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Welcome to the new & improved Title 20 Reference Ace Beta Go to Legacy Version Contact Us
Section 1604. Test Methods for Specific Appliances.
               
​​(a) Refrigerators, Refrigerator-Freezers, and Freezers.​​



(1) The test methods for non-commercial refrigerators designed for the refrigerated storage of food at temperatures above 32oF and below 39oF, configured for general refrigerated food storage, non-commercial refrigerator-freezers, miscellaneous refrigeration products, and non-commercial freezers are 10 C.F.R. sections 430.23(a) (Appendix A to subpart B of part 430) and 430.23(b) (Appendix B to subpart B of part 430).


(2) The test methods for commercial refrigerators, commercial refrigerator-freezers, and commercial freezers are shown in Table A-1.


Table A-1 Commercial ​​Refrigerator​​, Refrigerator-Freezer, and Freezer Test Methods

Appliance Test Method
Automatic commercial ice makers 10 C.F.R. sections 431.133 and 431.134
Refrigerated bottled or canned beverage vending machines 10 C.F.R. sections 431.293 and 431.294
Refrigerated buffet and preparation tables ANSI/ASTM F2143-01
10 C.F.R. Section 431.63
Other commercial refrigerators, refrigerator-freezers and freezers, with doors 10 C.F.R. sections 431.63 and 431.64
Other commercial refrigerators, refrigerator-freezers and freezers, without doors 10 C.F.R. sections 431.63 and 431.64
Walk-in coolers and walk-in freezers 10 C.F.R. sections 431.303 and 431.304



(3) When a refrigerator, refrigerator-freezer, or freezer can be operated using either alternating current electricity or one or more other sources of primary power, the test shall be performed using alternating current electricity only.


(4) The test method for water dispensers is EPA Energy Star Program Requirements for Bottled Water Coolers (2004).


EXCEPTION to Section 1604(a)(4) of this Article. Water dispensers equipped with an integral, automatic timer. Water dispensers equipped with an integral, automatic timer shall not be tested using Section 4)D, “Timer Usage,” of the referenced test method.

​​(b) Room Air Conditioners, Room Air-Conditioning Heat Pumps, Packaged Terminal Air Conditioners, and Packaged Terminal Heat Pumps.​​



The test methods for room air conditioners, room air‐conditioning heat pumps, packaged terminal air conditioners, and packaged terminal heat pumps are shown in Table B‐1.

Table B-1
​​Room Air Conditioner, Room Air-Conditioning Heat Pump,
Packaged Terminal Air Conditioner, and Packaged Terminal Heat Pump Test Methods​​


Appliance Test Method
Room air conditioners and room air‐conditioning heat pumps 10 C.F.R. section 430.23(f) (Appendix F to Subpart B of part 430)
Packaged terminal air conditioners and packaged terminal heat pumps 10 C.F.R. sections  431.95 and 431.96

​​(c) Central Air Conditioners, Air Filters, and Heat Pump Water-Heating Packages.​​



(1) The test methods for central air conditioners are shown in Table C-1 and include but not limited to provisions on alternative efficiency determination method (AEDM) and additional testing requirements concerning selection of models to be tested if an AEDM is to be applied, in 10 C.F.R. sections 429.12, 429.16, and .


(2) For each basic model of central air conditioner and heat pump, test the individual model and combination as required in 10 C.F.R. section 429.16(b)(2).

 

Table C-1
​​Central Air Conditioner Test Methods​​

Appliance Test Method
Computer Room Air Conditioners
evaporatively‐cooled ANSI/ASHRAE 127‐2001
10 C.F.R. sections 431.95 and 431.96 
air‐cooled, glycol‐cooled, water‐cooled

Other electricpowered unitary airconditioners and electric powered heat pumps
Aircooled air conditioners and airsource heat pumps
< 65,000 Btu/hr, single‐phase

10 C.F.R. section 430.23(m) (Appendix M1 to Subpart B of part 430)(for models manufactured before January 1,2023, only)

 

10 C.F.R. section 430.23(m) (Appendix M1 to Subpart B of part 430)(for models manufactured before January 1, 2023, only)

< 65,000 Btu/hr, three‐phase 10 C.F.R. sections 431.95 and 431.96 
≥ 65,000 and < 760,000 Btu/hr evaporatively‐cooled air conditioners 10 C.F.R. sections 431.95 and 431.96 
< 240,000 Btu/h 10 C.F.R. sections 431.95 and 431.96 
watercooled air conditioners and watersource heat pumps
<240,000 Btu/hr  10 C.F.R. sections 431.95 and 431.96 
ground water‐source heat pumps ARI/ISO‐13256‐1:1998
ground‐source closed‐loop heat pumps ARI/ISO‐13256‐1:1998
Variable Refrigerant Flow Multi‐split Systems 10 C.F.R. sections 431.95 and 431.96 
Single Package Vertical Air Conditioners and Single Package Vertical Heat Pumps 10 C.F.R. sections 431.95 and 431.96 
Gasfired air conditioners and gas‐fired heat pumps ANSI Z21.40.4‐1996 as modified by CEC, Efficiency Calculation Method for Gas‐Fired Heat Pumps as a New Compliance Option (1996)


(3) Air Filters. The test methods for air filters manufactured on or after July 1, 2024, are shown in Table C-2
(A) Manufacturers shall test each basic model of air filter at dimensions determined by the manufacturer.


​​Table C-2
Air Filter Test Methods​​


Appliance Performance Criteria Test Method
Air Filter Pressure Drop AHRI Standard 680 (I-P)-2017* or ANSI/ASHRAE Standard 52.2-2017
Minimum ’Efficiency Reporting Value (MERV) ANSI/ASHRAE Standard 52.2-2017
Air Filter Particle Size Efficiency AHRI Standard 680 (I-P)-2017* or ANSI/ASHRAE Standard 52.2-2017
Dust Holding Capacity AHRI Standard 680 (I-P)-2017* or ANSI/ASHRAE Standard 52.2-2017
*MERV not reportable for models being tested to AHRI Standard 680 (I-P)-2017.

(B) The following procedure shall be used to calculate the airflow rate value in cubic feet per minute at an initial resistance pressure difference of 0.1 inches water column:


1. The value or airflow rate at an initial resistance of 0.1 inches water column shall be determined from a least-squares fit to airflow rate in cfm, as a function of initial resistance static pressure difference in inches water column, using:

Q = C x dPn, where Q=airflow rate in cfm, dP=initial resistance pressure difference in inches water column, and C and n are the coefficients determined in the least squares fit.
2. The data used for this fit shall be the following ordered pairs:

The data used for this fit shall be the following ordered pairs: (0,0), (initial resistance value 1, airflow rate value 1), (initial resistance value 2, airflow rate value 2), (initial resistance value 3, airflow rate value 3), (initial resistance value 4, airflow rate value 4), (initial resistance value 5, airflow rate value 5 (only applicable when using the ANSI/ASHRAE Standard 52.2-2017 test procedure))

3. The value for airflow rate at an initial resistance of 0.1-inch water column shall be calculated as: Q = C x 0.1n
4. Heat Pump Water Heating Packages.
    Heat pump water-heating packages shall be tested using ANSI/AHRI 550-590 (I-P) 2011. The heating capacity tests shall be conducted at ambient temperature of each 47o F and 17o F and a leaving water temperature of 120o F. If the package is capable of cooling, it shall be tested at an ambient temperature of 95o F and a leaving water temperature of 44o F.
         
