Singapore legislation
Schedule 1
of Energy Conservation (Regulated Goods and Registered Suppliers) Regulations 2017
Schedule 1
Requirements for regulated goods
FIRST SCHEDULERegulations 2, 5, 6 and 8ARequirements for regulated goodsDefinitions
1. In this Schedule, unless the context otherwise requires —“Adjusted Volume” or “Vadj” means adjusted volume as defined in Part 2 of the Fourth Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“Annual Energy Consumption” or “AEC” means the amount of energy consumed over 8,760 hours expressed in kilowatt‑hour as specified in the test report;“Ballast Efficiency”, in relation to a ballast, means the ratio of Plamp to Pinput (the input power of the lamp-ballast circuit) with possible sensors, network connections and other auxiliary loads disconnected as specified in the test report, expressed in percentage;[S 730/2019 wef 01/11/2019]“casement or window type air‑conditioner” has the same meaning as in Part 2 of the First Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“chilled”, in relation to a commercial storage refrigerator, means that the storage temperature of foodstuffs in the refrigerator is continuously maintained at a temperature at or above –1°C and at or below 5°C;[S 113/2025 wef 01/04/2025]“CIE” means the International Commission on Illumination;“Coefficient of Performance” or “COP” means the ratio of the total cooling capacity expressed in Watts to the total effective input power expressed in Watts, as specified in the test report;“commercial storage refrigerator” has the meaning given by Part 2 of the Fourth Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 113/2025 wef 01/04/2025]“compact fluorescent lamp with integrated ballast” or “CFLi” has the same meaning as in Part 2 of the Third Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“compact fluorescent lamp without integrated ballast” or “CFLni” has the same meaning as in Part 2 of the Third Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 730/2019 wef 01/11/2019]“counter”, in relation to a commercial storage refrigerator, means that the refrigerator is lower than 1,050 mm in height with one or more doors or drawers accessing the same compartment;[S 113/2025 wef 01/04/2025]“covered CFLi” means a CFLi with an outer lamp envelope;“EEI Class B1”, in relation to a non-high frequency ballast, means the minimum Ballast Efficiency required for the ballast to be rated as Class B1 under Table 17 of Commission Regulation (EC) No. 245/2009 of 18 March 2009 implementing Directive 2005/32/EC of the European Parliament and of the Council with regard to ecodesign requirements for fluorescent lamps without integrated ballast, for high intensity discharge lamps, and for ballasts and luminaires able to operate such lamps, and repealing Directive 2000/55/EC of the European Parliament and of the Council;[S 730/2019 wef 01/11/2019]“Energy Consumption” or “EC”, in relation to a clothes dryer, means the amount of energy consumed per cycle expressed in kilowatt‑hour as specified in the test report;“Energy Efficiency Index” or “EEI”, in relation to a commercial storage refrigerator, means the number determined in accordance with the following formula:[S 113/2025 wef 01/04/2025]“frozen”, in relation to a commercial storage refrigerator, means that the storage temperature of foodstuffs in the refrigerator is continuously maintained at a temperature at or below –15°C;[S 113/2025 wef 01/04/2025]“incandescent lamp” has the same meaning as in Part 2 of the Third Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“IEC” means the International Electrotechnical Commission;“IEEE” means the Institute of Electrical and Electronics Engineers;[S 603/2018 wef 01/10/2018]“Integrated Energy Efficiency Ratio” or “IEER” means the number determined in accordance with the following formula:(0.020 × A) + (0.617 × B) + (0.238 × C) + (0.125 ×D),where —
