121 Table1: Standard Energy Consumption Efficiency for Burner Component of Gas Cooking Appliances Category Standard Energy Consumption Efficiency for Burner Component Type of gas cooking appliance Installation type Number of burners Gas burners Tabletop type 51.0 Built-in type 48.5 Gas burners with grill Tabletop type 2 or less 56.3 3 or more 52.4 Built-in type 2 or less 53.0 3 or more 55.6 Cabinet or stationary type 49.7 Gas range 48.4 Note: 1. Gas range refers to a combination of oven and burner. 2. Tabletop type refers to an item that is to be placed on a table or a base for use. 3. Built-in type refers to an item that is to be built into a wall or a base. 4. Cabinet type refers to an item that is to be installed into its own cabinet. 5. Stationary type refers to an item that is to be installed on a base or a floor surface. 6. Energy consumption efficiency for burner component is calculated according to “3 Energy Consumption Efficiency M easurement M ethods 1,” in M inistry of Economy, Trade and Industry notification No. 56 M arch 2006, based on the Law Concerning the Rational Use of Energy. Table2: Standard Energy Consumption Efficiency for Grill Component of Gas Cooking Appliances Category Calculation Formula of Standard Energy Consumption Efficiency for Grill Component Combustion type Cooking method Single sided With water E=25.1Vg+123 Without water E=25.1Vg+16.4 Double sided With water E=12.5Vg+172 Without water E=12.5Vg+101 Note: 1. E and Vg express the following numeric values. E : Glill section standard energy consumption efficiency unit:Wh Vg:Internal volume unit:liter 2. Single sided refers to a method where food is heated from one side. 3. Double sided refers to a method where food is heated from both sides. 4. With water refers to a method where cooking is performed with the grill pan filled with water.

5. Without water refers to a method where cooking is performed with the grill pan not

filled with water.

6. Internal volume is obtained by the formula: grill area x

122 grill plate to the top of the inlet round to one decimal place. 7. Energy consumption efficiency for grill component is calculated according to “3 Energy Consumption Efficiency M easurement M ethods 2,” in M inistry of Economy, Trade and Industry notification No.56 M arch 2006, based on the Law Concerning the Rational Use of Energy. Table3: Standard Energy Consumption Efficiency for Oven Component of Gas Cooking Appliances includes Gas Ovens Oven type Calculation formula of standard energy consumption efficiency for oven component Tabletop or Stationary Type E=18.6Vo+306 Built in Type E=18.6Vo+83.3 Note: 1. E and Vo express the following numeric values. E: Oven section standard energy consumption efficiency unit:Wh Vo:Internal volumeunit:liter 2. Tabletop type refers to an item that is to be placed on a table or a base for use. 3. Built-in type refers to an item that is to be built into a wall or a base. 4. Stationary type refers to an item that is to be installed on a base or a floor surface. 5. Internal volume is obtained by the formula: grill area x 123

