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Journal of the Illuminating Engineering Society Volume 2, 1972 - Issue 1
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IES Approved Method for Photometric Testing of Indoor Fluorescent Luminaires

Pages 70-78 | Published online: 20 Sep 2013

References

  • Committee on Testing Procedures of the IES, “Determination of Average Luminance of Luminaires”, Journal of the Illuminating Engineering Society, Vol. 1, January 1972, p. 181.
  • Committee on Testing Procedures for Illumination Characteristics of the IES, “IES General Guide to Photometry”, Illuminating Engineering, Vol. 50, (Sections 1, 4 and 5) March 1955, p. 147; (Sections 6 and 7) April 1955, P. 201.
  • Committee on Testing Procedures of the IES, “IES Practical Guide to Photometry”, Journal of the Illuminating Engineering Society, Vol. 1, October 1971, p. 73.
  • Committee on Testing Procedures of the IES, “IES Guide for Measurement of Photometric Brightness (Luminance)”, Illuminating Engineering, Vol. 56, July 1961, p. 457.
  • Committee on Testing Procedures of the IES, “IES Guide for Reporting General Lighting Equipment Engineering Data”, Journal of the Illuminating Engineering Society, Vol. 1, January 1972, p. 175.
  • Committee on Testing Procedures of the IES, “IES Approved Method for the Photometric and Thermal Testing of Air and Liquid Cooled Heat Transfer Luminaires, Part I—Air Cooled Luminaires”, Illuminating Engineering, Vol. 63, September 1968, p. 485.
  • Committee on Testing Procedures of the IES, “IES Approved Method for the Electrical and Photometric Measurements of Fluorescent Lamps”, Illuminating Engineering, Vol. 62, September 1967, p. 557.
  • “Specifications for Fluorescent Lamp Ballasts”, C82.1–1968, including Supplement C82.1a-1970, American National Standards Institute, 1430 Broadway, New York, N. Y. 10018.
  • HortonG. A., “Modern Photometry of Street Lighting Luminaires”, Illuminating Engineering, Vol. 43, November 1948, p. 989.
  • Power Supply Handbook and Catalog, Sorensen & Co., Inc., Richards Ave., South Norwalk, Conn.
  • “Stabiline Automatic Voltage Regulators Type II”, Bulletin S3581E, Superior Electric Co., Bristol, Conn.
  • “Sola Sine-Corrected Constant Voltage Transformers”, Sola Electric Company, 2525 Clybourn Avenue, Chicago 14, Illinois.
  • Committee on Testing Procedures of the IES, “The Selection, Care and Use of Electrical Instruments in the Photometric Laboratory”, Illuminating Engineering, Vol. 63, July 1968, p. 376.
  • BaumgartnerG. R., “Practical Photometry of Fluorescent Lamps and Reflectors”, Illuminating Engineering, Vol. 36, December 1941, p. 1340.
  • PotterW. M. and DarleyW. G., “The Design of Luminaires for Fluorescent Lamps”, Illuminating Engineering, Vol. 35, November 1940, p. 759.
  • WinklerF. C., “Fundamental Facts of Fluorescent Fixture Design”, Illuminating Engineering, Vol. 37, April 1942, p. 229.
  • MauretteR. G., “Ten Years of Fluorescent Fixture Development”, Illuminating Engineering, Vol. 43, March 1948, p. 272.
  • LittleW. F. and SalterE. H., “The Measurement of Fluorescent Lamps and Luminaires”, Illuminating Engineering, Vol. 42, February 1947, p. 217.
  • BockJ. E. and FranklinJ. S., “Effect of Temperature on Fluorescent Street Lighting Luminaires”, Illuminating Engineering, Vol. 49, February 1954, p. 110.
  • BeckC. E.,GabrielM. H. and AicherJ. O., “Light Output of 1.5 Ampere Fluorescent Lamp Designs in Photometry and Use”, Illuminating Engineering, Vol. 63, April 1968, p. 167.
  • HornC. E.,LittleW. F. and SalterE. H., “Relation of Distance to Candlepower Distribution from Fluorescent Luminaires”, Illuminating Engineering, Vol. 47, February 1952, p. 99.
  • HortonG. A.,FrenchR. R. and ArensJ. B., “Photometry of Luminaires Using Highly-Loaded Fluorescent Lamps”, Illuminating Engineering, Vol. 56, March 1961, p. 179.
  • DunlopD. and FinchD. M., “Photometry of Fluorescent Luminaires—Rotating Photocell Method”, Illuminating Engineering, Vol. 57, March 1962, p. 159.
  • KeitzH. A. E., Light Calculations and Measurements, Cleaver-Humes Press, London, 1955, p. 108.
  • IES Lighting Handbook, 5th Edition, Illuminating Engineering Society, 345 East 47th Street, New York 10017, 1972.
  • HelwigH. J., “Der Draktische Gelbrauch der Ulbrichtschen Kugel nach den neuen Regeln der DLTG”, Das Licht, 1933, p. 481–482, 501–503.
  • Committee on Testing Procedures for Illumination Characteristics of the IES, “IES Approved Method of Measurement of Polarization of Fluorescent Luminaires”, Illuminating Engineering, Vol. 58, September 1963, p. 604.
  • FairbanksK. E. and AnsleyD. A., “Polarization and Photometry”, Illuminating Engineering, Vol. 59, April 1964, p. 255.
  • ToenjesD. A., “A More Precise Method of Computing Zonal Lumens”, Illuminating Engineering, Vol. 46, July 1951, p. 335.
  • HedrichW. A., “Luminous Flux from a Luminaire”, Illuminating Engineering, Vol. 50, April 1955, p. 170.
  • WalshJ. W. T., Photometry, 3rd Edition, Constable & Co., London, 1958, p. 126–130.
  • BaumgartnerG. R., “New Semi-Automatic Distribution Photometer and Simplified Calculation of Light Flux”, Illuminating Engineering, Vol. 45, April 1950, p. 253.
  • ZaphyrP. A. and HortonG. A., “Calculation of Utilization Coefficients for Indoor Luminaires by Computers”, Illuminating Engineering, Vol. 53, May 1958, p. 236.

