Appendix I1 - Appendix I1 to Subpart B of Part 430—Uniform Test Method for Measuring the Energy Consumption of Conventional Cooking Products
Any representation related to energy consumption of conventional cooking tops, including the conventional cooking top component of combined cooking products, made after February 20, 2023 must be based upon results generated under this test procedure. Upon the compliance date(s) of any energy conservation standard(s) for conventional cooking tops, including the conventional cooking top component of combined cooking products, use of the applicable provisions of this test procedure to demonstrate compliance with the energy conservation standard is required.
0. Incorporation by ReferenceDOE incorporated by reference in § 430.3, the entire test standard for IEC 60350-2; IEC 62301 (First Edition); and IEC 62301 (Second Edition). However, only enumerated provisions of those standards are applicable to this appendix, as follows. If there is a conflict, the language of the test procedure in this appendix takes precedence over the referenced test standards.
0.1 IEC 60350-2(a) Section 5.1 as referenced in section 2.4.1 of this appendix;
(b) Section 5.3 as referenced in sections 2.7.1.1, 2.7.3.1, 2.7.3.3, 2.7.3.4, 2.7.4, and 2.7.5 of this appendix;
(c) Section 5.5 as referenced in section 2.5.1 of this appendix;
(d) Section 5.6.1 as referenced in section 2.6.1 of this appendix;
(e) Section 5.6.1.5 as referenced in section 3.1.1.2 of this appendix;
(f) Section 6.3 as referenced in section 3.1.1.1.1 of this appendix;
(g) Section 6.3.1 as referenced in section 3.1.1.1.1 of this appendix;
(h) Section 6.3.2 as referenced in section 3.1.1.1.1 of this appendix;
(i) Section 7.5.1 as referenced in section 2.6.2 of this appendix;
(j) Section 7.5.2 as referenced in section 3.1.4.4 of this appendix;
(k) Section 7.5.2.1 as referenced in sections 1 and 3.1.4.2 of this appendix;
(l) Section 7.5.2.2 as referenced in section 3.1.4.4 of this appendix;
(m) Section 7.5.4.1 as referenced in sections 1 and 3.1.4.5 of this appendix;
(n) Annex A as referenced in section 3.1.1.2 of this appendix;
(o) Annex B as referenced in sections 2.6.1 and 2.8.3 of this appendix; and
(p) Annex C as referenced in section 3.1.4.1 of this appendix.
0.2 IEC 62301 (First Edition)(a) Paragraph 5.3 as referenced in section 3.2 of this appendix; and
(b) Paragraph 5.3.2 as referenced in section 3.2 of this appendix.
0.3 IEC 62301 (Second Edition)(a) Paragraph 4.2 as referenced in section 2.4.2 of this appendix;
(b) Paragraph 4.3.2 as referenced in section 2.2.1.1.2 of this appendix;
(c) Paragraph 4.4 as referenced in section 2.7.1.2 of this appendix;
(d) Paragraph 5.1 as referenced in section 3.2 of this appendix; and
(e) Paragraph 5.3.2 as referenced in section 3.2 of this appendix.
1. DefinitionsThe following definitions apply to the test procedures in this appendix, including the test procedures incorporated by reference:
Active mode means a mode in which the product is connected to a mains power source, has been activated, and is performing the main function of producing heat by means of a gas flame, electric resistance heating, or electric inductive heating.
Built-in means the product is enclosed in surrounding cabinetry, walls, or other similar structures on at least three sides, and can be supported by surrounding cabinetry or the floor.
Combined cooking product means a household cooking appliance that combines a cooking product with other appliance functionality, which may or may not include another cooking product. Combined cooking products include the following products: conventional range, microwave/conventional cooking top, microwave/conventional oven, and microwave/conventional range.
Combined low-power mode means the aggregate of available modes other than active mode, but including the delay start mode portion of active mode.
Cooking area means an area on a conventional cooking top surface heated by an inducted magnetic field where cookware is placed for heating, where more than one cookware item can be used simultaneously and controlled separately from other cookware placed on the cooking area, and that may or may not include limitative markings.
