Monolithically integrated switched capacitor bank using micro electro mechanical system (MEMS) technology

US 5,880,921 A
Filed: 04/28/1997
Issued: 03/09/1999
Est. Priority Date: 04/28/1997
Status: Expired due to Term

First Claim

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1. A monolithically integrated switched capacitor bank, comprising:

a substrate;

a pair of output signal lines on said substrate that terminate at respective output terminals;

a plurality of micro electro mechanical system (MEMS) switches on said substrate; and

a plurality of capacitors on said substrate, each of said switches integrated with a respective one of said plurality of capacitors on said substrate to form a series-connected switch-capacitor pair, said switch-capacitor pairs connected in parallel between the pair of output signal lines, each of said MEMS switches switching in response to a respective control signal to connect and disconnect its respective capacitor to set a total capacitance seen at said output terminals to one of a plurality of levels.

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Abstract

A monolithically integrated switched capacitor bank using MEMS technology that is capable of handling GHz signal frequencies in both the RF and millimeter bands while maintaining precise digital selection of capacitor levels over a wide tuning range. Each MEMS switch includes a cantilever arm that is affixed to the substrate and extends over a ground line and a gapped signal line. An electrical contact is formed on the bottom of the cantilever arm positioned above and facing the gap in the signal line. A top electrode atop the cantilever arm forms a control capacitor structure above the ground line. A capacitor structure, preferably a MEMS capacitor suspended above the substrate at approximately the same height as the cantilever arm, is anchored to the substrate and connected in series with a MEMS switch. The MEMS switch is actuated by applying a voltage to the top electrode, which produces an electrostatic force that attracts the control capacitor structure toward the ground line, thereby causing the electrical contact to close the gap in the signal line and connect the MEMS capacitor structure between a pair of output terminals. The integrated MEMS switch-capacitor pairs have a large range between their on-state and off-state impedance, and thus exhibit superior isolation and insertion loss characteristics.

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28 Claims

1. A monolithically integrated switched capacitor bank, comprising:
- a substrate;
  
  a pair of output signal lines on said substrate that terminate at respective output terminals;
  
  a plurality of micro electro mechanical system (MEMS) switches on said substrate; and
  
  a plurality of capacitors on said substrate, each of said switches integrated with a respective one of said plurality of capacitors on said substrate to form a series-connected switch-capacitor pair, said switch-capacitor pairs connected in parallel between the pair of output signal lines, each of said MEMS switches switching in response to a respective control signal to connect and disconnect its respective capacitor to set a total capacitance seen at said output terminals to one of a plurality of levels.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The switched capacitor bank of claim 1, wherein each said capacitor comprises a pair of conductive electrodes that are anchored to said substrate and suspended above said substrate so that the parasitic capacitance between said electrodes and said substrate is low.
  - 3. The switched capacitor bank of claim 2, wherein said capacitor comprises a parallel-plate capacitor in which said conductive electrodes are parallel to and spaced apart from each other and said substrate.
  - 4. The switched capacitor bank of claim 2, wherein said capacitor comprises an interdigitated capacitor in which said conductive electrodes lie in a common plane above said substrate and have a plurality of interdigitated fingers.
  - 5. The switched capacitor bank of claim 1, further comprising an integrated control circuit formed on said substrate that generates said control signals.

6. A monolithically integrated switched capacitor bank, comprising:
- a substrate;
  
  a pair of output signal lines on said substrate that terminate at respective output terminals; and
  
  a plurality of series-connected micro electro mechanical system (MEMS) switch-capacitor pairs on said substrate that are connected in parallel between the pair of output signal lines, each said MEMS switch switching in response to a control signal to connect and disconnect its capacitor to set a total capacitance seen at said output terminals to one of a plurality of levels, each of said MEMS switch-capacitor pairs comprising;
  
