Normalize I�{.t-3hp�
Normalize the map data to the total emitted flux from all sources. T�g�J6O,0�
This option allows you to have the flux and irradiance normalized to the total W�� �,�v0~
emitted flux. When this box is checked, TracePro divides the values in the `�@vksjx�u
irradiance map and the total flux by the emitted flux. This is especially useful for ��g�iW9b�_
calculating system transmittance for an optical system, or lighting efficiency for a KDA2
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lighting calculation. ��*Ue#Sade
Example 1: System Transmittance [�U�B*39D7
Suppose you need to calculate the system transmittance of an optical system. x�{Dw?6T�P
You would probably use the grid raytrace option, and the emitted flux is equal to S�1C�#5�=�
the sum of the flux in all the emitted rays. When you display an irradiance map, ^<���� ��
the system transmittance is equal to the total flux, displayed at the bottom of the �j7N�OYm5N
irradiance map window, divided by the emitted flux. To get the system (<}?}{YX�0
transmittance, check the Normalize to emitted flux box and press the Apply 4-$�kc�w�A
button. The map will be redisplayed, and the Normalized Flux value will be equal <J�vYCWX�`
to the system transmittance. a�( �N;|�<
Example 2: Lighting Efficiency 6�k<3,`VV|
Suppose you need to calculate the lighting efficiency of a luminaire in illuminating ~d ~oC$=TC
a plane. You would probably choose the Surface Source raytrace option, and the j8�rxhT�oC
emitted flux is equal to the flux you specified when you defined the sources. When �ro���e_H>
you display an irradiance map, the total flux incident on the observation plane is LW">9��;�n
displayed at the bottom of the window. The lighting efficiency is equal to the total CUBL/�U\�=
flux divided by the emitted flux. To get the lighting efficiency directly, check the _x,�(�576~
Normalize to emitted flux box and press the Apply button. The map will be %kgT=�<E�'
redisplayed, and the Normalized Flux value will be equal to the lighting efficiency �|tT�cJ\bG
of the luminaire.
