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0.02 0.02 0.03 0. 5 0. 7 0. 0) + + + + + + + + + + + -+ + - +- - - + 0. C 0+10 010 N 0.02 0.03 0 . 9 , 50 11 2 9 7 .65 1 0 1 7 0.17 0.1 0.16 ,19 0.22 0.22 17 10.05 0.02 0.01 + + + + J;le + + + + + + + + + + + ' + + + 00 N x 0.02 0 , 04 .0 0.21 1.78 8 6 2�[641, 67 9W 13tO 0 , 0.20 0.27 0.36 0.4 , 58 0 , 47 0 , 0 , 02 0.01 + + + + + + + + + ++ + + + + + + + + E 6' ZZ M 89,Z L.OZ N 0.02 0.03 0.0 0 1 0. 1 4, 10 , 13,1 4 ,1 1 4 1 4 ,40 6 1 5 10, , ,03 0,02 + + + + + ++ + + + + + 1,11.tj + + + + + + + + + + 0,02 0,03 0 6 0,1 ,63 4, 2 8 H0 1 4 ,72 6 1 1416 0 4 1214� .26 3,17 0 05 0,02 + + + + + + + + + + + + + + �;J411 + + 0.02 0.03 0.04 .06 , 35 2.33 2.40 2.85 2 0 7 , 64 5 2.13 , 6 , 4 0.74 2.15 5.18 6.34 8.98 28 . A.% 0 06 0.02 + + + + + + + + + + + + + + + + + + + + + + I 0.03 0.03 0.0 0, 67 0 40 13, 6 7.18 1217� 8 loll 11;19.83 1.08 12'4 7 7 9 1.05 2 6.62 0 07 0.03 + + + + + + + + + ++ + + + + A A 0.03 0.04 5 10 4, .55 10.98 9,15 4,41 8.27 2,18 0.91 1,03 5.1 L 1,33 1 12f 18 9 1.38 2 , 6.59 0 08 0.04 + + + + + + �+ + + + + + + + + + + L L X 0.03 0 ,04 0 ,OS ,07 0 ,1 13,27 ,06 59 L ,38 ,89 1.01 51 1,46 4 9 8 1.24 30 ,7 6.49 0 09 0.04 + + + + + + + + + + + J+,T,7� + A+ + o D } 0,04 0,05 0, 0. 0 0 57 23 1 5.43 0 , 86 T. X82 1, 97 6 17 1,51 51+,12 lLxl,0 2 1.07 2 6.54 0. 1 0 , 05 + + + \\ + + m + + + + + �N ,1 4, 6 9 4.1 73 7 �'11.28�f 0 +05 0 +07. i l + 5 + A + + + L + 2 + 0 05 0 1 *61 5+42 25+46 18.62 3 , 4+59 0 + 1 X 0.05 0.07 0 , ,1 0 , 14.9 , 29 3.2 , 55 5 , 3 4 6 , 87 �0 ,16 09� + + + + + + + z + + T+ 1ff 1+ 28, + + o 0.06 0.0 ( 0 , 2 ,17 31 rl 6 ,12 3 , 167 c� 2 , 4 88 1 8 5 , 74 23 , 18 , 46 11,85 6.81 0.22 0,12 + + ,+ + + + + + + + + 0108 0,12 21 ,38 ,69 �`46 7.42 4.90 ,53 z 12, ?` 5,34 1 7 ,38 5, ,81 3 6,81 0,33 0,17 r t 40 4548 15,91 55 6,90 2 30 1,68 1.88 2.19 2.42 6.87 21.43 18.10 12,71 26, 0,05 0, 9 0,16 0,32 0, 1 ,0 8,97 18, , �► + + + + + + + + + + + + + + + + + + 0 7+11 0+51 0+23 ®, 05 0 , 09 0 , 0.47 ,14 0 10 , 0 3`1, 0 24 , , 73 4 , 2 , 49 2 , 17 '9 MAINTAINED FOOTCANDLE VALUES AT 0' ABOVE GRADE, 65 , 57 0 1 USING A .75 MAINTENANCE FACTOR. 0.0 4 0. 8 ,19 0.60 60 5.19. , 76 25.33 33 22 , 73 25.80 80 24.36 20.90 90 20.73 20.49 19.98 98 18 , 00 9,83 83 3.35 5.0 9 17.19 20.34 22.0 9 21.70 22.82 24.40 40 29.66 29.60 60 24.53 25.49 6.9 1.20 0.32 A 1L1 0+01 0 +03 0 0+ 2+ 5. L7 +i— W1 8 4 2 1, 8 2, 08 4 ,1U 1 4+91 0.64 0+ 5 A A A A A A A A A A A A 0.01 0 . 0 , 02 .10 0.41 0.90 1.04 0.95 0,89 0.89 0.69 0 , 0 , 50 0.42 0.43 0 , 2 0.17 0.19 0 , 25 0.31 0.37 0.41 0.51 0.66 0.84 0.84 0.72 0.53 0,20 0 0. 3 Aggregate Summary #POINTS 615 L,CO.OZ s Q ,�t•S�Z`� �_� AVERAGE 5.6 0.00 +01 0.01 0 +0 0 + 1I -- Qj--- 4_L2a__ Q -+a%---0 27 Q j-a.� ---- LIS 0 ,13 0 , Q_---0D�.__.0 -- -- ..�8.__Q�.11Q.�1�---4 ..�0 _ ___0,25 0,24 0,19 0,13 ,04 ,01 0,01 MAXIMUM 37,6 +--�---_____�._______ + + + + + MINIMUM 0.0 AVG/MIN 1694.6 0.00 0.00 0.01 0.02 0. 0,11 0.13 0.13 0.14 0,10 /�IWo,�54 �,,��y1j �, 0,04 0.05 0,05 0.07 0.11 0.12 0,1i1 0.05 0,02 0.01 0.01 MAX/MIN 11349,7 + + + + + , 1+ + + + + , + + + + + + + + + + + + + + + , + + + + + Based on the information provided, all dimensiona and luminaire locations shown represent recommended positions. The en sneer and/or architect must determine applicability of the layout to existing future field conditions. This lighting pattern represents illumination levels calculated from laboratory data taken under controlled conditions In accordance with III minating Engineering Society approved methods. Actual performance of any manufacturers luminaire may vary due to variation in electrical voltage, tolerance In lamps, and other variable field conditions. I 461 A OMelan of LSI kWuobtw Ina6 logpA0. P.06 = 4=WM1L a (613) 793-3200 4 FAX (613) 793—M GHTING PROPOSAL FC Pearson Ford Zionsville, IN sc*m 1"=40' Lo-- OAm 9-8-92 AKL SHEET 0 i` 1` t T Y T t T ',° T V T t Y M' T V t 0.010.01 0.02 0.03 0.04 0,07 0.08 0.08 0.09 0.08 0.07 0.06 0.07 0.06 0.05 0.04 0.04 0.04 + + + + + + + + + + + + + + + + 0+01 0+0,21 0+0�0c%0243 0+0 0+18 0+19 0+17 0+23 0+20 0+14 + 2 0+17 0+1 0+09 0+ 6 0+05 0+05 �s o� 4 w lfi'�t�� M 85 Z Lo N 0.02 0.02 .03 0 10 0 , 25 0.81 0,68 0.65 0.89 0.83 0.43 0.60 0.78 0.54 0.16 0.07 0.07 + + + + + + + + + + + + + + + + + 0.02 0.02 0.03 0. 5 0. 7 0. 0) + + + + + + + + + + + -+ + - +- - - + 0. C 0+10 010 N 0.02 0.03 0 . 9 , 50 11 2 9 7 .65 1 0 1 7 0.17 0.1 0.16 ,19 0.22 0.22 17 10.05 0.02 0.01 + + + + J;le + + + + + + + + + + + ' + + + 00 N x 0.02 0 , 04 .0 0.21 1.78 8 6 2�[641, 67 9W 13tO 0 , 0.20 0.27 0.36 0.4 , 58 0 , 47 0 , 0 , 02 0.01 + + + + + + + + + ++ + + + + + + + + E 6' ZZ M 89,Z L.OZ N 0.02 0.03 0.0 0 1 0. 1 4, 10 , 13,1 4 ,1 1 4 1 4 ,40 6 1 5 10, , ,03 0,02 + + + + + ++ + + + + + 1,11.tj + + + + + + + + + + 0,02 0,03 0 6 0,1 ,63 4, 2 8 H0 1 4 ,72 6 1 1416 0 4 1214� .26 3,17 0 05 0,02 + + + + + + + + + + + + + + �;J411 + + 0.02 0.03 0.04 .06 , 35 2.33 2.40 2.85 2 0 7 , 64 5 2.13 , 6 , 4 0.74 2.15 5.18 6.34 8.98 28 . A.