A is COP at full load cooling capacity;
B is COP at 75% part load cooling capacity;
C is COP at 50% part load cooling capacity; and
D is COP at 25% part load cooling capacity;[S 199/2021 wef 01/04/2021]“International Energy Efficiency class” or “IE”, in relation to a motor, has the same meaning as in IEC 60034-30-1 (2014);[S 603/2018 wef 01/10/2018]“ISO” means the International Organization for Standardization;“Lamp Efficacy” or “ηlamp” means the ratio of the rated luminous flux, expressed in lumens, ϕ, to the rated Plamp, expressed in Watts;[S 730/2019 wef 01/11/2019]“Lamp Power Consumption” or “Plamp” means —
for a covered CFLi, Pcovered CFLi × 0.95; and
for any other lamp, the rated power consumed by the lamp, excluding power dissipated by non‑integrated auxiliary equipment, such as ballasts, transformers or power supplies, expressed in Watts, as specified in the test report;“LED lamp” has the same meaning as in Part 2 of the Third Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“linear LED lamp” has the same meaning as in Part 2 of the Third Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 711/2023 wef 01/04/2024]“linear, double-capped fluorescent lamp without integrated ballast” or “LFL” has the same meaning as in Part 2 of the Third Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 730/2019 wef 01/11/2019]“ϕ” means the rated luminous flux of a lamp expressed in lumens, as specified in the test report;“Minimum Nominal Efficiency” means the number determined in accordance with the following formula:where —
A is 0.3569 for a 2-pole motor, 0.0773 for a 4-pole motor and 0.1252 for a 6-pole motor;
B is -3.3076 for a 2-pole motor, -1.8951 for a 4-pole motor and -2.613 for a 6-pole motor;
C is 11.6108 for a 2-pole motor, 9.2984 for a 4-pole motor and 11.9963 for a 6-pole motor;
D is 82.2503 for a 2-pole motor, 83.7025 for a 4-pole motor and 80.4769 for a 6-pole motor; and
P is the rated power output of the motor;[S 603/2018 wef 01/10/2018]“N”, in relation to a split type air‑conditioner, means the total number of mountings which are assembled to form a matched functional unit;“net volume”, in relation to a commercial storage refrigerator, means the volume containing foodstuffs within the load limit of the refrigerator;[S 113/2025 wef 01/04/2025]“Nominal Efficiency” or “ƞN”, in relation to a motor, means the ratio of mechanical output power to the electrical input power, expressed in percentage, as specified in the test report, and at rated voltage and frequency;[S 603/2018 wef 01/10/2018]“On-Mode Power Consumption” or “P”, in relation to a television, means the power consumed when the television produces sound and picture, expressed in Watts, as specified in the test report;“Pcovered CFLi” means rated power consumed by a covered CFLi, excluding power dissipated by non‑integrated auxiliary equipment, such as ballasts, transformers or power supplies, expressed in Watts, as specified in the test report;“passive standby power”, in relation to a television, means the power consumed when the television is in passive standby mode, expressed in Watts, as specified in the test report;[S 711/2023 wef 01/04/2024]“screen area”, in relation to a television, means the area of the television screen expressed in square decimetres as specified in the test report;“single‑phase portable unitary single duct air‑conditioner” or “PAC” has the same meaning as in Part 2 of the First Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 711/2023 wef 01/04/2024]“split type (inverter) air‑conditioner” has the same meaning as in Part 2 of the First Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“split type (non‑inverter) air‑conditioner” has the same meaning as in Part 2 of the First Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;“SS” means the Singapore Standards;[S 113/2025 wef 01/04/2025]“Standard Annual Energy Consumption” or “SAEC” means the standard annual energy consumption in kWh/year determined in accordance with the following formula:where —
