IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0739785
(2007-04-25)
|
등록번호 |
US-7503996
(2009-03-17)
|
우선권정보 |
CN-2007 1 0039453(2007-04-13) |
발명자
/ 주소 |
- Chen,Jinyuan
- Yin,Gerald
- Qian,Xueyu
- Ni,Tuqiang
- Iizuka,Hiroshi
|
출원인 / 주소 |
- Advanced Micro Fabrication Equipment, Inc. Asia
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
14 인용 특허 :
1 |
초록
▼
An RF power supplier is provided, that enables multiple-frequency RF power. The system uses N RF signal generators, combines the RF signals, amplify the combined signals, and then separates the amplified signal. The output of the system is then a multiple-frequency RF power. Optionally, the frequenc
An RF power supplier is provided, that enables multiple-frequency RF power. The system uses N RF signal generators, combines the RF signals, amplify the combined signals, and then separates the amplified signal. The output of the system is then a multiple-frequency RF power. Optionally, the frequencies are switchable, so that one may select which frequencies the system outputs.
대표청구항
▼
The invention claimed is: 1. An RF power supply system, comprising: an RF source outputting N RF signals at N frequencies, wherein N is an integer greater than 1; an RF power combiner combining the N RF signals to output a combined RF signal; a wide-band amplifier amplifying the combined RF signal
The invention claimed is: 1. An RF power supply system, comprising: an RF source outputting N RF signals at N frequencies, wherein N is an integer greater than 1; an RF power combiner combining the N RF signals to output a combined RF signal; a wide-band amplifier amplifying the combined RF signal to provide an amplified RF signal; an RE power separator receiving the amplified RF signal and providing N amplified RF power signals at N frequencies: and, a matching circuitry receiving the N amplified RE power signals and applying the N amplified RF power signals to a plasma chamber. 2. The RF power supply system of claim 1, wherein the RF source comprises at least one oscillator. 3. The RF power supply system of claim 1, wherein the matching circuitry comprises a plurality of matching networks, each configured to receive one of the N frequencies. 4. The RF power supply system of claim 1, wherein N=2 and the matching circuitry comprises a matching network configured to switchably receive one of the two frequencies. 5. The RF power supply system of claim 1, wherein the RF source comprises at least one frequency synthesizer. 6. The RF power supply system of claim 5, wherein the RF source further comprises at least one frequency multiplier or one frequency divider. 7. The RF power supply system of claim 1, further comprising a switch selectably coupling one of two predetermined frequencies of the N frequencies to the matching circuitry. 8. The RF power supply system of claim 7, further comprising a shunt capacitor coupled to the input side of the switch. 9. An RF power supply system for energizing a plasma chamber, comprising: a first RF source outputting first RF signal at a first frequency; a second RF source outputting second RF signal at a second frequency; an RF power combiner combining the first and second RF signals to output a combined RF signal; a wide-band amplifier amplifying the combined RF signal to provide an amplified signal; an RF power separator receiving the amplified signal and providing a first amplified RF power and a second amplified RF power; a matching circuitry configured for receiving the first and second amplified RF powers and applying the first and second amplified RF powers to the plasma chamber. 10. The RF power supplier of claim 9, wherein the matching circuitry comprises a first match network receiving the first amplified RF power and a second match network receiving the second amplified RF power. 11. The RF power supplier of claim 9, wherein the RF power separator comprises at least one filter. 12. The RF power supplier of claim 9, wherein the RF power separator comprises a low pass filter and a band pass filter. 13. The RF source of claim 9, further comprising a controller energizing said first RF source and second RF source. 14. The RF power supply system of claim 9, further comprising a switch coupled to the RF power separator, said switch having an input receiving the amplified signal and a shunt capacitor coupled to the input. 15. The RF source of claim 9, wherein the first RF source comprises a frequency synthesizer. 16. The RF source of claim 15, wherein the second RF source comprises a frequency multiplier or divider. 17. A plasma chamber comprising: a vacuum chamber for generating plasma therein; an RF power supplier providing RF power at frequency f1; an RF source outputting N RF signals at N frequencies, wherein N is an integer greater than 1; an RF power combiner combining the N RF signals to output a combined RF signal; a wide-band amplifier amplifying the combined RF signal to provide an amplified RF signal; an RF power separator receiving the amplified RF signal and providing N amplified RF power signals at N frequencies; a matching circuitry coupling the RF power at frequency f1 and at least one of the N frequencies to the vacuum chamber. 18. The plasma chamber of claim 17, wherein f1 is selected from 27 MHz, 60 MHz, 100 MHz, and about 160 MHz. 19. The plasma chamber of claim 17, wherein N=2, whereby the N frequencies are two frequencies selected from about 2 MHz and about 13 MHz, about 2 MHz and about 27 MHz, or about 13 MHz and about 27 MHz. 20. The plasma chamber of claim 17, wherein N=2, and wherein the RF source is selected from a digital synthesizer or a digital synthesizer and a frequency multiplier or divider. 21. The plasma chamber of claim 17, further comprising a switch coupled to the RF power separator, said switch having an input receiving the amplified signal and a shunt capacitor coupled to the input.
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