% 0 06 0.02 + + + + + + + + + + + + + + + + + + + + + + I 0.03 0.03 0.0 0, 67 0 40 13, 6 7.18 1217� 8 loll 11;19.83 1.08 12'4 7 7 9 1.05 2 6.62 0 07 0.03 + + + + + + + + + ++ + + + + A A 0.03 0.04 5 10 4, .55 10.98 9,15 4,41 8.27 2,18 0.91 1,03 5.1 L 1,33 1 12f 18 9 1.38 2 , 6.59 0 08 0.04 + + + + + + �+ + + + + + + + + + + L L X 0.03 0 ,04 0 ,OS ,07 0 ,1 13,27 ,06 59 L ,38 ,89 1.01 51 1,46 4 9 8 1.24 30 ,7 6.49 0 09 0.04 + + + + + + + + + + + J+,T,7� + A+ + o D } 0,04 0,05 0, 0. 0 0 57 23 1 5.43 0 , 86 T. X82 1, 97 6 17 1,51 51+,12 lLxl,0 2 1.07 2 6.54 0. 1 0 , 05 + + + \\ + + m + + + + + �N ,1 4, 6 9 4.1 73 7 �'11.28�f 0 +05 0 +07. i l + 5 + A + + + L + 2 + 0 05 0 1 *61 5+42 25+46 18.62 3 , 4+59 0 + 1 X 0.05 0.07 0 , ,1 0 , 14.9 , 29 3.2 , 55 5 , 3 4 6 , 87 �0 ,16 09� + + + + + + + z + + T+ 1ff 1+ 28, + + o 0.06 0.0 ( 0 , 2 ,17 31 rl 6 ,12 3 , 167 c� 2 , 4 88 1 8 5 , 74 23 , 18 , 46 11,85 6.81 0.22 0,12 + + ,+ + + + + + + + + 0108 0,12 21 ,38 ,69 �`46 7.42 4.90 ,53 z 12, ?` 5,34 1 7 ,38 5, ,81 3 6,81 0,33 0,17 r t 40 4548 15,91 55 6,90 2 30 1,68 1.88 2.19 2.42 6.87 21.43 18.10 12,71 26, 0,05 0, 9 0,16 0,32 0, 1 ,0 8,97 18, , �► + + + + + + + + + + + + + + + + + + 0 7+11 0+51 0+23 ®, 05 0 , 09 0 , 0.47 ,14 0 10 , 0 3`1, 0 24 , , 73 4 , 2 , 49 2 , 17 '9 MAINTAINED FOOTCANDLE VALUES AT 0' ABOVE GRADE, 65 , 57 0 1 USING A .75 MAINTENANCE FACTOR. 0.0 4 0. 8 ,19 0.60 60 5.19. , 76 25.33 33 22 , 73 25.80 80 24.36 20.90 90 20.73 20.49 19.98 98 18 , 00 9,83 83 3.35 5.0 9 17.19 20.34 22.0 9 21.70 22.82 24.40 40 29.66 29.60 60 24.53 25.49 6.9 1.20 0.32 A 1L1 0+01 0 +03 0 0+ 2+ 5. L7 +i— W1 8 4 2 1, 8 2, 08 4 ,1U 1 4+91 0.64 0+ 5 A A A A A A A A A A A A 0.01 0 . 0 , 02 .10 0.41 0.90 1.04 0.95 0,89 0.89 0.69 0 , 0 , 50 0.42 0.43 0 , 2 0.17 0.19 0 , 25 0.31 0.37 0.41 0.51 0.66 0.84 0.84 0.72 0.53 0,20 0 0. 3 Aggregate Summary #POINTS 615 L,CO.OZ s Q ,�t•S�Z`� �_� AVERAGE 5.6 0.00 +01 0.01 0 +0 0 + 1I -- Qj--- 4_L2a__ Q -+a%---0 27 Q j-a.� ---- LIS 0 ,13 0 , Q_---0D�.__.0 -- -- ..�8.__Q�.11Q.�1�---4 ..�0 _ ___0,25 0,24 0,19 0,13 ,04 ,01 0,01 MAXIMUM 37,6 +--�---_____�._______ + + + + + MINIMUM 0.0 AVG/MIN 1694.6 0.00 0.00 0.01 0.02 0. 0,11 0.13 0.13 0.14 0,10 /�IWo,�54 �,,��y1j �, 0,04 0.05 0,05 0.07 0.11 0.12 0,1i1 0.05 0,02 0.01 0.01 MAX/MIN 11349,7 + + + + + , 1+ + + + + , + + + + + + + + + + + + + + + , + + + + + Based on the information provided, all dimensiona and luminaire locations shown represent recommended positions. The en sneer and/or architect must determine applicability of the layout to existing future field conditions. This lighting pattern represents illumination levels calculated from laboratory data taken under controlled conditions In accordance with III minating Engineering Society approved methods. Actual performance of any manufacturers luminaire may vary due to variation in electrical voltage, tolerance In lamps, and other variable field conditions. I 461 A OMelan of LSI kWuobtw Ina6 logpA0. P.06 = 4=WM1L a (613) 793-3200 4 FAX (613) 793—M GHTING PROPOSAL FC Pearson Ford Zionsville, IN sc*m 1"=40' Lo-- OAm 9-8-92 AKL SHEET 0 i` 1` 0.02 0,04 0,06 0, 3 0. 1 1. s __ 0, 0,18 0,11 + + + + + + + + + + + + + + + + �; + + 0,03 0.05 0, A7 .67 ,5') I1�,11 8,4'4 , 6 9 0, 0,14 ,16 0.22 0,27 20 0,08 0.03 0,02 + + ++� ; +: 71 4 ,9 6 0 , + + i �. , + + + + + I + + + + + ,l + + + E ! ) ! co � i { ` , r r J 0,04 0,06 10 0,24 1,77 8 5�, �, �11 ; ,i6 P,56 i ,, 2 P ,1 4 6� 0, 0,20 0,20 0,30 0. ,87, 0.71 0,24 0,05 0.03 + + + + �' + + + + + + + + + + + + + + + - ' E , 96'12ZZ M w8S,Z L.OZ N 0.03 0 , 05 0 , 0 0 ,1 0 , 3 , 1 10 , 6 61 r;IK�2 ,9I , 96 , X4120 , 4� 8 0 , , 07 0.03 + + + + + + + 1 I + + + + �+ + + + + + + + + + + rL, 4, 7 ,34t 4� 0 ' 0,�3, 0 2 3� ,' 3 4�1 ,94 0.82 0. 0 ,05 0+05 0+07 2 0+30 +76 + , + , + 13+86; +59`�� 1 ,+ + !+ + + -_-�, + + + l I 0 ,04 0 ,07 , 12 ,27 ,75 4.33 2,31 2,4 ,99 1 f5� ,73 ,�6 1, 0 ,87 ,1 , 0 ,44 1,41 4,68 8,87 29,88 ,73 1,00 0,16 0,OE + + ++ + +� } + + !�;�21 + + + t + �+ c + + + + t + - 1 + + + J j � l _ f► 0,06 0, 0 0,2 0, 7 0 64 2 0 1, ,8 0,67 0.63 a, , �4 2� 6' 8 14 2;-2 1.32 0 ,19 0 , 0 + + + + +y + + + -+ + i D+ + 0 ,07 0,15 ,48 ,8 0 ,97 7,65 3,74 7_,49 1.88 0.81 0.99 4,2 L 0.75 ,1�3�1 }� c6 6 +16 22+7 ; 1,38 0 ,20 ,07 + + + + + + + �+ + + + + + + t + + + L L i 0.05 0 , 0 0.21 ,57 3,3 4 1,68 4,i24 5;17 ,68 0,98 53 -0 0,80 7 1 , 1 4 ,69 ,7' 1,41 0,22 ,08 + + + + + +L + + + + �+ + + + + + D - a ; l 1, 2 114 2 , 30 t 60 `x,'76 , i 0.06 ,12 0. + + + T73 1 +92 3 57 © 0 +82 3�+�1 !21 + �� 38 I1+03 2 }6 1 +39 0 +23 +0`� _ 9 A 0,0 0,15! 47 33 , 57 7 , 6 , 93 1 86 1-5--,68 0 , 53 0 0 , 84 3 , 31 15 , 92 24.0 3 34.33 1.45 0 , 24 0,09 + + + + + + + L++ X + o + + + f , �+ + + __-L .�J -� DI x } O`- 0.05 0. 9 0 , ,5 6.7 I 5,7L-4, 49 z .8Z 3,31 2 , 1 ,32 25,551 1 ,51 0 ,25 0 10 0.06 + 11 Q� 0 , 1 2+34 1 +03 3+4� 15 ' � 1 + _�_+_�4__�, 41 94 3+48 15+39 23+05 33}08 22} 1,48 0.26 0.11 i ? D: 33 , 30 1-6. 73 9,94 2 , 71 08 " Z 5. :X59 2.99 1 0 `' 97 .59 -,- LL 3 , ; Y 4 ,11A1;5E;t 1, 49 0.30 0 ,13 0 +07 0.14 + + + + ---� +� + i - + + + + : �+ + + + O,OS 0, 9 0,17 0,42 1, 1 48, 7,88 2 8�- 63 X36 13,E __F_,9$ 6,72 1E,77 1,UO 1,06 ,1,11 1,31 + 4.21-14,56-21.54 33,74 3 1,54 0,41 0,17 t + + t + t t + + + + + + + + + + + + + �1} + t + 7 0.05 0 10 0 + 0 +54 +23 � 47 + 2 12+65 5 �7- , SO I + 9 +�5 =_� 1 - 4 +z8 ` 2 4� ---� - 4 } 0 3 =, R- --- � 4-+8 � 6+ :6��1 * 64-�.L+96 + � 2+54 0 7---L+�S + -- i i k _ ..