BTS256-EF WiFi Light-Color-Spectral-Flicker Meter with WiFi
for photopic and scotopic illuminance, S/P Ratio, EVE factor, luminous color, color rendering index and light spectrum with WiFi interface
The BTS256-EF WiFi is designed for portable high accuracy illuminance and luminous color measurements in all SSL and traditional lighting application areas thanks to its compact design, high-quality light sensor and precise cosine field of view.
What separates the BTS256-EF WiFi from the basic BTS256-E is its added ability to perform flicker measurements plus a WiFi interface enabling long distance wireless remote control of the light meter.
BiTec Light Sensor for More Accurate Light Measurement
One of the key features of the BTS256-EF Wifi is its BiTec light sensor. The BTS combines a silicon photodiode with a noise-free CMOS diode array. Through bilateral correction of measurement signals from both sensors, the BiTec sensor ensures extremely accurate photometric and spectral radiometric measurement values over a wide dynamic range.
Fast and Linear Silicon Photodiode Detector Plus Diode Array Detector
The traditional light detector employing a silicon diode and a photometric correction filter still provides the best dynamic range, linearity and response time . But it cannot perform color measurements and cannot actively adjust to the target light source's spectral function. This is why the Gigahertz Optik Bi-tech sensor is also equipped with a CMOS diode array detector that works with the filtered photodiode detector. Its precise spectral match to CIE photometric V(λ) spectral curve is optimized by correction using the diode array’s measured spectral data.
Flicker measurement entails detection of any AC component of the light signal with a 5kHz bandwidth. The BTS26-EF WiFi measures and displays flicker frequency, percent flicker and flicker index. The meter additionally performs a Fast Fourier Transformation in order to display other frequency components in the light signal. A technical note with more on flicker measurement is available by contacting the factory.
Optimized Signal to Noise Ratio
The noise component inherent in diode array light detectors has a significant effect on the signal to noise ratio (SNR) and hence on the quality of light measurement. A remote controlled shutter installed into the BiTec light sensor enables online compensation of the dark signals that are dependent on temperature and integration time.
Pulse Width Modulated (PWM) LED Lamps
The fast photodiode in the BiTec light sensor enables the BTS256-EF to automatically synchronize itself to the test light frequency operated in PWM mode.
Cosine Corrected Field of View
A cosine corrected field of view is absolutely necessary for accurate illuminance measurements. For extended illuminance sources the exactness of the cosine match has significant influence on the light meter measurement uncertainty. The BTS256-EF light meter is equipped with a 20mm diffuser window for a high level cosine match. Both BiTec light sensor detectors are centrally aligned behind the diffuser window ensuring the same viewing angle.
Through the cutting-edge Bi-Technology sensor concept, state-of-the-art electronics, online dark signal adjustment and the possibility to perform temperature compensation the BTS256-EF represents the next generation photometer for all light measurement applications.
Broad Range of Photometric and Colorimetric Measurement Quantities
A much broader diversity of measurands as those offered by conventional light meters is required for verification and testing of LEDs and SSL. The BTS256-EF Wifi measures fifteen different quantities for complete characterization of any light source:
- Ep photopic illuminance
- Es scotopic illuminance
- Es/Ep ratio of night and daylight vision
- EVE “Equivalent Visual Efficiency” factor
- Ee irradiance
- Eλ spectral irradiance
- x, y CIE 1931 color coordinates
- u‘, v‘ CIE 1976 color coordinates
- CT color temperature
- Δuv Deviation from the blackbody locus
- λdom dominant wavelength
- λp peak intensity wavelength
- λ0,5 spectral half-width
- Color purity
- CRI Ra and R1 to R15 Color Rendering Index
Data Displays for Standard Measurement Mode
Several displays where only the most necessary and common photometric measurements are shown are available. The cursor buttons are used to switch between the displays.
Flexible Expert User Displays
More experienced users can individually configure and save displays allowing any measurement quantity to be selected.
Info Display for Measurement Parameters
An information display is available that shows all relevant measurement and set-up parameters.
Easy Operation and Handling
Three control buttons with well-structured menu navigation make for easy and safe operation. In the standard measurement mode for example, no user selection is required - all common measurement quantities are displayed. In the expert mode the user has access to all measurement parameters.