        
      
(d) Portable Air Conditioners, Evaporative Coolers, Ceiling Fans, Ceiling Fan Light Kits, Whole House Fans, Residential Exhaust Fans, Dehumidifiers, Residential Furnace Fans and Commercial and Industrial Fans and Blowers.



1. The test methods for portable air conditioners, evaporative coolers, ceiling fans, ceiling fan light kits, whole house fans, residential exhaust fans, dehumidifiers, residential furnace fans,  and commercial and industrial fans and blowers are shown in Table D‐3.


Table D-3 Testing Requirements for the following Appliances


Appliance Test Method
Spot Air Conditioners ANSI/ASHRAE 128‐2001
Single-Duct and Dual-Duct Portable Air Conditioners  10 C.F.R. section 430.23(dd) (Appendix CC to subpart B of part 430)
Ceiling Fans 10 C.F.R. section 430.23(w) (Appendix U to Subpart B of part 430
Ceiling Fan Light Kits 10 C.F.R. section 430.23(x) (Appendix V to Subpart B of part 430)
Evaporative Coolers ANSI/ASHRAE 133‐2008 for packaged direct evaporative coolers and packaged indirect/direct evaporative coolers; ANSI/ASHRAE 143‐2007 for packaged indirect evaporative coolers
Whole House Fans HVI‐Publication 916, 29 September 2015 HVI Airflow Test Procedure, as specified in section 5.2

Use setups for whole house comfort ventilators.
Dehumidifiers 10 C.F.R. section 430.23(z) (Appendix X to Subpart B of part 430active mode portion only)
Portable Dehumidifiers and Whole-HomeDehumidifiers Manufactured On or After June 13, 2019 10 C.F.R. section 430.23(z) (Appendix X1 to Subpart B of part 430
Residential Exhaust Fans HVI‐Publication 916, 29 September 2015 HVI Airflow Test Procedure, as specified in section 5.2
Residential Furnace Fans  10 C.F.R. section 430.23(cc) (Appendix AA to Subpart B of part 430)
Commercial and Industrial Fans and Blowers 10 C.F.R. section 431.174 (Appendix A to Subpart J of Part 431)3
1 Very small-diameter ceiling fans are not required to be tested, unless those fans also meet the definition of “low-speed small-diameter ceiling fan” found in section 1602(d) of this Article.
2 Not including evaporative coolers whose fans or blowers are within the scope of the testing requirements for commercial and industrial fans and blowers.
3  Including but not limited to provisions on alternative efficiency determination method (AEDM) and additional testing requirements concerning selection of models to be tested if an AEDM is to be applied, in 10 C.F.R. sections 429.69 and 429.70


(e) Space Heating Products.

(1) Space Heating Products. The test methods for space heating products are shown in Table E-1.


(2) Natural Gas and LPG Space Heaters. Gas space heaters intended for use either with natural gas or LPG may be tested with natural gas and the results applied to both fuel types.

 

(3) Combination Space-Heating and Water-Heating Appliances. The test method for combination space-heating and water-heating appliances is ANSI/ASHRAE 124-2007.


Table E-1 Space Heating Product Test Methods

Appliance Test Method
Central furnaces
< 225,000 Btu/hr, single phase 10 C.F.R. section 430.23(n) (Appendix N to Subpart B of part 430)
< 225,000 Btu/hr, three phase 10 C.F.R. section 430.23(n) (Appendix N to Subpart B of part 430) or 10 C.F.R. sections 431.75 and 431.76 (at manufacturer’s option)
≥ 225,000 Btu/hr  10 C.F.R. sections 431.75 and 431.76
Infrared gas space heaters
Patio Heaters
high‐intensity infrared heaters
 ANSI Z83.19‐2001
low‐intensity infrared heaters
 ANSI Z83.20‐2001
Gas Duct Furnaces ANSI Z83.8‐2002*
Boilers
< 300,000 Btu/hr 10 C.F.R. section 430.23(n)) (Appendix N to Subpart B of part 430)
≥ 300,000 Btu/hr 10 C.F.R. sections 431.85 and 431.86 
Vented home heating equipment  10 C.F.R. section 430.23(o) (Appendix O to Subpart B of part 430)


(f) Water Heaters.


(1) Residential Water Heaters: The test method for residential water heaters is 10 C.F.R. section 430.23(e) (Appendix E to subpart B of part 430).


(2) Water heaters that are Regulated Under subpart G of 10 C.F.R. part 431.

The test methods for water heaters that are regulated under subpart G of 10 C.F.R. part 431 are found at 10 C.F.R. sections 431.105 and 431.106.


(3) Dual-Fuel Models. Water heaters intended for use either with natural gas or LPG may be tested with natural gas and the results applied to both fuel types.


(g) Pool Heaters, Portable Electric Spas, Residential Pool Pump and Motor Combinations, and Replacement Residential Pool Pump Motors; and Pumps, Dedicated-Purpose Pool Pumps, and Replacement Dedicated-Purpose Pool Pump Motors.



(1) Test Methods for Pool Heaters.

The test methods for fossil fuel-fired pool heaters, electric resistance pool heaters, and electric heat pump pool heaters is 10 C.F.R. section 430.23(p) (Appendix P to subpart B of part 430).


(2) Test Method for Portable Electric Spas.
               
(A) The test method for portable electric spas is ANSI/APSP/ICC-14 2019

(B) Test lab report requirements for portable electric spas In addition to the requirements of section 5 and Appendix D of ANSI/APSP/ICC-14 2014 and section 1606 Table X-G of this Article, test lab reports shall include: minimum and maximum water temperatures settings; copy of the label(s) per section 1607(d)(13)(B) of this Article; record and plot ambient air temperature (in degrees Fahrenheit), water temperature (in degrees Fahrenheit), current (in amps), and voltage (in volts) at a maximum interval of five minutes during test; and, for inflatable spas, a list of the accessories that were tested with the spa.


(3) Test Methods for Pumps, Dedicated-Purpose Pool Pumps, and Replacement Dedicated-Purpose Pool Pump Motors.


(A) The test method for pumps, except for dedicated-purpose pool pumps, is 10 C.F.R. section 431.464(a) (Appendix A to subpart Y of part 431).


(B) The test method for dedicated-purpose pool pumps manufactured on or after July 19, 2021 and served by single-phase or polyphase input power, is 10 C.F.R. 431.464(b) (Appendix C to subpart Y of part 431).