� 0,05 0,10 ,25 0,74 4.71. 64,94 39,90 27.03 22,41 22,53x21,91 22,53 22,31 20,13 12.04 3.70 4,99 20,64 24.05 21.97 25.43 25,75 26,72 30,24 30.36 30,46 25,91 5,3 1.21 0,44 + + + + + t + + + + + + + + + + + + + + + + + + + + + + + +, a 1 0,04 0, 8 0,1 0, 2 3,11 8, �9 0 1 7 , 7 3 ,8 3,48 5,4' _�, _1 -.- �- _�4 _ S,8 1,15 0,x_8 f A A A A A A A A A A A A_ 0.03 0. 09 .25 0.90 2.05 3.49 2,95 2.51 2.77 1.89 2. 2,15 1.93 2.00 1.0 1.02 0.74 1.35 1.23 1.83 1.57 1.92 1.98 1.84 2.27 1,65 1 61 0.6 0i.4-0 0 , 't 2 ,tZ'�SS u-VL,C0.0z S 0,02 .03 0,04 7 0,1 0 7 Q+56 _ 0,420.2 Q.,3Q�Q. 0,23 0, ,. - -Za D-.13 n 0 X29 0,32 0,29 0,23 0,11 6 0,04 0,01 0,02 0,03 0,04 0 .P.13 0.18 0,18 0,14 0,1I,i Based on the Information provided, all dimensions and luminaire locations shown represent recommended positions, The engineer and/or architect must determine applicability of the layout to existing or future ,Field conditions. This lighting pattern represents illumination levels calculated from laboratory data taken under controlled conditions in accordance with Illuminating Engineering Society approved methods. Actual performance of any manufacturer's lu,rninaire may vary due to variation In electrical voltage, tolerance In lamps, and other variable field conditions. 0.06 0.06 + + �-o 0+11 0+12 0+111 0+ 0.05 0.03 0.02 I Rev. I 0.01 0.02 0.02 0,03 0.04 0.05 0 , 05 0,05 0,05 0.05 0.05 0.05 0.05 0.04 0.03 0,03 + + + + + + + + + + + + + + + + 0,02 0,02 0,03 0,04 0,061 0,090,10 0,10 0,10 0,09 0,09 0,09 0,09 0,09 0,08 0,06 0,04 0,04 + + + + + + 400 W WALL PACK 1 455 A Mora of LSI ln& -bus km + 5 + + 0,02 0.03 0+004,0 0,19 0,30 0.33 0,38 0,30 0,27 0,28 0,33 0,27 0,28 0,30 + 0, 6 + 0,08 + 0,05 + + + 4S 4" + W + + + + + + + + + GBL -D -22 -511 -TYPE 5 2 0 ,.- 2140 PEARSON FORD I. -VT -172 T -b2 M 8S Z OZ N GBL -A-24-511 0.03 0 0.26 1.07 3+6 4+28 1.99 2+02 314 2+86 1.62 3+ 10 E4+40 1,80 O, y 0+ 1 0.08 +05 wAm/AmwLY 1'�- LQ_..10940 ASSEMBLY1 ASSEMBLIES EACH CONSSTINCOF: 92055 DAM 7/S/92 BILL 0.02 0,04 0,06 0, 3 0. 1 1. s __ 0, 0,18 0,11 + + + + + + + + + + + + + + + + �; + + 0,03 0.05 0, A7 .67 ,5') I1�,11 8,4'4 , 6 9 0, 0,14 ,16 0.22 0,27 20 0,08 0.03 0,02 + + ++� ; +: 71 4 ,9 6 0 , + + i �. , + + + + + I + + + + + ,l + + + E ! ) ! co � i { ` , r r J 0,04 0,06 10 0,24 1,77 8 5�, �, �11 ; ,i6 P,56 i ,, 2 P ,1 4 6� 0, 0,20 0,20 0,30 0. ,87, 0.71 0,24 0,05 0.03 + + + + �' + + + + + + + + + + + + + + + - ' E , 96'12ZZ M w8S,Z L.OZ N 0.03 0 , 05 0 , 0 0 ,1 0 , 3 , 1 10 , 6 61 r;IK�2 ,9I , 96 , X4120 , 4� 8 0 , , 07 0.03 + + + + + + + 1 I + + + + �+ + + + + + + + + + + rL, 4, 7 ,34t 4� 0 ' 0,�3, 0 2 3� ,' 3 4�1 ,94 0.82 0. 0 ,05 0+05 0+07 2 0+30 +76 + , + , + 13+86; +59`�� 1 ,+ + !+ + + -_-�, + + + l I 0 ,04 0 ,07 , 12 ,27 ,75 4.33 2,31 2,4 ,99 1 f5� ,73 ,�6 1, 0 ,87 ,1 , 0 ,44 1,41 4,68 8,87 29,88 ,73 1,00 0,16 0,OE + + ++ + +� } + + !�;�21 + + + t + �+ c + + + + t + - 1 + + + J j � l _ f► 0,06 0, 0 0,2 0, 7 0 64 2 0 1, ,8 0,67 0.63 a, , �4 2� 6' 8 14 2;-2 1.32 0 ,19 0 , 0 + + + + +y + + + -+ + i D+ + 0 ,07 0,15 ,48 ,8 0 ,97 7,65 3,74 7_,49 1.88 0.81 0.99 4,2 L 0.75 ,1�3�1 }� c6 6 +16 22+7 ; 1,38 0 ,20 ,07 + + + + + + + �+ + + + + + + t + + + L L i 0.05 0 , 0 0.21 ,57 3,3 4 1,68 4,i24 5;17 ,68 0,98 53 -0 0,80 7 1 , 1 4 ,69 ,7' 1,41 0,22 ,08 + + + + + +L + + + + �+ + + + + + D - a ; l 1, 2 114 2 , 30 t 60 `x,'76 , i 0.06 ,12 0. + + + T73 1 +92 3 57 © 0 +82 3�+�1 !21 + �� 38 I1+03 2 }6 1 +39 0 +23 +0`� _ 9 A 0,0 0,15! 47 33 , 57 7 , 6 , 93 1 86 1-5--,68 0 , 53 0 0 , 84 3 , 31 15 , 92 24.0 3 34.33 1.45 0 , 24 0,09 + + + + + + + L++ X + o + + + f , �+ + + __-L .�J -� DI x } O`- 0.05 0. 9 0 , ,5 6.7 I 5,7L-4, 49 z .8Z 3,31 2 , 1 ,32 25,551 1 ,51 0 ,25 0 10 0.06 + 11 Q� 0 , 1 2+34 1 +03 3+4� 15 ' � 1 + _�_+_�4__�, 41 94 3+48 15+39 23+05 33}08 22} 1,48 0.26 0.11 i ? D: 33 , 30 1-6. 73 9,94 2 , 71 08 " Z 5. :X59 2.99 1 0 `' 97 .59 -,- LL 3 , ; Y 4 ,11A1;5E;t 1, 49 0.30 0 ,13 0 +07 0.14 + + + + ---� +� + i - + + + + : �+ + + + O,OS 0, 9 0,17 0,42 1, 1 48, 7,88 2 8�- 63 X36 13,E __F_,9$ 6,72 1E,77 1,UO 1,06 ,1,11 1,31 + 4.21-14,56-21.54 33,74 3 1,54 0,41 0,17 t + + t + t t + + + + + + + + + + + + + �1} + t + 7 0.05 0 10 0 + 0 +54 +23 � 47 + 2 12+65 5 �7- , SO I + 9 +�5 =_� 1 - 4 +z8 ` 2 4� ---� - 4 } 0 3 =, R- --- � 4-+8 � 6+ :6��1 * 64-�.L+96 + � 2+54 0 7---L+�S + -- i i k _ ..� 0,05 0,10 ,25 0,74 4.71. 64,94 39,90 27.03 22,41 22,53x21,91 22,53 22,31 20,13 12.04 3.70 4,99 20,64 24.05 21.97 25.43 25,75 26,72 30,24 30.36 30,46 25,91 5,3 1.21 0,44 + + + + + t + + + + + + + + + + + + + + + + + + + + + + + +, a 1 0,04 0, 8 0,1 0, 2 3,11 8, �9 0 1 7 , 7 3 ,8 3,48 5,4' _�, _1 -.- �- _�4 _ S,8 1,15 0,x_8 f A A A A A A A A A A A A_ 0.03 0. 09 .25 0.90 2.05 3.49 2,95 2.51 2.77 1.89 2. 2,15 1.93 2.00 1.0 1.02 0.74 1.35 1.23 1.83 1.57 1.92 1.98 1.84 2.27 1,65 1 61 0.6 0i.4-0 0 , 't 2 ,tZ'�SS u-VL,C0.0z S 0,02 .03 0,04 7 0,1 0 7 Q+56 _ 0,420.2 Q.,3Q�Q. 0,23 0, ,. - -Za D-.13 n 0 X29 0,32 0,29 0,23 0,11 6 0,04 0,01 0,02 0,03 0,04 0 .P.13 0.18 0,18 0,14 0,1I,i Based on the Information provided, all dimensions and luminaire locations shown represent recommended positions, The engineer and/or architect must determine applicability of the layout to existing or future ,Field conditions. This lighting pattern represents illumination levels calculated from laboratory data taken under controlled conditions in accordance with Illuminating Engineering Society approved methods. Actual performance of any manufacturer's lu,rninaire may vary due to variation In electrical voltage, tolerance In lamps, and other variable field conditions. 