ANSI CTA-2049-2015 Determination of Small Network Equipment Average Energy Consumption (Formerly ANSI CEA-2049).pdf

1、 ANSI/CTA Standard Determination of Small Network Equipment Average Energy Consumption ANSI/CTA-2049 (Formerly ANSI/CEA-2049) February 2015 NOTICE Consumer Technology Association (CTA) Standards, Bulletins and other technical publications are designed to serve the public interest through eliminating

2、 misunderstandings between manufacturers and purchasers, facilitating interchangeability and improvement of products, and assisting the purchaser in selecting and obtaining with minimum delay the proper product for his particular need. Existence of such Standards, Bulletins and other technical publi

3、cations shall not in any respect preclude any member or nonmember of the Consumer Technology Association from manufacturing or selling products not conforming to such Standards, Bulletins or other technical publications, nor shall the existence of such Standards, Bulletins and other technical public

4、ations preclude their voluntary use by those other than Consumer Technology Association members, whether the standard is to be used either domestically or internationally. Standards, Bulletins and other technical publications are adopted by the Consumer Technology Association in accordance with the

5、American National Standards Institute (ANSI) patent policy. By such action, the Consumer Technology Association does not assume any liability to any patent owner, nor does it assume any obligation whatever to parties adopting the Standard, Bulletin or other technical publication. This document does

6、not purport to address all safety problems associated with its use or all applicable regulatory requirements. It is the responsibility of the user of this document to establish appropriate safety and health practices and to determine the applicability of regulatory limitations before its use. This d

7、ocument is copyrighted by the Consumer Technology Association and may not be reproduced, in whole or part, without written permission. Federal copyright law prohibits unauthorized reproduction of this document by any means. Organizations may obtain permission to reproduce a limited number of copies

8、by entering into a license agreement. Requests to reproduce text, data, charts, figures or other material should be made to the Consumer Technology Association. (Formulated under the cognizance of the CTA R7 Home Networks Committee.) Published by CONSUMER TECHNOLOGY ASSOCIATION 2015 Technology the S

9、NE device, test environment, and the Test Client(s). A SNE device could be any device including, but not limited to, the following WAN and LAN interfaces: DOCSIS Cable Modem DSL Modem Optical Network Termination (ONT) Device Ethernet MoCA 802.11 It is important to define the test environment to ensu

10、re that the SNE devices are being tested similarly. The Test Client(s) ensure that the correct interfaces are connected to provide a basis for testing parity among all SNE devices regardless of the size and complexity of these devices. 3 References 3.1 Normative References The following standards co

11、ntain provisions that, through reference in this text, constitute normative provisions of this standard. At the time of publication, the editions indicated were valid. All standards are subject to revision, and parties to agreements based on this standard are encouraged to investigate the possibilit

12、y of applying the most recent editions of the standards listed here. 3.1.1 Normative Reference List 1. IEC 62301, Ed. 2.0, “Household Electrical Appliances Measurement of Standby Power”, Section 4, “General Conditions for Measurements”, January 2011 2. IEEE SA-802.3az-2010; IEEE Standard for Informa

13、tion technology Local and Metropolitan Area Networks Specific Requirements Part 3: CSMA/CD Access Method and Physical Layer Specifications Amendment 5: Media Access Control Parameters, Physical Layers, and Management Parameters for Energy-Efficient Ethernet 3. TIA; ANSI/TIA-568-C.2; Balanced Twisted

14、-Pair Telecommunication Cabling and Components Standard, Ed. C, Err. 11-2014 4. TIA; ANSI/TIA-568-C.4; Broadband Coaxial Cabling and Components Standard, Ed. C, 07-2011 4 CEA-2049 3.1.2 Normative Reference Acquisition 1. International Electrotechnical Commission (IEC); 3, rue de Varemb, P.O. Box 131

15、, CH - 1211 Geneva 20 - Switzerland; Tel: + 41 22 919 02 11; Internet: http:/www.iec.ch 2. IEEE Standards Store; http:/ http:/standards.ieee.org/findstds/standard/802.3az-2010.html 3. IHS Headquarters, 15 Inverness Way East, Englewood CO 80122; https:/ 4. IHS Headquarters, 15 Inverness Way East, Eng

16、lewood CO 80122; https:/ 3.2 Informative References The following references contain provisions that, through reference in this text, constitute informative provisions of this standard. At the time of publication, the edition indicated was valid. All references are subject to revision, and parties t

17、o agreements based on this standard are encouraged to investigate the possibility of applying the most recent edition of the reference indicated below. 3.2.1 Informative Reference List 1. ENERGY STAR Program Requirements for Small Network Equipment - Test Method (Rev. Nov-2013) 2. ATIS-0600015.03.20

