Sylvania 23618 Catalog

Total Page:16

File Type:pdf, Size:1020Kb

Sylvania 23618 Catalog www.sylvania.com Lamp and Ballast Catalog OSRAM SYLVANIA SEE THE WORLD IN A NEW LIGHT For more than 100 years, OSRAM SYLVANIA has been a leader in the development of innovative lighting. This catalog provides specifi cations on over 3000 SYLVANIA and OSRAM branded products for a variety of lighting applications, each one designed and manufactured to the highest possible standards. i 8TH S INCHE S 1 _____ T2 _____ 1/4 A Lighting Industry Leader 3 _____ T4 _____ 1/2 With over 14,000 employees, OSRAM SYLVANIA is one of the leading T5 _____ _____ lighting systems companies in North America. We are the North T6 3/4 7 _____ American business unit of OSRAM GmbH, one of the world’s T8 ® _____ 1 largest lighting manufacturers. OSRAM SYLVANIA is a member 9 _____ B10 ® _____ of the SIEMENS worldwide family of companies, which employs 11 _____ over 440,000 people in over 190 countries. T12 ® _____ 13 _____ PAR14 _____ Meeting Customer Expectations 15 _____ MR16 ® _____ 2 OSRAM SYLVANIA makes ongoing investments in new and aggressive G16 1/2 _____ A17 ® _____ business practices. With the Total Cycle Time program, we have ET18 _____ _____ turned time into a strategic business ally. Our SAP program unites A19 ® PAR20 ® _____ the entire organization with a sophisticated information system that A21 _____ _____ helps serve our customers faster and more effi ciently. Our ISO 9000, 22 23 _____ ISO 14001 and QS 9000 certifi cations show our achievements in de- ________________ 3 livering the highest quality lighting products. G25 ® _____ 26 _____ 27 _____ Lighting the World BT28 _____ 29 _____ OSRAM SYLVANIA, together with OSRAM GmbH, is the largest supplier PAR30 ® _____ of electronic lighting systems in the world. As leaders in fl uorescent, 31 _____ ________________ 4 halogen and metal halide technologies, the companies hold numer- 33 _____ ous international lighting patents and have an extensive engineering 34 _____ 35 _____ and manufacturing network. OSRAM GmbH and OSRAM SYLVANIA lit- 36 _____ erally bring light to the world. BT37 _____ PAR38 ® _____ 39 _____ Lamp Disposal Labeling R40, G40 ® _____ 5 41 _____ For all mercury-containing lamps manufactured after November 30, 42 _____ 2003, OSRAM SYLVANIA has incorporated the symbol “Hg” into the 43 _____ _____ lamp etch, except for products where size or thermal constraints 44 45 _____ prevent etching in this manner. This action is part of the National PAR46 ® _____ _____ Electrical Manufacturers Association (NEMA) lamp labeling initiative, 47 ________________ 6 the purpose of which is to guide users of lighting products—via in- 49 _____ ternet or telephone—to appropriate contacts regarding disposal of 50 _____ 51 _____ spent mercury-containing lamps (fl uorescent, compact fl uorescent, PAR52 ® _____ and most HID). 53 _____ 54 _____ Disposal labels appear on the inner-most packages of mercury-con- 55 _____ _____ taining lamps, the outer cartons, or both. For Display-Optic and some BT56/PAR56 7 57 _____ other specialized lamp types, labeling is included in the stuffer. This 58 _____ labeling format complies with the requirements of existing states’ 59 _____ 60 _____ legislation and has been designed to be universally applicable to all 61 _____ US States. 62 _____ 63 _____ PAR64 ® _____ 8 65 _____ 66 _____ 67 _____ 68 _____ 69 _____ 70 _____ Hg LAMP CONTAINS MERCURY 71 _____ ________________ 9 Manage in Accordance with Disposal Laws 73 _____ 74 _____ See: www.lamprecycle.org or 1-866-666-6850 75 _____ 76 _____ 77 _____ 78 _____ _____ Information in this catalog is subject to change at any time without prior notice. 79 Table of Contents Sustainability III SYLVANIA ECOLOGIC ® IV Lamp Recycling V Energy and the Cost of Lighting VI IESNA Progress Report VII Glossary of Terms IX–XII Incandescent Lamps 1 Tungsten Halogen Lamps 41 Miniature Lamps 72 High Intensity Discharge (HID) Lamps 75 Compact Fluorescent Lamps 107 Fluorescent Lamps 129 Ballasts and LED Power Supplies 171 Display/Optic Lamps 207 LED Systems 297 Consumer Luminaires 314 LED Retrofi t Lamps 315 Warranties 316 Index 322 Important Notice The data and suggested applications contained in this catalog, as well as any additional information our The OSRAM SYLVANIA Test and Measurement Laboratory is a participant in the Energy Effi cient Lighting (EEL) representatives may be able to furnish, are for general information only and are not intended and should not be Program of the National Voluntary Laboratory Accreditation Program (NVLAP-NIST) and is accredited for testing taken as representations or warranties as to the suitability of a lamp for any particular application or use in any of lighting products according to the guidelines for the EEL Program. OSRAM SYLVANIA lamp and ballast particular equipment, nor are our representatives authorized to make any such representations or give any such measurements are conducted under laboratory conditions utilizing American National Standards Institute (ANSI), warranties. Applications and conditions of use are many and varied and beyond our control. We