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Philips QL
The soft warm tones of a Philips QL induction lamp. This is the 85w version. I tried shaking this lamp in the hope dislodge something inside to scrape off some of the fluorescent coating to see the gas discharge but it's too well made. :-)
Keywords: Lamps

Philips QL

The soft warm tones of a Philips QL induction lamp. This is the 85w version. I tried shaking this lamp in the hope dislodge something inside to scrape off some of the fluorescent coating to see the gas discharge but it's too well made. :-)

Ph_QL.jpg DSC_6296.JPG cromMAV2.JPG MAv250w.JPG MAV400.JPG
Lamp/Fixture Information
Manufacturer:Philips
Model Reference:QL
Lamp
Lamp Type:Induction
File information
Filename:Ph_QL.jpg
Album name:Tuopeek / Mercury Vapour
Keywords:Lamps
Filesize:256 KiB
Date added:Aug 29, 2024
Dimensions:1617 x 2400 pixels
Displayed:19 times
DateTime Original:2024:08:29 20:21:13
Exposure Time:1/250 sec
FNumber:f/8
File Source:Digital Still Camera
Flash:No Flash
Focal length:31 mm
ISO:200
Model:NIKON D3400
Software:Adobe Photoshop Elements 2.0
White Balance:0
URL:https://trad-lighting.net/gallery/displayimage.php?pid=413
Favorites:Add to Favorites

Comment 1 to 5 of 5
Page: 1

Ria   [Aug 29, 2024 at 08:58 PM]
Oh I do wish I could find one of these. I've seen them on eBay occasionally but usually just the lamp globe or base, rarely with the ballast as well Confused
Max   [Aug 30, 2024 at 07:30 AM]
Such system is becoming rare indeed.
Tuopeek   [Aug 30, 2024 at 10:44 AM]
I must look after it then. I had a habit of trying to light other lamps using the RF field it produces, but it has some intelligence and detects the loading is incorrect shutting down the ballast. However, it will keep trying but I have heard its easy to kill the semiconductors with such behaviours. Surprised
Max   [Aug 31, 2024 at 10:18 AM]
I certainly wouldn't recommend running the QL system without its bulb, this stresses the driver too much. If you really want to use the antenna as an EM source (QL's antenna generates both electric and magnetic fields) to excite loose lamps and discharge tubes without running the risk of busting the transistors, then connect a standard GLS incandescent lamp in series with the antenna, this resistive load will absorb the reflected power. I don't remember the exact rating of the GLS lamp needed for the 85 W driver, it's either 100, 150 or 200 W. You certainly can do some tests and see what works best, that resistive impedance should not be too low (not enough dissipation of the reflected power) nor too high (too much voltage drop added to the circuit).
Tuopeek   [Sep 01, 2024 at 10:18 AM]
Interesting Max, Never thought of adding a resistive load to the antenna circuit as an attenuator. Although a common practice on the supply side to limit current draw when testing electronics in general. I'll keep this in mind if experimenting. Smile

Comment 1 to 5 of 5
Page: 1