(C) A replacement dedicated-purpose pool pump motor manufactured on or after July 19, 2021, shall be tested in accordance with CSA-C747-09 (Reaffirmed 2014), “Energy Efficiency Test Methods for Small Motors” at full load and maximum operating speed. If a drive is sold or offered for sale with the replacement dedicated-purpose pool pump motor, the input power of the drive while the drive is connected to the motor shall be used to determine nominal efficiency and power factor per the test procedure.


1. Motor torque shall be recorded in lb-ft, motor speed in rotations per minute, and input power shall be recorded in watts.
2. Power factor shall be calculated as:


Single phase motors:

Power Factor (%) = 100 x Input Power (W)/(Voltage(V) x Amps (A))

Three phase motors:

Power Factor (%) = 100 x Input Power (W)/(Voltage(V) x Amps(A) x 1.73)

where Voltage and Amps are the measured root mean square (rms) voltage and current.

(h) Plumbing Fittings.



(1) Commercial Pre-Rinse Spray Valves. The test method for commercial pre‐rinse spray valves is 10 C.F.R. sections 431.263 and 431.264.


(2) Showerheads. The test methods for showerheads are:

(A) Maximum flow rate test. The test method for determining maximum flow rate of a ​showerhead​ is 10 C.F.R. section 430.23(t) (Appendix S to Subpart B of Part 430).


(B) Minimum flow rate test. The test method for determining minimum flow rates of a ​​showerhead​​ as stated in ASME A112.18.1-2018 / CSA B125.1-2018.


(C) Showerheads with multiple nozzles. Showerheads with multiple nozzles shall be tested with all nozzles in use at the same time.


(3) Other Plumbing Fittings. The test method for other ​​plumbing fittings​​ is 10 C.F.R. section 430.23(s) (Appendix S to Subpart B of part 430).


(4) Showerhead-tub spout diverter combinations. Showerhead‐tub spout diverter combinations shall have both the showerhead and tub spout diverter tested individually.
     
(5) Tub Spout Diverters. A tub spout diverter manufactured on or after June 1, 2016 shall be tested in accordance with ASME A112.18.1-2012/CSA B125.1-12, Section 5.3.6 for the rate of leakage conducted prior to life cycle testing and Section 5.6.1.5 for the rate of leakage conducted after life cycling testing.

(i) Plumbing Fixtures.



The test methods for plumbing fixtures are:

(1) Water Closets. The test method for testing gallons per flush of water closets is 10 C.F.R. section 430.23(u) (Appendix T to Subpart B of part 430). See Section 1604(i)(3) of this Article for the required waste extraction test.

(2) Urinals. The test method for testing gallons per flush of urinals is 10 C.F.R. section 430.23(v) (Appendix T to Subpart B of part 430).


(3) Waste Extraction Test for Water Closets. The waste extraction test method for water closets is Section 7.10 of ASME A112.19.2/CSA B45.1-2013.


    (j) Fluorescent Lamp Ballasts and Deep-Dimming Fluorescent Lamp Ballasts.​​



    (1) Fluorescent Lamp Ballasts Except Deep-Dimming Fluorescent Lamp Ballasts. is 10 C.F.R. section 430.23(q)) (Appendix  Q to Subpart B of part 430)


    (2) ​​Deep-Dimming​​ Fluorescent Lamp Ballasts. Deep-dimming fluorescent lamp ballasts shall be tested using 10 C.F.R. Section 430.23(q) (Appendix Q to Subpart B of part 430) (referred to as the “federal test method” in the following subsections), modified as follows:

     

    (A) The control signal to the ballast shall indicate full output. The arc power of all connected lamps shall be measured and then added together. This result will be referred to as “maximum arc power.” An appropriate lighting control shall be selected to achieve the control signal used to determine the maximum arc power and to tune the ballast to the appropriate dimming levels. The controls shall be selected by using the following methodology:


    1. If the ballast ​​manufacturer​​ also manufactures a lighting control designed to be operated with the ballast, the test shall be conducted using the ballast manufacturer's lighting control. Or;
    2. If the manufacturer does not manufacture a compatible lighting control, but recommends the use of specific manufacturer and/or model of lighting control, such as in its product documentation, the test shall be conducted using a lighting control from the list of manufacturer-recommended lighting controls. Or;
    3. If the manufacturer does not manufacture a compatible lighting control, and does not recommend any specific lighting controls, the lab technician shall select a lighting control that sufficiently controls the ballast to complete the test.
    4. If multiple control options are available, use the lighting control that is capable of using all of the features of a ballast and with the minimum amount of other features. The lighting control manufacturer and model number shall appear on the test report.
    (B) Three sets of input power and arc power shall be measured using the federal test procedure with the total arc power tuned to 100, 80, and 50 percent of the measured maximum arc power. If a step dimming ballast or a ballast that can only turn connected lamps on or off has dimming steps other than 80 and 50 percent, then the closest step that is between 90 and including 65 percent shall be used for 80 percent testing, and the closest step that is between 65 and including 35 percent shall be used for 50 percent testing. If no step exists in the above prescribed ranges, then no result shall be recorded for that percentage dimming test. The resulting input powers shall be recorded and referred to as P100, P80, and P50. The resulting arc powers shall be recorded and referred to as AP100, AP80, and AP50. BLE100 shall be calculated as AP100/P100, BLE80 as AP80/P80, and BLE50 as AP50/P50. The measurement of power factor shall be taken during the measurement of maximum arc power and reported.


    (C) ​Standby mode​ test: the ballast shall also be tested with a control input set to the lowest dimming state possible up to and including no light output. The input power to the ballast shall be measured and recorded as P. The measurement must be taken 90 minutes after entering this state. P0 shall be recorded as the mean value of measurements taken at 5-second intervals over a 5-minute period.


    (D) The weighted ballast luminous efficacy shall be calculated using the following formula and table:

    Weighted ballast luminous efficacy = BLE100 x w100 + BLE80 x w80 + BLE50 x w50
    Where the time values (w100, w80, w50) are taken from the appropriate table below:

    ​​​​Table J-1 Percentage Time of Operation Table

    Time Variable Measurements Taken
    P80,P50 P80 ,No P50 No P80, P50 No P80, No P50
    W100 0.2 0.35 0.45 1
    W80 0.5 0.65 0 0
    W50 0.3 0 0.55 0


    (k) Lamps.



    1) The test method for general service incandescent lamps,  incandescent reflector lamps and federally regulated general service fluorescent lamps is 10 C.F.R. section 430.23(r) (Appendix R to Subpart B of part 430).
    (2) The test method for compact fluorescent lamps is 10 C.F.R. section 430.23(y) (Appendix W to Subpart B of part 430).


    (3) The test methods for integrated LED lamps is 10 C.F.R. section 430.23(ee) Appendix BB to subpart B of part 430 shall be used.  For certification, compliance, and enforcement purposes, the sampling provisions in 10 C.F.R. section 429.56 shall be used.


