IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0582991
(2009-10-21)
|
등록번호 |
US-8637794
(2014-01-28)
|
발명자
/ 주소 |
- Singh, Harmeet
- Gaff, Keith
- Benjamin, Neil
- Comendant, Keith
|
출원인 / 주소 |
|
대리인 / 주소 |
Buchanan Ingersoll & Rooney PC
|
인용정보 |
피인용 횟수 :
27 인용 특허 :
67 |
초록
▼
A heating plate for a substrate support assembly in a semiconductor plasma processing apparatus, comprises multiple independently controllable planar heater zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. A substrate suppo
A heating plate for a substrate support assembly in a semiconductor plasma processing apparatus, comprises multiple independently controllable planar heater zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. A substrate support assembly in which the heating plate is incorporated includes an electrostatic clamping electrode and a temperature controlled base plate. Methods for manufacturing the heating plate include bonding together ceramic or polymer sheets having planar heater zones, power supply lines, power return lines and vias.
대표청구항
▼
1. A substrate support assembly used to support a semiconductor substrate in a semiconductor processing apparatus, comprising: an electrostatic chuck (ESC) including an electrostatic clamping layer having at least one clamping electrode configured to electrostatically clamp a semiconductor substrate
1. A substrate support assembly used to support a semiconductor substrate in a semiconductor processing apparatus, comprising: an electrostatic chuck (ESC) including an electrostatic clamping layer having at least one clamping electrode configured to electrostatically clamp a semiconductor substrate on the substrate support assembly;a heating plate arranged below the electrostatic clamping layer;a cooling plate attached to a lower side of the heating plate by a thermal barrier layer;the heating plate comprising:a first electrically insulating layer;planar heater zones comprising at least first, second, third and fourth planar heater zones, each comprising one or more heater elements, the planar heater zones laterally distributed across the first electrically insulating layer and operable to tune a spatial temperature profile on the substrate;power supply lines comprising at least a first electrically conductive power supply line electrically connected to the first and second planar heater zones and a second electrically conductive power supply line electrically connected to the third and fourth planar heater zones;power return lines comprising at least a first electrically conductive power return line electrically connected to the first and third planar heater zones and a second electrically conductive power return line electrically connected to the second and fourth planar heater zones; andwherein (a) the power supply lines are connected to leads electrically insulated from each other and extended through at least one power supply conduit in the cooling plate and the power return lines are connected to leads electrically insulated from each other and extended through at least one power return conduit in the cooling plate; or (b) the power supply lines and power return lines are connected to terminal connectors embedded in the cooling plate. 2. The substrate support assembly of claim 1, wherein (a) the planar heater zones and the power supply lines are in a first plane; the power return lines are in a second plane parallel to the first plane; the first and second planes are separated from one another by the first electrically insulating layer; the power return lines are electrically connected to the planar heater zones by vias extending vertically in the first electrically insulating layer;(b) the planar heater zones and the power return lines are in a first plane; the power supply lines are in a second plane parallel to the first plane; the first and second planes are separated from one another by the first electrically insulating layer; the power supply lines are electrically connected to the planar heater zones by vias extending vertically in the first electrically insulating layer; or(c) the planar heater zones are in a first plane; the power supply lines are in a second plane parallel to the first plane; the power return lines are in a third plane parallel to the first plane; the first and second planes are separated by the first electrically insulating layer; the second and third planes are separated by a second electrically insulating layer; the power supply lines and power return lines are electrically connected to the planar heater zones by vias extending through the electrically insulating layers. 3. The substrate support assembly of claim 1, wherein the planar heater zones are sized such that: (a) each planar heater zone is not larger than four device dies being manufactured on the semiconductor substrate, or(b) each planar heater zone is not larger than two device dies being manufactured on the semiconductor substrate, or(c) each planar heater zone is not larger than one device die being manufactured on the semiconductor substrate, or(d) the area of each planar heater zone is between 2 and 3 square centimeters, or(e) the heating plate includes 100 to 400 planar heater zones, or(f) each planar heater zone is 1 to 15 cm2, or(g) each planar heater zone is 16 to 100 cm2, or(h) each planar heater zone is scaled with sizes of device dies on the semiconductor substrate and the overall size of the semiconductor substrate. 4. The substrate support assembly of claim 1, wherein the first electrically insulating layer comprises a polymer material, a ceramic material, or a combination thereof. 5. The substrate support assembly of claim 1, wherein the total number of the power supply lines and the power return lines is equal to or less than the total number of the planar heater zones. 6. The substrate support assembly of claim 1, wherein a total area of the planar heater zones is from 50% to 90% of an upper surface of the heating plate. 7. The substrate support assembly of claim 1, wherein the planar heater zones are arranged in a rectangular grid, hexagonal grid or concentric rings; and the planar heater zones are separated from each other by gaps at least 1 millimeter in width and at most 10 millimeters in width. 8. The substrate support assembly of claim 1, wherein a rectifier is serially connected between each heater zone and the power supply line connected thereto, or a rectifier is serially connected between each heater zone and the power return line connected thereto. 9. The substrate support assembly of claim 8, wherein the rectifier is a semiconductor diode. 10. The substrate support assembly of claim 1, further comprising a control and power circuit operable to selectively supply power at any given time to (a) only the first heater zone, (b) only the second heater zone, (c) only the third heater zone, (d) only the fourth heater zone, (e) only the first and second planar heater zones, (f) only the first and third planar heater zones, (g) only the second and fourth planar heater zones, (h) only the third and fourth planar heater zones, and (i) all of the planar heater zones. 11. The substrate support assembly of claim 10, further comprising at least one filter or isolator serially connected between the control and power circuit and electric ground. 12. The substrate support assembly of claim 11, wherein the at least one filter or isolator is a transformer. 13. The substrate support assembly of claim 1, further comprising at least one primary heater layer arranged above or below the first electrically insulating layer of the heating plate, wherein the primary heater layer is electrically insulated from the planar heater zones, the power supply lines, and the power return lines of the heating plate; the primary heater layer includes at least one heater which provides mean temperature control of the semiconductor substrate; the planar heater zones provide radial and azimuthal temperature profile control of the semiconductor substrate, during processing thereof. 14. The substrate support assembly of claim 1, wherein the terminal connectors are spring-tipped passthroughs. 15. The substrate support assembly of claim 13, wherein the primary heater layer includes two or more heaters.
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