Fluorescent electronic ballasts have a voltage to amperage ratio chart on their face. Use this chart by selecting the voltage you are using and the corresponding amperage, then multiply the two numbers together for your wattage. Some fixtures come with more than one ballast, so you will need to take the wattage of all applicable ballasts for any given fixture to obtain the total wattage for the fixture.
No, a 1000w HPS ballast is designed to power one 1000w HPS light bulb. If you want to power two lights, you would need to use a ballast with enough power output for two lights, like a 2000w HPS ballast.
No, the ballast's output is not matched to operate a fluorescent bulb.
You don't. The output of a ballast is for one purpose only and that is to operate the lamp that is designed for that ballast. You should be careful with high output ballasts as they can draw enough milliamps to lock your muscles up if the current is shorted through you.
reactor ballast
The exact results are not normally documented in manufacturer's literature, because they do not condone purposely mis-matching ballasts and lamps That being said, if both are RAPID-START there is a likelyhood that the lamp will light with this ballast. The light output may be less than normal and the ballast may have a premature failure. It's not going to explode. If you are deperate, help yourself, but I would always recommend a correct match...
The purpose of a light ballast in a lighting system is to regulate the electrical current flowing to the light bulb, ensuring a steady and consistent light output.
The purpose of the ballast in a fluorescent light fixture is to regulate the electrical current flowing through the light bulb, ensuring that it operates efficiently and produces steady light output.
No, a 1000w HPS ballast is designed to power one 1000w HPS light bulb. If you want to power two lights, you would need to use a ballast with enough power output for two lights, like a 2000w HPS ballast.
The function of a tube light ballast in a lighting fixture is to regulate the electrical current flowing through the fluorescent tube, providing the necessary voltage to start and maintain the light output.
No, the ballast's output is not matched to operate a fluorescent bulb.
The purpose of a ballast in a fluorescent lighting system is to regulate the electrical current flowing through the fluorescent tube, ensuring that it operates efficiently and produces a steady light output.
You don't. The output of a ballast is for one purpose only and that is to operate the lamp that is designed for that ballast. You should be careful with high output ballasts as they can draw enough milliamps to lock your muscles up if the current is shorted through you.
reactor ballast
To change a ballast in a fluorescent light, first turn off the power to the light fixture. Remove the cover and locate the ballast. Disconnect the wires and remove the old ballast. Install the new ballast in the same position and reconnect the wires. Finally, replace the cover and turn the power back on.
Typically, if the ballast on a fluorescent light blows, the lamp will not work. The ballast regulates the electrical current to the lamp, so if it is not functioning properly, the lamp will not receive the correct power to light up.
The exact results are not normally documented in manufacturer's literature, because they do not condone purposely mis-matching ballasts and lamps That being said, if both are RAPID-START there is a likelyhood that the lamp will light with this ballast. The light output may be less than normal and the ballast may have a premature failure. It's not going to explode. If you are deperate, help yourself, but I would always recommend a correct match...
The common wire on a ballast is used to supply power to the entire lighting fixture. It is typically connected to the incoming power source and distributes power to the individual lamp holders. The common wire ensures that the ballast functions properly and all lamps receive the necessary electricity to produce light.