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ANSI NEMA C136.40-2014 Roadway and Area Lighting Equipment - Solar Lighting Systems.pdf

1、NEMA Standards PublicationNational Electrical Manufacturers AssociationANSI C136.40-2014Roadway and Area Lighting Equipment-Solar Lighting SystemsANSI C136.40-2014 American National Standard for Roadway and Area Lighting Equipment Solar Lighting Systems Secretariat: National Electrical Manufacturers

2、 Association Approved July 17, 2014 Published September 30, 2014 American National Standards Institute, Inc. C136.40-2014 Page ii 2014 National Electrical Manufacturers Association NOTICE AND DISCLAIMER The information in this publication was considered technically sound by a consensus among persons

3、 engaged in its development at the time it was approved. Consensus does not necessarily mean there was unanimous agreement among every person participating in the development process. The National Electrical Manufacturers Association (NEMA) standards and guideline publications, of which the document

4、 herein is one, are developed through a voluntary standards development process. This process brings together volunteers and/or seeks out the views of persons who have an interest in the topic covered by this publication. Although NEMA administers the process and establishes rules to promote fairnes

5、s in the development of consensus, it does not write the documents, nor does it independently test, evaluate, or verify the accuracy or completeness of any information or the soundness of any judgments contained in its standards and guideline publications. NEMA disclaims liability for any personal i

6、njury, property, or other damages of any nature, whether special, indirect, consequential, or compensatory, directly or indirectly resulting from the publication, use of, application, or reliance on this document. NEMA disclaims and makes no guaranty or warranty, express or implied, as to the accura

7、cy or completeness of any information published herein, and disclaims and makes no warranty that the information in this document will fulfill any particular purpose(s) or need(s). NEMA does not undertake to guarantee the performance of any individual manufacturers or sellers products or services by

8、 virtue of this standard or guide. In publishing and making this document available, NEMA is not undertaking to render professional or other services for or on behalf of any person or entity, nor is NEMA undertaking to perform any duty owed by any person or entity to someone else. Anyone using this

9、document should rely on his or her own independent judgment or, as appropriate, seek the advice of a competent professional in determining the exercise of reasonable care in any given circumstance. Information and other standards on the topic covered by this publication may be available from other s

10、ources, which the user may wish to consult for additional views or information not covered by this publication. NEMA has no power, nor does it undertake to police or enforce compliance with the contents of this document. NEMA does not certify, test, or inspect products, designs, or installations for

11、 safety or health purposes. Any certification or other statement of compliance with any health- or safety-related information in this document shall not be attributable to NEMA and is solely the responsibility of the certifier or maker of the statement. C136.40-2014 Page iii 2014 National Electrical

12、 Manufacturers Association AMERICAN NATIONAL STANDARD Approval of an American National Standard requires verification by ANSI. ANSI states that the requirements for due process, consensus, and other criteria for approval have been met by the standards developer. Consensus is established when, in the

13、 judgment of the ANSI Board of Standards Review, substantial agreement has been reached by directly and materially affected interests. Substantial agreement means significantly more than a simple majority, but not necessarily unanimity. Consensus requires that all views and objections be considered,

14、 and a concerted effort be made toward their resolution. The use of American National Standards is completely voluntary; their existence does not in any respect preclude anyone, whether they have approved the standards or not, from: manufacturing, marketing, purchasing, or using products, processes,

15、 or procedures not conforming to the standards. The American National Standards Institute does not develop standards, and will under no circumstances give an interpretation of any American National Standard. Moreover, no person shall have the right or authority to issue an interpretation of an Ameri

16、can National Standard in the name of the American National Standards Institute. Requests for interpretations should be addressed to the secretariat or sponsor whose name appears on the title page of this standard. Caution Notice: This American National Standard may be revised or withdrawn at any tim

17、e. The procedures of the American National Standards Institute require that action be taken periodically to reaffirm, revise, or withdraw this standard. Purchasers of American National Standards may receive current information on all standards by calling or writing the American National Standards In

18、stitute. Published by National Electrical Manufacturers Association 1300 North 17th Street, Rosslyn, VA 22209 Copyright 2014 by National Electrical Manufacturers Association All rights reserved including translation into other languages, reserved under the Universal Copyright Convention, the Berne C

19、onvention for the Protection of Literary and Artistic Works, and the International and Pan American Copyright Conventions. No part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, and without the prior written permission of the publisher. Printed in

