Integrating sphere detector with 150 mm diameter, configured to measure laser and laser diodes with a divergence up to 64° and peak powers up to 100 W.
38,1 mm Diameter Measurement Port
The ISD-15 integrating sphere detector with 150 mm diameter integrating sphere features a large 38,1 mm diameter measurement port making it suitable for use with larger diameter Laser beams like Laser range finders. The sphere is coated with Barium Sulfate (ODP97).
If needed, the measuring port can be reduced to smaller diameters with port reducers.
Broad Spectral Responsivity
The integrating sphere detector is equipped with a Si diode which covers the wavelength range from 400 nm to 1100 nm.
Detectors with Diffuser Windows
Diffuser windows mounted in front of the detectors enable the detectors to integrate reflected radiation from almost the complete integrating sphere surface minimizing hot-spots caused by the first beam reflection.
Detector in “Shadow Position”
The detector is positioned close to the measurement port for a large acceptance angle within the sphere without direct irradiation of the detector.
This eliminates the need to use a baffle.
Fiber Connector and Auxiliary Port
In addition to the detector port and the measurement port, the ISD-15 is also equipped with two additional ports:
- A SMA connector to connect a fiber from a spectralradiometer to the sphere
- An auxiliary port, e.g. to use for substitution correction
400 nm - 1100 nm Si Photodiode
60 µA/W @ 633 nm
|max. Radiant Power (CW)||
16 W *
* The max CW or average power is limit by the max operation temperature
|Max. signal current||
Calibration of spectral responsivity in A/W in 10nm steps from 400 to 1100nm
(400 - 1100) nm
(5 - 40) °C
|Produktname||Product Image||Description||Show product|
|P-9710||High-quality device for measurement of CW-, single pulse and modulated radiation.
Features: Optometer for all detector heads with calibration data plug. Measurement modes: CW, pulse energy, dose, peak-to-peak, effective luminous intensity (Blondel-Rey), data logger, battery, main power, RS232
|X1||Four-channel USB optometer designed for mobile use.
Features: Compact device for use with all photometric, radiometric, colorimetric, plant-physiologic and photo-biologic measurement heads from Gigahertz-Optik. USB interface. Battery operation or power supply USB.
Features: For use with most photometric and radiometric detectors supplied by Gigahertz-Optik. Modes: CW, pulse energy from both single and multiple flashes, effective luminous intensity (Blondel-Rey), data logger and others.
Features: State-of-the-art 8 channel laboratory optometer with a signal amplifier and sample & hold ADC per channel for clocked recording of the measurement signals. RS232 and IEEE488 interface. Trigger input and output.
|P-9202-4||Fast response time trans-impedance signal amplifier.
Features: High quality analogue amplifier with current-voltage conversion. Minimal diode offset voltage for short circuit operations. Bandwidths of up to 330kHZ. 1µs rise time. Large I-U amplification range from 10pA/V to 1mA/V.
|P-9202-5||Universal trans-impedance signal amplifier.
Features: High quality analogue amplifier with current-voltage conversion. Minimal diode offset voltage (1mV) for short circuit photodiode operations. 5µs to 20ms rise time depending on the amplification. Large I-U amplification range – 1×10-10A/V to 1×10-3 A/V.
|P-9202-6||Highly sensitive trans-impedance signal amplifier.
Features: High quality analogue amplifier with current-voltage conversion with minimal diode offset voltage (0.5mV) for short circuit photodiode operation of . 2.5s to 25s rise time depending on the amplification. Large I-U amplification range – 1×10-11A/V to 1×10-4 mA/V.