Expression 10: "y" Subscript, 3 , Baseline equals StartFraction, left parenthesis, "y" Subscript, 1 , Baseline plus "y" Subscript, 2 , Baseline , right parenthesis Over 2 , EndFractiony3=y1+y22
10
Mapped Cold curve to PWM output
11
Expression 12: "y" Subscript, 4 , Baseline equals ( "y" Subscript, 1 , Baseline minus 2700 ) * ( 1024 minus "C" Subscript, 2 , Baseline ) / left parenthesis, 6200 minus 2700 , right parenthesis plus "C" Subscript, 1 , Baseliney4=(y1−2700)*(1024−C2)/6200−2700+C1
12
Mapped Warm curve to PWM output
13
Expression 14: "y" Subscript, 5 , Baseline equals ( "y" Subscript, 2 , Baseline minus 2700 ) * ( 1024 minus "C" Subscript, 1 , Baseline ) / left parenthesis, 6200 minus 2700 , right parenthesis plus "C" Subscript, 2 , Baseliney5=(y2−2700)*(1024−C1)/6200−2700+C2
14
Potential Lumens from Cold white (c1) and Warm white (c2)
15
Expression 16: "C" Subscript, 1 , Baseline equals StartFraction, left parenthesis, ( "y" Subscript, 1 , Baseline minus 2700 ) * ( 100 minus 0 ) / left parenthesis, 6200 minus 2700 , right parenthesis plus 0 , right parenthesis Over 100 , EndFraction times 245C1=(y1−2700)*(100−0)/6200−2700+0100·245
16
Expression 17: "C" Subscript, 2 , Baseline equals StartFraction, left parenthesis, ( "y" Subscript, 2 , Baseline minus 2700 ) * ( 100 minus 0 ) / left parenthesis, 6200 minus 2700 , right parenthesis plus 0 , right parenthesis Over 100 , EndFraction times 273C2=(y2−2700)*(100−0)/6200−2700+0100·273
17
Expression 18: "y" Subscript, 7 , Baseline equals StartFraction, left parenthesis, "y" Subscript, 4 , Baseline minus 1269 , right parenthesis Over 1269 , EndFraction times 255 positive 255y7=y4−12691269·255+255
18
Expression 19: "y" Subscript, 8 , Baseline equals StartFraction, left parenthesis, "y" Subscript, 5 , Baseline minus 1297 , right parenthesis Over 1297 , EndFraction times 255 positive 255y8=y5−12971297·255+255