18、13, April 2013; Energy Efficiency for Telecommunication Equipment: Methodology for Measurement and Reporting for Router and Ethernet Switch Products 3. CSA Group, C872-14, Power Consumption of Small Network Equipment (SNE); 2014 4. ITU-T, L.1310 (08/14): Energy Efficiency Metrics and Measurement Met

19、hods for Telecommunication Equipment 3.2.2 Informative Reference Acquisition 1. http:/www.energystar.gov/sites/default/files/specs/SmallNetworkEquipment_V1_ENERGYSTAR_ProgramRequirements_Nov2013_0.pdf 2. https:/www.atis.org/docstore/default.aspx 3. http:/shop.csa.ca/en/canada/energy-efficiency/c872-

20、14/invt/27036782014 4. http:/www.itu.int/rec/T-REC-L.1310-201408-P/en 4 Compliance Notation As used in this standard “shall” and “must” denote mandatory provisions of the standard. “Should” denotes a provision that is recommended but not mandatory. “May” denotes a feature whose presence does not pre

21、clude compliance, and implementation of which is optional. “Optional” denotes items that may or may not be present in a compliant device. 5 CEA-2049 5 Definitions Active State A device is powered on and transmitting data. Bluetooth Bluetooth is a short-range wireless technology used to create Person

22、al Area Networks among devices and with other nearby devices. Idle Interface An interface is configured and active, and capable of passing traffic. Idle State A device is powered on, but not actively passing traffic. LTE Long Term Evolution technology is a standard for wireless communication of high

23、-speed data for mobile phones. Test Client The Test Client is the device connected to the UUT. ZigBee ZigBee is a specification for a suite of high-level communication protocols used to create personal area networks built from small, low-power digital radios. ZigBee is based on an IEEE 802.15 standa

24、rd. Z-Wave Z-Wave is a wireless communications protocol designed for home automation, specifically for remote control applications in residential and light commercial environments. The technology uses a low-power RF radio embedded or retrofitted into electronic devices and systems, such as lighting,

25、 access controls, entertainment systems and household appliances. 6 Symbols and Abbreviations AC Alternating Current ACL Access Control List ANSI American National Standards Institute AP Access Point dB Decibels DHCP Dynamic Host Configuration Protocol DOCSIS Data Over Cable Service Interface Specif

26、ication DSL Digital Subscriber Line EPS External Power Supply eSATA External Serial Advanced Technology Attachment HPNA Home Phoneline Networking Alliance IAD Integrated Access Device IEC International Electrotechnical Commission 6 CEA-2049 IEEE Institute of Electrical and Electronics Engineers IMIX

27、 Internet Traffic Mix IPsec Internet Protocol Security ISP Internet Service Provider L2TP Layer 2 Tunneling Protocol LAN Local Area Network LLDP Link Layer Discovery Protocol MAC Media Access Control MIMO Multiple-Input/Multiple-Output MoCA Multimedia over Coax Alliance MTU Maximum Transmission Unit

28、 NAT Network Address Translation ONT Optical Network Terminal PoE Power over Ethernet PON Passive Optical Network POTS Plain Old Telephone Service PPPoX Point-to-Point Protocol over X RF Radio Frequency SD card Secure Digital card SNE Small Network Equipment SSID Service Set Identifier STA Wireless

29、STAtion client TIA Telecommunications Industry Association TTL Time To Live UDP User Datagram Protocol USB Universal Serial Bus UUT Unit Under Test VoIP Voice over Internet Protocol VPN Virtual Private Network WAN Wide Area Network WiFi Wireless Fidelity WLAN Wireless Local Area Network WPA WiFi Pro

30、tected Access 7 CEA-2049 7 Test Environment A) Test Setup and Instrumentation: Test setup and instrumentation for all portions of this procedure shall be in accordance with the requirements of IEC 62301, Ed. 2.0, “Household Electrical Appliances Measurement of Standby Power”, Section 4, “General Con

31、ditions for Measurements”. In the event of conflicting requirements, the ANSI/CEA-2049 test method shall take precedence. B) Input Power: Input power shall be as specified in Table 1. Testing shall only be required at the input power for the applicable market(s). Table 1: Input Power Requirements Ma

32、rket Voltage Voltage Tolerance Maximum Total Harmonic Distortion Frequency Frequency Tolerance North America, Taiwan 115 Vac +/- 1.0 % 2.0 % 60 Hz +/- 1.0 % Europe, Australia, New Zealand 230 Vac +/- 1.0 % 2.0 % 50 Hz +/- 1.0 % Japan 100 Vac +/- 1.0 % 2.0 % 50 Hz or 60 Hz +/- 1.0 % C) Ambient Temper