Vn is the net volume, which is the sum of the net volumes of all compartments of the refrigerator, expressed in litres;
if the refrigerator is a vertical chilled type refrigerator — A is 1.643 and B is 609;
if the refrigerator is a vertical frozen type refrigerator — A is 4.928 and B is 1472;
if the refrigerator is a counter chilled type refrigerator — A is 2.555 and B is 1790; and
if the refrigerator is a counter frozen type refrigerator — A is 5.840 and B is 2380;[S 113/2025 wef 01/04/2025]“standby mode” means a condition where the good is connected to the mains power source and consumes energy to do the following only:
allowing the activation of any other mode;
displaying information, including time;
indicating the status of the good;
continuously regulating or monitoring internal components of the good, based on information collected by sensors;
heating the crankcase;“standby power” means the power consumed when the good is in standby mode, expressed in Watts, as specified in the test report;“three-phase variable refrigerant flow (VRF) air-conditioner” has the meaning given by Part 2 of the First Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 199/2021 wef 01/04/2021]“tungsten filament lamp” means an incandescent lamp that has a filament made of tungsten and is operated in an evacuated bulb or surrounded by inert gas;“tungsten halogen lamp” means an incandescent lamp that has a filament made of tungsten and is surrounded by gas containing halogens or halogen compounds;“Uniform Energy Factor” or “UEF”, in relation to a water heater, means the measure of the overall efficiency of the water heater, as specified in the test report;[S 113/2025 wef 01/04/2025]“vertical”, in relation to a commercial storage refrigerator, means that the refrigerator is equal to or higher than 1,050 mm in height with one or more doors or drawers accessing the same compartment;[S 113/2025 wef 01/04/2025]“water heater” has the meaning given by Part 2 of the Eighth Schedule to the Energy Conservation (Prescribed Regulated Goods) Order 2017;[S 113/2025 wef 01/04/2025]“Weighted COP” means the sum of 0.4 × COP at full load cooling capacity and 0.6 × COP at part load cooling capacity.Minimum energy efficiency standards, etc. 2. The minimum energy efficiency standard and other requirements affecting or relating to the energy efficiency standard set out in the second column applies to the regulated goods specified opposite in the first column:First columnSecond column1.Casement or window type air‑conditionerCOP ≥ 3.782.Split type (non‑inverter) air‑conditioner with one indoor unitCOP ≥ 4.86 and standby power ≤ 183.Split type (non‑inverter) air‑conditioner with more than one indoor unitCOP ≥ 5.50 and standby power ≤ 7 × N4.Split type (inverter) air‑conditioner with one indoor unitWeighted COP ≥ 4.86 and standby power ≤ 185.Split type (inverter) air‑conditioner with more than one indoor unitWeighted COP ≥ 5.50 and standby power ≤ 7 × N5A.Three-phase variable refrigerant flow (VRF) air-conditionerIEER ≥ 4.355B.PACCOP ≥ 3.006.Refrigerator without freezerAEC ≤ (368 + 0.892 ×Vadj) × 0.3327.Refrigerator with freezerAEC ≤ (465 + 1.378 ×Vadj) × 0.3128.[Deleted by S 995/2021 wef 01/01/2022] 9.Refrigerator with freezer and through‑the‑door ice dispenserAEC ≤ (585 + 1.378 ×Vadj) × 0.2989A.Commercial storage refrigeratorEEI ≤ 9510.Clothes dryerEC per Wash ≤ Rated Capacity × 0.5511.Incandescent lampPlamp ≤ 0.24√ϕ +0.0103ϕ12.CFLi (other than covered CFLi)(a)ηlamp ≤ 100;
the ratio of luminous flux emitted by the lamp at 2,000 hours to its initial luminous flux is ≥ 0.85; and
the fraction of the total number of lamps that continue to operate (light output must be at least 50% of its initial luminous flux) at 6,000 hours is ≥ 0.513.Covered CFLi(a)ηlamp ≤ 100;