0.06 0.06 + + �-o 0+11 0+12 0+111 0+ 0.05 0.03 0.02 I Rev. I Date I B #1 7/16/92 S.W,W 2 7/16/92 S.W. W ##.3 7/23/92 S.W.W 11 GREENBRIAR Aggregate Summary # POINTS 615 AVERT ,GEE 7 , MAXIMUM 65,0 MINIMUM 0,0 AVG/MIN 573.4 MAX/MIN 5146.5 MAINTAINED FOOTCANDLE VALUES AT Y ABOVE GRADE, USING A .75 MAINTENANCE FACTOR. NOTE: ALL 22' POLES TO BE MOUNTED ON CONCRETE PEDESTALS 2' ABOVE GRADE, FOR A TOTAL MOUNTING HEIGHT OF 24. I a I 0 r T NMI& NLRNW L 6 400 W WALL PACK 1 455 A Mora of LSI ln& -bus km F 5 4SQB-S11 G -22-T120 1 MOVED HE -400-3 3 1365 t 51 3- FA �.a * X( t> 93A47 (S13) 7'93-32130 s FAX (S;3) ?93-OiA7 E 6 4SQ8-S11G-22-DN90 1 MOVED CLM-FT---400 2 910 LIGHTING PROPOSAL FOR D 10 GBL -D -22 -511 -TYPE 5 2 2140 PEARSON FORD A 26 GBL -A-24-511 1 1 2140 ZIONSVILLE, IN. TYPE TY POLE OTY BRACKET TY OTHER _QTY1 FIXTURE JQTY wAm/AmwLY 1'�- LQ_..10940 ASSEMBLY1 ASSEMBLIES EACH CONSSTINCOF: 92055 DAM 7/S/92 BILL OF MATERIALS TOTAL WATTS B,(: S.W.W SHEET 1 0 I a I 0 r T 0 02 0 02 0 0 0 5 0, 7 0, 0 0 ,O1 0 ,02 0.03 0.04 0.07 0.08 0,08 0 , 09 0.08 0.07 0.06 0.07 0.06 0.05 0.04 0.04 + 0.04 + ,01 + + + + + + + + + + + + + + 0,01 0,02 0, 0� OcV4 0,0 0,18 0,19 0,17 0.23 0.20 0.14 2 0,17 0,1 0,09 0. 6 0.05 + 0,05 + + + +24., 4S ° + + + + + + + + + + + L -VT -K M 95 Z L0Z N 0.02 0.02 .03 0. 0,25 0.81 0.68 0.65 0,89 0.83 0.43 0,60 0.78 0,54 0.16 0,07 0.07 - Z 0 02 0 02 0 0 0 5 0, 7 0, CD 0,1; 0,10 0110 N s r*1 0,02 0,03 0. 9 �50 1 1 2 9 7 .65 1 . 0 , �1 7 0,17 0,1 0,16 ,19 0,22 0,22 17,10+05 0+02 0+01 + + + + + + + + + + + + + + + + 0,21 1,78 8 6 6 1 ,67 9 i3 0 0,- 0,20 0,27 0,36 0.4 ,58 0.47 0, 0+02 0.01 0,02 0,44 ,0 I + + + + + + + + + + + + + + + + + + E 96' zZ M K95 Z I.OZ N 0, 02 0, 03 0, 0 0 1 0, 1 4+ � 10 + 3 1 4 + 1 1A 1+ 4 +40 6 1 1 5 1 0+ +� +03 0.02 + + + + 0 ,02 0 ,03 0 6 0 .13 .63 4, 2 8 0 1 4f.72 6 1 '4 6 0 4 , 2 4 4 1 ,26 3,17 0'OS 0,02+ + + + + + + + ++ + + + + + + + +- + 2 0 ,03 0 ,04 ,06 2.33 2.40 2,85 ,98 2 0 7 ,64 . 5 2,13 .4 0.74 2,15 5.18 6,34 8.98 28, 4,96 0 06 0.02 0.02 + + + + + + + + + + + + + + + + + + +, + + + 0, 03 0, 03 0, 0 0, 040 13 , 6 7+ 18 j2j7� 8 0 1+ 8 +83 1 +08 2 7 7 L1,05 2+- 6+62 0 07 0.03 + + + 0 03 0 04 5 10 4,57 55 10 ,98 9,15 4,41 8,27 2.18 0 ,91 1,03 5.1 L 1+33 1 2 + l 9 1 ,38 6+59 0 08 0+04 i + + + ® + r+ + + + + + + X L L 0 ,03 0 ,Q4 0 ,05 ,07 0 ,1 13,2 4- {06 59 L ; }38 +_ {89 1+01 51 -a 1,46 15.,25 , 4 9 ? 1.,24 30,75 6,49 0 -09 0.04 + + + + `� ,U + + + + A+ + v 0 D 0,04 0 , 0 5 0 , 0 _0 0 57 -23 1 � f � 5.43 .0 % X86 _r,�` _.0 � 82 1 + 97 6.17 � 1 + 51 + q0 21 c�+ 0 7 � ,+ � 6 + Y= � G + 1 0 + 0 5 C I w ,15 4 , 6 9 4 , 1 73 X72 0 , �- 05 1 +61 5+42 25+46 18,62 11 +28 3r__+59 P 0 + 1 0 +07 0,05 0,07 + + + + + L + + + + + iM X J cn '� 14,9 3+2 ,� 1 1 ,89 28, 6,87 ''0.16 ,09 0,05 0 , 07 0 , ,1 0 � + � - �" 5+ 3 + --+--- + x + + A 12 3 , 0 .67 2 , 4 88 1, 8 5.74 23.80 18 , 46 11 , 85 2� 6,81 0 , 0 ,12 0,06 0.0 0 . 1 17 31-x. 6+ + + + + + + + + + + + + o 0 . G8 0 ,12 21 , 38 , 69 7+42 4+90 53 z 12+ 5+?4 1 7 .38t] DI +� 22 5+ +l- +81 3`+ +81 0 +33 0.17 + + + +A + A 0,05 0 9 0.16 0.32 0 , 1 , 0 8. S17 18 ,-32 .40 448 15.(:)l 55 6,S0 2 , 30 1 .68 1,88 2 ,19 2.42 6.87 21.43 18.10 12.71 26,0 0 7 ,11 0,51 0 .23 + + + + + + + + + + + + + + + + + + + + + + I. WAiNTAENED FOOTCANDLE VALUES AT 0' Ai30VE GRADE, 0, 0.47 ,14 0 10, a 4 17 9, Q , 05 0 , Q9 2 , , , 73 4 , 73- , 2.49 2 , 65 s , 57 0 1 us�Nc A .75 MAINTENANCE FACTOR. + + + + + + + + + + + + + + + + + + + + 0.60 5,19 ,76 25,33 22, 3 n.80 24.36 20 ,90 20. 73 20, 49 19,98 18,00 9,83 3,35 5.09 17,19 '(-'0 ,34 22,09 21,70 22,82 24,40 29,66 29,60 2'4,53 25,49 6. 1,20 0,32 + + + + + + i 0,01 0,03 0 0, 2, 5, 7 , Y l.w , 4 4 1.8 2,08 4,1 7 4+91 0,64 0+ 5 A A A A A A A A A A A A 4 0,95 0.89 0,89 0,69 0, 0.50 0.42 0,43 0,2 0,17 0.19 0.25 0,31 0.37 0.41 0.51 0,66 0,84 0.84 0,72 0,53 0,201 0 0, 3 Aggregate Summary 0.01 0. 0.02 ,10 0 , 4� 0 , 90 1 +0 + + + + + + + + + + + + + + + + + + + + + + + + + + # POINTS 615 .��,�o.oz s - ,t•��`c ��� AVERAGE 5,6 18 0 , 13 0. O-j-Q�O + 0.0 0 ,1 --Q • -- 4- -- �---0 , 27---4 , __Q� -----0_-0�.__ --_ ._Q �1�__ Q�_1 ---� 0_---0 , 5 __ 0 , 24 0 + 19 0.13 +04 + 1 0,01 MAXIMUM 37.6 0.00 + 01 0.01 + + + + +__ + -- --+-- -- MINIMUM 0,0 AVG/MIN 1694,6 0,00 0.00 0,01 0.02 0, 0,11 0,13 0.13 0.14 0,13 Nvsgpi1v).5 W 4 �,,V � �� 0,04 0,05 0,05 0,07 0,11 0,12 O,I�l 0,05 0,02 0,01 0,01 MAX/MIN 11349,7 + + + + , + + + + + + + + + + + =-csed on the information provided., all dimensions and luminaire locations shown re=present recommended positions. The engineer and/or architect must determir-be opplicobr1ty of the layout to existing or future field conditions. This r4it!ing pattern regret -enter illumination ie�ls colcul€ led !