do not have the Canadian Standards Association (CSA), Commission Internationale de l’Eclairage (CIE), and Illuminating Engineering same degree of knowledge that the purchaser has with respect to the design of his equipment and the conditions Society of North America (IESNA) standards and practices. The OSRAM SYLVANIA Electronic Component and of its use. Therefore, it is up to the purchaser to make his own determination as to the suitability of a lamp for his Systems Development Group participate in the Underwriters Laboratories Inc. Client Test Data Program. Ballast intended application or use and to assume responsibility for that determination. designs are tested for conformance to Underwriters Laboratory (UL) safety standards using practices audited, assessed and approved by UL. Actual lamp and ballast performance may vary depending on application and OSRAM SYLVANIA claims to supply the best possible products at all times. For this reason, OSRAM SYLVANIA environment (i.e. ambient temperature, input voltage, ballast type, etc.) reserves the right to make changes in its products when it believes such changes will improve its products. OSRAM SYLVANIA designs and manufactures lamps and ballasts to meet American National Standard Institutes The specifi cations and information shown in this catalog are believed to be accurate. Although OSRAM SYLVANIA (ANSI) and/or IEC (International Electrotechnical Commission) standards of construction and performance through believes this information to be correct, no warranty is made or implied as to the accuracy of this information and Total Quality Manufacturing (TQM) practices where applicable. In addition, ballasts are designed and manufactured OSRAM SYLVANIA does not accept or assume responsibility of liability for errors, changes, omissions, or for harm to meet Underwriters Laboratory (UL) and Canadian Standards Association (CSA) safety standards as necessary. resulting therefrom. Ratings may change as a result of changes made to remain compliant with modifi ed or updated standards. OSRAM In accordance with our established policy to consistently improve our products, the specifi cations SYLVANIA will release new or updated technical bulletins when appropriate. All product data presented in this contained herein are subject to change without notice. catalog supersedes all data published before 10/1/07. Many OSRAM SYLVANIA products listed in this catalog qualify under the North American Free Trade Agreement (NAFTA) as manufactured in Canada, the United States of America or Mexico. ii Luminance Contrast The relationship between PAR Lamps Pressed aluminized reflector lamp, Safety Ballasts should be installed and operated the luminances of an object and its immediate with the outer bulb formed from two pressed glass in compliance with the National Electric Code background. parts that are fused or sealed together. PAR lamps (NEC), Underwriters Laboratories Inc. (UL) require- may be incandescent, halogen, or HID types. ments, and all applicable codes and regulations. Luminance Ratio The ratio between the Since it is possible to come in contact with poten- luminances of any two areas in the visual field. Parallel vs. Series Wiring configurations for bal- tially hazardous voltages, only qualified personnel lasts. Ballasts with parallel lamp circuitry have the Lux (lx) A unit of illuminance equal to 1 lumen should perform ballast installation. All installation, benefit of companion lamps remaining lit, even if per square meter. inspection, and maintenance of lighting fixtures one of the lamps operated by the ballast should should be done with the power to the fixture Maximum Case Temperature All OSRAM fail. Systems with series lamp wiring (magnetic turned off. SYLVANIA electronic ballasts have a maximum ballasts and many rapid start electronic types) allowable case temperature of 70°C and 90°C result in all lamps operated on the ballast going Shielding A general term to include all devices for magnetic fluorescent ballasts. Applications out if one should fail. used to block, diffuse or redirect light rays, includ- in which the case temperature exceeds this ing baffles, louvers, shades, diffusers and lenses. maximum void all warranties. Photo-Optic Specialty Lamps Photo-Optic specialty lamps employ a variety of technologies Single-Ended Lamps having a single lamp base Maximum Overall Length (MOL) The total to meet the very precise levels of performance or point of electrical connection. length of a lamp, from top of bulb to bottom required by the entertainment industry, science, Spectral Power Distribution (SPD) of base. medical and other high-tech fields. A curve illustrating the distribution of radiant power Mean Lumens Lumen output of a light source Power The rate at which energy is taken from produced by the lamp, at each wavelength across the spectrum. after the source has been used. Mean lumen an electrical system or dissipated by a load, values for fluorescent and HID lamps are typically expressed in watts (W); power that is generated by Spotlight A luminaire using halogen/incandescent measured at 40% of their rated lives.