  a bottom electrode and a switch signal line formed on the substrate, said switch signal line having a first end that is connected to one of said output signal lines, a second end, and a gap forming an open circuit;
  
  a cantilever arm formed of insulating material affixed to said substrate and suspended above said bottom electrode and said gap in said switch signal line;
  
  an electrical contact formed on said cantilever arm positioned facing said gap in said switch signal line;
  
  a top electrode formed atop said cantilever arm, a portion of said cantilever arm and said top electrode positioned above said bottom electrode forming a first capacitor structure that is electrostatically attractable toward said bottom electrode upon selective application of a voltage to said top electrode;
  
  a pair of capacitor anchor structures formed on said substrate, one said capacitor anchor structure being electrically connected to the second end of said switch signal line and the other capacitor anchor structure being electrically connected to the other said output signal line; and
  
  a pair of capacitor electrodes that are connected to the respective capacitor anchor structures to form a second capacitor structure,said electrostatic attraction of said first capacitor structure toward said bottom electrode causing said electrical contact on said cantilever arm to close said gap in said switch signal line thereby connecting said second capacitor structure between said output terminals.
- View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 7. The switched capacitor bank of claim 6, wherein said pair of capacitor electrodes is suspended above said substrate so that the parasitic capacitance between said second capacitor structure and said substrate is low.
  - 8. The switched capacitor bank of claim 7, wherein said cantilever arm and said second capacitor structure are suspended above said substrate at approximately the same height.
  - 9. The switched capacitor bank of claim 8, wherein said second capacitor structure comprises a parallel-plate capacitor in which said pair of capacitor electrodes are parallel to and spaced apart from each other.
  - 10. The switched capacitor bank of claim 6, wherein said second capacitor structure comprises an interdigitated capacitor in which said pair of capacitor electrodes lies in a common plane above said substrate and have a plurality of interdigitated fingers.
  - 11. The switched capacitor bank of claim 6, wherein said substrate comprises a semi-insulating gallium arsenide substrate.
  - 12. The switched capacitor bank of claim 6, wherein said first capacitor structure further comprises a grid of holes extending through said cantilever arm and said top electrode.
  - 13. The switched capacitor bank of claim 6,further comprising another pair of bottom and top electrodes respectively formed on said substrate and atop said cantilever arm thereby forming a third capacitor structure electrostatically attractable toward said bottom electrode upon selective application of a voltage to said top electrode, said first and third capacitor structures being positioned on opposite sides of said switch signal line.
  - 14. The switched capacitor bank of claim 13, wherein said cantilever arm comprises a) first and second pairs of anchors, which are formed on said substrate on opposite sides of said first and third capacitor structures, respectively, and approximately perpendicular to said cantilever arm, b) a suspended center beam that traverses the gap in said switch signal line approximately perpendicularly, supports both of said top electrodes and extends past them a selected distance, c) a pair of suspended cross beams that are affixed at their midpoints to opposite ends of said center beam approximately perpendicularly, and d) first and second pairs of anchor beams that are respectively affixed to the ends of the cross beams, extend towards the switch signal line approximately parallel to the center beam, and are affixed to the first and second pairs of anchors, respectively, said cantilever arm expanding in response to the electrostatic attraction of said first and third capacitor structures to relieve stress on itself.
  - 15. The switched capacitor bank of claim 14, wherein the length of said first and second pairs of anchor beams is approximately equal to the selected distance that said center beam extends past said first and third capacitor structures to reduce twisting when said cantilever arm expands.
  - 16. The switched capacitor bank of claim 15, wherein said cantilever arm comprises silicon dioxide.
  - 17. The switched capacitor bank of claim 6, wherein said electrical contact comprises:
    - a first metal layer formed on said cantilever arm and positioned facing said gap in said switch signal line, said first metal layer comprising a highly conductive and relatively soft metal that would be susceptible to damage during repeated contacts to said switch signal line; and
      
      a second metal layer formed on said first metal layer and positioned facing said gap, said second metal layer comprising a metal that has lower conductivity than the metal in said first metal layer but is relatively hard so that it is not susceptible to damage when repeatedly contacted to said switch signal line, said first and second metal layers together providing said highly conductive electrical contact.

