Filter-radiometer-based realization of candela and establishment of photometric scale at UME

“…Two photometer heads were used in the measurement system. The first photometer head, which had been calibrated against reference filter-radiometer [10,11], was used as an observation detector (OPH) in order to measure luminous intensity unit after reflection of light from the retroreflector surface. This detector is fixed to a commonly used observation angle of a = 1°30 0 with an accuracy of 0.001°and can easily move from 0.1°to 5.0°b y moving the detector, if retroreflection properties at different observation angles are required.…”

“…Observation and reference photometers were calibrated against reference filter-radiometer that traceable to the photometric scale of UME [10,11]. The first photometer was used as an observation photometer head for measuring luminous intensity unit reflected by the retroreflector in candela and the second one was used as a reference Fig.…”

Establishment of a computer-controlled retroreflection measurement facility to characterize photometric properties of retroreflectors

“…Two photometer heads were used in the measurement system. The first photometer head, which had been calibrated against reference filter-radiometer [10,11], was used as an observation detector (OPH) in order to measure luminous intensity unit after reflection of light from the retroreflector surface. This detector is fixed to a commonly used observation angle of a = 1°30 0 with an accuracy of 0.001°and can easily move from 0.1°to 5.0°b y moving the detector, if retroreflection properties at different observation angles are required.…”

“…Observation and reference photometers were calibrated against reference filter-radiometer that traceable to the photometric scale of UME [10,11]. The first photometer was used as an observation photometer head for measuring luminous intensity unit reflected by the retroreflector in candela and the second one was used as a reference Fig.…”

Establishment of a computer-controlled retroreflection measurement facility to characterize photometric properties of retroreflectors

“…The detector-based luminous intensity calibrations are carried out at UME on a six-meter long optical bench [6]. The optical bench contains: (i) an enclosed cabinet for mounting a lamp under the calibration (LUC), (ii) a rack with a computer for monitoring and to control of electrical parameters of the LUC, (iii) a carriage on rail for gliding the reference photometer (RP) from the LUC up to 6 m and (iv) a set of baffles between the LUC and the RP for reducing stray light (Fig.…”

“…The photometer head had been calibrated using new detector-based UME illuminance scale with expanded uncertainty of 0.30% (k = 2) [5,6]. Thus, the standard uncertainty in the illuminance responsivity value was estimated as u(s v ) = 0.019 nA/lx.…”

Estimation of Calibration Uncertainties in the Detector-Based Photometric Calibrations

“…The purpose of establishing spectral irradiance measurement and calibration facility is to provide services to various R&D laboratories and industries. In addition, the integrated value of spectral irradiance weighted by spectral luminosity function (V(O) function) over entire visible region (400 nm -800 nm), multiplied by photometric radiation equivalent (K m =683 lm/W) provides the value of illuminance, which multiplied with the square of the distance gives the value of the luminous intensity in terms of SI base unit candela (cd) [8,9]. Hence, it is also an important parameter to cross-check the scales of photometry.…”

Upgradation of a spectral irradiance measurement facility at National Physical Laboratory, India