Recommended publications
  • Compact Fluorescent Light Bulbs
    Compact Fluorescent Light Bulbs What is a compact fluorescent lamp (CFL) bulb? A CFL bulb is a type of fluorescent bulb that screws into a standard light socket, such as a lamp or ceiling light fixture. CFLs use much less energy and last up to 10 times longer than standard light bulbs. What is in a compact fluorescent lamp (CFL) bulb? A CFL bulb is made of glass, a ceramic and metal base, a luminous powder called phosphor, and a small amount of mercury. How much mercury is contained in a CFL bulb? Manufacturers report that the amount of mercury contained in a CFL bulb is five milligrams, which is less than two ten-thousandths of an ounce. The mercury could be in the form of an invisible vapor or in a bead the size of the period at the end of this sentence. A mercury fever thermometer contains about 100 times more mercury than a CFL bulb. Is it harmful is it to be in the room where a CFL bulb has broken? The amount of mercury vapor that is released from one broken bulb is not enough to make anyone sick. However, it is best to avoid any exposure to mercury. We recommend that you ventilate the room air to the outdoors by opening a window or a door and leave the room for a few hours before cleaning up the broken bulb. How should I clean up a broken CFL bulb? It is not necessary to hire a professional to clean up the bulb. By following the directions below, you can safely clean up a broken CFL bulb.
    [Show full text]
  • Comparison of Life-Cycle Analyses of Compact Fluorescent and Incandescent Lamps Based on Rated Life of Compact Fluorescent Lamp
    Comparison of Life-Cycle Analyses of Compact Fluorescent and Incandescent Lamps Based on Rated Life of Compact Fluorescent Lamp Laurie Ramroth Rocky Mountain Institute February 2008 Image: Compact Fluorescent Lamp. From Mark Stozier on istockphoto. Abstract This paper addresses the debate over compact fluorescent lamps (CFLs) and incandescents through life-cycle analyses (LCA) conducted in the SimaPro1 life-cycle analysis program. It compares the environmental impacts of providing a given amount of light (approximately 1,600 lumens) from incandescents and CFLs for 10,000 hours. Special attention has been paid to recently raised concerns regarding CFLs—specifically that their complex manufacturing process uses so much energy that it outweighs the benefits of using CFLs, that turning CFLs on and off frequently eliminates their energy-efficiency benefits, and that they contain a large amount of mercury. The research shows that the efficiency benefits compensate for the added complexity in manufacturing, that while rapid on-off cycling of the lamp does reduce the environmental (and payback) benefits of CFLs they remain a net “win,” and that the mercury emitted over a CFL’s life—by power plants to power the CFL and by leakage on disposal—is still less than the mercury that can be attributed to powering the incandescent. RMI: Life Cycle of CFL and Incandescent 2 Heading Page Introduction................................................................................................................... 5 Background...................................................................................................................