`ll iobor-otory doAa token urxix controlled cor,d►tior;s In ooloo . ce wl+h .iluminet'Ing Engineering Society oppr-o-red methods. Actual pei1c.4-nionce of any marsfucture:r's iuminak-e may vory due to varicAkin in electrical voltage. tolerance in lamps, and other variable field conditions. A DMakn of LS: r,o. 1�Q44 AEl.WM R0. PA KX C73 1. Q (Mi) M-3nO • FAX (M3) WO -01 UGHTlNG PROPOSAL FC 4 Pearson Ford Zionsville, IN s 1"=40' LO- ld �A 9-8-92 Dorn AKL SHEET rr 1` will CD 0,1; 0,10 0110 N s r*1 0,02 0,03 0. 9 �50 1 1 2 9 7 .65 1 . 0 , �1 7 0,17 0,1 0,16 ,19 0,22 0,22 17,10+05 0+02 0+01 + + + + + + + + + + + + + + + + 0,21 1,78 8 6 6 1 ,67 9 i3 0 0,- 0,20 0,27 0,36 0.4 ,58 0.47 0, 0+02 0.01 0,02 0,44 ,0 I + + + + + + + + + + + + + + + + + + E 96' zZ M K95 Z I.OZ N 0, 02 0, 03 0, 0 0 1 0, 1 4+ � 10 + 3 1 4 + 1 1A 1+ 4 +40 6 1 1 5 1 0+ +� +03 0.02 + + + + 0 ,02 0 ,03 0 6 0 .13 .63 4, 2 8 0 1 4f.72 6 1 '4 6 0 4 , 2 4 4 1 ,26 3,17 0'OS 0,02+ + + + + + + + ++ + + + + + + + +- + 2 0 ,03 0 ,04 ,06 2.33 2.40 2,85 ,98 2 0 7 ,64 . 5 2,13 .4 0.74 2,15 5.18 6,34 8.98 28, 4,96 0 06 0.02 0.02 + + + + + + + + + + + + + + + + + + +, + + + 0, 03 0, 03 0, 0 0, 040 13 , 6 7+ 18 j2j7� 8 0 1+ 8 +83 1 +08 2 7 7 L1,05 2+- 6+62 0 07 0.03 + + + 0 03 0 04 5 10 4,57 55 10 ,98 9,15 4,41 8,27 2.18 0 ,91 1,03 5.1 L 1+33 1 2 + l 9 1 ,38 6+59 0 08 0+04 i + + + ® + r+ + + + + + + X L L 0 ,03 0 ,Q4 0 ,05 ,07 0 ,1 13,2 4- {06 59 L ; }38 +_ {89 1+01 51 -a 1,46 15.,25 , 4 9 ? 1.,24 30,75 6,49 0 -09 0.04 + + + + `� ,U + + + + A+ + v 0 D 0,04 0 , 0 5 0 , 0 _0 0 57 -23 1 � f � 5.43 .0 % X86 _r,�` _.0 � 82 1 + 97 6.17 � 1 + 51 + q0 21 c�+ 0 7 � ,+ � 6 + Y= � G + 1 0 + 0 5 C I w ,15 4 , 6 9 4 , 1 73 X72 0 , �- 05 1 +61 5+42 25+46 18,62 11 +28 3r__+59 P 0 + 1 0 +07 0,05 0,07 + + + + + L + + + + + iM X J cn '� 14,9 3+2 ,� 1 1 ,89 28, 6,87 ''0.16 ,09 0,05 0 , 07 0 , ,1 0 � + � - �" 5+ 3 + --+--- + x + + A 12 3 , 0 .67 2 , 4 88 1, 8 5.74 23.80 18 , 46 11 , 85 2� 6,81 0 , 0 ,12 0,06 0.0 0 . 1 17 31-x. 6+ + + + + + + + + + + + + o 0 . G8 0 ,12 21 , 38 , 69 7+42 4+90 53 z 12+ 5+?4 1 7 .38t] DI +� 22 5+ +l- +81 3`+ +81 0 +33 0.17 + + + +A + A 0,05 0 9 0.16 0.32 0 , 1 , 0 8. S17 18 ,-32 .40 448 15.(:)l 55 6,S0 2 , 30 1 .68 1,88 2 ,19 2.42 6.87 21.43 18.10 12.71 26,0 0 7 ,11 0,51 0 .23 + + + + + + + + + + + + + + + + + + + + + + I. WAiNTAENED FOOTCANDLE VALUES AT 0' Ai30VE GRADE, 0, 0.47 ,14 0 10, a 4 17 9, Q , 05 0 , Q9 2 , , , 73 4 , 73- , 2.49 2 , 65 s , 57 0 1 us�Nc A .75 MAINTENANCE FACTOR. + + + + + + + + + + + + + + + + + + + + 0.60 5,19 ,76 25,33 22, 3 n.80 24.36 20 ,90 20. 73 20, 49 19,98 18,00 9,83 3,35 5.09 17,19 '(-'0 ,34 22,09 21,70 22,82 24,40 29,66 29,60 2'4,53 25,49 6. 1,20 0,32 + + + + + + i 0,01 0,03 0 0, 2, 5, 7 , Y l.w , 4 4 1.8 2,08 4,1 7 4+91 0,64 0+ 5 A A A A A A A A A A A A 4 0,95 0.89 0,89 0,69 0, 0.50 0.42 0,43 0,2 0,17 0.19 0.25 0,31 0.37 0.41 0.51 0,66 0,84 0.84 0,72 0,53 0,201 0 0, 3 Aggregate Summary 0.01 0. 0.02 ,10 0 , 4� 0 , 90 1 +0 + + + + + + + + + + + + + + + + + + + + + + + + + + # POINTS 615 .��,�o.oz s - ,t•��`c ��� AVERAGE 5,6 18 0 , 13 0. O-j-Q�O + 0.0 0 ,1 --Q • -- 4- -- �---0 , 27---4 , __Q� -----0_-0�.__ --_ ._Q �1�__ Q�_1 ---� 0_---0 , 5 __ 0 , 24 0 + 19 0.13 +04 + 1 0,01 MAXIMUM 37.6 0.00 + 01 0.01 + + + + +__ + -- --+-- -- MINIMUM 0,0 AVG/MIN 1694,6 0,00 0.00 0,01 0.02 0, 0,11 0,13 0.13 0.14 0,13 Nvsgpi1v).5 W 4 �,,V � �� 0,04 0,05 0,05 0,07 0,11 0,12 O,I�l 0,05 0,02 0,01 0,01 MAX/MIN 11349,7 + + + + , + + + + + + + + + + + =-csed on the information provided., all dimensions and luminaire locations shown re=present recommended positions. The engineer and/or architect must determir-be opplicobr1ty of the layout to existing or future field conditions. This r4it!ing pattern regret -enter illumination ie�ls colcul€ led !`ll iobor-otory doAa token urxix controlled cor,d►tior;s In ooloo . ce wl+h .iluminet'Ing Engineering Society oppr-o-red methods. Actual pei1c.4-nionce of any marsfucture:r's iuminak-e may vory due to varicAkin in electrical voltage. tolerance in lamps, and other variable field conditions. A DMakn of LS: r,o. 1�Q44 AEl.WM R0. PA KX C73 1. Q (Mi) M-3nO • FAX (M3) WO -01 UGHTlNG PROPOSAL FC 4 Pearson Ford Zionsville, IN s 1"=40' LO- ld �A 9-8-92 Dorn AKL SHEET rr 1` 0.01 0.02 0.02 0.03 0,04 0,05 0.05 0,05 0,05 0.05 0.05 0.05 0.05 0.04 0.03 0.03 + + + + + + + + + + + + + + + + 0 , 02 0 02 0.03 0,04 0.06 0.09 0.10 0.10 0 ,10 0 , 09 0 , 09 0 , 09 0.09 0.09 0.08 0.06 0.04 0.04 + + + + + + + + + 0.02 0.03 0.A0 ct� 0 0 .19 0.30 0.33 0.38 0.30 0.27 0,28 0.33 0.27 0.28 0.30 0. 6 0.08 0.05 + + + 45 4" + + + + + + + + + + + + + + 0' HVT-172 M ..99.Z 0Z N 0 +03 0+OS 0 +26 1 +07 3+6� 4+28 1 +99 2+02 314 2+86 1 +62 3+ 10 E4+40 1 +80 0, 0+ 1 0 +08 0.02 0,04 0,06 0,13 0, 1 1, 1 1 B #1 7/16/92 SAW #2 o S.W. W ai 7/23/92 S.W.W 1 DATE: 7%8/92 r ay- SAW r • ,. . 0. + + + + + + + + + + -+ -+ _+ +- + -+ r F 0+18 0+11 0.03 0.05 Of ,17 .67 51) 1 ,11 X81, 4�4 , 6a � , 71 2 , 4 9,97 6,25 0 , 9 0.2 0.14 .16 0.22 0,27 27 20 0.08 0,03 03 0,02 + ++,; a + �� �� + + + + + ,1 + + 0,04 0,06 10 0,24 1,77 8 5, , �3, �4,1 + + + + OJ+'+ 6� PD P+56 1 2 + 1 4 6 0 + 0 +20 0.20 0.30 0. , 87 0.71 0.24 0.05 0.03 E !_ QR'C7.7 M ..8q.7 LOZ N 0.03 0.05 O,0V1 0.1 0 , 8 31; 1710 , 6 32 6� .il'32 8 91 , 96 1 4 2p , 4k i J , 07 0.03 i � 0,05 0,07 2 0,30 ,76 4, 7 13 ,$6,59 9 14'0 0, 3' 0 _2 -S x 3 4 1 ,94 0,82 0, 0.05 0.04 0,07 A ,12 .27 ,75 4,33 2.31 2.4 .99 1 5 2 ,73 6 .