Note: After April 23, 2014, any representations made with respect to the energy use or efficiency of televisions must be made in accordance with the results of testing pursuant to this appendix. Given that after April 23, 2014 representations with respect to the energy use or efficiency of televisions must be made in accordance with tests conducted pursuant to this appendix, manufacturers may wish to begin using this test procedure as soon as possible.
1. Scope
This appendix covers the test requirements used to measure the energy and power consumption of television sets that:
(i) Have a diagonal screen size of at least fifteen inches; and
(ii) Are powered by mains power (including TVs with auxiliary batteries but not TVs with main batteries).
2. Definitions and Symbols
2.1. Additional functions shall be defined using the additional functions definition in section 3.1.1 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
2.2. Auxiliary Battery means a battery capable of powering a clock or retaining TV settings but is incapable of powering the TV to produce dynamic video.
2.3. Brightest selectable preset picture setting means the preset picture setting in which the television produces the highest screen luminance within either the home or retail configuration.
2.4. Default picture setting means the preset picture setting that the TV enters into immediately after making a selection from the forced menu. If the TV does not have a forced menu, this is the as-shipped preset picture setting.
2.5. Forced menu means a series of menus which require the selection of initial settings before allowing the user to utilize primary functions. Within these menus contains an option to choose the viewing environment between retail and home configurations.
2.6. Home configuration means the TV configuration selected from the forced menu which is designed for typical consumer viewing and is recommended by the manufacturer for home environments.
2.7. IEC 62087 Ed. 3.0 means the test standard published by the International Electrotechnical Commission, entitled “Methods of measurement of the power consumption of audio, video, and related equipment,” IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
2.8. IEC 62087 Ed. 3.0 Blu-ray DiscTM Dynamic Broadcast-Content Video Signal means the test video content published by the International Electrotechnical Commission, entitled “IEC 62087 Ed. 3.0, video content__BD, video content for IEC 62087 Ed. 3.0 on Blu-rayTM Disc,” IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
2.9. IEC 62301 Ed. 2.0 means the test standard published by the International Electrotechnical Commission, entitled “Household electrical appliances—Measurement of standby power,” IEC 62301 Ed. 2.0 (incorporated by reference, see §430.3).
2.10. Illuminance means the luminous flux per unit area of light illuminating a given surface, expressed in units of lux (lx).
2.11. Luminance means the photometric measure of the luminous intensity per unit area of light traveling in a given direction, expressed in units of candelas per square meter (cd/m2).
2.12. Main battery means a battery capable of powering the TV to produce dynamic video without the support of mains power.
2.13. Off mode means the mode of operation in which the TV is connected to mains power, produces neither sound nor picture, and cannot be switched into any other mode of operation with the remote control unit, an internal signal, or external signal.
2.14. On mode means the mode of operation in which the TV is connected to mains power, and is capable of producing dynamic video.
2.15. Preset picture setting means a preprogrammed factory setting obtained from the TV menu with pre-determined picture parameters such as brightness, contrast, color, sharpness, etc. Preset picture settings can be selected within the home or retail mode.
2.16. Retail configuration means the TV configuration selected from the forced menu which is designed to highlight the TV's features in a retail environment. This configuration may display demos, disable configurable settings, or increase screen brightness in a manner which is not desirable for typical consumer viewing.
2.17. Special functions shall be defined using the definition in section 3.1.18 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
2.18. Standby-passive mode means the mode of operation in which the TV is connected to mains power, produces neither sound nor picture, and can be switched into another mode with only the remote control unit or an internal signal.
2.19. Standby-active, high mode means the mode of operation in which the TV is connected to mains power, produces neither sound nor picture, is exchanging/receiving data with/from an external source, and can be switched into another mode of operation with the remote control unit, an internal signal, or an external signal.
2.20. Standby-active, low mode means the mode of operation in which the TV is connected to mains power, produces neither sound nor picture, can be switched into another mode with the remote control unit or an internal signal, and can additionally be switched into another mode with an external signal.
