此項開發透過半值為250nm的紫外透過玻璃“IHU250H”,最適用於紫外線透過用途中的鏡頭/光學系統,在分析儀器、曝光裝置、UV-LED蓋玻片、波長矯正等需要透過紫外線的領域得到廣範使用。相比石英玻璃,IHU250H的熱膨脹率接近金屬,最適合金屬化用途。
特色:
- 透過特性接近石英玻璃
- 加工溫度相當於一般玻璃
- 是可熱壓成型的五鈴原創玻璃
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blue Laserdiode
Depending on the mode of operation, these devices emit highly concentrated visible light which can be hazardous to the human eye. Products which incorporate these devices have to fol- low the safety precautions found in IEC 60825 “Safety of laser products”.
Features:
- in IEC 60825 “Safety of laser products”
- Typical emission wavelength: 450 nm
- Efficient radiation source for cw and pulsed operation
- TO90 package
- ESD protection diode
- Laser diode isolated against package
| Specifications | |||
| Maximum Ratings | |||
| Operating temperature | -20~85°C | ||
| Storage temperature | -20~120°C | ||
| Junction temperature | 135 °C | ||
| Output power | 3.2 W | ||
| Operating current | 2.5 A | ||
| Reverse current | 20 mA | ||
| Soldering temperature | 260 °C | ||
| Characteristics | |||
| Operating current | 2.0~2.4 A | ||
| Center wavelength | 437 nm ~ 460 nm | ||
| Optical output power | 3.0 W | ||
| Threshold current | 0.27 A | ||
| Forward voltage | 5 V | ||
| Total power dissipation | 5.5 W | ||
| TE polarization | 100:1 | ||
| Thermal resistance junction case real | 10 K / W | ||
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Multifunction Data capture card
The USB data acquisition card is a high-efficiency multi-function data acquisition card with USB interface. It has 8 channels of differential 16-bit resolution and high-speed synchronous analog signal acquisition (the highest synchronous acquisition rate is 200KSPS, and synchronous acquisition means each channel Both are 200KSPS), 2 channels of 12-bit analog signal output (only single low-speed output mode), 16 channels of digital signal one-way input and output, 2 channels of 32-bit PWM and other precision measurement inputs, 2 channels of 32-bit PWM or single pulse output . AD supports internal and external time, internal and external triggers.
Features:
- 8-channel differential (Differential) analog input, synchronous acquisition
- 16-bit resolution 200KHZ AD
- Signal dynamic range: ±10V / ±5V
- 2 channels 12-bit DA, output 0-10V
- Digital quantity: 16 in (DIO-DI15)/16 out (DOO-DO15)/ (5V -TTL level)
- 2 channels of 32-bit PWM measurement input, measurement time: 48MHz, equal precision measurement, measurement error is a reference time of 48MHz, 2 channels of PWM measurement input 0-1 are shared with DI2-DI3 respectively
- AD conversion mode has 16-channel synchronous conversion mode
- AD conversion time: internal and external trigger, trigger level 5V, shared with digital input channel DI1, external time can be selected to rise or fall
| Specifications | |||
| Analog input | |||
| Number of analog input channels | 8 differential inputs | ||
| Analog input resolution | 16 bit ( 305 μV / 152 μV ) | ||
| Sampling rate | 200 kS/s/ch Simultaneous sampling | ||
| Analog input buffer FIFO buffer capacity | 180 K | ||
| Analog input impedance | > 1 MΩ | ||
| Input range | ±10 V / ±5 V | ||
| Input accuracy | ± 5 mV | ||
| Digital output input and timer counter | |||
| 16 Channel (DI) | 16 Channel (DO) | ||
| Input Level:0 ~ 5 V ( Compatible :3.3 V ) | Output Level:5V | ||
| High Level:> 2 V / Low Level:< 0.8 V | High Level:> 2.5 V / Low Level:< 0.5 V | ||
| Max Current:10mA / ch | |||
| 2 Channel 32 bit PWM Input | 2 Channel 32 bit PWM / Pulse Onput | ||
| Input Level:0 ~ 5 V ( Compatible :3.3 V ) | Output Level:5V | ||
| High Level:> 2 V / Low Level:< 0.8 V | High Level:> 2.5 V / Low Level:< 0.5 V | ||
| Max Current:10mA / ch | |||
| Clock:48 Mhz / 32 bit Timer | |||
| 軟體支援 | |||
| Operating system support WinXP / Win7 / Win8 / Win10 | |||
| SDK Example(DLL):Labview / C# / Python / MATLAB | |||
| Test program | |||
| 其它特性 | |||
| Digital interface | USB 2.0 | ||
| Working current | < 500 mA | ||
| Input voltage | 12V ± 5 % | ||
Note: Product specifications and descriptions in this document are subject to change without notice.
