Application of JETI Spectroradiometer specbos 1211

Measurement of Flash Lamps and other Pulsed Light Sources

Many light sources do not emit continuously, but in a pulsed mode. Typical examples are flash lamps, emergency signs, PWM powered LEDs, but also broadcast and consumer monitors. The repetition rates can lie between 1 Hz or less (e.g. repeated flash lamps) to some 100 Hz (e.g. monitors) or 1 ... 2 kHz (LED lamps). Furthermore there exist sources with only a single shot, e.g. the flash light of a camera.

pulsedsource

Measuring objects:

  • Pulsed sources as emergency lights, flash lamps, shoppered lamps and slowly pulsed LEDs
  • Continuous and quasi-continuous sources as TV, Monitors, LCD-, LED-Displays, digital projectors, traffic lights, car lights
A non synchroneous measurement of continuously pulsed sources is only possible if the pulse length is much shorter than the measurement scan time. If this condition is not satisfied the measurement has to be synchronized to the pulse frequency of the source. Otherwise the measuring results will be not precisely. This can easily be checked with repeated measurements. In case of this problem the results will fluctuate. Averaging will reduce the effect, but not solve the problem. This can only be done with a synchronization of the measurement with regard to the pulsed source.
 

flash lamp measurement small


Pulsed sources are often point like sources and therefore they will be measured with a luxmeter or with regard to specbos in illuminance mode using the diffusor cap. Monitors are measured in luminance mode. specbos 1211 measures the cycletime of a pulsed source with an additional detector in the front face. The following spectral measurement will be synchronized with the measured source cycle. Radiometric and photometric values are indicated in exposure per puls (H).

Luminous Exposure 250

The relevant quantity for the characterization of pulsed sources is their Effective intensity Ieff. It is the Luminous intensity of a steady light of the same relative spectral distribution as the flashing light, which would have the same luminous range as the flashing light under identical conditions of observation [1].

It is related to a single flash and defined by the following formula:

IeffInt

The effective Intensity depends from the pulse duration and from the pulse shape. The following two diagrams show two examples of pulse sequences:

 

pulsesequence neglectible

Pulse sequence with neglectible pulse length (click to enlarge)

pulsesequence non neglectible

Pulse sequence with non neglectible pulse length (click to enlarge)


Instruments, measuring only the integral of the flash and not the waveform and duration of the pulse, can only be used for sources as flash lamps (Xe), where the pulse duration t2 - t1 is neglectible compared to the Blondel-Ray factor a (0.2 s).
In this case it is possible to use the simple formula:
Ieff5Hd2
Single pulses:
The measurement of single pulses needs a triggering of the measurement by the light source or vice versa.


[1]     Ohno, Yoshi: Physical measurement of flashing lights - now and then.