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<br />. Table 6-1 . <br />Exterior l.fgJdlng Unit Power AUoWBDCeS <br /> <br />Area Description AUowance <br />Exit (with or without canopy) 20 W /Lin. ft of door opening <br />Entrance (without canopy) 30 W /Lin. ft of door opening <br />Entrance (with canopy) <br />High traffic (retail. hotel. airport. theater. etc.) 10 W/fi- of canopied area <br />Light traffic (hospital. office. school. etc.) 4 W lfi- of canopied area <br />Loading area 0.40 W/fi- <br />Loading door 20 W /Lin. ft of door opening <br />Building exterior surfaces/facades 0.25 W lfi- of surface to be <br /> iUnminsated <br />Storage and nonmanufacturing work areas 0.20 W lfi- <br />Other activity areas for casual use. such as picnic grounds, gardens. <br />parks. and other landscaped areas 0.10 W/fil <br />Private driveways and walkways 0.10 W/fil <br />Public driveways and walkways O.IS W/fil <br /> ~ <br />Private parking lots 0.12 W/fil <br />Public parking lots [0.10 W/fi-] 0 lRW/~ <br /> <br />SEcnON 7. Section 5-2.6.3.(c)(1) of the H~waii County Code 1983 (1995 Edition) is <br />hereby amended to read as follows: <br /> <br />"(c) Lighting Power Control Credits <br />(1) Lighting Power Control Credit (LPCq. When determining compliance of <br />the actual design with the lighting power allowance established by either <br />section 5-2.6.4 or 5-2.6.5, the connected lighting power (CLP) for lights <br />automatically controlled by occupancy sensing, daylight sensing control, <br />lumen maintenance control, or programmable timing control, may be <br />reduced by subtracting control credits on a specific area-by-area basis. This <br />credit is termed the lighting power control credit (LPCq and shall be <br />determined in accordance with Equation 6-1: <br /> <br />LPCC = CLP x PAF <br /> <br />Equation 6-1 <br /> <br />where: <br />LPCC = Lighting power control credit (W) <br />eLP = Connected lighting power for the luminaires controlled <br />by the automatic control device (W) <br />P AF = Power adjustment factor <br /> <br />The adjusted lighting power (ALP) is then equal to [CLP x LPCq CLP - LPCC." <br /> <br />3 <br />