Cooking top control means a part of the conventional cooking top used to adjust the power and the temperature of the cooking zone or cooking area for one cookware item.
Cooking zone means a part of a conventional cooking top surface that is either a single electric resistance heating element, multiple concentric sizes of electric resistance heating elements, an inductive heating element, or a gas surface unit that is defined by limitative markings on the surface of the cooking top and can be controlled independently of any other cooking area or cooking zone.
Cycle finished mode means a standby mode in which a conventional cooking top provides continuous status display following operation in active mode.
Drop-in means the product is supported by horizontal surface cabinetry.
Freestanding means the product is supported by the floor and is not specified in the manufacturer's instructions as able to be installed such that it is enclosed by surrounding cabinetry, walls, or other similar structures.
Inactive mode means a standby mode that facilitates the activation of active mode by remote switch (including remote control), internal sensor, or timer, or that provides continuous status display.
Infinite power settings means a cooking zone control without discrete power settings, which allows for selection of any power setting up to the maximum power setting.
Maximum-below-threshold power setting means the power setting on a conventional cooking top that is the highest power setting that results in smoothened water temperature data that do not meet the evaluation criteria specified in Section 7.5.4.1 of IEC 60350-2.
Maximum power setting means the maximum possible power setting if only one cookware item is used on the cooking zone or cooking area of a conventional cooking top, including any optional power boosting features. For conventional electric cooking tops with multi-ring cooking zones or cooking areas, the maximum power setting is the maximum power corresponding to the concentric heating element with the largest diameter, which may correspond to a power setting which may include one or more of the smaller concentric heating elements. For conventional gas cooking tops with multi-ring cooking zones, the maximum power setting is the maximum heat input rate when the maximum number of rings of the cooking zone are ignited.
Minimum-above-threshold power setting means the power setting on a conventional cooking top that is the lowest power setting that results in smoothened water temperature data that meet the evaluation criteria specified in Section 7.5.4.1 of IEC 60350-2. This power setting is also referred to as the simmering setting.
Multi-ring cooking zone means a cooking zone on a conventional cooking top with multiple concentric sizes of electric resistance heating elements or gas burner rings.
Off mode means any mode in which a product is connected to a mains power source and is not providing any active mode or standby function, and where the mode may persist for an indefinite time. An indicator that only shows the user that the product is in the off position is included within the classification of an off mode.
Power setting means a setting on a cooking zone control that offers a gas flame, electric resistance heating, or electric inductive heating.
Simmering period means, for each cooking zone, the 20-minute period during the simmering test starting at time t
Smoothened water temperature means the 40-second moving-average temperature as calculated in Section 7.5.4.1 of IEC 60350-2, rounded to the nearest 0.1 degree Celsius.
Specialty cooking zone means a warming plate, grill, griddle, or any cooking zone that is designed for use only with non-circular cookware, such as a bridge zone. Specialty cooking zones are not tested under this appendix.
Stable temperature means a temperature that does not vary by more than 1 °C over a 5-minute period.
Standard cubic foot of gas means the quantity of gas that occupies 1 cubic foot when saturated with water vapor at a temperature of 60 °F and a pressure of 14.73 pounds per square inch (30 inches of mercury or 101.6 kPa).
Standby mode means any mode in which a product is connected to a mains power source and offers one or more of the following user-oriented or protective functions which may persist for an indefinite time:
(1) Facilitation of the activation of other modes (including activation or deactivation of active mode) by remote switch (including remote control), internal sensor, or timer;
(2) Provision of continuous functions, including information or status displays (including clocks) or sensor-based functions. A timer is a continuous clock function (which may or may not be associated with a display) that allows for regularly scheduled tasks and that operates on a continuous basis.
Target turndown temperature (Tc
Thermocouple means a device consisting of two dissimilar metals which are joined together and, with their associated wires, are used to measure temperature by means of electromotive force.