Many Extra Useful Functions & Features
- Time delay allows selectable time to move out of detector view before light measurement
- Automatic display dimmer dims display during light measurement
- Acoustic signal can be set to mark the end of a light measurement
- Displays can be enlarged for easy reading across the room
- Illuminance distribution map can be created using a PC and single measurement points stored in the meter. The measurement points can be progressively processed and saved.
- Fast data logger measurement mode where time-clocked readings of the photodiode can be recorded at a maximum measurement rate up to 100ms
- Second data logger measurement mode that enables time-clocked recording of all measurands including the spectral data
- Date and real-time can be set
- ¼-20 tripod stand socket on bottom panel
- Diffuser window cap with leash
- Splash proof
Use without PC
The BTS256-EF WiFi is equipped with all the functions necessary for computer-independent use. The rechargeable batteries provide eight hours of operation. The USB adapter cable can be used to recharge the battery even without a PC.
Use with PC
A USB2 interface is provided for use with a PC enabling data exchange and battery recharging. WiFi interface is also included.
Supplied S-BTS256-E software offers all the functions necessary for measurement, display of readings and data transfer. The flexible desktop software concept enables the user to select which measurement value windows to display on the desktop. This can either be just a full screen display of lux measurement values or a matrix containing numerical and graphical display fields. Each desktop configuration can be saved for later use.
Software Development Kit
For self-programmers the S-SDK-BTS256-E Software Development Tool option is available. The SDK is compatible with Lab View from National Instruments, NET from Microsoft and C/C++. The SDKs simplify incorporation of the BTS256-E series meters into user based systems.
Who is the BTS256-EF Light-Color-Spectral-Flicker Meter Designed For?
For lighting manufacturers, architectural, display, transportation, entertainment and other lighting designers and engineers, field service personnel, health and safety officers requiring all of the features and functions of the BTS256-E plus the ability to remotely control the meter plus detect and quantify flicker components.
To Order The BTS256-E LED-Luxmeter, Call Us Today At 1-978-462-1818 .
|Lightmeter||DIN class B (DIN 5032 part 7)
DIN class A for f1´, u, f3 and f4 (DIN 5032 part 7)
|Light sensor||Bi-Technology Sensor with a photodiode broadband sensor and a 256 pixel CMOS diode-array. Integrated aperture for automatic dark signal adjustment.|
|Input optic||Diffuser window with 20mm diameter, cosine corrected field of view, F2 Error ≤3%|
|Broadband Sensor||Silicon photodiode with photometric correction filter f1≤6% (f1 A(z) korrigiert ≤3%). Transimpedance amplifier with adjustable integration time (from 100μs to 6s). Seven(7) measurement ranges with offset correction. 16 Bit ADC.|
|Maximum measurable illuminance value ≥199,999 lx
Noise equivalent illuminance value ≤ 0.01lx
|Calibration uncertainty of photopic Illuminance +/-2.2%|
|Spectral Sensor||CMOS diode-array spectral radiometer. Spectral range from 380 to 750nm. Pixel resolution 1.5nm. Optical resolution 10nm.|
|5.2ms to 30s integration time, manual or automatic control.|
|Automatic shutter for dark signal measurements with an integration time similar to that of the bright measurement. Shutter on/off response time 100ms|
|Measurement time by 199,999 lx ≤ 5ms (white light)
Measurement time by 100 lx ≤ 1s (white light)
|Scotopic measurement range spectral 1 to >199999 lx|
|Calibration uncertainty of scotopic Illuminance +/-2.2%|
|Color measurement range spectral 1 to >199999 lx|
|Peak wavelength: +/- 1nm|
|Dominant wavelength: +/- 1nm|
|Δx, Δy reproduce: Standard illuminant A +/-0.0001, LEDs +/- 0.0002 at 2000cts peak output|
|Δx, Δy uncertainty : Standard illuminant A +/-0.002, LED +/- 0.004|
|CCT Measurement range: 1700 to 17000 K|
|ΔCCT: Standard illuminant A 50K; LED to +/- 4% depending on the LED Spectrum|
|Color rendering index Ra and R1 to R15|
|Microprocessor||16Bit, 25ns instruction cycle time|
|Charging voltage||5VDC, 450mA per USB|
|Interface||USB2; Mini USB Port
WiFi 2.4GHz, external unscrewable antenna,
Transmission range > 100m within visual contact
|Temperature||Operation: -10 to +30°C, Storage: -10 to +50°C|
|160 x 85 x 60mm (LBH)
|Transport case||Plastic hard-top casing, 333 x 280 x 70mm, 650g|