20、the United States of America. C136.40-2014 Page iv 2014 National Electrical Manufacturers Association C136.40-2014 Page v 2014 National Electrical Manufacturers Association TABLE OF CONTENTS FOREWORD vi 1 SCOPE . 1 2 NORMATIVE REFERENCES 1 3 INFORMATIVE REFERENCES . 1 4 GENERAL 2 4.1 Solar Lighting

21、Systems . 2 4.2 Operation in Outdoor Environments . 2 4.3 Ambient Temperature . 3 5 SYSTEM CONSIDERATIONS . 3 5.1 Energy Source and Load Relationships 3 6 LIGHT SOURCES 4 6.1 Environmental Requirements 4 6.2 Operating Voltages . 4 6.3 Vibration and Shock Tolerance . 4 7 BATTERIES 4 7.1 Installation

22、Requirements 4 7.2 Types and Requirements 4 7.3 Replacement Requirements 4 7.4 Cabling 5 7.5 Overcurrent Protection 5 7.6 Cycling . 5 7.7 Capacity 5 7.8 Disposal and Environmental Considerations 5 8 SOLAR MODULES. 5 8.1 Types and Requirements 5 8.2 Module Power and Energy 6 8.3 Shock and Vibration 6

23、 9 POWER CONTROLS . 6 9.1 Charge, Load and Lighting controls 6 9.2 Maximum Power Point Tracking (MPPT) 6 10 POLES 7 10.1 Requirements 7 10.2 Mounting 7 10.3 Weight and Effective Projected Area (EPA) 7 11 WIRING/GROUNDING . 7 11.1 Circuit Connections . 7 11.2 Battery Connections 7 11.3 Grounding 7 11

24、.4 Terminal Block . 7 12 INTERNAL LABELING . 7 C136.40-2014 Page vi 2014 National Electrical Manufacturers Association FOREWORD At the time this standard was approved the ANSI C136 committee was composed of the following members: Alabama Power Company American Electric Lighting Caltrans Ceravision C

25、ity of Kansas City, Missouri City of Los Angeles, Bureau of Street Lighting Cree, Inc. Duke Energy Duke Energy Florida Eatons Cooper Lighting Edison Electric Institute EPRI EYE Lighting International of N.A., Inc. Florida Power shall not self-discharge more than 3% per month over its life, it shall

26、be of the sealed-dry, absorbed glass mat or gel type. Sealed Lead Acid batteries should be recognized or listed by a Nationally Recognized Testing Laboratory (NRTL) to UL 1989 or UL 1642. It shall operate in any position or orientation. Application above +140 F should refer to the battery manufactur

27、er for guidance. Terminals shall be protected from inadvertent shorting. Other recommended specifications can be found in IEC 61427. Common battery systems include plante, lead acid, lead calcium, and hybrids, among others. Selecting what type is best for a specific application depends on factors th

28、at the owner must specify. 7.3 Replacement Requirements Replacement batteries shall be of the same type, voltage and capacity as the replaced batteries. When practical, replacement batteries should be the same model as the replaced batteries. Batteries should be replaceable without tools (e.g., with

29、 appropriate connectors). Connectors should be guarded to prevent accidental shorting during replacement. C136.40-2014 Page 5 2014 National Electrical Manufacturers Association 7.4 Cabling All cabling shall be rated for wet locations. Any exposed wiring, such as solar panel wiring, shall be UV resis

30、tant. All cabling shall meet the latest approved NFPA 70 National Electrical Code. 7.5 Overcurrent Protection Overcurrent protection shall be provided to meet the latest approved NFPA 70 National Electrical Code. 7.6 Cycling To achieve specified battery life, a means to limit the depth of discharge

31、to specified levels shall be provided. Batteries classified as “deep cycle” are considered capable of sustaining without damage charge/discharge cycles with depth of discharge up to 80% of rated capacity. However, the number of cycles a deep cycle battery can sustain during its useful life is relate

32、d inversely to the depth of discharge. Other factors may also be important (e.g., temperature). 7.7 Capacity Battery capacity (total) shall be provided to meet the lighting autonomy requirements of section 5.2. 7.8 Disposal and Environmental Considerations Material Safety Data Sheet (MSDS), and any

33、additional information (if needed) for safe handling, transport and disposal of the batteries shall be provided. Users should familiarize themselves with the MSDS, transport and disposal requirements for the battery types chosen for use. Disposal should be handled in accordance with all applicable l

