Skogsgurra
Electrical
- Mar 31, 2003
- 11,815
I had an interesting case this week: A gas analyzer was damaged by mains transients and a line conditioner (magnet stabilizer) had been installed to protect it.
After the installation, the analyser failed very often - and it happened when it was switched off or on. I was asked to find out what the problem was and hooked up a recorder to observe voltages and currents. It was quite clear what happened: switching off the primary voltage to the stabilizer caused the output to decay from nominal voltage to zero volts over about ten cycles. This is a consequence of the secondary parallel resonance circuit that is part of the stabilizer. So far all seemed to be OK.
The gas analyzer has a switch mode power supply. It delivers nominal voltages to the internal electronics even if the mains voltage varies over a wide range. Normally one of these supplies can work with an input voltage between 100 and 260 V. The internal electronics consumes constant power regardless of input voltage which means that the input power is constant.
Constant input power translates into increasing line current when mains voltage drops. Half voltage is equal to double current, which is easy to understand.
But, when the line conditioner output came down to about 20 V (from nominal 230 V) the input current increased to about ten times nominal current for about ten milliseconds. Such high a current will heat the switches (Mosfet, resistive channel) proportional to current squared and we were lucky that the analyser survived this time. It usually doesn't.
I told the customer to use a line filter and varistors to suppress the line transients instead of using the stabilizer and also not to switch off the stabilizer primary before they have chenged the installation. I hope that it will solve the problem.
My question: Is this something that everybody knows about? Are Magnetic stabilizers known to kill switch mode power supplies? Do modern PSUs have a voltage monitor that switches off when input voltage gets too low? This PSU obviously does not, it is 10+ years old.
Comments?
After the installation, the analyser failed very often - and it happened when it was switched off or on. I was asked to find out what the problem was and hooked up a recorder to observe voltages and currents. It was quite clear what happened: switching off the primary voltage to the stabilizer caused the output to decay from nominal voltage to zero volts over about ten cycles. This is a consequence of the secondary parallel resonance circuit that is part of the stabilizer. So far all seemed to be OK.
The gas analyzer has a switch mode power supply. It delivers nominal voltages to the internal electronics even if the mains voltage varies over a wide range. Normally one of these supplies can work with an input voltage between 100 and 260 V. The internal electronics consumes constant power regardless of input voltage which means that the input power is constant.
Constant input power translates into increasing line current when mains voltage drops. Half voltage is equal to double current, which is easy to understand.
But, when the line conditioner output came down to about 20 V (from nominal 230 V) the input current increased to about ten times nominal current for about ten milliseconds. Such high a current will heat the switches (Mosfet, resistive channel) proportional to current squared and we were lucky that the analyser survived this time. It usually doesn't.
I told the customer to use a line filter and varistors to suppress the line transients instead of using the stabilizer and also not to switch off the stabilizer primary before they have chenged the installation. I hope that it will solve the problem.
My question: Is this something that everybody knows about? Are Magnetic stabilizers known to kill switch mode power supplies? Do modern PSUs have a voltage monitor that switches off when input voltage gets too low? This PSU obviously does not, it is 10+ years old.
Comments?
