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Linear Low Pressure Sodium Lamp
This image is of 2 early linear 200W sodium lamps, both are marked as ‘Mazda Linear sodium made in Britain’. There is no SLI/H marking on the description.  The lower lamp is of the Thorn design but I think it may have the earlier tin oxide coating inside.  The upper lamp initially looks like the GEC design but it is different in many ways. There are 2 fewer crescents pressed into the discharge tube compared to the GEC and this lamp has metal supports rather than the mica used by GEC. There is no reflective coating in this lamp either but there is a secondary glass sleeve, as common in the SOI/H design.  Just visible at the top is a painted conductive earth strip to aid lamp starting, as without the metalized outer coating, this is required for reliable starting.  I also suspect the number seen stamped on the discharge tube is the date, as I suspect the lamp is from around 1969.  I obtained 3 of these lamps from the one building when being decommissioned from their floodlights in the 1980s.  The building was owned by the electrical contractors Balfour-Kilpatrick (Beatty), Paisley.  The third lamp was identical to the top one and I swapped it with James some time ago.  The upper lamp is showing signs of getter depletion. I would normally be tempted to re-fire the getters but there is a risk to the lamp and the vacuum is still present. 
Keywords: Lamps

Linear Low Pressure Sodium Lamp

This image is of 2 early linear 200W sodium lamps, both are marked as ‘Mazda Linear sodium made in Britain’. There is no SLI/H marking on the description. The lower lamp is of the Thorn design but I think it may have the earlier tin oxide coating inside. The upper lamp initially looks like the GEC design but it is different in many ways. There are 2 fewer crescents pressed into the discharge tube compared to the GEC and this lamp has metal supports rather than the mica used by GEC. There is no reflective coating in this lamp either but there is a secondary glass sleeve, as common in the SOI/H design. Just visible at the top is a painted conductive earth strip to aid lamp starting, as without the metalized outer coating, this is required for reliable starting. I also suspect the number seen stamped on the discharge tube is the date, as I suspect the lamp is from around 1969. I obtained 3 of these lamps from the one building when being decommissioned from their floodlights in the 1980s. The building was owned by the electrical contractors Balfour-Kilpatrick (Beatty), Paisley. The third lamp was identical to the top one and I swapped it with James some time ago. The upper lamp is showing signs of getter depletion. I would normally be tempted to re-fire the getters but there is a risk to the lamp and the vacuum is still present.

DSCN7576.JPG Philips_MNL-G_-_NL_1980s_a.jpg linear200w.jpg Philips_HLRN_125W_HG_-_NL_l1970s_a.jpg 110V2035W20Admiralty20Blackout20Lamp.jpg
Lamp/Fixture Information
Manufacturer:Mazda
Model Reference:linear Sodium 200W
Lamp
Lamp Type:low pressure sodium
File information
Filename:linear200w.jpg
Album name:Tuopeek / Lamps
Keywords:Lamps
Filesize:199 KiB
Date added:Sep 21, 2024
Dimensions:2400 x 1360 pixels
Displayed:21 times
DateTime Original:2024:09:21 16:29:55
Exposure Time:1/250 sec
FNumber:f/5
File Source:Digital Still Camera
Flash:No Flash
Focal length:24 mm
ISO:400
Model:NIKON D3400
Software:Adobe Photoshop Elements 2.0
White Balance:0
URL:https://trad-lighting.net/gallery/displayimage.php?pid=518
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Comment 1 to 2 of 2
Page: 1

Ria   [Sep 21, 2024 at 10:53 PM]
Fascinating information there, Mark. Linear LPS is my favourite type of lamp Linear Sodium Lamp
Max   [Sep 22, 2024 at 07:38 AM]
Two exceptional lamps there! I was not aware of the presence of an ignition antenna in some early sleeved SLIs. That makes makes perfect sense because such burner design causes a large diffusional loss of electrons from the plasma, which is what raises the discharge voltage and its mean electron energy, a condition necessary to achieve a high lumen efficacy from a highly loaded discharge. At the same time, this is also bound to cause ignition problems as electrons in the initial ionization avalanche are now more likely to be lost at the wall than to contribute to the further growth of the nascent discharge, especially in the crescent-shaped burner - that problem is less acute in Thorn's cloverleaf burner as there is a direct line of sight between the electrodes.

Comment 1 to 2 of 2
Page: 1