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VCSEL measurement system
Driven by the demand for mobile phone 3D sensing, automotive LiDAR and optical fiber transmission, the VCSEL component market has gradually grown. Using TEMPOint’s VCSEL LIV measurement system, users can quickly and accurately test the VCSEL performance (single point test, variable current , Variable temperature test).
Application field:
- Face recognition
- Gesture Recognition
- Optical radar LiDAR
- Time difference ranging ToF
- Laser cutting
Features:
- Minimum 0.2nm resolution
- VCSEL dedicated spectrometer
- 200 Khz high capture speed
- Minimum 50us pulse width output
- The instrument can do absolute value calibration in Taiwan
| Measurement data | |||
| Peak radiant flux (W) Average radiant flux (W) | |||
| Peak wavelength(nm) Center wavelength(nm) Center of gravity wavelength(nm) Half width(nm) | |||
| Radiation voltage(V) Current(A) Power(W) Radiation conversion efficiency | |||
| Radiant flux@ time domain Spectral value | |||
| system requirement | Suggested demand | ||
| Windows 7 32bit / 64bit or higher operating system 1 GB or more RAM 2 GB or more hard disk capacity |
Windows 7 32bit / 64bit or higher operating system 4 GB or more RAM 20 GB or more hard disk capacity |
||
| System specifications | |||
| model | Spectrum LoMo For VCSEL | ||
| Integrating sphere | |||
| material | Spectralon | ||
| Internal dimensions | 5.3”( 13.5 cm ) | ||
| Reflectivity | > 98.5% ( 400 – 1500 nm ) > 95% ( 250 – 2500 nm ) |
||
| Optical specifications | |||
| wavelength | 800 – 990nm | ||
| Optical resolution | 0.2 nm | ||
| Pixel interval | 0.11 nm | ||
| Radiant flux range | 10m-100w | ||
| Wavelength accuracy | ± 0.1 nm | ||
| Wavelength reproducibility | ± 0.2 nm | ||
| Detector capture speed | 200 Khz | ||
| Detector linearity | 99.5% | ||
| Detector accuracy | ± 0.1% | ||
| Trace back | NML or NIST | ||
| Other specifications | |||
| Digital interface | USB 2.0 | ||
| physical dimension | 28.5 x 18 x 20 cm3 | ||
| weight | 2 kg | ||
| Power Specifications | |||
| Rated output | 60V / 7.5A for Pulse / 500W | ||
| Minimum pulse width | 50us | ||
| Current accuracy | 0.04%+1mA (Low Range) 0.08%+5mA (High Range) |
||
Note: Product specifications and descriptions in this document are subject to change without notice.
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UV LED measurement system
The efficiency of UV LED depends on the junction temperature. The thermal change of the PN junction will affect the optical power output and life expectancy of UV LED. Using TEMPOint’s UV LED measurement system, users can quickly and accurately test UV LED performance (single point test , Variable current, variable temperature test).