References

  • DunlopD. and FinchD. M., “Photometry of Fluorescent Luminaires—Rotating Photocell Method”, Illuminating Engineering, Vol. 57, March 1962, p. 159.
  • BaumgartnerG. R., “New Semi-Automatic Distribution Photometer and Simplified Calculation of Light Flux”, Illuminating Engineering, Vol. 45, April 1950, p. 253.
  • deWitL., “Apparatus for Measuring Light Distributions”, Philips Technical Review, Vol. 14, January 1955, p. 200–202.
  • FranklinJ. S., “Automated Universal Distribution Photometer”, Illuminating Engineering, December 1958, p. 667.
  • WalshJ. W. T., Photometry, 3rd Edition, Constable & Co., London, 1958, p. 247–248.
  • HortonG. A.,FrenchR. R. and ArensJ. B., “Photometry of Luminaires Using Highly-Loaded Fluorescent Lamps”, Illuminating Engineering, Vol. 56, March 1961, p. 179.
  • FranckK. and SmithR. L., “A Photometric Laboratory for Today's Light Sources”, Illuminating Engineering, Vol. 49, June 1954, p. 287.
  • BaumgartnerG. R., “Practical Photometry of Fluorescent Lamps and Reflectors”, Illuminating Engineering, Vol. 36, December 1941, p. 1340.
  • HortonG. A., “Modern Photometry of Fluorescent Luminaires”, Illuminating Engineering, Vol. 45, July 1950, p. 458.
  • HornC. E.,LittleW. F. and SalterE. H., “Relation of Distance to Candlepower Distribution from Fluorescent Luminaires”, Illuminating Engineering, Vol. 47, February 1952, p. 99.

References

  • RiggsW. G. and LambertA. R., “Correlating Ten-Foot Photometry”, Illuminating Engineering, Vol. 58, December 1963, p. 736.
  • Committee on Recommendations for Quality and Quantity of Illumination of the IES, “Outline of a Standard Procedure for Computing Visual Comfort Ratings for Interior Lighting”, Report No. 2, Illuminating Engineering, Vol. 61, October 1966, p. 643.
  • Committee on Recommendations for Quality and Quantity of Illumination of the IES, “An Alternate Simplified Method for Determining the Acceptability of a Luminaire From the VCP Standpoint For Use in Large Rooms”, Report No. 3, Journal of the Illuminating Engineering Society, Vol. 1, April 1972, p. 256.

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