33、ature: Tests shall be carried out in a room where the air speed surrounding the unit under test (UUT) is = 0.5 m/s, and the ambient temperature is maintained at 23 5 C throughout the test. There shall be no external cooling of the UUT such as by use of separately powered fans, air conditioners, or h

34、eat sinks. The UUT shall be conditioned, rested, and tested on a thermally non-conductive surface. A readily available material such as Styrofoam will be sufficient. D) Relative Humidity: Relative humidity shall be from 10% to 80%. 8 Test Configuration 8.1 General A) As-shipped Condition: Products m

35、ust be tested in their “as-shipped” configuration. For products that offer a choice of user-configurable options, all options shall be set to their default condition, unless otherwise specified in this test procedure. B) Test Procedure Order: All portions of this test method shall be followed in the

36、 order in which they are written. C) Battery Operated Products: For products designed to operate using batteries either when not connected to the mains or during a power disruption, the battery shall be fully charged before the start of testing and shall be left in place for the test. To ensure the

37、battery is fully charged, perform the following steps: 8 CEA-2049 a. For UUTs that have an indicator to show that the battery is fully charged, continue charging for at least an additional 5 hours after the indication is present. b. If there is no charge indicator, but the manufacturers instructions

38、 provide a time estimate, continue charging for at least an additional 5 hours after the manufacturers estimate. c. If there is no indicator and no time estimate in the instructions, but the charging current and rated charge capacity are stated on the UUT or instructions, calculate the test duration

39、 as the longer of 24 hours or: Duration (hours) = 1.4 * RatedChargeCapacity(Ah) / ChargeCurrent(A) + 5 d. If none of the above methods are available, the charge duration shall be 24 hours. D) Power Save Modes: If any power reduction features are supported by the UUT, such features may be enabled dur

40、ing testing in both the UUT and test equipment, provided that all enabled features are disclosed along with reported test results. 8.2 Supplied Power Configuration This procedure only covers devices that can be powered by AC as-shipped. Power of the UUT shall be measured and tested between the AC po

41、wer source and the UUT. Note: The UUT can be powered in three ways: (a) using an internal power supply, (b) using a power adapter for standard DC (e.g., Power over Ethernet or USB), or (c) using a power adapter for non-standard DC (e.g., AC-DC wall adapter). Devices powered by standard DC and not sh

42、ipped with a power adapter are not covered. 8.3 UUT Interface Configuration The UUT will support some combination of interfaces, including WAN/uplink interfaces, wired LAN ports, wireless LAN interfaces, analog telephony interfaces, peripheral interfaces, etc. For testing, these interfaces shall be

43、connected as described in this section and its subsections. Overview of Interface Configuration: WAN/uplink interface - single interface connected Wired LAN ports - for each LAN interface type, connect N/2 (rounded up) ports (where N is the number of ports of the type) to an active end-point. The re

44、maining N/2 (rounded down) ports are not connected. 802.11 wireless - single test client associated Peripheral interfaces (e.g., USB, eSATA, SD card, analog audio) - not connected POTS (telephony) ports - active but no handsets connected Other wireless interfaces (e.g., Bluetooth, ZigBee, Z-wave) in

45、 default as-shipped configuration, no client devices associated. Connected interfaces shall be tested in a condition in which they are active and available to function in their normal, default and/or typical capacity of forwarding or otherwise processing network traffic. The tester shall verify that

46、 the UUT is capable of this function. The ability of an interface to pass IP traffic is sufficient to verify an interface is active and available. 9 CEA-2049 8.3.1 WAN/Uplink Interface Configuration A) If the UUT offers more than one WAN connection option, the UUT shall be configured using the first

47、 available WAN connection presented in Table 2, from top to bottom. Only a single WAN port shall be connected. B) The WAN connection shall be configured to operate at the maximum possible speed. A link that can dynamically change the speed through activity detection is acceptable. Table 2: WAN/Uplin

48、k Priority Connection Type Media Type DOCSIS (Cable) Coax DSL Copper (Twisted Pair) PON Fiber Ethernet (IEEE 802.3) Copper (Twisted Pair) MoCA Coax LTE Wireless Other Variable 8.3.2 Wired LAN Port UUT Configuration Wired local area network (LAN) ports include Ethernet, HPNA, and MoCA. The UUT shall

49、be tested with wired LAN ports in their default as-shipped configuration. Default settings shall not be modified, unless otherwise specified in this test method or if no default setting exists. Any features that require configuration prior to the UUT functioning (e.g., required setup before use as indicated in a reference manual) shall be configured per the following requirements. If additional required settings are not listed below, the setting type and option shall be recorded in the t