    (4) The optional test methods for state-regulated small diameter directional lamps and state-regulated LED lamps are shown in Table K-1. Optional test procedures are conditionally required depending on manufacturer claims of performance as described in sections 1607(d)(12) of this Article and 1606 Table X of this Article. For certification, compliance, and enforcement purposes, the sampling provisions in 10 C.F.R. section 429.56 shall be used.


    ​​​​​​Table K-1 Optional Test Methods for State-Regulated LED Lamps and 
    LED State-Regulated Small Diameter Directional Lamps

    Measurement Test Procedure
    Flicker Title 24, part 6, Joint Appendix 10 (2015), tested at both 100 percent and 20 percent output. Lamps with a percent amplitude modulation (percent flicker) less than 30 percent at frequencies less than 200Hz shall report “yes” for “reduced flicker operation” described in section 1606 of this Article, otherwise report “no.”
    Lumen Maintenance, Rated Life, and Survival Rate for Compliance with Title 24 Joint Appendix 8 and minimum dimming level Title 24, part 6, Joint Appendix 8 (2015)
    Audible Noise ENERGY STAR Recommended Practice—Noise (2013) with the following modification: measurements shall be taken at 100 percent output as well as at 20 percent output if dimmable.


    (5) The test method for general service lamps that are other than lamp types described in sections 1604(k)(1)through 1604(k)(3) of this Article is 10 C.F.R. section 430.23(gg) (Appendix DD to Subpart B of part 430).


    (l) Emergency Lighting.



    Emergency Lighting. The test method for illuminated exit signs is 10 C.F.R. section 431.204(b).

    (m) Traffic Signal Modules.



    Traffic Signal Modules. The test method for traffic signal modules for vehicle or pedestrian control is 10 C.F.R. section 431.224.

    ​​(n) Luminaires and Torchieres.​​

    (1) Torchieres.
      There is no test method for torchieres.


      (2) Metal Halide Luminaires.


      The test method for metal halide luminaires is ANSI C82.6‐2005. Ballasts may be tested separately, outside the luminaire. A sample of at least five ballasts shall be tested for each lamp wattage for which the luminaire and ballasts are rated. The average of these tests shall be used for certification and compliance purposes.

      Ballasts efficiency for High Intensity Discharge (HID) luminaire means the efficiency of a lamp and ballast combination expressed as a percentage and calculated by Efficiency = Pout / Pin, as measured. Pout is the measured operating lamp wattage and Pin is the measured operating input wattage.

      The lamp, and the capacitor when it is provided, is to constitute a nominal system in accordance with ANSI C78.43‐2004. Pin and Pout are to be measured after lamps have been stabilized according to Section 4.4 of ANSI C82.6‐2005 using a wattmeter with accuracy specified in Section 4.5 of ANSI C82.6‐2005 for ballasts with a frequency of 60 Hz and shall have a basic accuracy of ± 0.5 percent at the higher of (a.) three times the output operating frequency of the ballast, or (b.) 2 kHz for ballast with a frequency greater than 60 Hz.

      (3) Under Cabinet Luminaires.

      The test method for under‐cabinet luminaires is 10 C.F.R. 430.23(q) (Appendix Q to subpart B of part 430 (2015).

      (o) Dishwashers.



      The test method for dishwashers is 10 C.F.R. section 430.23(c) (Appendix C1 to Subpart B) of part 430).

      (p) Clothes Washers.

      (1) Clothes Washers That Are Consumer Products. Manufacturers must use the results of testing under the  test method for clothes washers that are consumer products is on or before July 1, 2022, using either 10 C.F.R. section 430.23(j) (Appendix J to subpart B of part 430) or 10 C.F.R. section 430.23(j) (Appendix J2 to subpart B of part 430).), as appropriate under federal law.

      (2) Commercial Clothes Washers.
      The test method for commercial clothes washers is 10 C.F.R. section 431.154.


      (q) Clothes Dryers.


      The test method for clothes dryers is 10 C.F.R. section 430.23(d) (Appendix D1 or Appendix D2 to subpart B of part 430). Manufacturers must use a single appendix for all representations, including certifications of compliance, and may not use appendix D1 for certain representations and appendix D2 for other representations.

      (r) Cooking Products and Food Service Equipment.




      The test methods for cooking products and food service equipment are shown in Table R‐1.

      Table R-1 Cooking Product and Food Service Equipment Test Methods

      Appliance Test Method
      Microwave ovens 10 C.F.R. section 430.23(i) (Appendix I to Subpart B of part 430)
      Conventional cooktops and combined cooking products 10 C.F.R. section 430.23(i) (Appendix I1 to Subpart B of part 430)
      Commercial hot food holding cabinets ANSI/ASTM F2140-01 (Test for idle energy rate-dry test) and US EPA’s Energy Star Guidelines, “Measuring Interior Volume” (Test for interior volume)
      Commercial convection ovens ANSI/ASTM F1496-99 (Test for energy input rate and idle energy consumption only)
      Commercial range tops ANSI/ASTM F1521-96 (Test for cooking energy efficiency only)
      ​​(s) Electric Motors and Compressors.​​


      (1) Electric Motors, Except Small Electric Motors. The test methods for electric motors are 10 ​C.F.R.​ sections 431.15, 431.16, and 431.18, including but not limited to provisions on testing laboratories, recognition of accreditation bodies, and recognition of certification programs.
      (2) Small Electric Motors. The test methods for small electric motors are 10 C.F.R. sections 431.443, 431.444 and 431.445, including but not limited to provisions on alternative efficiency determination method (AEDM) and additional testing requirements concerning selection of models to be tested if an AEDM is to be applied

        (3) Compressors. The test method for compressors is 10 C.F.R. section 431.344 (Appendix A to Subpart T of 10 C.F.R., § 431), including but not limited to provisions on alternative efficiency determination method (AEDM) and additional testing requirements concerning selection of models to be tested if an AEDM is to be applied, in 10 C.F.R. section 429.63 and 10 C.F.R. section 429.70.


        (t) Distribution Transformers.



        The test method for distribution transformers is 10 C.F.R. section 431.193 (Appendix A of Subpart K).

        (u) External Power Supplies.



        (1) The test method for federally regulated direct operation external power supplies and federally regulated indirect operation ​Class A​ external power supplies is 10 C.F.R. section 430.23(bb) (Appendix Z to Subpart B of part 430).


        (2) The test method for state‐ regulated external power supplies is US EPA “Test Method for Calculating the Energy Efficiency of Single‐Voltage External ​AC‐DC​ and ACAC Power Supplies” dated August 11, 2004, except that the test voltage specified in Section 4(d) of the test method shall be only 115 volts, 60 Hz.


        (v) Computers, computer monitors, televisions, signage displays, and consumer audio and video equipment.



        (1) Consumer Audio and Video Equipment. The test method for standby‐passive mode consumer audio and video equipment is International Electrotechnical Commission (IEC) 62087:2002(E) ‐ “Methods of Measurement for the Power Consumption of Audio, Video, and Related Equipment.”

        (2) Televisions and Signage Displays. 