10. Lighting 10-1. Lighting Equipment

1 Items and Evaluation Criteria Fluorescent lighting equipment Evaluation Criteria 1 Equipment must meet one of the following criteria. a. As for service use lamp and desk lamp, energy consumption efficiency rate shall not fall below the standard energy consumption efficiency of applicable category in Table 1. b. As for residential use lamp, energy consumption efficiency rate shall not fall below the energy consumption from Table, multiplied by 127100, calculated to two decimal places and then rounded off to one decimal place. 2 Specified chemical substances does not exceed standard content ratio. Content ratio information of applicable chemical material is easily available on websites, etc. Factors for Consideration 1 The function with high effect of energy conservation such as the initial illuminance correction control, passive sensor control, and the brightness sensor control should be appended. 2 The item should be designed so that it can be easily dismantled and its materials separated to facilitate recycling. 3 Organic solvent, or paint with as low odor as possible is used as coating. 4 Packaging and stowage is to be as simple as possible and take into account ease of recycling and reduced environmental impact upon disposal. 5 A system for the collection and reuserecycling of packaging, etc. is considered. LED lighting equipment Evaluation Criteria 1 Intrinsic energy consumption efficiency shall meet the standard of the applicable category in Table 2. 2 Average color rendering index Ra of 70 or more. 3 LED module rated lifespan is 40,000 hours or longer. 4 Specified chemical substances does not exceed standard content ratio. Content ratio information of applicable chemical material is easily available on websites, etc. Factors for Consideration 1 The function with high effect of energy conservation such as the initial illuminance correction control, passive sensor control, and the brightness sensor control should be appended. 2 The item should be designed so that it can be easily dismantled and its materials separated to facilitate recycling. 3 Organic solvent, or paint with as low odor as possible is used as coating. 124 4 Packaging and stowage is to be as simple as possible and take into account ease of recycling and reduced environmental impact upon disposal. 5 A system for the collection and reuserecycling of packaging, etc. is considered. Illuminated signage using LED as the light source Evaluation Criteria 1 Rated lifespan is 30,000 hours or longer. 2 Specified chemical substances does not exceed standard content ratio. Content ratio information of applicable chemical material is easily available on websites, etc. Factors for Consideration 1 The item should be designed so that it can be easily dismantled and its materials separated to facilitate recycling. 2 Organic solvent, or paint with as low odor as possible is used as coating. 3 Plastic parts, when used, must be comprised as much as possible of recycled plastic. 4 Packaging and stowage is to be as simple as possible and take into account ease of recycling and reduced environmental impact upon disposal. 5 A system for the collection and reuserecycling of packaging, etc. is considered. Note: 1. Equipments that meet any of the following criteria will not be considered as fluorescent lighting equipment under consideration in the evaluation criteria. a. Ones of explosion-proof type. b. Ones of heat-resistant type. c. Ones of dust-proof type. d. Ones of anticorrosion type. e. Ones designed for vehicles and other means of transport. f. Ones of wall-hung type, pendant type for service facilities or built-in type using fluorescent lamps of less than 40 watts. g. Ones designed for use in or on mining or manufacturing machinery. h. Ones designed for use in or on furniture. i. Ones whose bayonet base and fluorescent lamp stabilizer are structurally integrated ones using a compact fluorescent lamp or lamps with built-in stabilizer j. Ones whose globe for fluorescent lamp protection is transparent. 2. Desk lamp using compact fluorescent lamp equipped with internal stabilize that corresponds to G23 socket can be considered as specified procurement goods which meet Evaluation Criteria 2 of Fluorescent lighting equipment. 3. Specified chemical substances denotes lead and its compounds, mercury and its compounds, cadmium and its compounds, chromium VI compound, polybrominated biphenyl and polybrominated diphenyl ether. 4. The use of specified chemical substances will not exceed the standard content rate of JIS C 0950:2008 The marking for presence of the specific chemical substances 125 for electrical and electronic equipment Appendix A, chart A.1 specified chemical substances, chemical element symbol, substances applicable for calculation, and standard content rate. Items for which content rate exceeding the standard is allowed are to be determined in accordance with Appendix B of the above JIS. Handling of other accessories is to be determined in accordance with JIS C 0950:2008. 5. LED lighting equipment in this section refers to lighting equipment that uses white illuminating LED, hanging type, direct-mount type, built-in type, wall putting type and desk lamp. However, LED lighting equipment to attach LED lamps that have a structure of feeding power to the LED lamp through the cap, among LED lighting equipment that can install the LED lamp that used with traditional fluorescent lamps that have the same shape 126 14. In order to achieve an adequate management of chemical substances, each procurement organization will manage and preserve content information of specified chemical substances that had been confirmed upon acquisition of the product. Table 1: Standard Energy Consumption Efficiency of Fluorescent Lighting Equipment Category Standard energy consumption efficiency Intended use Lamp shape Lamp size For service use Straight tube type or twin tube compact type Using fluorescent lamp of 86 or above in size category 100.8 Using fluorescent lamp of less than 86 in size category 100.5 Compact type of non-twin tube shape 61.6 For residential use Circular type or Straight tube type Using fluorescent lamp of 70 or above in total of size category counts except ones using straight tube type fluorescent lamps of 20 in size category 91.6 Using fluorescent lamp of less than 70 in total of size category counts. Using fluorescent lamp of 70 or above in total of size category counts and using straight tube type fluorescent lamp which size is 20. 