Time t
Turndown temperature (T
2.1 Installation. Install the conventional cooking top or combined cooking product in accordance with the manufacturer's instructions. If the manufacturer's instructions specify that the product may be used in multiple installation conditions, install the product according to the built-in configuration. Completely assemble the product with all handles, knobs, guards, and similar components mounted in place. Position any electric resistance heaters, gas burners, and baffles in accordance with the manufacturer's instructions. If the product can communicate through a network (e.g., Bluetooth® or internet connection), disable the network function, if it is possible to disable it by means provided in the manufacturer's user manual, for the duration of testing. If the network function cannot be disabled, or if means for disabling the function are not provided in the manufacturer's user manual, the product shall be tested in the factory default setting or in the as-shipped condition.
2.1.1 Freestanding combined cooking product. Install a freestanding combined cooking product with the back directly against, or as near as possible to, a vertical wall which extends at least 1 foot above the product and 1 foot beyond both sides of the product, and with no side walls.
2.1.2 Drop-in or built-in combined cooking product. Install a drop-in or built-in combined cooking product in a test enclosure in accordance with manufacturer's instructions.
2.1.3 Conventional cooking top. Install a conventional cooking top with the back directly against, or as near as possible to, a vertical wall which extends at least 1 foot above the product and 1 foot beyond both sides of the product.
2.2 Energy supply.
2.2.1 Electrical supply.
2.2.1.1 Supply voltage.
2.2.1.1.1 Active mode supply voltage. During active mode testing, maintain the electrical supply to the product at either 240 volts ±1 percent or 120 volts ±1 percent, according to the manufacturer's instructions, except for products which do not allow for a mains electrical supply. The actual voltage shall be maintained and recorded throughout the test. Instantaneous voltage fluctuations caused by the turning on or off of electrical components shall not be considered.
2.2.1.1.2 Standby mode and off mode supply voltage. During standby mode and off mode testing, maintain the electrical supply to the product at either 240 volts ±1 percent, or 120 volts ±1 percent, according to the manufacturer's instructions. Maintain the electrical supply voltage waveform specified in Section 4, Paragraph 4.3.2 of IEC 62301 (Second Edition), disregarding the provisions regarding batteries and the determination, classification, and testing of relevant modes. If the power measuring instrument used for testing is unable to measure and record the total harmonic content during the test measurement period, total harmonic content may be measured and recorded immediately before and after the test measurement period.
2.2.1.2 Supply frequency. Maintain the electrical supply frequency for all tests at 60 hertz ±1 percent.
2.2.2 Gas supply.
2.2.2.1 Natural gas. Maintain the natural gas pressure immediately ahead of all controls of the unit under test at 7 to 10 inches of water column, except as specified in section 3.1.3 of this appendix. The natural gas supplied should have a higher heating value (dry-basis) of approximately 1,025 Btu per standard cubic foot. Obtain the higher heating value on a dry basis of gas, H
2.2.2.2 Propane. Maintain the propane pressure immediately ahead of all controls of the unit under test at 11 to 13 inches of water column, except as specified in section 3.1.3 of this appendix. The propane supplied should have a higher heating value (dry-basis) of approximately 2,500 Btu per standard cubic foot. Obtain the higher heating value on a dry basis of gas, H
2.3 Air circulation. Maintain air circulation in the room sufficient to secure a reasonably uniform temperature distribution, but do not cause a direct draft on the unit under test.
2.4 Ambient room test conditions.
2.4.1 Active mode ambient conditions. During active mode testing, maintain the ambient room air pressure specified in Section 5.1 of IEC 60350-2, and maintain the ambient room air temperature at 25 ± 5 °C with a target temperature of 25 °C.
2.4.2 Standby mode and off mode ambient conditions. During standby mode and off mode testing, maintain the ambient room air temperature conditions specified in Section 4, Paragraph 4.2 of IEC 62301 (Second Edition).
2.5 Product temperature.
2.5.1 Product temperature stability. Prior to any testing, the product must achieve a stable temperature meeting the ambient room air temperature specified in section 2.4 of this appendix. For all conventional cooking tops, forced cooling may be used to assist in reducing the temperature of the product between tests, as specified in Section 5.5 of IEC 60350-2. Forced cooling must not be used during the period of time used to assess temperature stability.
2.5.2 Product temperature measurement. Measure the product temperature in degrees Celsius using the equipment specified in section 2.7.3.3 of this appendix at the following locations.
