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1961 Philips CSX 900W The xenon short-arc lamp shown here features a very early design and was in fact manufactured by Osram in West Berlin, FRG. Since the latter essentially developed the technology into commercial products, it acquired a crucial experience in this domain, which placed them in a prominent place in all markets targeted by this type of lamp (primarily cinema projection and instrument illumination). The manufacturing of xenon short-arc lamps is very specialized and requires highly trained glass blowers to make and assemble its many parts. Because this production process could not be easily set up, Philips (the Netherlands) resorted to outsource its CSX to Osram when it started listing these lamps in the second half of the 1950s. The Dutch eventually began making their own xenon lamps in Eindhoven, the Netherlands, in the early 1970s. The present CSX 900W has an interesting construction which includes asymetrical electrodes for an operation on DC power. The anode is the largest electrode since it must dissipate the energy of free electrons collected from the hot arc plasma. Characteristic of early xenon arc lamps, the CSX 900W is designed for a vertical operation with the anode in the top position, which enables a stable arc operation thanks to the smooth channeling of the strong gas flow driven by convection and electro-kinetic forces present at the cathode tip (i.e., Maecker effect). The massive anode also has a tip profile designed for the smooth deflection of the upward gas flow. Both electrodes are held into place by two sections of the quartz bulb which are collapsed onto the supporting rods, which also limits the forces applied to the fragile graded-glass feedthroughs located at each extremity of the lamp. This arc lamp technology still remains the workhorse of cinema projection lighting today due to its unparallel arc luminance, color quality and stability over service life. Remarkably, most of its design features have hardly changed since the origin, which is a testament of the quality of early developments in the 1940s and 50s which left little room for further improvements. Changes in the 1970s include an operation in the horizontal position, first with the help of magnetic arc stabilization and then with the shortening of the arc. The anode was also redesigned with a front face and a larger surface area in order to better dissipate energy. Keywords: Lamps

1961 Philips CSX 900W


The xenon short-arc lamp shown here features a very early design and was in fact manufactured by Osram in West Berlin, FRG. Since the latter essentially developed the technology into commercial products, it acquired a crucial experience in this domain, which placed them in a prominent place in all markets targeted by this type of lamp (primarily cinema projection and instrument illumination). The manufacturing of xenon short-arc lamps is very specialized and requires highly trained glass blowers to make and assemble its many parts. Because this production process could not be easily set up, Philips (the Netherlands) resorted to outsource its CSX to Osram when it started listing these lamps in the second half of the 1950s. The Dutch eventually began making their own xenon lamps in Eindhoven, the Netherlands, in the early 1970s.

The present CSX 900W has an interesting construction which includes asymetrical electrodes for an operation on DC power. The anode is the largest electrode since it must dissipate the energy of free electrons collected from the hot arc plasma. Characteristic of early xenon arc lamps, the CSX 900W is designed for a vertical operation with the anode in the top position, which enables a stable arc operation thanks to the smooth channeling of the strong gas flow driven by convection and electro-kinetic forces present at the cathode tip (i.e., Maecker effect). The massive anode also has a tip profile designed for the smooth deflection of the upward gas flow. Both electrodes are held into place by two sections of the quartz bulb which are collapsed onto the supporting rods, which also limits the forces applied to the fragile graded-glass feedthroughs located at each extremity of the lamp.

This arc lamp technology still remains the workhorse of cinema projection lighting today due to its unparallel arc luminance, color quality and stability over service life. Remarkably, most of its design features have hardly changed since the origin, which is a testament of the quality of early developments in the 1940s and 50s which left little room for further improvements. Changes in the 1970s include an operation in the horizontal position, first with the help of magnetic arc stabilization and then with the shortening of the arc. The anode was also redesigned with a front face and a larger surface area in order to better dissipate energy.
Philips_CSX_900W_-_NL_1961.jpg Philips_SPI_1000W_-_NL_l1960s.jpg BGW_HBO_500W_-_GDR_1960s.jpg Osram_HBO_R_103W2145_-_DE_2000.jpg Philips_CSX75W212_-_NL_1978.jpg
Lamp/Fixture Information
Manufacturer:Philips
Model Reference:CSX 900W
Lamp
Lamp Type:Xenon short arc
Filament/Radiator Type:Highly loaded arc in xenon
Base:SFa25-10 | SFa25-12
Shape/Finish:Elliptical clear
Service Life:c. 200 h
Burning Position:Vertical, anode up
Electrical
Wattage:500 - 895 W
Voltage:17.3 - 19.9 A
Current:30 - 45 A
Optical
Lumen Output:13.7 - 30.0 klm
Lumen Efficacy:15.2 - 33.3 lm/W
Colour Temperature:6185 - 6292 K
Colour Rendering Index:95 Ra8
Physical/Production
Factory Location:Berlin Wedding, FRG
Fabrication Date:June 1961
Application/Use:Movie projection
File information
Filename:Philips_CSX_900W_-_NL_1961.jpg
Album name:Max / Highly loaded arc lamps
Keywords:Lamps
Filesize:226 KiB
Date added:Oct 14, 2024
Dimensions:1200 x 362 pixels
Displayed:8 times
DateTime Original:2009:07:05 18:00:45
Exposure Time:1/125 sec
FNumber:f/5
Flash:No Flash
Focal length:33 mm
ISO:800
Model:Canon EOS 450D
Software:Adobe Photoshop CS5 Windows
White Balance:1
URL:https://trad-lighting.net/gallery/displayimage.php?pid=556
Favorites:Add to Favorites

Comment 1 to 5 of 5
Page: 1

Tuopeek   [Oct 14, 2024 at 08:46 PM]
I have a 3kW XBO xenon lamp I've yet to fire up. They are challenging to play with on every level, strike voltage, running current and lamp pressure. Well done for being brave enough to picture this lamp out of its ballistic jacket. Smile
Ria   [Oct 14, 2024 at 09:25 PM]
These lamps always scare me a little, I'm not sure I'd want to be a cinema projectionist Mr. Green
Max   [Oct 14, 2024 at 09:47 PM]
And there's a good reason to be scared. Luckily, those little luminous hand-grenades are relatively safe when new. I've worked in a factory that produces those, and the finished ones (i.e., under pressure) where carried around without their cover. It's the used ones you should be very worried about. Anyway, in nearly 40 years of lamp collecting, only once did I experience a burst xenon short-arc lamp, and that was because I stupidly dropped it (in its protective cover, luckily). You can be sure that this never happened again.

Tuopeek - I'm taking some precautions when I handle such lamps, you never know... As for their operation, it's quite tricky indeed, but not impossible to achieve, especially if it's for short term use.
Sammi   [Oct 14, 2024 at 09:59 PM]
Max - That's one word for them.!!! Mind Blown Laughing
Max   [Oct 15, 2024 at 08:50 PM]
It's a rather accurate description of the lamp, don't you think? Wink

Comment 1 to 5 of 5
Page: 1