(5+1, 0 ,87 q 1 0 ,44 1,41 4,68 8,87 29,88 ,7 1,00 0.16 0.06 + + + 1 + + + +1 r N + E+ h + + + + + + ,3" + + + 1 iJ � � + � � i � s � F MM � � i 0,06 0, 0 0,2 0, 7 0 64 5;r 2 0 1, ;0 0, 5 .67 0,63 2, 07 + + + +; + +1 + + + + 2�+ 6�., 8 3 `+14 2 + 1+32 0+19 0+ 1J1�� 1 0+07� 0+15 0.05 0.10 0.21 0+06 /10+12 0+ 0+0 0+15-0 47 0.05 0. 9 0, , 7 + + ++ 5 0+06 ?+11 + 7 04) 0.07 0.14 33 1.30 0.05 0. 9 0.17 0.42 1, + + + + + 0,05 0 10 O.a 0.54 .23 0.05 0.10 10 .25 0.74 4.71 + + + + Rev. I Date I B #1 7/16/92 SAW #2 7/16/92 S.W. W #3 7/23/92 S.W.W GR-ENBRIAR .48 6 181 0.97 7.65 3,74 7.49 1.88 0.81 0.99 4,290 L 0;75 75 3 1�16 6hl.16 22 ; 1.38 0,20 .07 + + + + + + + + + + ++ ++ + + + L L .� +57 3+3 + 4 + 1.68 +24 L JfS+ 17 + + + , +-- + + + 68 0 , 98 53 0 , 80 7 1 1 4 69q „ 27 1, 41 0.22 , 0 8 N 1, 2 11 �4 2 2,. , 30 60 , 76 92 3 57 © 082 3' 1 ' 2 0 3 2 � ,i Aggregate Y + + ++ 6�,, 73 1+ + �+ ' 1,39 0 ,23 09, # P❑INTS 615 �� + �+ +�- + + + L AVERAGE 7.2 +33 + 7+ + 2 6+93 1:,86 1 , 0 0 . 53 0 0.84 3 , 31 15 , 92 24.03 34 , 33 1, 45 0 , 24 0 , 09 MAXIMUM 65.0 L + + x + o ++ + +4 + + + MINIMUM 0.0 AVG/MIN 573.4 6+7 ,t 3 + 2 5+7-6--4 *, 49 z j �,� 3 ,1 1 °, 32 j 1, 51 0 .25 0 10 MAX /MIN 5146.5 + + + , + + 7 + , 1 ,03 3 , 4�� � 15 1 + 2+/34 + + 1 } Q� 41 ` +9 3+48 15+39 23+05 33+08 22- 1 +48 0 +26 0 + 11 -r--0 97 , 59 Ir 3 , .1 I, -16. 7 , , 9,94 2 ,,71 , 0 8 5,S6-,-' 59 2.99 � lA 1, 49 0.30 0.13 + + + + 1 48,37 7.88 2 .-8 - 1 63' 36 13. 1�y. F.$ 6 , 72 r' 1, 77 1 0 0 1, 016 1 ,11 1, + + + �, �- + + + + + + +31 4+21 14+56 21 +54 33+74 23 1 +54 0.41 0.17 4 J , A 47 , 2 12,65 5 , 77=- - - 9 , &5-. 4 , 28 03 r4. 6, 7 r 2. +0164+94 39+90 27+03 22+41 22+53 21+91 22+53 22+31 20.13-12,04 3+70 4+99 20+64 24,05 21,97 25,43 25,75 26,72 30,24 30,36 30.46 25,91 5, + + + + + + + + + + 0+04 0+ 8 0+1� 0+ 2 3+11 8,9 - .7 0' 1` 5,7 � 7 3 8 3,48 5,4 _1 1 4�1-� 5,8.10 A A A A A A 0.03 0, 09 .25 0.90 2.05 3 , 49 2.95 2.51 2.77 1,89 2 . 2.15 1, 93 2.00 1,0 + + + + + + + + + + + + + + C0.0z S 0.02 .03 0.04 7 0.1 �Q. 70_+56-.--0.,49--- 0-2Z Q-..Qa 0,23 0 , _ Q , 20 — 0,01 0,02 0.03 0,04 0 Based on the information provided, all dimensions and luminaire locations shown represent recommended positions. The engineer and/or architect must determine applicability of the layout to existing or future field conditions. This lighting pattern represents illumination levelsalculated from laboratory data taken under controlled conditions in accordance w th Illuminating Engineering Society approved methods. Actual performance of any m9nufacturer's luminaire may vary due to variation In electrical voltage, tolerance in lamps, and other variable field conditions. + �,13 0.18 0,18 0.14 0, �!, + + + + 1 I IN 1.02 0.74 1.35 1.23 1.83 1.57 1,92 1.98 1.84 2.27 1.65 1.61 0,6E + + + + + + + + + + + + + jg iii -1-12 ,�2� „029 0.32 0. 29 0. 23 0. 11 MAINTAINED FOOTCANDLE VALUES AT 3' ABOVE GRADE, O 7 , Q +�5 USING A .75 MAINTENANCE FACTOR. s 1 +21 0. �4 �l 1.15 0,28 + + I 0A0 012 4 + 6 Q +04 NOTE: ALL 22' POLES TO BE MOL)ON CONCRETE PEDESTALS 2' ABOVE GRADE, FOR A TOn ON HEIGHT OF 24'. -'• ! :i:'l i li' i �. l �l I' i I 1 1. 1 1. 1 1 i �O. • 1 1 1 1;` 0.05 0.03 0.02 L 6 F 5 4SQB—S11G-22—T120 E 6 4SQB—S11G-22—DN90 D 10 A 26 YPE QTY POLE 1 1 GBL—D-22-1311—TYPE 5 GBL—A-24-511 3RACKET QTY OTHER ASSEMBLIES EACH CONSISTING OF: BILL OF MATERIALS • 400 W WALL PACK 1 MOVED HE -400-3 3 MOVED CLM—FT-400 2 2 1 FY FiXTURE QTY MOM �455 A DMW*n of LSI IndusMe. Ma i=0 ALUMCE Fa P.O. OW 42128 CKtI IL ON 45242 (313) 793-3200 111 FAX (513) 793-0147 1365 910 LIGHTING PROPOSAL FOR PEARSON FORD 210NSMU E, IN. 2140 2140 ATTS/A'BLY SCALE: "'"'Y LO --1 0940 SHEET 1 OF 1. 92055 DATE: 7%8/92 TOTAL WATTS ay- SAW .... r...r st - - fAk - _ a -#1 7 L _ 0.0 0.0 0.0 0.0 00 00 010 0.0 0.0 --o.o 0.0 ago 0.0 Q.a 0.0 o: a.1 0,4 . .z 3.4 9. 4 6 11,3 .0 6. 1 3 7 1 8 �, A 4 .6 1 S i ., ,0 2 0.0 0.0 0.0 0.0 010 0,0 0,0 0.0 0.0 0.0 0.0 0`.0 0.0 0.0 0.0 0.d. 0.0 0.0 0,1 0.1 0.1 0.1 0.1 0.1 0,1 0,1 a,1 0.1 a.I 011 0,1 0.1 0.1 0,1 .0.1 0.0 010 010 0.0 0.0 0.0 0.0 010 0,0 C=..0 0.0 0,0 0.0 0,0 0.0 _ _ t},a 0.a O.a 0.0 O,a 0,0 Q.0 0.0 0.0 0,0 0.0 0.0 D.0 Q.a 0.0 0.. 4-- 0.1 0,1_ 0.1. -0.1 2 0.2 D.2 0.2 Q.2 0,2 II,2 0,2 t3.1 1 O.i. Q.1 0.1 t1.1 a.1. 0.1 0.1 0. 1 0.0 0,0 Q 0.0 0.0 0,0 0,0 0.0 a.0 a.0 Q.0 0,0 e Q 0,0 0.0 010 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 0.0 0.0 0 14 2 s2 SO24 0.4 Q.4 0,4 0,4 - 0.5 0.5 0.4 0.4 0.4 0.5" 6,4 0.4 0,4 0.4 0.4 0.4 0.2 0.1 0.1 0,1 0.0 0.0 0.0 0.0 0,0 0.0 0.0 0.0 o 0,0 0.0 0.0 _ N1 8(1 1.0' Cz.O 0,0 0,0 0.0 0.0 Q,Q 0,0 0.0 0.0 O.Q 0.0 �.0 0,0 Q.Q 0.d Q.1 ,I 0.2 D. - 1.4 .5 2.3 3,6 2.0 1.4 . 2.3 2,7 4.2 2.3 _ 5 1.8 3,4 2,? 2>9 1.3 Q,5` 2 0.1 0,1 0.0 0.0 a.0 0.0 0.0 0.0 7.0 O.a 0.0 0.0 0.0 - _ 0.0 0.0 0.0 0.0 00 00 010 0.0 0.0 --o.o 0.0 ago 0.0 Q.a 0.0 o: a.1 0,4 . .z 3.4 9. 4 6 11,3 .0 6. 1 3 7 1 8 �, A 4 .6 1 S i ., ,0 2 n Q. 0. 