Application areas:
- Germicidal ultraviolet (GUV)
- UVC disinfection and purification
- UV curing
- Medical phototherapy
- Analytical Instruments
- Garden lighting
Features:
- Absolute radiant flux (W) above 200nm can be measured
- Data can be traced to JCSS or NIST
- Optional power supply (programmable)
- Temperature controller (programmable) is optional
- The instrument can do absolute value calibration in Taiwan
| Measurement data | |||
| X Y Z Color classification Specification classification | |||
| Lumen (Lumen)-photopic vision Lumen`(Lumen)-dark vision | |||
| Radiant flux(W) Photosynthetic photon flux(umol / Sec) Infrared photon flux(umol/Sec) | |||
| Chromaticity coordinates(x y u` v` v) Correlated color temperature(K) Duv Color purity(%) Color tolerance (SDCM) | |||
| Dominant wavelength(nm) Peak wavelength(nm) Center wavelength(nm) Centroid wavelength(nm) Half-wavelength (nm) | |||
| Color rendering CRI R1 ~ R15 Color quality CQS Ver 9.0.3 Q1 ~ Q15 | |||
| TM-30-15 – Rfh,1 ~ Rfh,16 Rf Rg Rf skin | |||
| Circadian factors external quantum efficiency | |||
| system requirement | Suggested demand | ||
| Windows XP 32bit / 64bit or higher operating system 1 GB or more RAM 2 GB or more hard disk capacity |
Windows XP 32bit / 64bit or higher operating system 4 GB or more RAM 20 GB or more hard disk capacity |
||
| System specifications | |||
| model | Spectrum LoMo For UV | ||
| Integrating sphere | |||
| material | Spectralon | ||
| Internal dimensions | 5.3”( 13.5 cm ) | ||
| Reflectivity | > 98.5% ( 400 – 1500 nm ) > 95% ( 250 – 2500 nm ) |
||
| Calibration light source specifications | |||
| Types | 150 W Xenon Lamp | ||
| wavelength | 200 – 800 nm | ||
| Optical specifications | |||
| Radiant flux range | 1m – 2000mw | ||
| Wavelength accuracy | ± 0.3 nm | ||
| Wavelength reproducibility | ± 0.2 nm | ||
| Optical resolution | 1.5 nm | ||
| Trace back | JCSS or NIST | ||
| Other specifications | |||
| Digital interface | USB 2.0 | ||
| physical dimension | 28.5 x 18 x 20 cm3 | ||
| weight | 2 kg | ||
| Power Specifications | |||
| Rated output | 30V / 5A / 150W | ||
| Set value resolution (voltage) | 1 mV | ||
| Set value resolution (current) | 0.1 mA | ||
| Set value accuracy (voltage) | ±0.03% + 3mV | ||
| Set value accuracy (current) | ±0.05% + 2.5mA | ||
Note: Product specifications and descriptions in this document are subject to change without notice.
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Vpro Tempo VCSEL PROFILE TESTER
FAR FIELD PATTERN SYSTEM SPECIFICATION
| Model No. | RMK 30-VISSWIR | RMK 200 | RMK 400 |
| Resolution | 0.3M Pixels 640 x 512 Pixel | 2.2M Pixels 2048 X 1088 Pixel |
4.2M Pixels 2048 X 2048 Pixel |
| Frame Per Second | 60Hz | 170 fps | 90 fps |
| Pixel Size | 10 um | 5.5 um | |
| A/D Converter | 12 | 10 bit | |
| Dynamic Range | 60 dB | 60 dB | |
| Spectral Response | 400 ~ 1700 nm | 400 ~ 1000nm | |
| Interface | Camera Link | USB 3.0 | |
| F Number | F / 8 | ||
| Focus Length | 65 mm | ||
| Panel Area Size | 16 X 16 cm | ||
| working system | Windows 10 is downward compatible to Windows XP | ||
| Support language | Traditional Chinese / English | ||
| Memory capacity | 512MB or more | ||
| Hard disk capacity | 2 GB or more | ||
| monitor | Resolution 1366 X 768 or higher | ||
| Office function | Office XP or above must be installed | ||
| Software function | |||
| 2D 3D XY distribution curve | |||
| Contour map | |||
| Multi-zone/multi-point uniformity calculation function | |||
| Customizable threshold ratio judgment | |||
| Contour curve distribution map | |||
| Calculate different percentages of wave width and divergence | |||
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Data Logger data acquisition software
ZEL-100 Data LoMo Data Acquisition Software / Data LoMo Datalogger Software
Introduction
Data LoMo data acquisition software is used to simplify the data acquisition process. The friendly user interface shortens the learning time of the software. The user can name and unit each channel. The software itself automatically recognizes the DAQ and power meter heads of different manufacturers. As well as the TSI particle counter, other functions include querying historical records and exporting Excel data.
