美国能效六级与欧盟能效六级对比差异说明

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        美国能效六级与欧盟能效六级对比差异说明


        作者:威尼斯澳门官方9778.com生产厂家              2015年04月14日          网站:m.tzbaijin.com


           美国能效六级与欧盟能效六级对比差异说明 欧盟CoC V5六级能效与美国DoE VI能源之星六级Energy Star VI能效虽然都是六级能效但是还是有很多的标准各自不同.下面我们来对比一下.

         

           首先我们来看看原文的美国DoE VI能源之星六级Energy Star VI能效相关要求和标准:


        External Power Supplies

           External power supplies (EPS) convert household electric current into direct current or lower-voltage alternating current to operate a consumer product such as a laptop computer or smart phone. There are hundreds of product types that use an EPS and over 300 million EPSs are shipped each year. Energy conservation standards have been in place for external power supplies since 2007.

        The standards implemented in 2007 will save approximately 3.8 quads of energy and result in approximately $42.4 billion in energy bill savings for products shipped from 2008-2032. The standard will avoid about 198.5 million metric tons of carbon dioxide emissions, equivalent to the annual greenhouse s emissions of about 39 million automobiles.


           The standards implemented in 2014 will save consumers up to an additional $3.8 billion and cut emissions by nearly another 47 million metric tons of carbon dioxide over 30 years, equivalent to the annual electricity use of 6.5 million homes.


        Standards for External Power Supplies


           The following content summarizes the energy conservation standards for external power supplies. The text is not an official reproduction of the Code of Federal Regulations and should not be used for lel research or citation.


        Current Standard


        Direct Operation EPS Standards


           The new efficiency standards for EPSs established efficiency standards for Direct Operation External Power Supplies. All direct operation external power supplies manufactured on or after two years after the final rule’s date of publication in the Federal Register shall meet the following standards:



        Single-Voltage External AC-DC Power Supply, Basic-Voltage

        Nameplate Output Power (Pout)

        Minimum Average Efficiency in Active Mode 
        (expressed as a decimal)

        Maximum Power in No-Load Mode [W]

        Pout ≤ 1 W

        ≥0.5 × Pout + 0.16

        ≤0.100

        1 W < Pout ≤ 49 W

        ≥0.071 × ln(Pout) - 0.0014 × Pout + 0.67

        ≤0.100

        49 W < Pout ≤ 250 W

        ≥0.880

        ≤0.210

        Pout > 250 W

        ≥0.875

        ≤0.500

        Single-Voltage External AC-DC Power Supply, Low-Voltage

        Nameplate Output Power (Pout)

        Minimum Average Efficiency in Active Mode 
        (expressed as a decimal)

        Maximum Power in No-Load Mode [W]

        Pout≤1 W

        ≥0.517 × Pout + 0.087

        ≤0.100

        1 W < Pout≤49 W

        ≥0.0834 × ln(Pout) - 0.0014 × Pout + 0.609

        ≤0.100

        49 W < Pout≤250 W

        ≥0.870

        ≤0.210

        Pout > 250 W

        ≥0.875

        ≤0.500

        Single-Voltage External AC-AC Power Supply, Basic-Voltage

        Nameplate Output Power (Pout)

        Minimum Average Efficiency in Active Mode 
        (expressed as a decimal)

        Maximum Power in No-Load Mode [W]

        Pout ≤ 1 W

        ≥0.5 × Pout + 0.16

         0.210

        1 W < Pout  49 W

        ≥0.071 × ln(Pout) - 0.0014 × Pout + 0.67

         0.210

        49 W < Pout  250 W

        ≥0.880

         0.210

        Pout > 250 W

        ≥0.875

         0.500

           下面我们在看看欧盟CoC V5六级能效标准与要求的原文节选

        AIM
           To minimise energy consumption of external power supplies both under no-load and load conditions in the output power range 0.3W to 250W.

        COMMITMENT


        Signatories of this Code of Conduct commit themselves to:


           Design power supplies or component so as to minimise energy consumption of external power supplies. Those companies who are not responsible for the production of power supplies shall include the concept of minimisation of energy consumption in their purchasing procedures of power supplies.