the ratio of luminous flux emitted by the lamp at 2,000 hours to its initial luminous flux is ≥ 0.80; and
the fraction of the total number of lamps that continue to operate (light output must be at least 50% of its initial luminous flux) at 6,000 hours is ≥ 0.514.LED lamp with an Edison screw or a bayonet lamp cap(a)ηlamp ≤ 100;
the ratio of luminous flux emitted by the lamp at 6,000 hours to its initial luminous flux is ≥ 0.80; and
the fraction of the total number of lamps that continue to operate (light output must be at least 70% of its initial luminous flux) at 6,000 hours is ≥ 0.914A.CFLni(aa)ηlamp ≤ 100;
the ratio of luminous flux emitted by the lamp at 2,000 hours to its initial luminous flux is ≥ 0.80; and
the fraction of the total number of lamps that continue to operate (light output must be at least 50% of its initial luminous flux) at 2,000 hours is ≥ 0.914B.LFL(aa)ηlamp ≤ 75;
the ratio of luminous flux emitted by the lamp at 2,000 hours to its initial luminous flux is ≥ 0.80; and
the fraction of the total number of lamps that continue to operate (light output must be at least 50% of its initial luminous flux) at 2,000 hours is ≥ 0.914C.LED lamp designed as a direct replacement for CFLni.(aa)ηlamp ≤ 100;
the ratio of luminous flux emitted by the lamp at 6,000 hours to its initial luminous flux is ≥ 0.80; and
the fraction of the total number of lamps that continue to operate (light output must be at least 70% of its initial luminous flux) at 6,000 hours is ≥ 0.914D.Linear LED lamp(a)ηlamp ≤ 100;
the ratio of luminous flux emitted by the lamp at 6,000 hours to its initial luminous flux is ≥ 0.80; and
the fraction of the total number of lamps that continue to operate (light output must be at least 70% of its initial luminous flux) at 6,000 hours is ≥ 0.915.Motors with rated output of or exceeding 0.75 kW and below 200 kWƞN at rated output ≥ Minimum Nominal Efficiency16.Motors with rated output of or exceeding 200 kW and not exceeding 375 kW(a)for 2-pole motors: ƞN at rated output ≥ 95.8;
for 4-pole motors: ƞN at rated output ≥ 96; and
for 6-pole motors: ƞN at rated output ≥ 95.817.Non-high frequency ballastBallast Efficiency ≥ EEI Class B118.Television with resolution less than 33,177,600 pixelsP ≤ 0.30 × (20 + 4.3224 × screen area) and passive standby power ≤ 0.50W19.Television with resolution of 33,177,600 pixelsP ≤ 0.42 × (20 + 4.3224 × screen area) and passive standby power ≤ 0.50W20.Water heaterUEF ≥ 0.4[S 113/2025 wef 01/04/2025][S 711/2023 wef 01/04/2024][S 995/2021 wef 01/01/2022][S 199/2021 wef 01/04/2021][S 730/2019 wef 01/11/2019][S 603/2018 wef 01/10/2018]Determination of energy efficiency ratings
3. The number of ticks and energy efficiency rating to be shown on the Energy Label for regulated goods are to be determined as follows:
for casement and window type air-conditioners —TicksEnergy efficiency ratingCoefficient of Performance (COP) and standby power range2Fair3.78 ≤ COP < 4.293Good4.29 ≤ COP < 4.864Very GoodCOP ≥ 4.865ExcellentCOP ≥ 5.50 and standby power ≤ 4[S 995/2021 wef 01/01/2022](b)for split type (non-inverter) air-conditioners with one indoor unit —TicksEnergy efficiency ratingCoefficient of Performance (COP) and standby power range2FairCOP ≥ 4.043Good4.29 ≤ COP < 4.86 and standby power ≤ 184Very GoodCOP ≥ 4.86 andstandby power ≤ 185ExcellentCOP ≥ 5.50 and standby power ≤ 4[S 995/2021 wef 01/01/2022](c)for split type (non-inverter) air-conditioners with more than one indoor unit —TicksEnergy efficiency ratingCoefficient of Performance (COP) and standby power range2FairCOP ≥ 4.043Good4.29 ≤ COP < 4.86 and standby power ≤ 9 × N4Very GoodCOP ≥ 4.86 and standby power ≤ 9 × N 5ExcellentCOP ≥ 5.50 and standby power ≤ 7 × N[S 995/2021 wef 01/01/2022](d)for split type (inverter) air-conditioners with one indoor unit —TicksEnergy efficiency