controlled by measurement software. Voltage range is 0~300V. Voltage output precision is 0.01V; current range is 0~2A. Current output precision is 1mA. Max output power is 600W.
2. Optical Measurement Instrument SR-3AR
Please refer SR-3AR specification for specific specification.
3. Optical Measurement Stage Hardware Specification:
Max placed Light bar number: 12 bars. Single light bar max measurement length: 800mm. X axis automatic motion distance: 800mm. Precision: 0.01mm
Y axis automatic motion distance: 400mm. Precision: 0.01mm
Z axis manual motion distance: 400~600mm (distance between SR-3AR lens and Diffuse Sheet).
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