TWM383678U - Ballast apparatus for electrodeless lamp - Google Patents

Description

M383678 V. New description: [New technical field] [0001] This creation is about a ballast device, especially a ballast device for induction lamps. [Prior Art] [0002] The electrodeless lamp (e 1 ectrode 1 ess 1 amp ) is a century-old invention: As the name suggests, the electrodeless lamp does not require an electrode, and it emits light by the principle of electromagnetic induction and gas discharge. [0003] The electrodeless lamp has many advantages, such as an ultra long life, 50 times that of an incandescent lamp, 10 times that of a metal halide lamp; a strong shock resistance; a good energy saving effect, 80% energy saving than an incandescent lamp; and a high luminous efficiency. 6 times of incandescent lamp; no flicker is good for eyesight; no need to warm up time, can be lit instantly; green, because it does not contain mercury, it will not cause environmental pollution. [0004] However, the conventional electrodeless lamp has a disadvantage in that different sizes of induction lamps are required in countries or regions with different voltage values, and the electrodeless lamps of the same specification cannot be used in many countries or regions. For example, in an area where the power supply is 220 volts AC, an electrodeless lamp that cannot use 110 volts AC voltage, or an electrodeless lamp that uses a 12 volt DC voltage, cannot be used at 24 volts DC voltage. [New Content] [0005] In order to improve the disadvantages of the above-mentioned prior art, it is an object of the present invention to provide a ballast device for an electrodeless lamp that can be used at various voltage values. [0006] In order to improve the above-mentioned shortcomings of the prior art, another object of the present invention is to provide a form number A0101, page 3 of 12 M383678 for a ballast device of an electrodeless lamp, which can be used under various voltage values. [0007] In order to achieve the above object of the present invention, the ballast device of the present invention is applied to an electrodeless lamp and a DC voltage. The ballast device of the electrodeless lamp includes a frequency conversion unit; and a control unit electrically connected to the frequency conversion unit. The control unit receives a negative feedback signal from one of the output of the frequency conversion unit, and sends a control signal to the frequency conversion unit; the frequency conversion unit converts the DC voltage into a driving AC signal by the control signal, thereby driving the The induction lamp lights up. [0008] To achieve the above-described further object of the present invention, the ballast device of the present invention is applied to an electrodeless lamp and an alternating voltage. The ballast device of the electrodeless lamp comprises a frequency conversion unit; a rectifier unit electrically connected to the frequency conversion unit; and a control unit electrically connected to the frequency conversion unit. The rectifying unit is configured to convert the alternating current voltage into a direct current voltage; the control unit receives a negative feedback signal from the output of the frequency conversion unit, and sends a control signal to the frequency conversion unit; the frequency conversion unit is controlled by the control unit The signal converts the DC voltage into a driving AC signal, thereby driving the induction lamp to illuminate. [Embodiment] [0009] Please refer to the first figure, which is a block diagram of an embodiment of the ballast device of the present invention. The ballast device 20 of the present invention is applied to an electrodeless lamp 30 and a DC voltage 40. The ballast device 20 of the electrodeless lamp is electrically connected to the electrodeless lamp 30 and the DC voltage 40. [0010] The ballast device 20 of the electrodeless lamp comprises a frequency conversion unit 208 (for example, a form number A0101 page 4 / 12 pages [0011] frequency converter), a control unit 2i 〇 and a power factor correction unit 2〇6. The frequency conversion unit 208 is electrically connected to the induction lamp 3, the control unit 21, and the power factor correction unit 206; the power factor correction unit 206 is also electrically connected to the DC voltage 4 〇. The power factor correction unit 206 is configured to increase the power factor of the DC voltage 40. The control unit 210 receives a negative feedback signal S1 from the output of the frequency conversion unit 208, and sends a control signal S2 to the frequency conversion unit 2 The variable frequency unit 208 converts the DC voltage 40 into a driving AC signal S3 (for example, 79 volts 210 Hz) by the control signal S2 to drive the electrodeless lamp 30 to illuminate. [0012] Thereby, regardless of the voltage value of the DC voltage 40 (for example, 12 volts, 24 volts or 36 volts), the ballast device 20 of the induction lamp can correctly drive the electrodeless lamp 3 〇 bright . [0013] Please refer to the second figure, which is a block diagram of still another embodiment of the ballast device of the present invention. The ballast device 20A of the present invention is applied to an induction lamp 30A and an alternating voltage 10A. The ballast device 20A of the electrodeless lamp is electrically connected to the electrodeless lamp 30A and the alternating voltage i〇A. [0014] The ballast device 20A of the electrodeless lamp comprises a frequency conversion unit 208A (for example, a frequency converter), a control unit 210A, a power factor correction unit 206A, a rectification unit 204A (for example, a bridge rectifier), and a Electromagnetic interference filtering unit 202A. The EMI filtering unit 202A is electrically connected to the AC voltage 10A and the rectifying unit 204A; the power factor correcting unit 206A is electrically connected to the rectifying unit 204A and the frequency converting unit 20W; the frequency converting unit 208A is still electrically connected to the poleless unit Lamp 30A and the control sheet form number A0101 page 5 / total 12 page 210A. [0015] The electromagnetic interference filtering unit 202A is configured to filter out electromagnetic interference; the rectifying unit 204A is configured to convert the alternating current voltage i〇A into a direct current voltage of ¥1: the power factor correcting unit is configured to increase the direct current The power factor of the voltage VI; the control unit 210A receives a output negative feedback signal SIA from the frequency conversion unit 208A, and sends a control signal S2A to the frequency conversion unit 208A; the frequency conversion unit 208A, by the control signal S2A, The DC voltage VI is converted to a drive AC signal S3A (eg, 79 volts 210 Hz) to drive the induction lamp 30A to illuminate. [0016] By this, regardless of the value of the voltage of the AC voltage 10 A (for example, 100 volts to 300 volts '50 Hz to 60 Hz), the ballast device 20A of the electrodeless lamp can correctly drive the The electrodeless lamp 3〇a is bright. [0017] In summary, when the creation of the original specification can be used in different countries or regions with different voltage values, it is also beneficial to mass production of ballasts for induction lamps in a simplified manner. Sexuality, novelty and progressiveness, and the structure of this creation has not been seen in similar products and public use. It is in full compliance with the requirements of new patent applications, and applications are filed in accordance with the Patent Law. [Simplified illustration] [0018] A block diagram of one embodiment of a ballast device for creating an electrodeless lamp. [0019] The second figure is a block diagram of still another embodiment of the ballast device of the created electrodeless lamp. [Description of main component symbols] Form No. A0101 Page 6 of 12 [0020] M383678 [0021] [0023] [0024] [0025] [0026]