2.5.2.1 Measure the product temperature at the center of the cooking zone under test for any gas burner adjustment in section 3.1.3 of this appendix and per-cooking zone energy consumption test in section 3.1.4 of this appendix, except that the product temperature measurement is not required for any potential simmering setting pre-selection test in section 3.1.4.3 of this appendix. For a conventional gas cooking top, measure the product temperature inside the burner body of the cooking zone under test, after temporarily removing any burner cap on that cooking zone.
2.5.2.2 Measure the temperature at the center of each cooking zone for the standby mode and off mode power test in section 3.2 of this appendix. For a conventional gas cooking top, measure the temperature inside the burner body of each cooking zone, after temporarily removing any burner cap on that cooking zone. Calculate the product temperature as the average of the temperatures at the center of each cooking zone.
2.6 Test loads.
2.6.1 Test vessels. The test vessel for active mode testing of each cooking zone must meet the specifications in Section 5.6.1 and Annex B of IEC 60350-2.
2.6.2 Water load. The water used to fill the test vessels for active mode testing must meet the specifications in Section 7.5.1 of IEC 60350-2. The water temperature at the start of each test, except for the gas burner adjustment in section 3.1.3 of this appendix and the potential simmering setting pre-selection test in section 3.1.4.3 of this appendix, must have an initial temperature equal to 25 ± 0.5 °C.
2.7 Instrumentation. Perform all test measurements using the following instruments, as appropriate:
2.7.1 Electrical measurements.
2.7.1.1 Active mode watt-hour meter. The watt-hour meter for measuring the active mode electrical energy consumption must have a resolution as specified in Table 1 of Section 5.3 of IEC 60350-2. Measurements shall be made as specified in Table 2 of Section 5.3 of IEC 60350-2.
2.7.1.2 Standby mode and off mode watt meter. The watt meter used to measure standby mode and off mode power must meet the specifications in Section 4, Paragraph 4.4 of IEC 62301 (Second Edition). If the power measuring instrument used for testing is unable to measure and record the crest factor, power factor, or maximum current ratio during the test measurement period, measure the crest factor, power factor, and maximum current ratio immediately before and after the test measurement period to determine whether these characteristics meet the specifications in Section 4, Paragraph 4.4 of IEC 62301 (Second Edition).
2.7.2 Gas measurements.
2.7.2.1 Gas meter. The gas meter used for measuring gas consumption must have a resolution of 0.01 cubic foot or less and a maximum error no greater than 1 percent of the measured valued for any demand greater than 2.2 cubic feet per hour.
2.7.2.2 Standard continuous flow calorimeter. The maximum error of the basic calorimeter must be no greater than 0.2 percent of the actual heating value of the gas used in the test. The indicator readout must have a maximum error no greater than 0.5 percent of the measured value within the operating range and a resolution of 0.2 percent of the full-scale reading of the indicator instrument.
2.7.2.3 Gas line temperature. The incoming gas temperature must be measured at the gas meter. The instrument for measuring the gas line temperature shall have a maximum error no greater than ±2 °F over the operating range.
2.7.2.4 Gas line pressure. The incoming gas pressure must be measured at the gas meter. The instrument for measuring the gas line pressure must have a maximum error no greater than 0.1 inches of water column.
2.7.3 Temperature measurements.
2.7.3.1 Active mode ambient room temperature. The room temperature indicating system must meet the specifications in Table 1 of Section 5.3 of IEC 60350-2. Measurements shall be made as specified in Table 2 of Section 5.3 of IEC 60350-2.
2.7.3.2 Standby mode and off mode ambient room temperature. The room temperature indicating system must have an error no greater than ±1 °F (±0.6 °C) over the range 65° to 90 °F (18 °C to 32 °C).
2.7.3.3 Product temperature. The temperature indicating system must have an error no greater than ±1 °F (±0.6 °C) over the range 65° to 90 °F (18 °C to 32 °C). Measurements shall be made as specified in Table 2 of Section 5.3 of IEC 60350-2.
2.7.3.4 Water temperature. Measure the test vessel water temperature with a thermocouple that meets the specifications in Table 1 of Section 5.3 of IEC 60350-2. Measurements shall be made as specified in Table 2 of Section 5.3 of IEC 60350-2.