          (A) The test method for televisions manufactured on or after April 24, 2014, and prior to September 11, 2023 is 10 C.F.R. section 430.23(h) (Appendix H to Subpart B of part 430).  as it appeared in 10 C.F.R. section 430 edition revised as of January 1, 2023.
          (B) The test method for televisions within the scope of 10 C.F.R. section 430 and manufactured on or after September 11, 2023, is 10 C.F.R. section 430.23(h) (Appendix H to Subpart B of part 430).

           

          (C) The test method for signage displays or televisions outside the scope of 10 C.F.R. section  430, manufactured on or after April 24, 2014, is 10 C.F.R. section 430.23(h) (Appendix H to Subpart B of part 430) it appeared in 10 ​​C.F.R.​​ section 430 edition revised as of January 1, 2023.
          (3) Computer Monitors.​ The test method for computer monitors is the ENERGY STAR Program Requirements for Displays, Final Test Method (September 2015), with the following modifications:


          (A) On mode measurements shall be made using the IEC 62087: 2011 and computer monitor sleep mode and computer monitor off mode measurements shall be made using the IEC 62301:2011, as specified in the ENERGY STAR Program Requirements for Displays, Final Test Method (September 2015).


          (B) A computer monitor shall be tested as required by the test procedure for each of the following:


          1. On mode power draw.
          2. Computer monitor sleep mode power draw.
          3. Computer monitor off mode power draw.
          (C) Product features and functions not specifically addressed by the test method shall be turned off or disconnected. Built-in speakers shall be muted or turned down to their lowest volume setting for the on mode power draw test.


          (D) Before starting the test procedure for measuring on mode power draw, any feature unrelated to the display of images (for example USB hubs, webcams, speakers, LAN connections, and SD card readers) shall be turned off.


          (4) Computers. The test method for computers is the ENERGY STAR Program Requirements for Computers, Final Test Method (Rev. March-2016), with the following modifications:


          (A) Settings regarding hard-disk spinning shall not be altered from the default as-shipped settings.


          (B) The total annual energy consumption of a computer shall be calculated using Equation 1 in Section 3 of the ENERGY STAR Program Requirements for Computers, Eligibility Criteria Version 6.1 (Rev. March-2016).


          1. Computers manufactured before July 1, 2021 shall use the “conventional” mode weighting of Table 3 for a desktop computer, a mobile gaming system, a small-scale server, a high expandability computer, or a thin client, or Table 4 for a notebook computer, a mobile workstation, or a portable all-in-one computer, contained within Section 3 of the ENERGY STAR Program Requirements for Computers, Final Test Method (Rev. March-2016) , unless they meet either the criteria in Section 1604(v)(4)(B)(2) of this Article to use “full capability” mode weighting, or the criteria in Section 1604(v)(4)(B)3. of this Article to use “remote wake”.””
          2. In order to use the “full capability” mode weighting a computer shall have the following features enabled as shipped:

          a. Maintain Ethernet (IEEE 802.3-2015) or wireless (IEEE 802.11-2012) network addresses and network connection capability while in ACPI System Level S3 Sleep Mode or an alternative to ACPI S3 sleep mode;

          b. Resume from ACPI System Level S3 Sleep Mode or an alternative to ACPI S3 sleep mode upon request from outside the local network; and

          c. Support advertising host services and network name while in ACPI System Level S3 Sleep Mode or an alternative to ACPI S3 sleep mode.
          3. In order to use the “remote wake” mode weighting a computer shall have the following features enabled as shipped:

          a. Maintain Ethernet (IEEE 802.3-2015) or wireless (IEEE 802.11-2012) network addresses and network connection capability while in ACPI System Level S3 Sleep Mode or an alternative to ACPI S3 sleep mode; and

          b. Resume from ACPI System Level S3 Sleep Mode or an alternative to ACPI S3 sleep mode upon request from outside the local network.
          4. Computers manufactured on or after July 1, 2021, shall use the “conventional” mode weighting of Table 3 for a desktop computer, a mobile gaming system, a small-scale server, a high-expandability computer, or a thin client, or
          5. Workstations shall calculate total annual energy consumption using the weighting of Table 8, contained within Section 3 of the ENERGY STAR Program Requirements for Computers, Eligibility Criteria Version 6.1 (Rev. March-2016).
          (C) The expandability score calculation shall be included in test reports and shall be calculated as follows:


          1. Identify the score for each individual interface type as determined by Table V-1 and then multiply by the total number of occurrences of that particular interface type present in the system as sold or offered for sale. Finally, sum the subtotals for all interface types.
          2. Each instance of an interface may only receive one score.
          3. Add 100 to the score.
          Table V-1 Interface Types and Scores for Expandability Score Calculation

          Interface Type Interface Score
          USB 2.0 or less 5
          USB 3.0 or 3.1 Gen 1 10
          USB 3.1 Gen 2 15
          USB ports or Thunderbolt 3.0 or greater that can provide 100 or more watts of power 100
          USB ports or Thunderbolt 3.0 or greater that can provide from 60 or more to less than 100 watts of power 60
          USB ports or Thunderbolt 3.0 or greater that can provide from 30 or more to less than 60 watts of power 30
          Thunderbolt 3.0 or greater or USB ports that are not otherwise addressed in Table V-1 and that cannot provide 30 or more watts of power 20
          Unconnected USB 2.0 motherboard header 10 per header
          Unconnected USB 3.0 or 3.1 Gen 1 motherboard header 20 per header
          PCI slot other than PCIe x 16 (only count mechanical slots) 25
          PCIe x 16 or higher (only count mechanical slots) 75
          Thunderbolt 2.0 or less 20
          M.2 (except key M) 10
          IDE, SATA, eSATA 15
          M.2, key M, SATA express, U.2 25
          Integrated liquid cooling 50
          Either:
          1) CPU and motherboard support for 4 or more channels of system memory and at least 8 GB of installed and compatible system memory; or
          2) At least 8 GB of system memory installed on a 256 bit or greater memory interface.          		 100


          (D) A computer monitor used in the testing of desktop computers shall have a native resolution of at least 1920x1080 pixels and use progressive scanning. The computer operating system shall be set to operate at a minimum of 1920x1080 pixels and progressive scanning. If multiple display connections are available on the computer, choose the correct connection using the following criteria:


          1. If hybrid graphics is available, choose the port that enables hybrid graphics.
          2. If a discrete GPU is installed, choose a connection to the first GPU, except for where it conflicts with subdivision (D)(1) of this section.
          3. If no discrete GPU is installed, choose a connection to a port integrated into the motherboard.
          4. If there are multiple connector ports to choose from pursuant to subdivisions (v)(5)(D)1. through (v)(5)(D)3. of this section, connect the display to a port using the first available from the port types listed below:


          a. Display Port

          b. HDMI

          c. DVI

          d. VGA

          e. Other

          (E) An integrated desktop computer, mobile gaming system, or notebook computer shall be tested using the integrated display's native resolution.


          (F) High expandability computers shall be configured for the test in a manner identical to desktop computers. Mobile gaming systems and mobile workstations shall be configured for the test in a manner identical to notebook computers.