Features
- Real-time display and recording of multi-channel data to disk
- Display single-channel or multi-channel data graph
- Database (SQLite) Manage multi-channel data
- Export files compatible with EXCEL at the same time
- User management mode can record different user actions
- Label and data unit can be named for each point
- An external large monitor can display real-time data (optional hardware)
- External alarm function (optional hardware)
- Support Windows 7 32/64 bit or higher operating system
 |
 |
| Real-time data graph | historical data |
Specifications
| model | ZEL-100 Data LoMo |
| working system | Windows 10 is downward compatible to Windows XP |
| language | Traditional Chinese / Simplified Chinese / English |
| Memory capacity | 512MB or more |
| Hard disk capacity | 2 GB or more |
| monitor | Resolution 1366 X 768 or higher |
| Office features | Office XP or above must be installed |
| Model No. | IO – 200 | |
| Channels | 1 ~ 8 by Hardware | |
| Sensor Type
Analog Input |
Thermocouple | J, K, T, E, R, S, B, N, C, L, M, Thermistor, LDIN43710, 2/3-wire RTD |
| Voltage | ±15 mV, ±50 mV, ±100 mV, ±500 mV, ±1 V, ±2.5 V, ±5 V, ±10 V ±50 V, ±150 V | |
| Current | ±20 mA, 0 ~ 20 mA, 4 ~ 20 mA | |
| Other | Temperature / Humidity / Illumination ( Lux, UV, IR ) / Flow / Liquid Level / Gas sensor
For 4~20mA or 0~10V |
|
| Resolution | 16 bit | |
| Accuracy | 0.1% For Normal Mode, 0.1% For Fast Mode | |
| Sampling Rate | 10 Hz | |
| Interface | RS-485 | |
| Baud Rate | 1200 ~ 115200 bps | |
| Input Power | 10 ~ 30 VDC | |
| Optional | ||
| Sensor | ||
| Power Supply ( 12V / 24V ) | ||
| USB to RS-485 Converter | ||
| 485 Gateway | ||
| Lora Wireless transmitter receiver | ||
| Model No. | ZC5H |
| Channels | 1 |
| Sensor Type
Analog Input |
AC / DC Voltage, AC / DC Current, Potentiometer, Resistance, Transmitter, PT-100, Load Cell
Thermocouple J, K, T, E, R, S, B |
| Resolution | 15 bit |
| Accuracy | ±0.1% FSR, ±1Digi ( DC / Potentiometer / Resistance / Transmitter / PT-100 / Load Cell )
±0.2% FSR, ±1Digi ( AC ) |
| Sampling Rate | 16 Hz |
| Interface | RS-485 |
| Baud Rate | 4800 ~ 38400 bps |
| Input Power | 24 ~ 60 VDC / 100 ~ 240 VAC |
| Optional | |
| Sensor | |
| Power Supply ( 12V / 24V ) | |
| USB to RS-485 Converter | |
| 485 Gateway | |
| Lora Wireless transmitter receiver | |
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Air monitoring IoT
System characteristics
- Full solution (hardware and software)
- Cloud platform architecture
- Support mobile computer browser monitoring
- Support most of the current 90% Modbus RS485 devices
- Support different signal capture
- Mostly reduce the installation line, easy to erect, easy to maintain
- Real-time monitoring
- Historical curve
- Line, mail, SMS (optional) reminder function
Cloud features
- Real-time data monitoring (computer phone)
- Historical data management
- Alert notification
- Customer management
- Cloud access
Actual case application
 |
 |
 |
| Internal configuration of waterproof box | Large display | External installation |