78.1 For desk lamp Straight tube type or compact type 70.8 Note: 1. Fluorescent lamp size category refers to, among straight tube type fluorescent lamps, the rated lamp power prescribed under 2.3.1 of JIS C 7617-2 for dedicated high frequency lighting type fluorescent lamps or to the size category prescribed under 2.3.1 of JIS C 7617-2 for any other straight tube type fluorescent lamps, to the rated lamp power prescribed under 2.3.1 of JIS C7618-2 for compact type fluorescent lamps or circular dedicated high frequency lighting type fluorescent lamps, or to the rated lamp power or size category prescribed under 2.3.1 of JIS C7618-2 for any other circular fluorescent lamps than circular dedicated high frequency lighting type fluorescent lamps. For any fluorescent lamps to which none of these prescriptions applies, the size category refers to the rated lamp power. However, for ones of high output lighting type among circular dedicated high frequency lighting type fluorescent lamps, the size category refers to the value of lamp power at the time of high output lighting. 127 2. Energy consumption efficiency is calculated according to “3 Energy Consumption Efficiency M easurement M ethods,” in M inistry of International Trade and Industry notification No.54 M arch 19, 2010, based on the Law Concerning the Rational Use of Energy. Table 2: Standard of Intrinsic Energy Consumption Efficiency of LED Lighting Equipment Light source color Intrinsic energy consumption efficiency Daylight 70lmW or more Daylight white White 60lmW or more Warm white Usual electric bulb color Note: 1. Light source color is in accordance with the category of the light source color of fluorescent lamp by JIS Z 9112. 2. Equipments emitting any color of other than daylight, daylight white, white, warm white and usual electric bulb color will not be considered as LED lighting equipment under consideration in the evaluation criteria in this section. 2 Target Setting Guideline Ratio of the number of products meeting the criteria to the total number of products to be purchased in the fiscal year. 128 10-2. Lamps 1 Items and Evaluation Criteria Fluorescent lamps tube type 40 fluorescent lamps Evaluation Criteria Product must meet one of the following criteria. 1 High-frequency lighting Hf lamps meet the following criteria. a. Energy consumption efficiency: Lamp efficiency is no less than 100lmW. b. Average color rendering index Ra of 80 or more. c. Tube diameter of no more than 25.5 1.2 mm. d. No more than average of 5 mg encapsulated mercury per product. e. Rated life of at least 10,000 hours. 2 Rapid-start fluorescent lamps or fluorescent lamps with starter, meet the following criteria. a. Energy consumption efficiency: Lamp efficiency is no less than 851mW. b. Average color rendering index Ra of 80 or more. c. Tube diameter of no more than 32.5 1.5 mm. d. No more than average of 5 mg encapsulated mercury per product. e. Rated life of at least 10,000 hours. Factors for Consideration Packaging and stowage is to be as simple as possible and take into account ease of recycling and reduced environmental impact upon disposal. Light bulb-shaped lamps Evaluation Criteria M eet one of the following criteria. 1 Bulb-shaped LED lamps must meet the following criteria. a. Energy consumption efficiency must meet the standard of the lamp efficiency of the applicable category in Table 1. However, for reflective lamps whose divergence is less than 90 degrees, the energy consumption efficiency lamp efficiency is no less than 45lmW. b. Average color rendering index Ra of 70 or more. c. Rated life of at least 30,000 hours. 2 Self-ballasted fluorescent lamps must meet the following criteria. a. Energy consumption efficiency is not lower than the standard energy consumption efficiency of applicable category in Table 2. b. No more than average 4 mg encapsulated mercury per product. c. Rated life of at least 6,000 hours 3 Other than noted above 1 or 2, must meet the following criteria. 129 a. 130 Table 1: Standard of Lamp Efficiency for Bulb-shaped LED Lamps Total luminous flux Light source color Lamp efficiency 400lm or more Daylight 75lmW or more Daylight white White 60lmW or more Warm white Usual electric bulb color Less than 400lm Daylight 65lmW or more Daylight white White 55lmW or more Warm white Usual electric bulb color Note: 1. Light source color is in accordance with the category of the light source color of fluorescent lamp by JIS Z 9112. 2. Equipments that emitting other than any color of daylight, daylight white, white, warm white and usual electric bulb color will not be considered as Bulb-shaped LED lighting under consideration in this section. 3. For the lamps regulate amount of light and light color temperature, the standard of the lamp efficiency is the value in which 5lmW is subtracted from the applicable category of total luminous flux and light source color in Table 1. The lamp efficiency of that is assumed to be the ratio calculated from the total luminous flux at the maximum power consumption. 131 Table 2: Standard Energy Consumption Efficiency of S elf-ballasted Fluorescent Lamp Category Standard energy consumption efficiency Fluorescent lamp size category Light source color of Fluorescent lamp Shape of fluorescent lamp 10 Usual electric bulb color 60.6 Daylight white 58.1 Daylight 55.0 15 Usual electric bulb color 67.5 Daylight white 65.0 Daylight 60.8 25 Usual electric bulb color Fluorescent lamp is exposed 72.4 Fluorescent lamp is not exposed 69.1 Daylight white Fluorescent lamp is exposed 69.5 Fluorescent lamp is not exposed 66.4 Daylight Fluorescent lamp is exposed 65.2 Fluorescent lamp is not exposed 62.3 Note: 1. Equipments that meet any of the following criteria will not be considered as Self-ballasted fluorescent lamp under consideration in the evaluation criteria. a. Ones structured as to have a reflector. b. Ones having a function to regulate light. c. Ones emitting light of any other color than that of daylight, daylight white, white, warm white or usual electric bulb color. d. Ones designed for use in henhouse. e. Ones allowing separation of fluorescent lamp. f. Ones whose globe for fluorescent lamp protection is transparent.

2. Fluorescent lamp size category refers to the category of size prescribed under JIS C