TH8359B - Electronic drivers for ultraviolet (UV) lamps in water treatment systems. - Google Patents

Abstract

Drivers or ballasts for ultraviolet lamps of water treatment systems which such driver will include high current transformer and feedback oscillator connected between the secondary winding and the primary winding of the transformer. The secondary winding of such a transformer will also be selected through either of the two different charge-compensating auxiliary adjusters. depending on the water flowing through the system in low intensity conditions The current and the output power factor of the driver are will be low enough to keep the bulb's filament energized. in high intensity conditions The current and power factor are high to power the lamp to operate at a high level. Such drivers operate at low DC voltage levels, voltage reversals. will choose to work depending on the voltage transmitted along the line This converts the AC power level to the desired DC voltage.

Claims (1)

1.Ultraviolet lamp driver system in water treatment system Consisting of a flow switch that works to prevent the flow of liquid Higher current transformer That includes primary and secondary windings. An oscillator that operates to control the electrical power supplied to the primary winding of the said transformer. Way to control the oscillator that responds to the flow switch. To control the frequency at which the oscillator will operate The path to control the oscillator drives the oscillator to operate at the first frequency when there is no running water, and at the second frequency when running water. Ultraviolet in water treatment systems containing A flow switch that works to prevent the flow of liquids. A rising current transformer that includes the primary winding and the supply winding to the primary winding of the said transformer. Feedback oscillator Which is connected between the secondary and primary winding of the said transformer and the control path, the oscillator responds to the flow control switch to control the frequency at which the oscillator is Operates such oscillator control paths at the first frequency when there is no running water, and operates at the second frequency when water flows. Variable capacitance Which is connected between the secondary winding of the transformer and the lamp. The way to adjust the above. Responds to the flow switch to induce an additional charge compensation value to the lamp when water is not running. And for providing a secondary adjustment to compensate for a second charge when running water 3. The driver is stated in claim 2, where the aforementioned adjustment path consists of one of the capacitors and the path. The switch responds to the flow switch to selectively connect one of the capacitors to the secondary winding. 4. The driver as stated in claim 2, where the transformer is It is a transformer with a connector in the center. 5. Water treatment system that consists of A light bulb that emits ultraviolet light. A water flow control switch to generate a signal indicating the state of the water flowing through the system. A transformer with a primary winding adapted to the power supply. And the secondary winding connected to the said lamp An oscillator connected to the primary winding of the said transformer and a control path for regulating the frequency at which the oscillator operates. This control method will cause the oscillator to operate at a certain frequency. When the water flow switch path gives a signal that there is no water flowing. The control path causes the oscillator to operate at a second frequency when the water flow control switch signals the presence of water. 6. The water treatment system consists of A light bulb that emits ultraviolet light. A water flow control switch to generate a signal indicating the state of the water flowing through the system. A transformer with primary and secondary windings connected to such lamps. The oscillator is connected to the primary winding of the transformer. The oscillator consists of A feedback oscillator connected between the secondary windings. And the primary winding of the aforementioned transformer, and such a control path for controlling the frequency at which the said oscillator operates, such a control path allows the oscillator to operate at the first frequency. When the water flow switch path gives a signal that there is no water flowing. Such a control path allows the said oscillator to operate at a second frequency. When the water flow switch path gives a signal that water is flowing. The control method includes a pair of compensators with a certain charge value. And the second value, the way of control still includes the switch of the compensator. For the selection of one of the compensators. That is between the secondary windings of the transformer And such bulbs The auxiliary adjuster switch connects the auxiliary adjuster. Offset one to that secondary winding When the water flow control switch gives a signal that there is no water flowing. And such a booster switch will link the second compensator to the secondary winding when the water flow switch gives a signal indicating that the water is flowing. 7. Water treatment system as described in claim 6. Each of the aforementioned compensation modifiers will consist of an electrolytic capacitor. 8. Water treatment system as stated in Clause 6. Transformer with a connector in the center 9. Electrical ballast for water treatment systems. There is an ultraviolet lamp containing a water flow indicator that shows the condition of the water flow through the system. A transformer with a primary and a secondary winding modified to connect to the lamp. The feedback oscillator connected between the primary and secondary windings of the said transformer and the variable capacitance compensator compensates for a variable capacitance that is different from the transformer secondary winding. To make an adjustment to compensate for the appropriate capacitance to the lamp. In response to the water flow indicator 1 0. The electric ballast is described in Clause 9, the compensating modifier will include a pair of electrolytic capacitors with a capacitance value. High and low respectively And a switch for selecting one of the capacitors That is between the secondary windings of the transformer And the aforementioned bulb 1 1. The electric ballast as stated in Clause 9, the transformer shall consist of Transformer with a center connector