IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0803139
(2010-06-18)
|
등록번호 |
US-8669804
(2014-03-11)
|
발명자
/ 주소 |
- Ranta, Tero Tapio
- Bawell, Shawn
- Greene, Robert W.
- Brindle, Christopher N.
- Englekirk, Robert Mark
|
출원인 / 주소 |
- Peregrine Semiconductor Corporation
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
15 인용 특허 :
319 |
초록
▼
Devices and methods for improving voltage handling and/or bi-directionality of stacks of elements when connected between terminals are described. Such devices and method include use of symmetrical compensation capacitances, symmetrical series capacitors, or symmetrical sizing of the elements of the
Devices and methods for improving voltage handling and/or bi-directionality of stacks of elements when connected between terminals are described. Such devices and method include use of symmetrical compensation capacitances, symmetrical series capacitors, or symmetrical sizing of the elements of the stack.
대표청구항
▼
1. A unit cell for a sub-circuit of a digitally tunable capacitor (DTC), the sub-circuit being adapted to be coupled between a first RF terminal and a second RF terminal, the unit cell comprising: a plurality of 2N stacked switches, the stacked switches proceeding from a first switch closest to the
1. A unit cell for a sub-circuit of a digitally tunable capacitor (DTC), the sub-circuit being adapted to be coupled between a first RF terminal and a second RF terminal, the unit cell comprising: a plurality of 2N stacked switches, the stacked switches proceeding from a first switch closest to the first RF terminal and farthest from the second RF terminal to an 2N-th switch farthest from the first RF terminal and closest to the second RF terminal, wherein: N represents an integer greater than or equal to two;the first RF terminal is a terminal through which a voltage source is adapted to be coupled to the unit cell;the 2N stacked switches comprise a first set of N switches close to the first RF terminal and far from the second RF terminal and a second set of N switches far from the first RF terminal and close to the second RF terminal, each switch of the first set and second set being coupled in parallel with a compensating capacitor thus providing a compensated capacitance value for that switch when the switch is in an off state, andeach switch of the first set has a corresponding switch of the second set having the same compensated capacitance value, wherein the first switch and the 2N-th switch are equal in size and are the largest switches among the plurality of 2N switches. 2. The unit cell of claim 1, wherein the first set of N switches consist of switches from the first switch to an i-th switch and the second set of N switches consists of switches from an (2N−i+1)-th switch to the 2N-th switch, i=2, 3, 4 . . . , N, the 2N-th switch corresponding to the first switch, the 2N−1 switch corresponding to the second switch, and so wherein the i-th and the (2N−i+1)-th switches are equal in size, with switches decreasing in size as i increases, switch sizes being configured to reduce the effect of parasitic capacitances of the switch stack on the voltage across each switch when the plurality of 2N switches is off. 3. The unit cell of claim 2, wherein capacitance values of the compensating capacitors for the switches of the first set are monotonically descending from a largest capacitance value associated with the first switch to a lowest capacitance value associated with the i-th switch and wherein the capacitance values of the compensating capacitors for the switches of the second set are correspondingly monotonically ascending from a lowest capacitance value associated with the (2N−i+1)-th switch to a largest capacitance value associated with the 2N-th switch. 4. The unit cell of claim 3, wherein the capacitance values of the compensating capacitors for the switches of the first set are monotonically descending according to a geometric regression and the capacitance values of the compensating capacitors for the switches of the second set are correspondingly monotonically ascending according to a geometric progression. 5. The unit cell of claim 1, wherein the second RF terminal is ground. 6. The unit cell of claim 1, wherein the plurality of stacked switches is coupled in series with one or more metal-insulator-metal (MIM) capacitor or metal-metal (MM) capacitor. 7. The unit cell of claim 1, wherein the sub-circuit is a significant bit sub-circuit. 8. The unit cell of claim 1, wherein each switch of the first set has a corresponding switch of the second set having the same compensated capacitance value and the same compensating capacitor value. 9. An electrical circuit comprising one or more unit cells according to claim 1. 10. A circuit coupled between a first terminal and a second terminal, comprising: a plurality of 2N stacked switches, the stacked switches proceeding from a first switch closest the first terminal and farthest from the second terminal to an 2N-th switch farthest from the first terminal and closest to the second terminal, wherein: N represents an integer greater than or equal to two;the first terminal is a terminal through which a voltage source is adapted to be coupled to the circuit;the 2N stacked switches comprise a first set of N switches close to the first terminal and far from the second terminal and a second set of N switches far from the first terminal and close to the second terminal, each switch of the first set and second set being coupled in parallel with a compensating capacitor thus providing a compensated capacitance value for that switch when the switch is in an off state, andeach switch of the first set has a corresponding switch of the second set having the same compensated capacitance value, wherein the first switch and the 2N-th switch are equal in size and are the largest switches among the plurality of 2N switches. 11. The circuit of claim 10, wherein the first terminal and the second terminal are RF terminals. 12. A circuit coupled between a first terminal and a second terminal, comprising: a plurality of 2N stacked elements, the stacked elements proceeding from a first element closest the first terminal and farthest from the second terminal to an 2N-th element farthest from the first terminal and closest to the second terminal, wherein: N represents an integer greater than or equal to two;nodes between the elements exhibit parasitic capacitances,the first terminal is a terminal through which a voltage source is coupled to the circuit;the 2N stacked elements comprise a first set of N elements close to the first terminal and far from the second terminal and a second set N of elements far from the first terminal and close to the second terminal, each element of the first set and second set being coupled in parallel with a compensating capacitor, andeach element of the first set has a corresponding element of the second set having the same compensating capacitor value, wherein the first element and the 2N-th element are equal in size and are the largest elements among the plurality of 2N elements. 13. The circuit of claim 12, wherein the elements are selected between capacitors, resistors, transistors, diodes and inductors. 14. The circuit of claim 12, wherein the first terminal and the second terminal are RF terminals. 15. A circuit coupled between a first RF terminal and a second RF terminal, comprising: a plurality of 2N stacked elements, the stacked elements proceeding from a first element closest the first RF terminal and farthest from the second RF terminal to an 2N-th element farthest from the first RF terminal and closest to the second RF terminal, wherein: N represents an integer greater than or equal to two;nodes between the elements exhibit parasitic capacitances, andthe first RF terminal is a terminal through which a voltage source is coupled to the circuit,the circuit further comprising one or more compensation capacitors to compensate the parasitic capacitances, wherein combination between the stacked elements and the compensation capacitors provides a symmetrically compensated plurality of 2N stacked elements with reference to a central node between the elements, and wherein the first element and the 2N-th element are equal in size and are the largest elements among the plurality of 2N elements.
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