2.21. Symbol usage. The following identity relationships are provided to help clarify the symbols used throughout this test procedure.
ABC—Automatic Brightness Control
AEC—Annual Energy Consumption
BD—Blu-ray DiscTM
DVD—Digital Versatile DiscTM
DVI—Digital Visual Interface
HDMI®—High Definition Multimedia Interface
Lbrightest—Screen luminance in brightest selectable preset picture setting within the home configuration
Ldefault—Screen luminance in default picture setting within the home configuration
Ldefault__retail—Screen luminance in default picture setting within the retail configuration
LAN—Local Area Network
Pon—Power consumed in on mode
P3—Average power consumed in on mode, ABC enabled, 3 lx
P12—Average power consumed in on mode, ABC enabled, 12 lx
P35—Average power consumed in on mode, ABC enabled, 35 lx
P100—Average power consumed in on mode, ABC enabled, 100 lx
Pstandby-passive—Power consumption in standby-passive mode
Pstandby-active, low—Power consumption in standby-active, low mode
Poff—Power consumption in off mode
STB—Set-top Box
THD—Total Harmonic Distortion
TV—Television Set
USB—Universal Serial Bus
W3—Percent weighting for on mode, ABC enabled, 3 lx
W12—Percent weighting for on mode, ABC enabled, 12 lx
W35—Percent weighting for on mode, ABC enabled, 35 lx
W100—Percent weighting for on mode, ABC enabled, 100 lx
WAN—Wide Area Network
3. Accuracy and Precision of Measurement Equipment
3.1. Voltage and Frequency. Set the test voltage and frequency to the rated electrical supply values of the region in accordance with Table 1 in section 4.3.1 of IEC 62301 Ed. 2.0
3.2. Power Supply Requirements. The TV power use shall be measured using a power supply that meets the specifications found in section 4.3.1 of IEC 62301 Ed. 2.0 (incorporated by reference, see §430.3). The THD of the supply voltage shall not exceed 5%, inclusive to the 13th order harmonic, when the unit is under test.
3.3. Power Meter Requirements. The power measurement shall be carried out directly by means of a wattmeter, a wattmeter with averaging function, or a watt-hour meter by dividing the reading by the measuring time. For TVs where the input video signal varies over time, use a wattmeter with an averaging function to carry out the measurement.
3.3.1. The sampling rate of the watt-hour meter or wattmeter with averaging function shall be one measurement per second or more frequent.
3.3.2. The power measurement instrument shall measure and record the power factor and the real power consumed during all on mode tests at the same sampling rate.
3.3.3. Power measurements of 0.5 W or greater shall be made with an uncertainty of less than or equal to 2 percent (at the 95 percent confidence level). Measurements of power of less than 0.5 W shall be made with an uncertainty of less than or equal to 0.01 W (at the 95 percent confidence level). The power measurement instrument shall have a resolution of:
0.01 W or better for power measurements of 10 W or less;
0.1 W or better for power measurements of greater than 10 W up to 100 W;
1 W or better for power measurements of greater than 100 W.
3.4. Luminance Meter Requirements. Contact or non-contact luminance meters shall have an accuracy of ±2 percent ±2 digits of the digitally displayed value. Non-contact meters are also required to have an acceptance angle of 3 degrees or less.
3.5. Illuminance Meter Requirements. All illuminance meters shall have an accuracy of ±2 percent ±2 digits of the digitally displayed value.
3.6. Video Input Device. The video input device (i.e. BD player) shall be capable of decoding a BD signal. The video input device manufacturer shall be different from the manufacturer of the TV under test to prevent device interaction.
4. Test Room Set-Up
4.1. Ambient Temperature Conditions. For all testing, maintain ambient temperature conditions in accordance with in section 11.4.1 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
4.2. Ambient Relative Humidity Conditions. For all testing, maintain the ambient relative humidity between 10 and 80 percent.