    [Show full text]
  • 16 CFR Ch. I (1–1–20 Edition) § 305.22
    Federal Trade Commission Pt. 305 PART 305—ENERGY AND WATER 305.27 Paper catalogs and websites. USE LABELING FOR CONSUMER ADDITIONAL REQUIREMENTS PRODUCTS UNDER THE ENERGY 305.28 Test data records. POLICY AND CONSERVATION 305.29 Required testing by designated lab- ACT (‘‘ENERGY LABELING oratory. RULE’’) EFFECT OF THIS PART SCOPE 305.30 Effect on other law. 305.31 Stayed or invalid parts. Sec. 305.32 [Reserved] 305.1 Scope of the regulations in this part. APPENDIX A1 TO PART 305—REFRIGERATORS DEFINITIONS WITH AUTOMATIC DEFROST APPENDIX A2 TO PART 305—REFRIGERATORS 305.2 Definitions. AND REFRIGERATOR-FREEZERS WITH MAN- 305.3 Description of appliances and con- UAL DEFROST sumer electronics. APPENDIX A3 TO PART 305—REFRIGERATOR- 305.4 Description of furnaces and central air FREEZERS WITH PARTIAL AUTOMATIC DE- conditioners. FROST 305.5 Description of lighting products. APPENDIX A4 TO PART 305—REFRIGERATOR- 305.6 Description of plumbing products. FREEZERS WITH AUTOMATIC DEFROST GENERAL WITH TOP-MOUNTED FREEZER NO THROUGH-THE-DOOR ICE 305.7 Prohibited acts. APPENDIX A5 TO PART 305—REFRIGERATOR- FREEZERS WITH AUTOMATED DEFROST TESTING WITH SIDE-MOUNTED FREEZER NO 305.8 Determinations of estimated annual THROUGH-THE-DOOR ICE energy consumption, estimated annual APPENDIX A6 TO PART 305—REFRIGERATOR- operating cost, and energy efficiency rat- FREEZERS WITH AUTOMATED DEFROST ing, water use rate, and other required WITH BOTTOM-MOUNTED FREEZER NO disclosure content. THROUGH-THE-DOOR ICE 305.9 Duty to provide labels on websites. APPENDIX A7 TO PART 305—REFRIGERATOR- 305.10 Determinations of capacity. FREEZERS WITH AUTOMATIC DEFROST 305.11 Submission of data.
    [Show full text]
  • Your Fluorescence Microscope Transmitted-Light
    Your Fluorescence Microscope Transmitted-light. Bright-field Bright-field microscopy = Transmitted-light INVERTED UPRIGHT Fluorescence microscopy = Reflected-light Mercury Lamp Heat Filter Emission Filter Mirror Excitation Filter Collimating Lens Dichromatic Mirror (From:http://micro.magnet.fsu.edu) You need to know … Your light source Your filters Your objective Your detector Spectrum of a Mercury Lamp Your Light Source • Mercury lamp Wavelength (nm) • Xenon lamp Spectrum of a Xenon Lamp • Metal halide lamp • Halogen lamp • LED • Laser Wavelength (nm) (Modified from: h6p://www.cairn-research.co.uk) Your Light Source 1) Halogen lamp 2) Mercury lamp 3) Xenon lamp 4) Metal halide lamp 5) LED 6) Laser Tungsten – Halogen lamp • White light source • Inexpensive long lasNng bulbs • Used mainly for brighQield illuminaNon • CAN be used for fluorescence excitaNon above 400nm • Ideal for live cell imaging (low power, no UV) • “Colour” changes with temperature Mercury (HBO) lamp PROS • white light source • 10-100x brighter then halogen • focused intensity light-source • very bright intensity peaks at specific wavelengths for many standard fluoreophores CONS • short bulb life (≈200-400h) • generates a lot of heat • requires bulb alignment • no uniform intensity (peaks) • bulb are hazardous waste • long warm-up time • excitation wavelength cannot be • Intensity decay over Nme, intensity controlled independently flickering Xenon lamp PROS • white light source • relaNvely even intensity across visible spectrum • focused intense light source CONS • requires bulb alignment • bulbs are hazardous waste • Intensity decay over Nme • weaker intensity in UV • generates a lot of heat in the IR region • relaNvely low power in visible range • excitaNon wavelength cannot be controlled independently Metal Halide lamp PROS • white light source • brighter intensity between peaks than mercury lamp • no bulb alignment, more uniform field of illum.