[0028] [0030] [0032] [0032]

[0038] [0038] [0038] [0038]

Ballast device for induction lamp 20 Induction lamp 30 DC voltage 40 Frequency conversion unit 208 Control unit 210 Power factor correction unit 206 Output negative feedback signal S1 Control signal S2 Drive AC signal S3 Ballast device for induction lamp 20A Induction lamp 30A AC Voltage 10A EMI Filtering Unit 202A Rectifier Unit 2 0 4 A Power Factor Correction Unit 206A Frequency Conversion Unit 208A Control Unit 210A DC Voltage VI Output Negative Feedback Signal S1A Form No. A0101 Page 7 of 12 M383678 [0039] [0040 ]

Control signal S 2 A Drive AC signal S 3 A Form number A0101 Page 8 of 12

Claims (1)

M383678 VI. Patent application scope: 1. A ballast device for an electrodeless lamp, which is applied to an electrodeless lamp and a DC voltage device, the ballast device of the electrodeless lamp comprises: a frequency conversion unit; and a control unit, the control The unit is electrically connected to the frequency conversion unit, wherein the control unit receives a negative feedback signal from the output of the frequency conversion unit, and sends a control signal to the frequency conversion unit; the frequency conversion unit uses the control signal to apply the DC voltage It is converted into a driving AC signal to drive the induction lamp to illuminate. 2. The ballast device of the electrodeless lamp of claim 1, further comprising a power factor correction unit electrically connected to the frequency conversion unit to increase the power factor of the DC voltage. 3. The ballast device of the induction lamp of claim 2, wherein the frequency conversion unit is a frequency converter. 4. The ballast device of the electrodeless lamp of claim 3, wherein the voltage of the DC voltage is 12 volts, 24 volts or 36 volts; and the voltage value of the driving AC signal is 79 volts 210 Hz. The ballast device of the electrodeless lamp is applied to an electrodeless lamp and an alternating current voltage, the ballast device of the electrodeless lamp comprises: a frequency conversion unit; a rectifying unit electrically connected to the frequency conversion unit; and a a control unit electrically connected to the frequency conversion unit, wherein the rectifying unit is configured to convert the alternating current voltage into a direct current voltage; the control unit receives a negative feedback signal from one of the output of the frequency conversion unit, and sends a control signal To the frequency conversion unit; the frequency conversion unit borrows 099201411 Form No. A0101, page '9/12 pages 0992003613-0 M383678, by the control signal, the DC voltage is converted into a driving AC signal, thereby driving the induction lamp to illuminate. 6. The ballast device of the electrodeless lamp of claim 5, further comprising a power factor correction unit electrically connected to the frequency conversion unit to increase the power factor of the DC voltage. 7. The ballast device of the electrodeless lamp of claim 6, further comprising an electromagnetic interference filtering unit electrically connected to the rectifying unit to filter out electromagnetic interference. 8. The ballast device of the electrodeless lamp of claim 7, wherein the rectifying unit is a bridge rectifier. 9. The ballast device of the induction lamp of claim 8, wherein the frequency conversion unit is a frequency converter. 10. The ballast device of the electrodeless lamp of claim 9, wherein the voltage value of the driving AC signal is 7 9 volts 21 Hz; the voltage value of the alternating voltage is 100 volts to 300 volts, 50 Hz Up to 60 Hz. 099201411 Form No. A0101 Page 10 of 12 0992003613-0