0.1 � 0.d 0.0 CDa. 0.1 a,1 0,1 1 0,1 0. a.I 1 _ r i - t • 0.02 0.02 0.02 0.03 0,04 0.05 0.0 1 � Specification + POLES (Straight 411, 5" and 6" Sq. Poles) High Power factor. Type Steel Specifications L 'Data Sheet for minus 20 degrees spring -reinforced Fahrenheit operation. contacts for longer life. The ballast is mounted Reflector assembly combines hammer -toned t. One-piece aluminum housing and specular aluminum to maintain shape of maximum heat -sinking for long life. contour optics. This provides high efficiency - and low distortion of optic curve. A one-pieco, asymmetrical reflector Is t ; Is available In three sizes: standard. Also available are Forward designed for minus 20 degrees Fahrenheit Throw (FT) and Type III (3) reflectors, operation, The ballast Is mounted to which add diversity to the fixture, allowing housing reinforcing plate which ensures ". small, medium and large. maximum heat -sinking for tong life. continuity. Continuous one-piece EPDM gasket for ____,--Continuous sealing. ` Corners are welded end The Heritage Is available in dark bronze, black, sandstone or white. Other colors are black, sandstone, platinum or white. Other available on request. Paint Is applied in a colors may be available on request. Paint is revolutionary superior baked -on powder finished to produce a clean, coating, which gives the fixture an powder coating, which gives the fixture an exceptionally attractive appearance. This exceptionally attractive appearance. This unique polyester protection lets the fixture unique polyester protection lets the fixture withstand extreme weather changes without sharp appearance while D C cracking or peeling. Finish ill)120%-1 5y. 14 is guaranteed for five full guaranteed for five full years. years. listed for wet locations. Increasing housing strength 23" 8110, -�1 -k-J- and ensuring weather -tight .- construction. One-piece construction eliminates the worry of moisture entering from poorly sealed top pans ' and side panels. The Classic Is designed to utilize either Super Metal Halide, Metal Halide, High ' Pressure Sodium or Deluxe �{ Mercury Vapor lamp types. >, Clear flat, two =piece, tempered glass tens provides a horizontal section which ' controls back split and enables s sharp cutoff. 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O.Oa I .„L»,..1,c:,,,,,,,,,.,m,,,„»,,,»,,,,,,,,,m„„fi,„»n,mfin,,..»,»,,.,,»m,N,,,,,NNfi,,..»,,.........»,»»».,,,,•,,,,,.,,, i„ „ 1 , ,, ,,,.,.»,,,,,,,,,,,,,,,,»..,,»,,,,,..,, ,,.I,l,,,.,,,,...,,.,,,,»,� ,,,.»,, .»,... , „ m, -1 , 0.01 0.01 0.01 0.01 0.01 0.01 0,01 t 6,01 0.02 0.02 0.03 0,04 0. .11 0.24;' 0,28 0.31 '''.0.48 0.53 0.79 0.95 0.88 1.09 0.97 0.95 1.02 0.72 0,69 0.62 0.55 0,43 0.34 0.36 0.30 0.19 0.09 0.04 ).02 d1p1 0.01 o p 6 _...........-.......__._.._ ...._....._............ .............. �.._-..-.-_............._.. 99regote Summory A O.Ot O.Ot O.Ot 0.01 O.Ot 0.01 0,9i Ot 0.01'" 0 02- 0:02 - 0.02---0:03- -f}:O5 11 0.11 0.16 0.20 0:19 0:23 " 0,25 0.29 0.32 0.30 0.31 0.31 0,21 0,28 0.24 0.23 0.21 0.17 0.16 0,15 .09 0.05 0.03 001 0.01 0.01 o # POINTS 1427 i • v AVERAGE 2.2 u„rn,n,n,N,N„NNnN„NN,unnnr,NNmNn.nl,Nn,NIN,n„m1r11111r,mlll,n,mn,nrrN......rrr,lN,Nl,rrrllnmN,1,,,,Ifi„NN„I,In11,N11fi,Im........INNnnnnnnn...... ,,,„II111111111111N11,111111,n,NIn1111111ti1rIr,11111,111M,fl1,Nimtnfiltl„I,NI,INII»m111f1111111,1MAXIMUM 19.6 n nnna, N, „ In1U,1 P,NVgnnN, , N,IInIN,,,nlnnnnnnn,n,,,NINIn11nn„I,r,n„",nn,nnnfiN,,,,,,,,,,,ull,ll 11111 - - .. ....... NN, .. „ , ,,,NN, n„ml 1„ o; tis 01 a o og b5 Q� 0 01 001 0 of o 00 0.01 0.01 0.01 O.Oi 0.01 0.01 0�1 Y11 Yi.iY1......�Y:f .......i1:�i ..._..�i. _ i : ' ._.... .......c :i'1 ....1}:06.......0 . o rrS oC '33�3�'°._.0:1 ...... r,4 2...... .�,,,�.T.3...:.- ..1. .....iJ:12.......0........... . i ............ MINIMUM 0.0 Lr1 AVG/MIN 779.5 0.01 0.01 0.01 0,01 0.01 0.01 0.01 0,01 0.01 o.ot 0.02 0.02 0.02 0.03 0.04 0.05 0.05 0.06 0,07 0,07 0.08 0.08 0.08 0.09 0.07 0.09 0.08 0.07 0.07 0.06 0.05 0.04 0.03 0.02 0.01 0,01 0.01 0.00 MAX/MIN 6817,1 L��sTERFAPPROXIMATE LIMITS OF 0.1 FOOTCANDLES o �A No. * ; 20491 LL REVISIONSCIVIL CERTIFIED PAUL I. CRIPE, INC. • LAND SURIVEYNGG ENG CHK: • ', 8`e, ���, /NpIANA �' G?;'^ /0 7172 7172 GRAHAM ROAD • ARCHITECTURE TECH. CHK INDIANAPOLIS, INDIANA 46250 DATE 317 842-6777 • LAND PLANNING Data Sheet One-piece aluminum housing. Corners are welded and finished to produce a clean, sharp appearance while Increasing housing strength and ensuring weather -tight construction. One-piece construction eliminates the worry of moisture entering from poorly sealed top pans.' and side panels. Porcelain sockets feature spring -reinforced contacts for longer life. Available lenses Include a molded dropped prismatic acrylic, a dropped prismatic polycerbonate, and a C73 ' diffused flat tempered glass. The dropped prismatic acrylic allows for uniform ground' patterns, while the polycarbonate is an Ideal choice for high -vandalism 'areas. The clear flat tempered glass is Used primarily with the Forward Throw or Type III 'reflectors. Each lens has two layers of silicone sealant. The Heritage is designed to utilize either Super Metal Halide, Metal Halide, High Pressure Sodium or Deluxe Mercury Vapor lamp types. A ,t Pole and Bracket 1 � Specification + POLES (Straight 411, 5" and 6" Sq. Poles) High Power factor. Type Steel Specifications L Porcelain sockets feature for minus 20 degrees spring -reinforced Fahrenheit operation. contacts for longer life. The ballast is mounted Reflector