    [Show full text]
  • GE Consumer & Industrial
    GE Consumer & Industrial LIGHTING GE Consumer & Industrial specialty 2004⁄2005 LAMP CATALOG Specialty Lighting Lamp Products Catalog 2004/2005 GE imagination at work 000 Cover_Ideas_06 2 07/09/04, 11:56 AM 000 Cover_Ideas_06 1 07/09/04, 11:56 AM Introduction SPECIALTY Introduction This catalog lists and provides essential technical data for available General Electric lamps that are used in lighting for specialty markets worldwide including Stage/Studio/TV, Projection/Photo, Sealed Beams, Fluorescent, Incandescent and Discharge Lamps optimized for specific applications. Applications can be severe service (cold, vibration, accessibility), architectural (color, black light), industrial (appliances, germicidal, safety, low voltage, infrared/heat), transportation (aircraft, railroad, marine), and infrastructure (airport, emergency building lighting, traffic signal, sign). Lamp listings are grouped into market/application sections, each containing a “family” of lamps by application or commonalities (such as base, shape, spectral distribution, color temperature), to assist in selection or interchange. Ordering Lamps To order lamps use the GE Order Code, Description and Case Quantity columns. If a lamp is colored BLUE it is stocked in Europe, GREEN is Europe and North America, BLACK is North America only. Otherwise procurement must be through an international distributor or your GE sales representative. North America, European and International sales offices are in the appendix. Other GE Publications All the lamps in this Specialty Catalog come from other GE catalogs/websites. These catalogs and websites contain data for other lamps that may be of interest: In North America: • Lamp Products Catalog (PC 25265) • Miniature/Sealed Beam Catalog (PC 20699) • Stage and Studio SHOWBIZ (PC23766) • www.GELighting.com • or 1-800-GELAMPS In Europe: • GE Consumer and Industrial Lighting Lamp Catalogue-Spectrum • SHOWBIZ® (ENTCAT 02/2003) Lamp Index There is a sorted (numeric/alphabetic) index by description with ANSI/LIF code, if available, which provides page number.
    [Show full text]
  • Fluorescent Lighting About the Guide
    RESPONSIBLE PURCHASING GUIDE fluorescent lighting About the Guide The Responsible Purchasing Guide for Lighting is published by the Responsible Purchasing Network in print, as a PDF file, and on the web. Print and PDF copies are available to the public for purchase. The online edi- tion includes additional resources available to members of the Responsible Purchasing Network, including: searchable product listings, multiple policy and specification samples, comparisons of standards, and related documents. Visit www.ResponsiblePurchasing.org to purchase a copy or to access the members-only web- based edition of the Guide. Responsible Purchasing Network © 2007 About the Responsible Purchasing Network The Responsible Purchasing Network (RPN) was founded in 2005 as the first national network of procurement-related professionals dedicated to socially and environmentally responsible purchasing. RPN is a program of the Center for a New American Dream (www.newdream.org) and guided by a volunteer Steering Committee of leading procurement stakeholders from government, industry, educational institutions, standards setting organizations, and non-profit advocacy organizations. Acknowledgements The Responsible Purchasing Network (RPN) would like to thank the following people for assisting with the development of this Guide. Their expertise helped to ensure quality and accuracy, though RPN alone accepts responsibility for any errors or omissions. Affiliations listed below were current when input was provided to RPN and are listed for identification purposes
    [Show full text]
  • Fluorescence Cell Imaging and Manipulation Using Conventional Halogen Lamp Microscopy
    Fluorescence Cell Imaging and Manipulation Using Conventional Halogen Lamp Microscopy Kazuo Yamagata1,2, Daisaku Iwamoto3, Yukari Terashita1,4, Chong Li1, Sayaka Wakayama1,Yoko Hayashi-Takanaka5, Hiroshi Kimura5, Kazuhiro Saeki3, Teruhiko Wakayama1* 1 RIKEN Center for Developmental Biology, Kobe, Japan, 2 Research Institute for Microbial Research, Osaka University, Suita, Japan, 3 Department of Genetic Engineering, Kinki University, Kinokawa, Wakayama, Japan, 4 Laboratory of Animal Reproduction, Graduate School of Agricultural Science, Tohoku University, Sendai, Japan, 5 Graduate School of Frontier Biosciences, Osaka University, Suita, Japan Abstract Technologies for vitally labeling cells with fluorescent dyes have advanced remarkably. However, to excite fluorescent dyes currently requires powerful illumination, which can cause phototoxic damage to the cells and increases the cost of microscopy. We have developed a filter system to excite fluorescent dyes using a conventional transmission microscope equipped with a halogen lamp. This method allows us to observe previously invisible cell organelles, such as the metaphase spindle of oocytes, without causing phototoxicity. Cells remain healthy even after intensive manipulation under fluorescence observation, such as during bovine, porcine and mouse somatic cell cloning using nuclear transfer. This method does not require expensive epifluorescence equipment and so could help to reduce the science gap between developed and developing countries. Citation: Yamagata K, Iwamoto D, Terashita Y, Li C, Wakayama S, et al. (2012) Fluorescence Cell Imaging and Manipulation Using Conventional Halogen Lamp Microscopy. PLoS ONE 7(2): e31638. doi:10.1371/journal.pone.0031638 Editor: Sue Cotterill, St. Georges University of London, United Kingdom Received September 12, 2011; Accepted January 10, 2012; Published February 8, 2012 Copyright: ß 2012 Yamagata et al.
