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RLOD#1 (05.05.2020) 1981 Philips HPI 12

The HPI 12 shown here is an experimental visible-light variant of the HPM 12, consisting of a bare HPI-T 400W burner sealed to two large ceramic end caps. Such construction results in a very compact light source with an overall length of 11 cm only. The lamp is nearly twice as small as the jacketed HPI-TD 400W/F that was used in various optical/projection applications. The much smaller HPI12 certainly permitted the use of much more compact and efficient optical systems, and/or enabled many lamps to be used in large banks for lighting applications requiring high optical flux densities. A key advantage of this particular lamp design is the lack of outer jacket which provides a direct access to the full emission spectrum of HPI burner, which contains a significant amount of UV and infrared radiation. At nominal temperature and power (1000 K cold spot and 390 W), 210 W is radiated out with 15 W in the ultraviolet, 97 W in the visible, and 98 W in the infrared. Naturally, these figures can be changed depending on the input power and operating temperature, which makes the HPI 12 quite a versatile light source, especially when used in combination with filters.
 
The quartz burner is of the three-piece barrel type, a typical Philips design that was in production from the late 1960s to the late 1980s. Its fill is similar to that of standard HPI-T lamps and consists of a Ne-Ar Penning mixture as the start gas, a mercury buffer, and a Na-Tl-In iodide mix as the main radiator. Condensation of salt behind the electrodes is prevented by electrode chambers coated with zirconium oxide which ensures a higher local temperature there. The operation of the burner in ambient air presents several difficulties, such as the accelerated oxidation of the moly end seals, or the gradual loss of neon. However, both processes are slow enough to guarantee an effective service life of at least a couple thousand hours at nominal power (390 W), which is significantly less than that of jacketed lamps but enough for special lighting applications.


Keywords: Lamps

RLOD#1 (05.05.2020) 1981 Philips HPI 12


The HPI 12 shown here is an experimental visible-light variant of the HPM 12, consisting of a bare HPI-T 400W burner sealed to two large ceramic end caps. Such construction results in a very compact light source with an overall length of 11 cm only. The lamp is nearly twice as small as the jacketed HPI-TD 400W/F that was used in various optical/projection applications. The much smaller HPI12 certainly permitted the use of much more compact and efficient optical systems, and/or enabled many lamps to be used in large banks for lighting applications requiring high optical flux densities. A key advantage of this particular lamp design is the lack of outer jacket which provides a direct access to the full emission spectrum of HPI burner, which contains a significant amount of UV and infrared radiation. At nominal temperature and power (1000 K cold spot and 390 W), 210 W is radiated out with 15 W in the ultraviolet, 97 W in the visible, and 98 W in the infrared. Naturally, these figures can be changed depending on the input power and operating temperature, which makes the HPI 12 quite a versatile light source, especially when used in combination with filters.

The quartz burner is of the three-piece barrel type, a typical Philips design that was in production from the late 1960s to the late 1980s. Its fill is similar to that of standard HPI-T lamps and consists of a Ne-Ar Penning mixture as the start gas, a mercury buffer, and a Na-Tl-In iodide mix as the main radiator. Condensation of salt behind the electrodes is prevented by electrode chambers coated with zirconium oxide which ensures a higher local temperature there. The operation of the burner in ambient air presents several difficulties, such as the accelerated oxidation of the moly end seals, or the gradual loss of neon. However, both processes are slow enough to guarantee an effective service life of at least a couple thousand hours at nominal power (390 W), which is significantly less than that of jacketed lamps but enough for special lighting applications.

Philips_HPR125_after_ign.JPG Philips20125W20HPR20Lamps.jpg 2020-05-05_Philips_HPI_12.JPG DSC00477.JPG Osram-GEC_400W_MA-H_leaflet.jpg
Lamp/Fixture Information
Manufacturer:Philips
Model Reference:HPI 12
Lamp
Lamp Type:Quartz metal halide
Filament/Radiator Type:Thermal discharge in mercury and metal iodide vapors (Na, Tl, In)
File information
Filename:2020-05-05_Philips_HPI_12.JPG
Album name:Max / Random lamp of the day
Keywords:Lamps
Filesize:457 KiB
Date added:Aug 12, 2024
Dimensions:1200 x 800 pixels
Displayed:17 times
URL:https://trad-lighting.net/gallery/displayimage.php?pid=220
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Comment 1 to 6 of 6
Page: 1

Ria   [Aug 12, 2024 at 11:18 PM]
Always good to read your explanations and descriptions of these wonderful lamps, Max Cool
Sammi   [Aug 12, 2024 at 11:19 PM]
Das ist ausgezeichnet, mein Herr.! Bulb Man
Max   [Aug 13, 2024 at 09:17 PM]
Danke schön, Sammi!
Sammi   [Aug 13, 2024 at 10:29 PM]
It's been over thirty years since I left Germany, but sometimes it just comes back to me.! Laughing
Annoyingly, sometimes I forget the English word for things and can only remember the German one.! Mind Blown
Ria   [Aug 13, 2024 at 10:39 PM]
She still counts in German Laughing
Sammi   [Aug 13, 2024 at 11:01 PM]
Not all the time, I have been know to count in French. Laughing Rail Road Flasher

Comment 1 to 6 of 6
Page: 1