hummmmm?
Questions
The enviroment of the press area? humidity/and temp
Has the technician inspected the capasitors to the lamps just because the lamps are on doesnt mean the power is smooth. and if the unit do not use caps they probably use a ballast of some sort
let me see if I can explain:
An Ultra-Violet Lamp works by vaporizing mercury within a pressurized quartz tube. In order to start, a high voltage start or spike is applied to the lamp (this is provided by the ignitor). If the voltage spike was successful at vaporizing part of the mercury, the lamp then enters its Warm Up stage.
Warm Up:
As the lamp warms up, more and more mercury vaporizes. This can take a couple of minutes. During this time, the voltage of the lamp starts off very low (around 30-40 volts), while the current that the lamp draws is high (around 20 amps). As more mercury vaporizes, the voltage slowly rises and the current falls. Once the lamp reaches around 80-100 volts, the speed of the voltage rise increases. As the lamp passes approx 250 volts, the lamp achieves ‘Ready’ status.
Ready: When running correctly in High Power, the lamp should run at a voltage of 260-320 volts, at approx 11-13 amps. This will vary slightly from lamp to lamp. In Low Power, the current will drop to around 8 amps and the voltage may drop to around 250 volts. this is based on the Olec 5k. numbers may vary depending on the circuitry and power requirements.
Common Lamp Problems:
Most problems accounted to the lamp aren’t usually the lamps fault. Most of the problems happen with the lamps power circuit, such as faulty ballasts or capacitors, or are a cause of over/ under cooling of the power supplu and/or lamphead
Cooling is very important to a lamp- insufficient cooling and the quartz will swell and breakdown. Once the quartz starts to swell, the lamps normal running voltage will drop and the efficiency of the lamp will decrease. The lamp leads may also suffer from overheating which can melt the insulation and cause a short. If the lamp is overcooled, it may take longer to reach its correct running voltage or may even be ‘blown out’ by the blower. This is when the lamp is unable to sustain an adequate voltage to remain lit. A lamp being overcooled will run at a lower voltage and so will pull a larger current. This larger current will put a strain on the other components in the system.
there are alot of things that need to be looked at. until the intrduction or CTP I had worked on Olec and Nuarcs for years and I actually think the problem lies with the ballast or caps.
testing the capasitors on the unit can be done with a meter.
When you say that all of a sudden things went wrong. This is normally an indication of equipment failer.
If you have a schematic of the curing unit I can be of assistance.