4.3. Room Illuminance Level. All luminance testing (with a non-contact meter) and on mode testing (with ABC enabled by default) shall be performed in a room which measures less than or equal to 1.0 lx measured at the ABC sensor while the TV is in off or a standby mode. If the TV does not have an ABC sensor, measure at the bottom center of the TV bezel.
4.4. Installation. Install the TV in accordance with manufacturer's instructions.
4.5. TV Placement. TVs which have an ABC sensor enabled by default shall be placed at least 0.5 meters away from any wall surface (i.e. wall, ceiling, and floor). This does not include the furnishings which the TV may be placed on or the wall which the back of the TV faces. All four corners of the face of the TV shall be placed equidistant from a vertical reference plane (e.g. wall).
5. TV and Video Signal Configuration
5.1. Additional Functions. The TV shall be set up according to the requirements in section 11.4.5 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
5.2. Video Connection Priority. The TV and the video input device shall be connected using an HDMI input cable. If the TV does not have an HDMI input terminal, the specified input terminals shall be used in the following order: Component video, S-video, and Composite video.
5.3. Input Terminal. If the TV has multiple input terminals of the same type (i.e. HDMI 1, HDMI 2), testing shall only be performed using any input terminal designed for viewing live TV or dynamic content from a BD player or STB, not from an input designed for an alternative purpose. Examples 1 and 2 provide visual explanations of this requirement.
5.4. Special Functions. The TV shall be set up according to the requirements in section 11.4.6 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
5.5. Special Function Configuration. If at any time during on mode operation a message prompt is displayed requesting the configuration of special functions, the most power consumptive configuration shall be selected. If it is unknown which configuration yields the most power consumptive state, verify the selection by measuring the power consumption of each possible configuration.
Note: The selection of the home or retail configuration within the forced menu is not considered the configuration of a special function, and is therefore exempt from this requirement.
5.6. On Mode Picture Setting. Ensure that the TV is in the default picture setting within the home configuration for all on mode tests. This picture setting shall only be changed as instructed by the luminance test.
5.7. Video Aspect Ratio. The input video signal shall be configured in accordance with section 11.4.9 of IEC 62087 Ed. 3.0 (incorporated by reference; see §430.3)
5.8. Frame Rate. The video frame rate shall be selected in accordance with section 11.4.10 of IEC 62087 Ed. 3.0 (incorporated by reference; see §430.3)
5.9. Sound level. The TV sound level shall be configured in accordance with section 11.4.11 of IEC 62087 Ed. 3.0 (incorporated by reference; see §430.3)
5.10. Network Connection Configuration.
5.10.1. Network Connections and Capabilities. Network connections should be listed in the user manual. If no connections are specified in the user manual, verify that the TV does not have network capabilities by checking for the absence of physical connections and the absence of network settings in the menu. If the TV has the capability to be connected to a network but was not shipped with a required piece of hardware (e.g. wireless adapter), that connection type shall not be tested.
5.10.2. Network Configuration. If the TV is network enabled, connect it to a LAN in on mode and prior to being placed into standby mode. The LAN shall allow devices to ping other devices on the network but will not allow access to a WAN. If the TV has multiple network connections (e.g., Wi-Fi and Ethernet), the TV shall be configured and connected to a single network source in accordance with the hierarchy of connections listed in Table 1 of this section.
Table 1—Network Connection Hierarchy
Priority | Network connection type |
---|---|
1 | Wi-Fi (Institution of Electrical and Electronics Engineers—IEEE 802.11-20072) |
2 | Ethernet (IEEE 802.3). If the TV supports Energy Efficient Ethernet (IEEE 802.3az-20103), then it shall be connected to a device that also supports IEEE 802.3az. |
6. Calculation of Average Power Consumption
6.1. Average Power Calculation. For all tests in the on, standby-active, low, and standby-passive modes, the average power shall be calculated using one of the following two methods:
6.1.1. Record the accumulated energy (Ei) in kilo-watt hours (kWh) consumed over the time period specified for each test (Ti). The average power consumption is calculated as Pi = Ei/Ti.