18. A monolithically integrated switched capacitor bank, comprising:
- a substrate;
  
  a pair of output signal lines on said substrate that terminate at respective output terminals; and
  
  a plurality of series-connected micro electro mechanical system (MEMS) switch-capacitor pairs on said substrate that are connected in parallel between the pair of output signal lines, each said MEMS switch switching in response to a control signal to connect and disconnect its capacitor to set a total capacitance seen at said output terminals to one of a plurality of levels, each said MEMS switch-capacitor pair, comprises;
  
  a bottom electrode and a switch signal line formed on the substrate, said switch signal line having a first end that is connected to one of said output signal lines, a second end, and a gap forming an open circuit;
  
  a cantilever arm formed of insulating material affixed to said substrate and suspended above said bottom electrode and said gap in said switch signal line;
  
  an electrical contact formed on said cantilever arm positioned facing said gap in said switch signal line;
  
  a top electrode formed atop said cantilever arm, a portion of said cantilever arm and said top electrode positioned above said bottom electrode forming a first capacitor structure that is electrostatically attractable toward said bottom electrode upon selective application of a voltage to said top electrode;
  
  a pair of capacitor anchor structures formed on said substrate, one said capacitor anchor structure being electrically connected to the second end of said switch signal line and the other capacitor anchor structure being electrically connected to the other said output signal line; and
  
  a pair of capacitor electrodes that are connected to the respective capacitor anchor structures and suspended above the substrate to form a second capacitor structure whose parasitic capacitance to said substrate is low,said electrostatic attraction of said first capacitor structure toward said bottom electrode causing said electrical contact on said cantilever arm to close said gap in said switch signal line thereby connecting said second capacitor structure between said output terminals.
- View Dependent Claims (19, 20, 21, 22, 23, 24)
- - 19. The switched capacitor bank of claim 18, wherein said cantilever arm and said second capacitor structure are suspended above said substrate at approximately the same height.
  - 20. The switched capacitor bank of claim 18, wherein said second capacitor structure comprises a parallel-plate capacitor in which said pair of capacitor electrodes are parallel to and spaced apart from each other.
  - 21. The switched capacitor bank of claim 18, wherein said second capacitor structure comprises an interdigitated capacitor in which said pair of capacitor electrodes lies in a common plane above said substrate and have a plurality of interdigitated fingers.
  - 22. The switched capacitor bank of claim 18,further comprising another pair of bottom and top electrodes respectively formed on said substrate and atop said cantilever arm thereby forming a third capacitor structure electrostatically attractable toward said bottom electrode upon selective application of a voltage to said top electrode, said first and third capacitor structures being positioned on opposite sides of said switch signal line.
  - 23. The switched capacitor bank of claim 22, wherein said cantilever arm comprises a) first and second pairs of anchors, which are formed on said substrate on opposite sides of said first and third capacitor structures, respectively, and approximately perpendicular to said cantilever arm, b) a suspended center beam that traverses the gap in said switch signal line approximately perpendicularly, supports both of said top electrodes and extends past them a selected distance, c) a pair of suspended cross beams that are affixed at their midpoints to opposite ends of said center beam approximately perpendicularly, and d) first and second pairs of anchor beams that are respectively affixed to the ends of the cross beams, extend towards the switch signal line approximately parallel to the center beam, and are affixed to the first and second pairs of anchors, respectively, said cantilever arm expanding in response to the electrostatic attraction of said first and third capacitor structures to relieve stress on itself.
  - 24. The switched capacitor bank of claim 23, wherein the length of said first and second pairs of anchor beams is approximately equal to the selected distance that said center beam extends past said first and third capacitor structures to reduce twisting when said cantilever arm expands.