2.7.4 Room air pressure. The room air pressure indicating system must meet the specifications in Table 1 of Section 5.3 of IEC 60350-2.
2.7.5 Water mass. The scale used to measure the mass of the water load must meet the specifications in Table 1 of Section 5.3 of IEC 60350-2.
2.8 Power settings.
2.8.1 On a multi-ring cooking zone on a conventional gas cooking top, all power settings are considered, whether they ignite all rings of orifices or not.
2.8.2 On a multi-ring cooking zone on a conventional electric cooking top, only power settings corresponding to the concentric heating element with the largest diameter are considered, which may correspond to operation with one or more of the smaller concentric heating elements energized.
2.8.3 On a cooking zone with infinite power settings where the available range of rotation from maximum to minimum is more than 150 rotational degrees, evaluate power settings that are spaced by 10 rotational degrees. On a cooking zone with infinite power settings where the available range of rotation from maximum to minimum is less than or equal to 150 rotational degrees, evaluate power settings that are spaced by 5 rotational degrees, starting with the first position that meets the definition of a power setting, irrespective of how the knob is labeled. Polar coordinate paper, as provided in Annex B of IEC 60350-2 may be used to mark power settings.
3. Test Methods and Measurements3.1 Active mode. Perform the following test methods for conventional cooking tops and the conventional cooking top component of a combined cooking product.
3.1.1 Test vessel and water load selection.
3.1.1.1 Conventional electric cooking tops.
3.1.1.1.1 For cooking zones, measure the size of each cooking zone as specified in Section 6.3.2 of IEC 60350-2, not including any specialty cooking zones as defined in section 1 of this appendix. For circular cooking zones on smooth cooking tops, the cooking zone size is determined using the outer diameter of the printed marking, as specified in Section 6.3 of IEC 60350-2. For open coil cooking zones, the cooking zone size is determined using the widest diameter of the coil, see Figure 3.1.1.1. For non-circular cooking zones, the cooking zone size is determined by the measurement of the shorter side or minor axis. For cooking areas, determine the number of cooking zones as specified in Section 6.3.1 of IEC 60350-2.
3.1.1.1.2 Determine the test vessel diameter in millimeters (mm) and water load mass in grams (g) for each measured cooking zone. For cooking zones, test vessel selection is based on cooking zone size as specified in Table 3 in Section 5.6.1.5 of IEC 60350-2. For cooking areas, test vessel selection is based on the number of cooking zones as specified in Annex A of IEC 60350-2. If a selected test vessel (including its lid) cannot be centered on the cooking zone due to interference with a structural component of the cooking top, the test vessel with the largest diameter that can be centered on the cooking zone shall be used. The allowable tolerance on the water load weight is ±0.5 g.
3.1.1.2 Conventional gas cooking tops.
3.1.1.2.1 Record the nominal heat input rate for each cooking zone, not including any specialty cooking zones as defined in section 1 of this appendix.
3.1.1.2.2 Determine the test vessel diameter in mm and water load mass in g for each measured cooking zone according to Table 3.1 of this appendix. If a selected test vessel cannot be centered on the cooking zone due to interference with a structural component of the cooking top, the test vessel with the largest diameter that can be centered on the cooking zone shall be used. The allowable tolerance on the water load weight is ±0.5 g.
Table 3.1—Test Vessel Selection for Conventional Gas Cooking Tops
Nominal gas burner input rate
(Btu/h) | Test vessel diameter
(mm) | Water load mass
(g) | Minimum
(>) | Maximum
(≤) | 5,600 | 210 | 2,050 | 5,600 | 8,050 | 240 | 2,700 | 8,050 | 14,300 | 270 | 3,420 | 14,300 | 300 | 4,240 |
---|
3.1.2 Unit Preparation. Before the first measurement is taken, all cooking zones must be operated simultaneously for at least 10 minutes at maximum power. This step shall be conducted once per product.
