Normalize v,op�yTwG|
Normalize the map data to the total emitted flux from all sources. �O!>#q4�&]
This option allows you to have the flux and irradiance normalized to the total 7/M[�T��\c
emitted flux. When this box is checked, TracePro divides the values in the �oM1C/=8
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irradiance map and the total flux by the emitted flux. This is especially useful for �j#3IF �*"
calculating system transmittance for an optical system, or lighting efficiency for a �.�Ao
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lighting calculation. 5O�Pvy,�e6
Example 1: System Transmittance 'hu'��}F{�
Suppose you need to calculate the system transmittance of an optical system. �+�PB�l3��
You would probably use the grid raytrace option, and the emitted flux is equal to 1
jL�Qi�j
the sum of the flux in all the emitted rays. When you display an irradiance map, c�Rs\()W��
the system transmittance is equal to the total flux, displayed at the bottom of the p%iZ�6�H>G
irradiance map window, divided by the emitted flux. To get the system "�%�Ief�4
transmittance, check the Normalize to emitted flux box and press the Apply B�4HMs$> �
button. The map will be redisplayed, and the Normalized Flux value will be equal Ev�e�,*ATI
to the system transmittance. 3w>1��R>�7
Example 2: Lighting Efficiency Kt�Jc9dnX�
Suppose you need to calculate the lighting efficiency of a luminaire in illuminating �EP�wU{*F�
a plane. You would probably choose the Surface Source raytrace option, and the z�k1]����?
emitted flux is equal to the flux you specified when you defined the sources. When tSni[,4K�q
you display an irradiance map, the total flux incident on the observation plane is D?d�S/�agA
displayed at the bottom of the window. The lighting efficiency is equal to the total %<�+K�u11�
flux divided by the emitted flux. To get the lighting efficiency directly, check the > {d9��z9O
Normalize to emitted flux box and press the Apply button. The map will be ^�:$ShbX"P
redisplayed, and the Normalized Flux value will be equal to the lighting efficiency �d��joP`r�
of the luminaire.