    [Show full text]
  • Design & Fabrication of a Gravity Powered Light
    See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/286194982 Design & Fabrication Of A Gravity Powered Light Conference Paper · November 2015 DOI: 10.13140/RG.2.2.28749.03049 CITATIONS READS 2 32,543 3 authors, including: Sabir Hossain Kunsan National University 22 PUBLICATIONS 41 CITATIONS SEE PROFILE Some of the authors of this publication are also working on these related projects: Autonomous Vehicle View project All content following this page was uploaded by Sabir Hossain on 11 December 2015. The user has requested enhancement of the downloaded file. Proceedings of the International Conference on Mechanical Engineering and Renewable Energy 2015 (ICMERE2015) 26 – 29 November, 2015, Chittagong, Bangladesh ICMERE2015-PI-254 DESIGN AND FABRICATION OF A GRAVITY POWERED LIGHT Md. Shahed Hossen1, Md. Tazul Islam2,* and Sabir Hossain3 1-3Dept. of Mechanical Engineering, CUET, Bangladesh [email protected],2,*[email protected],[email protected] Abstract- In recent times due to effects of pollution and global warming there is a need for generating power from renewable sources. The reason for generating power using gravity is that it is available all over the Earth, abundant and consistent too. In this project, the gravitational energy of a heavy particle is converted to the electrical energy. When the heavy particle falls down from a higher altitude to a lower one, its potential energy is converted into the kinetic energy. Then this energy is converted to electricity by using a synchronous motor. With the increasing of the altitude of the load, the lighting time increases. If load increases, power production also increases, but the lighting time decreases.
    [Show full text]
  • Philips Lighting Catalogue 2015/16
    Shield_White_2013 Philips Version 1.1 – 25 October 2013 Lighting Catalogue 2015/16 Philips Lighting Catalogue 2015/16 Philips delivers innovation that matters to you A technology company that cares about people. From the very first light bulbs and radios, we’ve had one message at the heart of our company – our mission to improve people’s lives through innovation that matters. We don’t just invent; we entertain, we enlighten, we solve. We are a technology company that cares about people. It’s in our DNA, and it’s time to let it shine. Terms and Conditions All illustrations, information and specifications presented and referred to herein are believed to be correct at the time of publication. All measurements shown in millimetres unless otherwise stated. All Trade prices are excluding GST. Attachments to some products are optional and available at additional cost. Philips Lighting reserves the right to make changes from time to time without notice or obligation in the specifications, design, colour or materials. Philips Lighting reserves the right to change and discontinue products. Additional details and specifications are available from Philips Lighting on request. Or refer to product content online at www.philips.co.nz/lighting All due care has been taken to ensure that technical details listed in this guide are correct, however should any errors be found, Philips Lighting reserves the right to make alterations without notice. A number of the products in this catalogue are available on indent ordering - please check with the customer service team for details. Contact Philips Customer Service: Ph: 0800 4 LIGHT Fax: 0800 160 875 [email protected] www.philips.co.nz/lighting Standard Product Warranties The warranty period starts on the date of purchase by the end user or electrical contractor.