assembly combines hammer -toned to housing reinforcing plate which ensures ; and specular aluminum to maintain shape of maximum heat -sinking for long life. contour optics. This provides high efficiency - and low distortion of optic curve. A one-pieco, asymmetrical reflector Is High Power factor" Type CWA Ballast standard. Also available are Forward designed for minus 20 degrees Fahrenheit Throw (FT) and Type III (3) reflectors, operation, The ballast Is mounted to which add diversity to the fixture, allowing housing reinforcing plate which ensures for perimeter lighting and project maximum heat -sinking for tong life. continuity. Continuous one-piece EPDM gasket for ____,--Continuous sealing. ` The Classic is available In dark bronze, The Heritage Is available in dark bronze, black, sandstone or white. Other colors are black, sandstone, platinum or white. Other available on request. Paint Is applied in a colors may be available on request. Paint is revolutionary superior baked -on powder applied In a revolutionary superior baked -on coating, which gives the fixture an powder coating, which gives the fixture an exceptionally attractive appearance. This exceptionally attractive appearance. This unique polyester protection lets the fixture unique polyester protection lets the fixture withstand extreme weather changes without A D C cracking or peeling. Finish ill)120%-1 5y. 14 is guaranteed for five full guaranteed for five full years. years. Pole and Bracket 1 � Specification + POLES (Straight 411, 5" and 6" Sq. Poles) High Power factor. Type Steel Specifications CWA Ballast designed • Pole shaft is electro -welded ASTM-A50o Grade B steel tubing with a for minus 20 degrees �. Fahrenheit operation. 36,000 PSI. • Standard finish is prime. Bronze, black, sandstone or while finishes are The ballast is mounted i{h to housing reinforcing plate which ensures ; r 4" maximum heat -sinking for long life. e• - .72 LIGHT LOSS FACTOR A one-pieco, asymmetrical reflector Is �l. y t` standard. Also available are Forward 12• Throw (FT) and Type III (3) reflectors, \ which add diversity to the fixture, allowing Projection for perimeter lighting and project "t �[ r continuity. 44 Continuous one-piece EPDM gasket for TRIPLE - D maximum sealing. L5100032.IES The Heritage Is available in dark bronze, 4 black, sandstone, platinum or white. Other `F' colors may be available on request. Paint is - applied In a revolutionary superior baked -on t• powder coating, which gives the fixture an exceptionally attractive appearance. This unique polyester protection lets the fixture A single, captive door fastener allows easy withstand extreme weather changes without access without loose hardware. cracking or peeling. Fixture finish is guaranteed for five full years. TUL listed for wet locations. 23" 8110, -�1 -k-J- Pole and Bracket 1 � Specification + POLES (Straight 411, 5" and 6" Sq. Poles) LS100004.IES Steel Specifications 22' MOUNTING HEIGHT • Pole shaft is electro -welded ASTM-A50o Grade B steel tubing with a 40000 LUMENS minimum yield strength of 46,000 PSI. • Base is ASTM -A36 hot -roiled steel plate with a minimum yield strength of I - 36,000 PSI. • Standard finish is prime. Bronze, black, sandstone or while finishes are to�a�' optional. t Aluminum 101-30' Aluminum Specifications r 4" • Pole shall Is seamless 6063-T6 alloy extruded aluminum tubing. e• • Base is ALMAG-35 high-strength cast aluminum. ; black, .72 LIGHT LOSS FACTOR • Finishes available: Natural brushed aluminum, or anodized bronze, and clear; or painted bronze, black, sandstone or while. 12• • Two-piece fabricated aluminum base cover is standard. -. Specifications Common to Steel & Aluminum Poles Projection • Poles are furnished with anchor bolls with zinc plated double nuts and 40000 LUMENS washers. Galvanized anchor bolts aro optional.:Anchor bolls conform with ,72 LIGHT LOSS FACTOR ASTM -A36 with a minimum yield strength of 36,000 PSI. TRIPLE - D • Hand -hole is 12" above pole base. 40" above pole base is optional. L5100032.IES • Weatherproof duplex receptacle is optional. (GFI not available.) DRAWN BY: SCALE:DATE: CLIENT: 1" = 50' 12-17-90 PEARSON FORD DRFTNG. CHK: DRAWING TITLE: LIGHTING PLAN DATE: 03-12-1991 TIME: 13:36 FILE: '):86541LP LEGEND U v CLASSIC FIXTURES J e» HERITAGE FIXTURES NOTES: 1. ALL LIGHTS SHALL BE MOUNTED ON 22' HIGH POLES, 4° SQUARE STEEL, CUT OFF TYPE, 2. FIXTURES ARE 400 WATT METAL HALIDE L.S.I. (LIGHTING SYSTEMS INC.) 3. PHOTOMETRICS SHOWN ARE FOR 0.1 FOOTCANDLES. FIXTURE INFORMATION SINGLE - A DP N BK - E LSI00032.IES LS100004.IES 24' MOUNTING HEIGHT 22' MOUNTING HEIGHT 40000 LUMENS 40000 LUMENS .72 LIGHT LOSS FACTOR .72 LIGHT LOSS FACTOR TWIN - g DP N BK (WITH FORWARD L5100032,IE5 THROW OPTICS) - F 24' MOUNTING HEIGHT LSI00004,IES 40000 LUMENS 22' MOUNTING HEIGHT .72 LIGHT LOSS FACTOR 40000 LUMENS .72 LIGHT LOSS FAC70R _ D90 C LS100004.IES 22' MOUNTING HEIGHT 40000 LUMENS ,72 LIGHT LOSS FACTOR TRIPLE - D L5100032.IES 24' MOUNTING HEIGHT 40000 LUMENS .72 LIGHT LOSS FACTOR t• Y 'HOLEY MOLEY- DON'T sEZ: DIG BLIND 1-800-382-5544 CALL TOLL FREE 1-800-428-5200 FOR CALLS OUTSIDE OF INDIANA DWG. TYPE FILE NUMBER SHEET: JOB NUMBER 0203 6 5 4 1- 2 0 1 0 0 0