3.1.3 Gas burner adjustment. Prior to active mode testing of each tested burner of a conventional gas cooking top, the burner heat input rate must be adjusted, if necessary, to within 2 percent of the nominal heat input rate of the burner as specified by the manufacturer. Prior to ignition and any adjustment of the burner heat input rate, the conventional cooking top must achieve the product temperature specified in section 2.5 of this appendix. Ignite and operate the gas burner under test with the test vessel and water mass specified in section 3.1.1 of this appendix. Measure the heat input rate of the gas burner under test starting 5 minutes after ignition. If the measured input rate of the gas burner under test is within 2 percent of the nominal heat input rate of the burner as specified by the manufacturer, no adjustment of the heat input rate shall be made.
3.1.3.1 Conventional gas cooking tops with an adjustable internal pressure regulator. If the measured heat input rate of the burner under test is not within 2 percent of the nominal heat input rate of the burner as specified by the manufacturer, adjust the product's internal pressure regulator such that the heat input rate of the burner under test is within 2 percent of the nominal heat input rate of the burner as specified by the manufacturer. Adjust the burner with sufficient air flow to prevent a yellow flame or a flame with yellow tips. Complete section 3.1.4 of this appendix while maintaining the same gas pressure regulator adjustment.
3.1.3.2 Conventional gas cooking tops with a non-adjustable internal pressure regulator or without an internal pressure regulator. If the measured heat input rate of the burner under test is not within 2 percent of the nominal heat input rate of the burner as specified by the manufacturer, remove the product's internal pressure regulator, or block it in the open position, and initially maintain the gas pressure ahead of all controls of the unit under test approximately equal to the manufacturer's recommended manifold pressure. Adjust the gas supply pressure such that the heat input rate of the burner under test is within 2 percent of the nominal heat input rate of the burner as specified by the manufacturer. Adjust the burner with sufficient air flow to prevent a yellow flame or a flame with yellow tips. Complete section 3.1.4 of this appendix while maintaining the same gas pressure regulator adjustment.
3.1.4 Per-cooking zone energy consumption test. Establish the test conditions set forth in section 2 of this appendix. Turn off the gas flow to the conventional oven(s), if so equipped. The product temperature must meet the specifications in section 2.5 of this appendix.
3.1.4.1 Test vessel placement. Position the test vessel with water load for the cooking zone under test, selected and prepared as specified in section 3.1.1 of this appendix, in the center of the cooking zone, and as specified in Annex C to IEC 60350-2.
3.1.4.2 Overshoot test. Use the test methods set forth in Section 7.5.2.1 of IEC 60350-2 to determine the target turndown temperature for each cooking zone, Tc
If T
3.1.4.3 Potential simmering setting pre-selection test. The potential simmering setting for each cooking zone may be determined using the potential simmering setting pre-selecting test. If a potential simmering setting is already known, it may be used instead of completing sections 3.1.4.3.1 through 3.1.4.3.4 of this appendix.
3.1.4.3.1 Use the test vessel with water load for the cooking zone under test, selected, prepared, and positioned as specified in sections 3.1.1 and 3.1.4.1 of this appendix. The temperature of the conventional cooking top is not required to meet the specification for the product temperature in section 2.5 of this appendix for the potential simmering setting pre-selection test. Operate the cooking zone under test with the lowest available power setting. Measure the energy consumption for 10 minutes ±2 seconds.
3.1.4.3.2 Calculate the power density of the power setting, j, on a conventional electric cooking top, Qe
3.1.4.3.3 Calculate the power density of the power setting, j, on a conventional gas cooking top, Qg
3.1.4.3.4 Repeat the measurement for each successively higher power setting until Qe
For conventional cooking tops with rotating knobs for selecting the power setting, the selection knob shall be turned to the maximum power setting in between each test, to avoid hysteresis. The selection knob shall be turned in the direction from higher power to lower power to select the power setting for the test. If the appropriate power setting is passed, the selection knob shall be turned to the maximum power setting again before repeating the power setting selection.
Of the last two power settings tested, the potential simmering setting is the power setting that produces a power density closest to 0.8 W/cm 2 for conventional electric cooking tops or 4.0 Btu/h·cm 2 for conventional gas cooking tops. The closest power density may be higher or lower than the applicable threshold value.
