belax
Member level 2
Hello.
I am developing electronic ballast for fluorescent lamps (standard lamps, mostly for 120cm 36W T8 lamp).
But the main problem here is that the ballast should power the lamp with 25-30 % of it is nominal power (e.g for 36WT8 it should be around 10 W) and that the lamp should have the same lifetime (as it has when it is driven with it is nominal power).
I have read some information from the internet concerning driving FLs and dimming them, but got more questions than answers.
Right now I am considering the fallowing simple schematic:
The power source for the lamp will be Half-bridge (IR2153) with frequency about 34 kHz.
This half-bridge will drive a simple resonance circuit (inductor in series with lamp paralleled with a capacitor).
I am planning to select (by calculating and experimentally) such an inductor and a capacitor, that the resonance frequency will be close to 34 kHz and that the power in running stage will be about 10 W.
For such schematic I would like to ask questions:
1) As I understand when driving the 36WT8 lamp in 10W mode, the filaments will be cooler than when it is driven with 36W (please correct me if I am wrong). How will this affect lifetime of the lamp (lifetime of its cathodes and other parts)? Will they loose its emission capability faster or will it only be better for cathodes to work in low power mode?
2) My first experiments revealed that the lamp ignites and runs normally. But, driving the lamp with about 10W by this method the plasma (output light) of the lamp looks very funny. I can see something like light-waves, which go from one end of the lamp to another with low speed (about 1 m/sec). Especially I can see more of these waves when I hold the lamp with my arms.
What can be this effect associated with? How can I get rid of it?
I am feeling that I should constantly heat the filaments, but I really would like not to do it, if it is possible to drive lamp with 10W and produce normal light without reducing the lamp lifetime.
I would really appreciate any help with these issues.
Thank you.
I am developing electronic ballast for fluorescent lamps (standard lamps, mostly for 120cm 36W T8 lamp).
But the main problem here is that the ballast should power the lamp with 25-30 % of it is nominal power (e.g for 36WT8 it should be around 10 W) and that the lamp should have the same lifetime (as it has when it is driven with it is nominal power).
I have read some information from the internet concerning driving FLs and dimming them, but got more questions than answers.
Right now I am considering the fallowing simple schematic:
The power source for the lamp will be Half-bridge (IR2153) with frequency about 34 kHz.
This half-bridge will drive a simple resonance circuit (inductor in series with lamp paralleled with a capacitor).
I am planning to select (by calculating and experimentally) such an inductor and a capacitor, that the resonance frequency will be close to 34 kHz and that the power in running stage will be about 10 W.
For such schematic I would like to ask questions:
1) As I understand when driving the 36WT8 lamp in 10W mode, the filaments will be cooler than when it is driven with 36W (please correct me if I am wrong). How will this affect lifetime of the lamp (lifetime of its cathodes and other parts)? Will they loose its emission capability faster or will it only be better for cathodes to work in low power mode?
2) My first experiments revealed that the lamp ignites and runs normally. But, driving the lamp with about 10W by this method the plasma (output light) of the lamp looks very funny. I can see something like light-waves, which go from one end of the lamp to another with low speed (about 1 m/sec). Especially I can see more of these waves when I hold the lamp with my arms.
What can be this effect associated with? How can I get rid of it?
I am feeling that I should constantly heat the filaments, but I really would like not to do it, if it is possible to drive lamp with 10W and produce normal light without reducing the lamp lifetime.
I would really appreciate any help with these issues.
Thank you.