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UV integrating sphere measuring system
SPECTRUM LOMO UV integrating sphere measurement system system characteristics
- Support spectrometer (customizable)
- Support power supply (customizable)
- Support thermostat (customizable)
- Standard lamp and absolute value correction
- Can measure continuously for a long time without interruption
- Data management function
- Make a formal report
| Power supply model | Itech 6132B |
| Rated output | 30V / 5A |
| Load regulation rate (voltage) | <0.01% + 2mV |
| Load regulation rate (current) | <0.05% + 1.5mA |
| Set value resolution (voltage) | 1 mV |
| Set value resolution (current) | 0.1 mA |
| Resolution of readback value (voltage) | 0.1 mV |
| Resolution of readback value (current) | 0.01 mA |
| Set value accuracy (voltage) | ±0.03% + 3mV |
| Set value accuracy (current) | ±0.05% + 2.5mA |
| Readback accuracy (voltage) | ±0.02% + 3mV |
| Readback accuracy (current) | ±0.05% + 2.5mA |
| Ripple (voltage) | <1mVrms/<4mVp-p |
| Ripple (current) | < 4mArms |
| Size cm3 | 21.45 x 8.82 x 35.46 |
| Weight kg | 7 |
System specifications
| Integrating sphere model | Labsphere 53SL |
| Sphere diameter | 13.5 cm |
| Outside diameter of sphere | 15 cm |
| Ball weight | 1Kg |
| Sphere color | Labsphere blue |
| Sphere material | Aluminum alloy |
| Ball coating material | Spectralon |
| Coating reflectivity | Up to 99% |
| SMA interface | O |
| External opening (maximum) | 5.08 cm |
| Detector port diameter | 1.25cm |
| Number of detector ports | 1 port |
| Maximum temperature resistance in the ball | 400°C |
| Standard spectrometer specifications | |
| model | EE 2063 |
| Detector style | Back thinned CCD |
| CCD pixels | 2048 X 64 |
| Wavelength range | 200 ~ 1100 |
| Optical resolution (FWHM) | 2.2 nm |
| Integration time | 5 ~ 24000 msec |
| Cooling device | Have |
| Wavelength accuracy | < ± 0.5 nm |
| Stray light | < 0.45%* |
| Measurement dynamic range | 2d 18h 40m 1s |
| Digital conversion | 16 bit |
| Digital interface | USB 2.0 |
LED Measurement data
- X Y Z
- Lumen-photopic vision, luminous flux `(Lumen)-dark vision
- Radiant flux (W), PPF (umol / Sec)
- Angular coordinates (x y u` v` v), correlated color temperature (K), Duv, color purity (%), color tolerance (SDCM)
- Dominant wavelength (nm), peak wavelength (nm), center wavelength (nm), centroid wavelength (nm), half-wave width (nm)
- Color rendering CRI, R1 ~ R15
- Color quality CQS Ver 9.0.3 Q1 ~ Q15
- TM-30-15 – Rfh,1 ~ Rfh,16 TM-30-Rf TM-30-Rg
Correction data management function
Spectrum LoMo provides correction data & correction data management functions, which can reduce the number of auxiliary lamp corrections in frequent tests, and allows users to manage correction data & correction data through file management.
Each set of files contains calibration data, calibration environmental reference data, and sample modification data. If there are measurement problems, it can help users and original engineers to quickly troubleshoot.