3.1.4.4 Simmering test. The product temperature must meet the specifications in section 2.5 of this appendix at the start of each simmering test. For each cooking zone, conduct the test method specified in Section 7.5.2 of IEC 60350-2, using the potential simmering setting identified in section 3.1.4.3 of this appendix for the initial simmering setting used in Section 7.5.2.2 of IEC 60350-2.
For conventional cooking tops with rotating knobs for selecting the power setting, the selection knob shall be turned in the direction from higher power to lower power to select the potential simmering setting for the test, to avoid hysteresis. If the appropriate setting is passed, the test is considered invalid and must be repeated after allowing the product to return to ambient conditions.
3.1.4.5 Evaluation of the simmering test. Evaluate the test conducted under section 3.1.4.4 of this appendix as set forth in Section 7.5.4.1 of IEC 60350-2 according to Figure 3.1.4.5 of this appendix. If the measured turndown temperature, Tc, is not within -0.5 °C and +1 °C of the target turndown temperature, Tc
3.2 Standby mode and off mode power. Establish the standby mode and off mode testing conditions set forth in section 2 of this appendix. For products that take some time to enter a stable state from a higher power state as discussed in Section 5, Paragraph 5.1, Note 1 of IEC 62301 (Second Edition), allow sufficient time for the product to reach the lower power state before proceeding with the test measurement. Follow the test procedure as specified in Section 5, Paragraph 5.3.2 of IEC 62301 (Second Edition) for testing in each possible mode as described in sections 3.2.1 and 3.2.2 of this appendix. For units in which power varies as a function of displayed time in standby mode, set the clock time to 3:23 at the end of an initial stabilization period, as specified in Section 5, Paragraph 5.3 of IEC 62301 (First Edition). After an additional 10-minute stabilization period, measure the power use for a single test period of 10 minutes +0/−2 seconds that starts when the clock time first reads 3:33. Use the average power approach described in Section 5, Paragraph 5.3.2(a) of IEC 62301 (First Edition).
3.2.1 If the product has an inactive mode, as defined in section 1 of this appendix, measure the average inactive mode power, P
3.2.2 If the product has an off mode, as defined in section 1 of this appendix, measure the average off mode power, P
3.3 Recorded values.
3.3.1 Active mode.
3.3.1.1 For a conventional gas cooking top tested with natural gas, record the natural gas higher heating value in Btu per standard cubic foot, H
3.3.1.2 Record the test room temperature in degrees Celsius and relative air pressure in hectopascals (hPa) during each test.
3.3.1.3 Per-cooking zone energy consumption test.
3.3.1.3.1 Record the product temperature in degrees Celsius, T
3.3.1.3.2 Overshoot test. For each cooking zone, record the initial temperature of the water in degrees Celsius, T
3.3.1.3.3 Simmering test. For each cooking zone, record the temperature of the water throughout the test, in degrees Celsius, and the values in sections 3.3.1.3.3.1 through 3.3.1.3.3.7 of this appendix for the Energy Test Cycle, if an Energy Test Cycle is measured in section 3.1.4.5 of this appendix, otherwise for both the maximum-below-threshold power setting and the minimum-above-threshold power setting. Because t
3.3.1.3.3.1 The power setting under test.
3.3.1.3.3.2 The initial temperature of the water, in degrees Celsius, T
3.3.1.3.3.3 The time at which the tester begins adjusting the cooking top control to change the power setting, to the nearest second, t
3.3.1.3.3.4 The time at which the simmering period starts, to the nearest second, t
3.3.1.3.3.5 The time at which the simmering period ends, to the nearest second, t
3.3.1.3.3.6 For a conventional electric cooking top, the electrical energy consumption from the start of the test to t
3.3.1.3.3.7 For a conventional gas cooking top, the volume of gas consumed from the start of the test to t
3.3.2 Standby mode and off mode. Make measurements as specified in section 3.2 of this appendix. If the product is capable of operating in inactive mode, as defined in section 1 of this appendix, record the average inactive mode power, P
4.1. Active mode energy consumption of conventional cooking tops and any conventional cooking top component of a combined cooking product.
4.1.1 Per-cycle active mode energy consumption of a conventional cooking top and any conventional cooking top component of a combined cooking product.