ratingCoefficient of Performance (COP) and standby power range2FairWeighted COP ≥ 4.04 3GoodWeighted COP ≥ 4.29 andstandby power ≤ 184Very GoodWeighted COP ≥ 4.86 andstandby power ≤ 185ExcellentWeighted COP ≥ 5.50 andstandby power ≤ 4[S 113/2025 wef 01/04/2025][S 995/2021 wef 01/01/2022](e)for split type (inverter) air-conditioners with more than one indoor unit —TicksEnergy efficiency ratingCoefficient of Performance (COP) and standby power range2FairWeighted COP ≥ 4.04 3GoodWeighted COP ≥ 4.29 andstandby power ≤ 9 × N4Very GoodWeighted COP ≥ 4.86 andstandby power ≤ 9 × N5ExcellentWeighted COP ≥ 5.50 andstandby power ≤ 7 × N[S 113/2025 wef 01/04/2025][S 995/2021 wef 01/01/2022](ea)for three-phase variable refrigerant flow (VRF) air-conditioners —TicksEnergy efficiency ratingIntegrated Energy Efficiency Ratio (IEER)1Low4.80 > IEER ≥ 4.352Fair5.25 > IEER ≥ 4.803Good5.70 > IEER ≥ 5.254Very Good6.15 > IEER ≥ 5.705ExcellentIEER ≥ 6.15[S 199/2021 wef 01/04/2021](eb)for PACs —TicksEnergy efficiency ratingCoefficient of Performance (COP) 1Low3.00 ≤ COP < 3.252FairCOP ≥ 3.25[S 711/2023 wef 01/04/2024](f)for refrigerators (other than commercial storage refrigerators) —
without freezer —TicksEnergy efficiency ratingAnnual Energy Consumption (AEC) in kWh2Fair(368 + 0.892 × Vadj) × 0.461≥ AEC >(368 + 0.892 × Vadj) × 0.3323Good(368 + 0.892 × Vadj) × 0.332≥ AEC >(368 + 0.892 × Vadj) × 0.2394Very Good(368 + 0.892 × Vadj) × 0.239≥ AEC(ii)with freezer —TicksEnergy efficiency ratingAnnual Energy Consumption (AEC) in kWh2Fair(465 + 1.378 × Vadj) × 0.427≥ AEC >(465 + 1.378 × Vadj) × 0.3123Good(465 + 1.378 × Vadj) × 0.312≥ AEC >(465 + 1.378 × Vadj) × 0.2284Very Good(465 + 1.378 × Vadj) × 0.228≥ AEC(iii)with freezer and through-the-door ice-dispenser:TicksEnergy efficiency ratingAnnual Energy Consumption (AEC) in kWh2Fair(585 + 1.378 × Vadj) × 0.409≥ AEC >(585 + 1.378 × Vadj) × 0.2983Good(585 + 1.378 × Vadj) × 0.298≥ AEC >(585 + 1.378 × Vadj) × 0.2184Very Good(585 + 1.378 × Vadj) × 0.218≥ AEC[S 995/2021 wef 01/01/2022][S 113/2025 wef 01/04/2025](fa)for commercial storage refrigerators —TicksEnergy efficiency ratingEnergy Efficiency Index (EEI)1Low80 ≤ EEI ≤ 952Fair60 ≤ EEI < 803Good40 ≤ EEI < 604Very Good20 ≤ EEI < 405ExcellentEEI < 20[S 113/2025 wef 01/04/2025](g)for clothes dryers —TicksEnergy efficiency ratingEnergy Consumption (EC) per Wash in kWh2FairRated Capacity × 0.55 ≥ EC > Rated Capacity × 0.453GoodRated Capacity × 0.45 ≥ EC > Rated Capacity × 0.374Very GoodRated Capacity × 0.37 ≥ EC > Rated Capacity × 0.305ExcellentRated Capacity × 0.30 ≥ EC[S 995/2021 wef 01/01/2022](h)for televisions —TicksEnergy efficiency ratingOn‑Mode Power Consumption (P) in Watts1LowP > 0.60 × (20 + 4.3224 × screen area)2Fair0.60 × (20 + 4.3224 × screen area) ≥ P > 0.42 × (20 + 4.3224 × screen area)3Good0.42 × (20 + 4.3224 × screen area) ≥ P > 0.30 × (20 + 4.3224 × screen area)4Very Good0.30 × (20 + 4.3224 × screen area) ≥ P > 0.16 × (20 + 4.3224 × screen area)5ExcellentP ≤ 0.16 × (20 + 4.3224 × screen area)(i)for lamps —TicksRated Lamp Efficacy (ηlamp) in Lumen/Watts1 ηlamp < 1102110 ≤ ηlamp < 1353135 ≤ ηlamp < 1604ηlamp ≥ 160[S 711/2023 wef 01/04/2024](j)for water heaters —TicksEnergy efficiency ratingUniform Energy Factor (UEF)1Low0.4 ≤ UEF ≤ 0.552Fair0.55 < UEF ≤ 0.73Good0.7 < UEF ≤ 0.854Very Good0.85 < UEF ≤ 1.05ExcellentUEF > 1.0[S 113/2025 wef 01/04/2025]Energy Labels
4. The Energy Labels to be used for regulated goods are as follows:
air-conditioners (other than three-phase variable refrigerant flow (VRF) air-conditioners and PACs):[S 199/2021 wef 01/04/2021][S 711/2023 wef 01/04/2024](aa)three-phase variable refrigerant flow (VRF) air-conditioners:[S 199/2021 wef 01/04/2021](ab)PACs:[S 711/2023 wef 01/04/2024][S 711/2023 wef 01/04/2024](b)clothes dryers:
lamps:[S 711/2023 wef 01/04/2024][S 711/2023 wef 01/04/2024](d)refrigerators (other than commercial storage refrigerators):[S 113/2025 wef 01/04/2025](da)commercial storage refrigerators:[S 113/2025 wef 01/04/2025](e)televisions:
water heaters:[S 113/2025 wef 01/04/2025]Product information requirements4A. The product information set out in the second column applies to the regulated goods set out opposite in the first column:First columnSecond column1.Motor(a)year of manufacture;
International Energy Efficiency class, as specified in the test report; and
Nominal Efficiency at rated output power[S 603/2018 wef 01/10/2018]Test standard or method
5. Subject to regulation 2(2), a test report for any regulated goods must contain the results of tests carried out for the regulated goods in accordance with the applicable test standard or method, as follows:Regulated goodsType Applicable test standard or method(a)Air-conditioner(i)Casement/Window type—ISO 5151:2017 (ii)Split type (inverter) with more than one indoor unit—ISO 15042:2017The cooling tests must be conducted at 2 points, namely, the full-load cooling capacity and the part-load cooling capacity (iii)Split type (inverter) with one indoor unit—ISO 5151:2017The cooling tests must be conducted at 2 points, namely, the full-load cooling capacity and the part-load cooling capacity (iv)Split type (non-inverter) with more than one indoor unit—ISO 15042:2017 (v)Split type (non-inverter) with one indoor unit—ISO 5151:2017 (vi)Three-phase variable refrigerant flow (VRF) air-conditioner—ISO 15042:2017The cooling tests must be conducted at 4 points, namely, the full-load cooling capacity and part-load cooling capacity at 75%, 50% and 25%. The tests must include a single outdoor unit that services the network of indoor units (vii)PAC—ISO 18326:2018 (viii)Air-conditioners described in items (i) to (vi) (for standby power)—IEC 62301:2011(b)Clothes dryerAll—IEC 61121:2002+AMD1:2005The test must be conducted on cotton textiles using the dry cotton drying programme(c)Lamp(i)Incandescent lamp—The luminous flux measurement test must be conducted in accordance with CIE 084-1989The test conditions for the luminous flux measurement test are as specified in —
for tungsten filament lamps, IEC60064:1993+AMD1:2000+AMD2:2002+AMD3:2005; and
for tungsten halogen lamps, IEC60064:1993+AMD1:2000+AMD2:2002+AMD3:2005 or IEC 60357:2002 (ii)CFLi—IEC 60969:2016 (iii)LED Lamp—IEC 62612:2013 or IEC 62612:2013+AMD:2015 or IEC 62612:2013+AMD1:2015+AMD2:2018The luminous flux measurement test must be conducted in accordance with CIE S 025:2015 (iv)CFLni—IEC 60901:1996+AMD1:1997+AMD2:2000 (v)LFL—IEC 60081:1997+AMD1:2000 (vi)LED lamp designed as a direct replacement for CFLni—IEC 62612:2013 or IEC 62612:2013+AMD:2015 or IEC 62612:2013+AMD1:2015+AMD2:2018The luminous flux measurement test must be conducted in accordance with CIE S 025:2015 (vii)Linear LED lamp—IEC 62612:2013 or IEC 62612:2013+AMD:2015 or IEC 62612:2013+AMD1:2015+AMD2:2018The luminous flux measurement test must be conducted in accordance with CIE S 025:2015(d)Refrigerator (other than a commercial storage refrigerator)All—IEC 62552-3:2015+AMD1:2020(e)Commercial storage refrigeratorAll—ISO 22041:2019(f)Television(i)All—IEC 62087-3:2015The test must be conducted using dynamic broadcast content video signal (ii)All (for standby power)—IEC 62301:2011(g)MotorAll—Method 2-1-1B of IEC 60034-2-1:2014 or Method B of IEEE 112-2004(h)BallastAll—IEC 62442-1:2011 or IEC 62442:2018(i)Water heaterAll—SS 646:2019Notes:1. Where the expression “for standby power” appears in relation to a regulated good, the applicable test standard or method corresponding to that regulated good applies in relation to that regulated good when it is in standby mode.
2. Unless otherwise stated, the applicable test standard or method corresponding to a regulated good applies in relation to that regulated good when it is not in standby mode.[S 113/2025 wef 01/04/2025]