          (G) For purposes of providing data as required in section 1606 of this Article, desktop computers, thin clients, mobile gaming systems, notebook computers, and portable all-in-ones shall be tested by selecting the configuration that has the greatest allowable energy consumption as provided for in Section 1605.3(v)(5) of this Article If multiple configurations exist that meet this criteria, select the configuration that will yield the greatest annual energy consumption as measured by the test procedure.


          (H) The computer sleep mode power measurement shall be tested in a modified manner from the test procedure described in IEC 62623:2012. Instead of measuring power after manually entering sleep mode, the power measurement shall begin no sooner than 30 minutes and no later than 31 minutes of user inactivity on the unit under test. This measurement shall be performed after the long-idle test without altering the unit under test.


          (I) The power factor of a computer power supply and compliance with Table V-9 in Section 1605.3(v)(6) of this Article shall both be determined by the following test procedure: Generalized Test Protocol for Calculating the Energy Efficiency of Internal Ac-Dc and Dc-Dc Power Supplies Revision 6.7 (March 1, 2014). In addition the median power factor during short-idle measurements shall be recorded in the test report.


          (J) For multi-screen notebooks, configure each integrated display in the same way as the display of the units with one integrated display. The displays do not have to be configured sequentially (i.e. warmup times can be done simultaneously for all integrated displays).


          (K) For computers with cyclical behavior where operation without a battery pack when connected to the mains power source is not a supported configuration and where the normal measurement time would not capture one or more complete cycles, short-idle, long-idle, sleep, and off mode power measurements shall be tested in a modified manner from the test procedure described in IEC 62623:2012:


          1. Short-idle mode testing: The short idle test duration shall be extended long enough to capture the energy consumption over one or more complete cycles. The unit shall be kept in short idle through minimal user input such as moving the mouse or pressing a key that does not perform any action (e.g., shift, ctrl, tab, etc).
          2. Long-idle mode testing: The long idle mode test duration shall be extended long enough to capture the energy consumption over one or more complete cycles. The unit under test shall remain in long idle during the entire time of the extended test by disabling the sleep mode.
          3. Sleep mode testing: The computer sleep mode power shall be tested after restarting the computer and ensuring that the sleep mode is enabled. Instead of measuring power after manually entering sleep mode, the power measurement shall begin no sooner than 30 minutes and no later than 31 minutes of user inactivity on the unit under test. Sleep mode power measurement shall be taken over an extended period of time that is long enough to capture the energy consumption over one or more complete cycles.
          4. Off mode testing: The off mode test duration shall be extended long enough to capture the energy consumption over one or more complete cycles.
          (w) Battery Chargers and Battery Charger Systems.

          (1) Test Method for Federally Regulated Battery Chargers and Federally Regulated Uninterruptible Power Supplies. Manufacturers must use the results of testing under the test method for federally regulated battery chargers and federally regulated uninterruptible power supplies is using either 10 C.F.R. section 430.23(aa) (Appendix Y to subpart B of part 430) or 10 C.F.R. section 430.23(aa) (Appendix Y1 to subpart B of part 430), as appropriate under federal law.


          (2) Test Method for Small Battery Charger Systems. The test method for small battery charger systems that are not federally regulated battery chargers, federally regulated uninterruptible power supplies, battery backups, or non-federally regulated uninterruptible power supplies is 10 C.F.R. section 430.23(aa) (Appendix Y to subpart B of part 430) (Jan. 1, 2017).


          (A) Multi-port battery charger systems shall be tested for 24-hour efficiency and maintenance mode with a battery in each port.


          (B) For single port small battery charger systems, the highest 24-hour charge and maintenance energy, maintenance mode, and no battery mode results of the test procedure shall be used for purposes of reporting and determining compliance with Section 1605.3(w)(2), Table W-4 of this Article.


          (C) For purposes of computing the small battery charger system standard, the number of ports included in a multi-port charger system shall be equal to the number ports that are separately controlled. For example a multi-port charger system that charges eight batteries by using two charge controllers that charge four batteries in parallel would use two for “N” as described in Section 1605.3(w)(2), Table W-4 of this Article.


          (D) Small battery charger systems that are not consumer products may use the battery manufacturer’s recommended end of discharge voltage in place of values in 10 C.F.R. section 430.23(aa) (Appendix Y to subpart B of part 430) (Jan.1, 2017), Table 3.3.2, where the table’s values are not applicable.


          (3) Test Method for Battery Backups and Non-Federally Regulated Uninterruptible Power Supplies. The test method for battery backups and non-federally regulated uninterruptible power supplies is 10 C.F.R. section 430.23(aa) (Appendix Y to subpart B of part 430) (Jan. 1, 2016).


          (4) Test Method for Large Battery Charger Systems. The test method for large battery charger systems that are not federally regulated battery chargers or federally regulated uninterruptible power supplies is Energy Efficiency Battery Charger System Test Procedure Version 2.2 dated November 12, 2008 and published by ECOS and EPRI Solutions with the following modifications:


          (A) The test procedure shall be conducted for 100, 80, and 40 percent discharge rates for only one charge profile, battery capacity, and battery voltage. The manufacturer shall test one battery and one charge profile using the following criteria:


          1. the charge profile with the largest charge return factor;
          2. the smallest rated battery capacity; and
          3. the lowest voltage battery available at that rated capacity.
          (B) The battery manufacturer’s recommended end of discharge voltage may be used in place of values in the test method part 1, section III.F, Table D where the table’s values are not applicable.


          (x) Landscape irrigation equipment.
          (1) Spray Sprinkler Bodies.


          (A) The test method for a spray sprinkler body is Appendix B of the WaterSense® Specification for Spray Sprinkler Bodies Version 1.0, September 21, 2017. For certification, compliance, and enforcement purposes, the sampling provisions in Appendix B of the WaterSense® Specification for Spray Sprinkler Bodies Version 1.0, September 21, 2017 shall be used.