6.1.2. Record the average power consumption (Pi) by sampling the power at a rate of at least 1 sample per second and computing the arithmetic mean of all samples over the time period specified for each test (Ti).
The resulting average power consumption value for each mode of operation shall be rounded according to the accurary requirements specified in section 3.3.3 of this section.
7. Test Measurements.
7.1. On Mode Test.
7.1.1. On Mode Stabilization. If the TV has an ABC sensor enabled by default, direct at least 300 lx into the ABC sensor. The TV shall be stabilized prior to testing on mode using the IEC 62087 Ed. 3.0 Blu-ray DiscTM dynamic broadcast-content video signal in accordance with section 11.4.2 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3).
7.1.2. On Mode Test for TVs without ABC Enabled by Default. The following test shall be performed if the TV is shipped with ABC disabled by default or the ABC function is unavailable. Display the IEC 62087 Ed. 3.0 Blu-ray DiscTM dynamic broadcast-content video signal for one 10-minute period (incorporated by reference, see §430.3). Measure and record the average power consumption value over the test duration as Pon.
7.1.3. On Mode Test for TVs with ABC Enabled by Default. The following test shall be performed if the TV is shipped with ABC enabled by default:
7.1.3.1. Illuminance Values. Display the IEC 62087 Ed. 3.0 Blu-ray DiscTM dynamic broadcast-content video signal for one 10-minute period (incorporated by reference, see §430.3) with 100 lx (±5 lx) entering the ABC sensor. Measure and record the average power consumption value over the test duration as P100. Repeat the measurements with 35 lx (±2 lx), 12 lx (±1 lx), and 3 lux (±1 lx) entering the ABC sensor and record the values as P35, P12, and P3 respectively. Testing shall be performed from the brightest to dimmest illuminance value and the values shall be changed by varying the input voltage to the light source.
Note: The 3 lx illuminance value shall be simulated using a 67 mm 2 F-stop neutral density filter. 12 lx is measured at the ABC sensor prior to the application of the neutral density filter.
7.1.3.2. On Mode Power Calculation. All illuminance values shall be weighted equally when calculating the on mode power for a TV with ABC enabled by default and shall be determined by the following equation:
Pon = P100 * W100 + P35 * W35 + P12 * W12 + P3 * W3
Where:
W100 = W35 = W12 = W3 = 0.25
7.1.3.3. Lamp Requirements. A standard spectrum, halogen incandescent aluminized reflector lamp with a lamp diameter of 95 mm (±10 mm), a beam angle of 30 degrees (±10 degrees), and a center beam candlepower of 1500 cd (±500 cd) shall be positioned in front of the ABC sensor so that the light is directed into the sensor.
Note: Lamps with spectrum modifying qualities, such as an IR coating, are not considered to meet a standard spectrum.
7.1.3.4. Light Source Set-up. The center of the lamp shall measure 1.5 m (±0.1 m) from the center of the ABC sensor. The light source shall be aligned ensuring that the center focal point of the lamp is perpendicular to the center of the ABC sensor.
7.1.3.5. Illuminance Measurement. The room illuminance shall be measured at the sensor in the direction of the light source while the TV is on and displaying the first menu from the IEC 62087 Ed. 3.0 Blu-ray DiscTM dynamic broadcast-content video signal.
7.2. Luminance Test.
7.2.1. Luminance Test Set-up.
7.2.1.1. Picture Setting Set-up. When transitioning from the on mode power consumption test to the luminance test, the TV shall remain in the default picture setting within the home configuration for the first luminance measurement.
7.2.1.2. ABC Configuration. The ABC sensor shall be disabled at all times during the luminance test. If the ABC sensor is incapable of being disabled through the TV settings menu, direct at least 300 lx of light into the ABC sensor.