4.1.1.1 Conventional electric cooking top per-cycle active mode energy consumption.
4.1.1.1.1 Conventional electric cooking top per-cooking zone normalized active mode energy consumption. For each cooking zone, calculate the per-cooking zone normalized active mode energy consumption of a conventional electric cooking top, E, in watt-hours, using the following equation:
E = E4.1.1.1.2 Calculate the per-cycle active mode total energy consumption of a conventional electric cooking top, E
4.1.1.2 Conventional gas cooking top per-cycle active mode energy consumption.
4.1.1.2.1 Gas correction factor to standard temperature and pressure. Calculate the gas correction factor to standard temperature and pressure, which converts between standard cubic feet and measured cubic feet of gas for a given set of test conditions:
Where: P4.1.1.2.2 Conventional gas cooking top per-cooking zone normalized active mode gas energy consumption. For each cooking zone, calculate the per-cooking zone normalized active mode gas energy consumption of a conventional gas cooking top, E
4.1.1.2.3 Conventional gas cooking top per-cooking zone active mode normalized electrical energy consumption. For each cooking zone, calculate the per-cooking zone normalized active mode electrical energy consumption of a conventional gas cooking top, E
4.1.1.2.4 Conventional gas cooking top per-cycle active mode gas energy consumption. Calculate the per-cycle active mode gas energy consumption of a conventional gas cooking top, E
4.1.1.2.5 Conventional gas cooking top per-cycle active mode electrical energy consumption. Calculate the per-cycle active mode electrical energy consumption of a conventional gas cooking top, E
4.1.1.2.6 Conventional gas cooking top per-cycle active-mode total energy consumption. Calculate the per-cycle active mode total energy consumption of a conventional gas cooking top, E
4.1.2 Annual active mode energy consumption of a conventional cooking top and any conventional cooking top component of a combined cooking product.
4.1.2.1 Conventional electric cooking top annual active mode energy consumption. Calculate the annual active mode total energy consumption of a conventional electric cooking top, E
4.1.2.2 Conventional gas cooking top annual active mode energy consumption.
4.1.2.2.1 Conventional gas cooking top annual active mode gas energy consumption. Calculate the annual active mode gas energy consumption of a conventional gas cooking top, E
4.1.2.2.2 Conventional gas cooking top annual active mode electrical energy consumption. Calculate the annual active mode electrical energy consumption of a conventional gas cooking top, E
4.1.2.2.3 Conventional gas cooking top annual active mode total energy consumption. Calculate the annual active mode total energy consumption of a conventional gas cooking top, E
4.2 Annual combined low-power mode energy consumption of a conventional cooking top and any conventional cooking top component of a combined cooking product.
4.2.1 Conventional cooking top annual combined low-power mode energy consumption. Calculate the annual combined low-power mode energy consumption for a conventional cooking top, E
Table 4.2.1—Annual Hour Multipliers
Types of low-power mode(s) available | F | F | Both inactive and off mode | 0.5 | 0.5 | Inactive mode only | 1 | 0 | Off mode only | 0 | 1 |
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4.2.2 Conventional cooking top component of a combined cooking product annual combined low-power mode energy consumption. Calculate the annual combined low-power mode energy consumption for the conventional cooking top component of a combined cooking product, E
Table 4.2.2—Combined Cooking Product Usage Factors
Type of combined cooking product | S | H | Cooking top and conventional oven (conventional range) | 8,392 | 60 | Cooking top and microwave oven | 8,481 | 77 | Cooking top, conventional oven, and microwave oven | 8,329 | 51 |
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4.3 Integrated annual energy consumption of a conventional cooking top and any conventional cooking top component of a combined cooking product.
4.3.1 Conventional electric cooking top integrated annual energy consumption. Calculate the integrated annual energy consumption, IAEC, of a conventional electric cooking top, in kilowatt-hours per year, using the following equation:
IAEC = E4.3.2 Conventional gas cooking top integrated annual energy consumption. Calculate the integrated annual energy consumption, IAEC, of a conventional gas cooking top, in kBtu per year, defined as:
IAEC = E