          The following documents are incorporated by reference in Section 1604.
          CALIFORNIA ENERGY COMMISSION TEST METHODS
          CEC/Gas-Fired Heat Pumps Efficiency Calculation Method for Gas-Fired Heat Pumps as a Exceptional Method (1996) New Compliance Option (1996)
          California Title 24, Part 6, Joint Appendix 8 JA-8 - 2015 Qualification Requirements for High Efficacy Light Sources
          California Title 24, Part 6, Joint Appendix 10 JA-10 - 2015 Test Method for Measuring Flicker of Lighting Systems and Reporting Requirements
          Copies available from: CALIFORNIA ENERGY COMMISSION
          ENERGY HOTLINE
          1516 NINTH STREET, MS-25
          SACRAMENTO, CALIFORNIA 95814
          PHONE: (916) 654-5106
          FAX: (916) 654-4304


          FEDERAL TEST METHODS

          C. F.R., Title 10, section 10 C.F.R. 429.12, 429.16  section 429.56, 429.63, 429.69 and 429.70
                      
           C. F.R., Title 10, section 430.23 and 10 C.F.R. Appendixes A, B, C1, D1, D2, E, F, H, I, I1, J, J2, M, M1 N, O, P, Q, R, S, T, U, V, W, X, S1, Y, Y1, Z, AA, BB, CC and DD of subpart B of part 430
          C. F.R., Title 10, sections 431.15, 431.16, 431.17, 431.18, 431.19, 431.20, and 431.21
          C. F.R., Title 10, sections 431.63 and 431.64
          C. F.R., Title 10, sections 431.75 and 431.76
          C. F.R., Title 10, sections 431.85 and 431.86
          C. F.R., Title 10, sections 431.95 and 431.96
          C. F.R., Title 10, sections 431.105 and 431.106
          C. F.R., Title 10, sections 431.133 and 431.134
          C. F.R., Title 10, section 431.154
           
          C. F.R., Title 10, section 431.174, Appendix A to Subpart J of 10 C.F.R., § 431

          C.F.R., Title 10, section 431.193
          C. F.R., Title 10, section 431.174, Appendix A to Subpart J of 10 C.F.R.
          C. F.R., Title 10,section 431.204(b)

          C.F.R., Title 10, section 431.224


          C. F.R., Title 10,sections 431.263 and 431.264
          C. F.R., Title 10, sections 431.293 and 431.294

          F.R., Title 10, sections 431.293 and 431.294

          C. F.R., Title 10, sections 431.303 and 431.304
          C. F.R., Title 10, section 431.344, Appendix A to Subpart T of 10 C.F.R., § 431
          C. F.R., Title 10, sections 431.443, 431.444 and 431.445
          C. F.R., Title 10, section 431.464(a) Appendix A to Subpart Y of 10 C.F.R., § 431
          C. F.R., Title 10, section 431.464(b), Appendix C to Subpart Y of 10 C.F.R., § 431