           Achieve both the no-load power consumption and on-mode efficiency targets shown in Table 1.1, Table 2.1 and 2.2 for at least 90% of products2, for the new models of external power supplies that are introduced on the market or specified in a tender/procurement after the effective date (for new participants after the date they have signed the Code of conduct).

        Table 1.1: No-load Power Consumption

        Rated Output Power (Pno)
        No-load power consumption
        Tier 1
        Tier 2
        ≥ 0.3 W and < 49 W
        0.150 W
        0.075 W
        ≥ 49 W and < 250 W
        0.250 W
        0.150 W
        Mobile handheld battery driven
        and < 8 W
        0.075 W
        0.075 W

         

         

        Table 2.1: Energy-Efficiency Criteria for Active Mode (excluding Low Voltage external power supplies)
        Rated Output
        Power (Pno)
        Minimum Four Point Average Efficiency inActive Mode
        Minimum Efficiency in Active Mode at 10 %
        load of full rated output current
        Tier 1
        Tier 2
        Tier 1
        Tier 2
        0.3 ≤ W ≤ 1
        ≥ 0.500 * Pno + 0.146
        ≥ 0.500 * Pno + 0.169
        ≥ 0.500 * Pno + 0.046
        ≥ 0.500 * Pno + 0.060
        1 ≤ W ≤ 49
        ≥ 0.0626*ln(Pno) + 0.646
        ≥ 0.071*ln(Pno)
        – 0.00115 * Pno + 0.670
        ≥ 0.0626*ln(Pno) + 0.546
        ≥ 0.071*ln(Pno)
        – 0.00115 * Pno + 0.570
        49 ≤ W ≤ 250
        ≥ 0.890
        ≥ 0.890
        ≥ 0.790
        ≥ 0.790

         

        “ln” refers to the natural lorithm. Efficiencies to be expressed in decimal form: an efficiency of 0.88 in decimal


        form corresponds to the more familiar value of 88% when expressed as a percentage.

         

        Table 2.2: Energy-Efficiency Criteria for Active Mode for Low Voltage external power supplies

        Rated Output
        Power (Pno)
        Minimum Four Point Average Efficiency inActive Mode
        Minimum Efficiency in Active Mode at 10 %
        load of full rated output current
        Tier 1
        Tier 2
        Tier 1
        Tier 2
        0.3 ≤ W ≤ 1
        ≥ 0.500 * Pno + 0.086
        ≥ 0.517 * Pno + 0.091
        ≥ 0.500 * Pno
        ≥ 0.517 * Pno
        1 ≤ W ≤ 49
        ≥ 0.0755*ln(Pno) + 0.586
        ≥ 0.0834*ln(Pno)
        – 0.0011 * Pno + 0.609
        ≥ 0.072*ln(Pno) + 0.500
        ≥ 0.0834*ln(Pno)
        – 0.00127 * Pno + 0.518
        49 ≤ W ≤ 250
        ≥ 0.880
        ≥ 0.880
        ≥ 0.780
        ≥ 0.780

         

        “ln” refers to the natural lorithm. Efficiencies to be expressed in decimal form: an efficiency of 0.88 in decimal
        form corresponds to the more familiar value of 88% when expressed as a percentage.

         

        The no-load power consumption and the energy efficiency shall be measured and declared
        according to the method in the Annex.

        Effective dates:
        Tier 1: 1 January 2014
        Tier 2: 1 January 2016

           根据以上美国能源部和欧盟公布的能效测试要求,很明显看出,美国的能效要求更严格,

           下面用12V1.5A 威尼斯澳门官方9778.com举例说明:

          1. 按照 DOE 要求: 12V1.5A 威尼斯澳门官方9778.com,输出功率为18W, 平均效率要求为: Average Efficiency = 0.071*In(18)-0.0014*18+0.67= 85.0016% No Load Input Power < 0.1W

          2. 按照 CoC V5 的要求: 12V1.5A 威尼斯澳门官方9778.com,输出功率为18W, 平均效率要求为: Average Efficiency = 0.0626*In(18)+0.646= 82.693% No Load Input Power < 0.15 W

           根据以上对比结果,美国能效要求相比较欧洲能效法规来讲,要高出近2.4%.


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