25. A monolithically integrated switched capacitor bank, comprising:
- a substrate;
  
  a pair of output signal lines on said substrate that terminate at respective output terminals; and
  
  a plurality of series-connected micro electro mechanical system (MEMS) switch-capacitor pairs on said substrate that are connected in parallel between the pair of output signal lines, each said MEMS switch switching in response to a control signal to connect and disconnect its capacitor to set a total capacitance seen at said output terminals to one of a plurality of levels, each said MEMS switch-capacitor pair, comprises;
  
  a patterned first metal layer on said substrate that defines a first bottom electrode, and a switch signal line on the substrate, said switch signal line having a first end that is connected to one of said output signal lines, a second end, and a gap forming an open circuit;
  
  a patterned second metal layer that defines an electrical contact suspended above said substrate facing said gap in said switch signal line and to define a second bottom electrode that is anchored to and suspended above said substrate;
  
  a patterned oxide layer that defines a cantilever arm that is anchored to said substrate and suspended above said bottom electrode and said gap in said switch signal line to support said electrical contact and to define a dielectric spacer layer over said second bottom electrode; and
  
  a patterned third metal layer on said oxide layer that defines first and second top electrodes above the first and second bottom electrodes, respectively, said first top and bottom electrodes forming a first capacitor structure that is electrostatically attractable toward said bottom electrode upon selective application of a voltage to said top electrode, said second top and bottom electrodes forming a second capacitor structures whose parasitic capacitance to said substrate is low,said electrostatic attraction of said first capacitor structure toward said bottom electrode causing said electrical contact on said cantilever arm to close said gap in said switch signal line thereby connecting said second capacitor structure between said output terminals.
- View Dependent Claims (26, 27, 28)
- - 26. The switched capacitor bank of claim 25, wherein said substrate comprises a semi-insulating gallium arsenide substrate, said first, second and third metal layers comprise gold, and said oxide layer comprises silicon dioxide.
  - 27. The switched capacitor bank of claim 26, further comprising a platinum layer patterned on the underside of the second metal layer to form a hard surface on said electrical contact to reduce the damage caused by repeated contact to said switch signal line.
  - 28. The switched capacitor bank of claim 25, wherein the cantilever arm defined by the patterned oxide layer has a folded-cantilever beam structure that is anchored to the substrate at four different places so that said cantilever arm can expand in response to the electrostatic attraction of said first and third capacitor structures to relieve stress on itself.

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Current Assignee
Skyworks Solutions Incorporated
Original Assignee
Rockwell Science Center LLC
Inventors
Tham, J.L. Julian, Mehrotra, Deepak, Pehlke, David R., Yao, Jun J., Bartlett, James L., Marcy, 5th, Henry O., Seabury, Charles W., Pedrotti, Kenneth D., Chang, Mau Chung F.
Primary Examiner(s)
Elms, Richard T.
Assistant Examiner(s)
HUYNH, KIM NGOC

Application Number

US08/848,116
Time in Patent Office

680 Days
Field of Search

361/233, 361/234, 257/418, 257/419, 257/773, 257/784, 307/109, 334/55, 333/262, 200/181
US Class Current

361/233
CPC Class Codes

H01G 5/16   using variation of distance...

H01H 2001/0084   with perpendicular movement...

H01H 59/0009   making use of micromechanics

H03B 2201/0208   the means being an element ...

H03B 2201/0216   the means being an element ...

H03B 2201/025   the means being an electron...

H03J 2200/10   Tuning of a resonator by me...

Monolithically integrated switched capacitor bank using micro electro mechanical system (MEMS) technology

First Claim

8 Assignments

0 Petitions

Accused Products

Abstract

310 Citations

28 Claims

Specification

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Monolithically integrated switched capacitor bank using micro electro mechanical system (MEMS) technology

First Claim

8 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

310 Citations

28 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others