          Copies available from: Superintendent of Documents
          U.S. Government Printing Office
          Washington, ‘DC 20402
          http://www.ecfr.gov
          UNITED STATES ENVIRONMENTAL PROTECTION AGENCY (EPA)
          EPA Energy Star Program Requirements for Bottled Water Coolers (2004)
          ENERGY STAR Program Requirements for Computers, subparts Eligibility Criteria Version 6.1 (Rev. March-2016) and Final Test Method (Rev. March-2016)
          ENERGY STAR Program Requirements for Displays, subpart Final Test Method (Rev. Sep-2015)
          EPA “Test Method for Calculating the Energy Efficiency of Single-Voltage External AC-DC and AC-ACPower Supplies” (August 11, 2004)
          Energy Star Guidelines, “Measuring Interior Volume” (Test for measuring interior volume of commercial hot food holding cabinets)
          ENERGY STAR Recommended Practice – Noise (2013) EPA ENERGY STAR Program Requirements Product Specification for Lamps (Light Bulbs) Version 1.1 (August 2014).
          Copies available from: US EPA
          Climate Protection Partnership
          ENERGY STAR Programs Hotline &
          Distribution
          (MS-6202J)
          1200 Pennsylvania Ave NW
          Washington, DC 20460
          https://www.energystar.gov
          Appendix B of the WaterSense®
          Specification for
          Spray Sprinkler Bodies
          Version 1.0 (Dated September 21, 2017)
          Copies available from: WATERSENSE®
          U.S. ENVIRONMENTAL PROTECTION AGENCY
          OFFICE OF WASTEWATER MANAGEMENT
          (4204M)
          1200 PENNSYLVANIA AVENUE, N.W.
          WASHINGTON, D.C. 20460
          HTTPS://WWW.EPA.GOV/WATERSENSE
          AIR-CONDITIONING, HEATING, AND REFRIGERATION INSTITUTE (AHRI)
          AHRI Standard 680 (I-P)-2017 2017 Standard for Performance Rating ofResidential Air Filter Equipment
          Copies available from: Air-Conditioning, Heating, and Refrigeration Institute (AHRI)
          2111 Wilson Blvd, Suite 500
          Arlington, VA 22201
          Phone: (703) 524-8800
          FAX: (703) 562-1942
          http://www.ahrinet.org/
          AMERICAN NATIONAL STANDARDS INSTITUTE (ANSI)
          ANSI/ASHRAE Standard 52.2-2017 Method of Testing General Ventilation Air-Cleaning Devices for Removal Efficiency by Particle Size
          ANSI C78.43-2004 American National Standards for ElectricLamps - Single-Ended Metal Halide Lamps
          ANSI C82.6-2005 Ballasts for High Intensity Discharge Lamps - Method of Measurement
          ANSI Z21.10.3-1998 Standard for GasWater Heaters, Volume III, Storage Water Heaters with Input Ratings Above 75,000 Btu per hour, Circulating and Instantaneous
          ANSI Z21.40.4-1996 Performance Testing and Rating ofGas-Fired Air-Conditioning and Heat Pump Appliances
          ANSI Z83.8-2002 Standard for GasUnit Heaters and Gas-Fired Duct Furnaces
          ANSI Z83.19-2001 Standard for Gas-Fired High-Intensity Infrared Heaters
          ANSI Z83.20-2001 Standard for Gas-Fired Low-Intensity Infrared Heaters
          ANSI/AHRI 550-590 (I-P) 2011 Performance Rating of Water-Chilling and Heat Pump Water-Heating Packages Using the Vapor Compression Cycle
          Copies available from: American National Standards Institute
          1819 L Street, NW, 6th Floor
          Washington DC 20036
          https://www.ansi.org/
          Phone: (202) 293-8020
          FAX: (202) 293-9287
          THE AMERICAN SOCIETY FOR MECHANICAL ENGINEERS (ASME)
          ASME A112.19.2/CSA B45.1-2013 Ceramic Plumbing Fixtures
          ASME A112.18.1-2012 &2018/CSA B125.1-2012 & 2018 Plumbing Supply Fittings
          Copies available from: ASME HEADQUARTERS
          TWO PARK AVENUE
          NEW YORK, NY 10016-5990
          https://www.asme.org/
          PHONE: 800-843-2763 (U.S/CANADA)
          001-800-843-2763 (MEXICO)
          973-882-1170 (OUTSIDE NORTH AMERICA)
          EMAIL: CUSTOMERCARE@ASME.ORG
          AMERICAN SOCIETY OF HEATING, REFRIGERATING AND AIR-CONDITIONING ENGINEERS (ASHRAE)
          ANSI/ASHRAE 118.2-1993 Method of Testing for Rating Residential Water Heaters
          ANSI/ASHRAE 124-2007 Method of Testing for Rating Combination Space-Heating and Water-Heating Appliances
          ANSI/ASHRAE 127-2001 Method of Testing for Rating Computer and Data Processing Room UnitaryAir-Conditioners
          ANSI/ASHRAE 128-2001 Method of Rating Spot Unitary Air Conditioners
          ANSI/ASHRAE 133-2008 Method of Testing Direct Evaporative Air Coolers
          ANSI/ASHRAE 143-2007 Method of Test for Rating Indirect Evaporative Coolers
          ANSI/ASHRAE 146-1998 Method of Testing and Rating Pool Heaters
          Copies available from: American Society of Heating,
          Refrigerating and Air-Conditioning
          Engineers
          1791 Tullie Circle N.E.
          Atlanta, GA 30329
          https://www.ashrae.org
          Phone: (800) 527-4723 (U.S./Canada) or
          (404) 636-8400
          FAX: (404) 321-5478
          ASTM INTERNATIONAL
          ANSI/ASTM F1496-99 Standard Test Method for Performance of Convection Ovens
          ANSI/ASTM F1521-96 Standard Test Methods for Performance of Range Tops
          ANSI/ASTM F2140-01 Standard Test Method for the Performance of Hot Food Holding Cabinets
          ANSI/ASTM F2143-01 Standard Test Method for the Performance of Refrigerated Buffet and Preparation Tables
          ASTM F2644-07 Standard Test Method for Performance of Commercial Patio Heaters
          Copies available from: ASTM
          100 Barr Harbor Drive
          West Conshohocken, PA 19428-2959
          https://www.astm.org/
          Phone: 1-877-909-2786
          CANADIAN STANDARDS ASSOCIATION (CSA)
          CSA B45.1-2013 Ceramic Plumbing Fixtures
          CSA C747-09 (reaffirmed 2014) Energy efficiency test methods for small motors.
          Copies available from: Canadian Standards Association
          178 Rexdale Blvd.
          Toronto, Ontario, Canada, M9W 1R3
          Phone: (416) 747-4044
          http:/shop.csa.ca/
          ECOS CONSULTING
          Energy Efficiency Battery Charger System Test Procedure Version 2.2 dated November 12, 2008
          Copies available from: Ecos Consulting
          801 Florida Road, # 11
          Durango, CO 81301
          http://www.efficientproducts.org
          Phone: (970) 259-6801
          FAX: (970) 259-8585
          ECOVA
          Generalized Test Protocol for Calculating the Energy Efficiency of Internal Ac-Dc and Dc-Dc Power Supplies Revision 6.7 (March 1, 2014)
          Copies available from: PLUG LOAD SOLUTIONS BY ECOVA
          https://www.plugloadsolutions.com/
          Phone: (971) 201-4180
          ILLUMINATING ENGINGEERING SOCIETY (IES)
          IES LM-84-14 Measuring Luminous Flux and Color Maintenance of LED Lamps, Light Engines, and Luminaires
          IES TM-28 (2014) Projecting Long-Term Luminous Flux Maintenance of LED Lamps and Luminaires
          Copies available from: Illuminating Engineering Society
          120 Wall Street, 17th Floor
          New York, NY 10005-4001
          https://www.ies.org
          Phone: (212) 248-5000
          FAX: (212) 248-5617/8
          INTERNATIONAL ELECTROTECHNICAL COMMISSION (IEC)
          IEC 62087 (2002)(E) Methods of Measurement for the Power -Consumption of Audio, Video, and RelatedEquipment
          IEC 62087 (2002)(E), Edition 2.0 Methods of Measurement for the PowerConsumption of Audio, Video, and RelatedEquipment.
          IEC 62087:2011 Methods of Measurement for the PowerConsumption of Audio, Video, andRelated Equipment
          IEC 62301:2011 Household Electrical Appliances -Measurement of Standby Power
          IEC 62623:2012 Desktop and notebook computers -
          Measurement of energy consumption
          Copies available from: IEC Central Office
          3, Rue de Varembé
          P.O. Box 131
          CH - 1211 Geneva 20
          Switzerland
          Phone: +41 22 919 02 11
          INTERNATIONAL ORGANIZATION FOR STANDARDS (ISO)
          ISO 13256-1-1998 Water-source heat pumps-Testing and rating for performance-Part 1: Water-to-air and
          brine-to-air heat pumps
          Copies available from: ISO Central Secretariat International organization forStandardization (ISO)
          1, Rue de Varembé, Case Postale 56
          CH-1211 Geneva 20, switzerland
          https://www.iso.org
          Phone: +41 22 749 01 11
          Fax: +41 22 733 34 30
          INSTITUTE OF ELECTRICAL AND ELECTRONICS ENGINEERS (IEEE)
          IEEE 114-2001 Standard Test Procedures for Single-Phase Induction Motors
          IEEE 802.3-2015 IEEE Standard for Ethernet
          IEEE 802.11-2012 IEEE Standard for Information technology Telecommunications and information exchange between systems
          Local and metropolitan area networks -
          Specific requirementsPart 11: Wireless LAN Medium Access
          Control (MAC) and Physical Layer (PHY)Specifications
          Copies available from: Institute of Electrical and ElectronicsEngineers
          Publications Office
          10662 Los Vaqueros Circle
          PO Box 3014
          Los Alamitos, CA 90720-1264
          https://www.ieee.org
          Phone: (714) 821-8380
          Fax: (714) 821-4010
          THE POOL AND HOT TUB ALLIANCE
          ANSI/APSP/ICC-14 2019 American National Standard for Portable Electric Spa Energy Efficiency
          Copies available from: Pool & Hot Tube Alliance
          2111 Eisenhower Avenue, Suite 500
          Alexandria, VA 22314-4695
          PHTA.org
          Phone: (703) 838-0083
          UNIFIED EXTENSIBLE FIRMWARE INTERFACE FORUM
          Advanced Configuration andRevision 5.0 (December 6, 2011)and Advanced Configuration andPower Interface Specification Revision 5.0 Errata A (November 13, 2013) Advanced Configuration and Power Interface Specification
          Copies available from: UEFI FORUM ADMINISTRATION
          3855 SW 153RD DRIVE
          BEAVERTON, OR 97003 USA
          http://www.uefi.org
          Phone: +1 503-619-0864
          Fax: +1 503-644-6708


          Credits

          Note: Authority cited: Sections 25213, 25218(e), 25401.9, 25402(a)‐25402(c), and 25960, Public Resources Code; and sections 16, 26, and 30, Governor’s Exec. Order No. B‐29‐15 (April 1, 2015). Reference: Sections 25216.5(d), 25401.9, 25402(a)‐25402(c) and 25960, Public Resources Code; and section 16, Governor’s Exec. Order No. B‐29‐15 (April 1, 2015).

                               
                     
          History
          1. Repealer of subsections (n)(4)-(n)(4)(B) and amendment of list of documents incorporated by reference filed 4-25-2023; operative 4-25-2023 pursuant to Government Code section 11343.4(b)(3) (Register 2023, No. 17).
          2. Amendment filed 7-18-2024; operative 7-18-2024 pursuant to Government Code section 11343.4(b)(3) (Register 2024, No. 29).

           

          This database is current through 4/25/25 Register 2025, No. 17.

          Cal. Admin. Code tit. 20, § 1604, 20 CA ADC § 1604

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