7.2.1.3. Stabilization. Prior to the first luminance measurement, the TV must undergo a 10-minute re-stabilization period using the IEC 62087 Ed. 3.0 Blu-ray DiscTM dynamic broadcast-content video signal.
7.2.2. Luminance Meter Set-up. Align the luminance meter perpendicular to the center of the TV screen. If a non-contact luminance meter is used to measure the screen luminance, the luminance measurement shall be taken at a distance capable of meeting the meter specifications outlined in section 3.1.3, and in accordance with the meter's user manual.
7.2.3. Three Vertical Bar Signal Measurement. The IEC 62087 Ed. 3.0 three vertical bar signal found in section 11.5.5 of IEC 62087 Ed. 3.0 (incorporated by reference, see §430.3) shall be displayed for no more than 5 seconds when each luminance measurement is taken. The luminance measurement taken in the default picture setting within the home configuration shall be recorded as LDefault__Home.
7.2.4. Luminance in the Brightest Selectable Preset Picture Setting. Using the IEC 62087 Ed. 3.0 three vertical bar signal, determine the brightest selectable preset picture setting within the home configuration. Measure and record the screen luminance in the brightest selectable preset picture setting as LBrightest__Home.
7.2.5. Retail Configuration Luminance Measurement. If the TV has a retail configuration and the retail configuration is acceptable for making a luminance measurement, measure and record the screen luminance in the default picture setting within the retail configuration as LDefault__Retail. A retail configuration is considered acceptable for a luminance measurement if the TV does not display a demo or ticker which alters the screen content, or if such features are present, they must be capable of being disabled for the entire re-stabilization period and measurement.
7.3. Standby Mode Test.
7.3.1. Video Input Device. The video input device shall be disconnected from the TV for all testing in standby mode.
7.3.2. Standby-Passive Mode. The standby-passive mode test shall be performed according to section 5.3.1 of IEC 62301 Ed. 2.0 (incorporated by reference, see §430.3). Measure and record the average power consumption value over the test duration as Pstandby-passive.
7.3.3. Standby-Active, Low Mode. The standby-active, low mode shall only be tested if the TV is capable of connecting to a network and is capable of entering this mode of operation. The standby-active, low mode test shall be performed according to section 5.3.1 of IEC 62301 Ed. 2.0 (incorporated by reference, see §430.3). Measure and record the average power consumption value over the test duration as Pstandby-active,low.
7.4. Off Mode Test.
7.4.1. The off mode test shall be performed according to section 5.3.1 of IEC 62301 Ed. 2.0 (incorporated by reference, see §430.3). Measure and record the average power consumption value over the test duration as Poff.
8. Annual Energy Consumption
8.1. Input Value. The annual energy consumption (AEC) of the TV shall be calculated using on mode, standby mode, and off mode power consumption values as measured pursuant to section 7.1, 7.3, and 7.4 respectively.
8.2. Rounding. Calculate the AEC of the TV using the equation below. The calculated AEC value shall be rounded as follows:
If the calculated AEC value is 100 kWh or less, the rated value shall be rounded to the nearest tenth of a kWh;
If the calculated AEC value is greater than 100 kWh, the rated value shall be rounded to the nearest kWh.
8.3. Calculations. Express the AEC in kWh per year, according to the following:
AEC = 365 * (Pon * Hon + Pstandby-active, low * Hstandby-active, low + Pstandby-passive * Hstandby-passive + Poff * Hoff)/1000
Where:
Pm = power measured in a given mode m (in Watts)
Hm = hours per day spent in mode m
365 = conversion factor from daily to yearly
1000 = conversion factor from watts to kilowatts
Values for Hm (in hours/day) are specified in Table 2 of this section:
Table 2—Hourly Weightings
Standby-active, low mode | Hon | Hstandby-active, low | Hstandby-passive | Hoff |
---|---|---|---|---|
Yes | 5 | 19 | 0 | 0 |
No | 5 | 0 | 19 | 0 |
[78 FR 63841, Oct. 25, 2013]