34、ocal, state, and federal guidelines. 8 SOLAR MODULES 8.1 Types and Requirements The solar module(s) shall be listed to UL1703 or equivalent ANSI standard. If the system includes multiple solar modules connected as an array in series and/or parallel combination, the electrical requirements of this st

35、andard apply to the array. The electrical ratings of the solar array (Voc, Isc, Vmp, Imp) shall be compatible with the electrical ratings of the charge controller (Vmax, Voperating, Imax) over the range of expected operating temperatures. The open circuit voltage (Voc) of the array shall not exceed

36、the charge controllers maximum allowed input voltage at the lowest temperature expected for the installation. Power rating (Measured power at STC*) shall be within 5% of nameplate value. Photovoltaic modules typically consist of interconnected cells of semiconductor material (e.g., silicon, “CIGs”,

37、CdTe et al), packaged with all-weather construction suitable for fixed mounting outdoors. Module voltage is determined by cell material and the number of cells in series. Module current is determined by cell size and the number of cells in parallel. *STC (Standard Test Conditions): irradiance=1000 W

38、atts/m2, cell temperature=25 C, spectrum=Air Mass 1.5. C136.40-2014 Page 6 2014 National Electrical Manufacturers Association 8.2 Module Power and Energy As installed, the array shall provide energy sufficient to reliably charge the battery(s) as required in section 5. Photovoltaic modules are rated

39、 for power, not energy. Usually, calculation is required to accurately estimate the energy available to charge the battery(s). The calculation is specific to the installation/location, and is usually performed using computer software, which may be commercial (e.g., PVsyst, PVSOL), public (e.g., PVWA

40、TTS, Solar Advisor Model) or proprietary. Factors that significantly affect the energy produced by the solar array include: 1. Module nameplate power (rated power at 1000 W/m2, 25C, AM1.5 spectrum STC) 2. Installation variables (e.g., elevation from horizontal, north-south orientation, ventilation,

41、shade) 3. Environmental variables (e.g., solar irradiance, temperature) 8.3 Shock and Vibration Module construction and mounting shall tolerate shock and vibration that may normally be encountered in roadway and lighting applications. 9 POWER CONTROLS 9.1 Charge, Load and Lighting controls Three mai

42、n control functions are required: charge control, load control, and lighting control. The charge controller controls the power delivered by the solar array to the battery(s), with the intent of safely and reliably maintaining battery life and a high state of charge. The load controller controls the

43、power available from the battery(s), with the intent of limiting the depth of battery discharge for long battery life. Lighting control controls the operation of the luminaire(s), with the intent of providing more or less light according to a schedule, sensed environmental conditions and/or battery

44、state of charge). These functions may be combined in a single controller, or may be separated. Connections to the controller(s) shall be clearly marked with polarity and function (e.g., “solar”, “battery”, “load”), or a wiring diagram may be provided on the label(s). The charge controller output and

45、 lamp input shall be either hard-wired or equipped with quick-disconnect type plugs or screw-type terminals. If screw-type terminals are provided, they shall be clearly marked with polarity. The controller shall meet the following requirements: Shall be capable of properly charging the battery from

46、the photovoltaic panel, including bulk, absorb, and float stages. Shall provide power to lighting within rated voltage and current limits. Shall provide low-voltage load disconnect. Shall provide dusk (lights on) to dawn (lights off) operation. Shall provide circuit protection sufficient to withstan

47、d a reverse polarity connection to the battery and/or solar panel. 9.2 Maximum Power Point Tracking (MPPT) MPPT is a feature of some solar charge controllers (and inverters) that seek to operate the solar modules at the maximum power voltage (Vmp), independent of the battery voltage. This eliminates

48、 the typical requirement of designing the solar array voltage to be near the battery voltage. A substantial amount of power from the solar panel can be saved, because the loss due to mismatch between battery voltage and solar panel is eliminated by the MPPT. MPPT can reduce the required size of the

49、solar module. C136.40-2014 Page 7 2014 National Electrical Manufacturers Association 10 POLES 10.1 Requirements The poles shall conform to the applicable ANSI standards. 10.2 Mounting See section 5.4 10.3 Weight and Effective Projected Area (EPA) See section 5.4. 11 WIRING/GROUNDING 11.1 Circuit Connections All internal components shall be assembled and prewired so that the luminaire(s), battery(s), power controls, and solar module(s) can be connected or disconnected at a single location (e.g., terminal block or blocks). 11.2 Battery Connections Battery

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