    [Show full text]
  • 1 Industrial Property Registrations Directorate IP Online Journal 22/2020
    Industrial Property Registrations Directorate IP Online Journal 22/2020 - 25 May, 2020 Trademarks Publication for Oppositions In accordance with Rule 5 of the Trademark Search and Opposition Rules, 2018, the following applications for a trademark are being published. Opposition to the registration of the trademarks listed hereunder may be submitted to the Commerce Department within sixty (60) working days following the date of this publication via the ‘Notice of Opposition to a New Trademark Application’ section that can be found on the IP Portal www.ips.gov.mt, together with the prescribed fee of €50.00. (210) TM/ 59755 (731) Applicant: (220) Filing Date: 26-06-2019 Integrated Talent Ventures Limited (C47130) Capital Business Centre SGN 3000 San Gwann. Malta (540) Representation of the mark jobsinmalta.com The representation and full details of the mark are found on the National Trademark Register at: https://ips.gov.mt/NR/TM59755 (511) Class number: 9 (510) Goods/Services: Computer Software (526) Disclaimer: Registration gives no right to the exclusive use of: a) the words ‘jobs’, ‘in’ and ‘malta’ except when used together, and in the sequence as shown on the mark, and; b) the symbol and word ‘.com’. (210) TM/ 60353 (731) Applicant: (220) Filing Date: 08-12-2019 Moufid Abedalbaki 11, Sean Court, Flat 12 SPB 1147 Qawra. Poland (540) Representation of the mark 1 The representation and full details of the mark are found on the National Trademark Register at: https://ips.gov.mt/NR/TM60353 (531) Vienna Classification: 07.01.08, 07.03.02, 26.02.0126.02.07 (511) Class number: 1 (510) Goods/Services: Additives for use in mixing cement; Aeration chemicals for concrete (526) Disclaimer: Registration gives no right to the exclusive use of i) the word D-LUX except as distinctively reproduced ii) the word ‘Projects’ .
    [Show full text]
  • Federal Register/Vol. 86, No. 158/Thursday, August 19, 2021
    Federal Register / Vol. 86, No. 158 / Thursday, August 19, 2021 / Proposed Rules 46611 was associated with the official agency’s support the identified reason for the DEPARTMENT OF ENERGY inability to provide service in 6 hours or challenge. 10 CFR Part 430 less, or timely issuance of the results (C) Determination. The Service will and certificate, the Service may not consider impacts on the assigned [EERE–2021–BT–STD–0012] terminate the exception. If the Service official agency, the applicant, and the terminates a long-term exception, all RIN 1904–AF22 potential gaining agency when deciding parties will be notified, and the whether to grant an exception. These Energy Conservation Program: applicant will resume service with the Definitions for General Service Lamps assigned official agency within 60 days impacts may include, but are not limited to, the viability of the assigned of notification. AGENCY: Office of Energy Efficiency and official agency given the loss of (2) Nonuse of service exception. If an Renewable Energy, Department of business. The Service will also consider applicant has not received service from Energy. the impact on the integrity of the official the assigned official agency within the ACTION: Notice of proposed rulemaking system and confirm an exception would last 90 days, the applicant may request and announcement of public meeting. that the Service grant a nonuse of not undermine the congressional service exception. policies in section 2 of the United States SUMMARY: On January 19, 2017, the U.S. (i) Requests must clearly state and Grain Standards Act. The Service will Department of Energy (‘‘DOE’’) support the following: provide its decision in writing to the published two final rules adopting (A) The last date of service from assigned official agency, the applicant, revised definitions of general service assigned official agency; and the potential gaining agency.
    [Show full text]
  • Skylighter™ Brand Fluorescent Strobe Lighting
    Skylighter™ Brand Fluorescent Strobe Lighting Operator’s Manual Skylighter CFF2 Skylighter CFF4 Skylighter CFF8 OPERATOR MANUAL FOR SKYLIGHTER Skylighter CFF2 Skylighter CFF4 Skylighter CFF8 Thank you for selecting the Photogenic Professional Skylighter CFF series. The CFF series incorporates the newest electronic components, lamps, reflectors, and diffusion panels providing improved lighting distribution and control. These products are built for the demanding operational needs of the professional photographer and it is our expectation that your Skylighter CFF will provide you with years of dependable service. INTRODUCTION The Skylighter CFF series are an extremely diffused light head and require an external power supply. They have one, two, or four professional, plug-in, linear flashtubes, and one, two, or four non-adjustable, linear, fluorescent modeling lamps. The Skylighter CFF series are stand mounted on a strong, rotating yoke, but may be ceiling hung, as required. Before using your new Skylighter CFF for the first time, please read this manual carefully and acquaint yourself with the controls and features. In this way, you can quickly get the greatest benefit from your new unit and maintain an efficient and safe operation. SAFETY PRECAUTIONS Despite the measures that have been taken to make electronic flash equipment safe, it must be recognized that high voltages and high temperatures do exist within the power supply / lighting unit. Certain precautions must be observed in handling the unit. Contact with internal high voltage may result in severe injury or death. 1. Before installing or removing the flashtubes and modeling lamps, be sure this appliance is turned off, cooled and unplugged from AC power source and external power supply.
    [Show full text]