Switch
First Claim
Patent Images
1. A switch, comprising:
- an input terminal;
an output terminal;
a stack comprising transistors coupled in series, the stack being coupled between the input terminal and the output terminal;
at least one switching element configured to be selectively operated in a conducting state or a non-conducting state; and
at least one overvoltage protection element coupled to the stack by the at least one switching element,wherein each one of the at least one overvoltage protection element comprises;
a capacitor coupled in series with a respectively assigned switching element between a gate contact and one of a source contact and a drain contact of a respectively assigned transistor; and
a further capacitor coupled between the gate contact and the other one of the source contact and the drain contact of the respectively assigned transistor.
1 Assignment
0 Petitions
Accused Products
Abstract
A switch includes an input terminal, an output terminal, and a stack including transistors, such as, for example, field effect transistors, coupled in series, the stack being coupled between the input terminal and the output terminal. The switch also includes at least one switching element configured to be selectively operated in a conducting state or a non-conducting state, and at least one overvoltage protection element coupled to the stack by the at least one switching element. By way of example, the switch can implement a radio-frequency switch.
-
Citations
16 Claims
-
1. A switch, comprising:
-
an input terminal; an output terminal; a stack comprising transistors coupled in series, the stack being coupled between the input terminal and the output terminal; at least one switching element configured to be selectively operated in a conducting state or a non-conducting state; and at least one overvoltage protection element coupled to the stack by the at least one switching element, wherein each one of the at least one overvoltage protection element comprises; a capacitor coupled in series with a respectively assigned switching element between a gate contact and one of a source contact and a drain contact of a respectively assigned transistor; and a further capacitor coupled between the gate contact and the other one of the source contact and the drain contact of the respectively assigned transistor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
-
-
13. A system, comprising:
-
a switch comprising an input terminal, an output terminal, a stack comprising transistors coupled in series between the input terminal and the output terminal, at least one switching element configured to be selectively operated in a conducting state or a non-conducting state, and at least one overvoltage protection element coupled to the stack by the at least one switching element; an LC resonant circuit coupled to the input terminal of the switch; and a ground contact coupled to the output terminal of the switch.
-
-
14. A method, comprising:
-
providing a switch that comprises an input terminal, an output terminal, a stack comprising transistors coupled in series, the stack being coupled between the input terminal and the output terminal, at least one switching element configured to be selectively operated in a conducting state or a non-conducting state, and at least one overvoltage protection element coupled to the stack by the at least one switching element; and selectively activating, using the at least one switching element, the at least one overvoltage protection element depending on at least one of the following;
a value of a supply voltage;
an operating mode of the switch;
a user input received via a user interface; and
a radio-frequency signal provided at the input terminal.
-
-
15. A switch, comprising:
-
an input terminal; an output terminal; a stack comprising transistors coupled in series, the stack being coupled between the input terminal and the output terminal; a plurality of switching elements configured to be selectively operated in a conducting state or a non-conducting state; and a plurality of overvoltage protection elements, each overvoltage protection element of the plurality of overvoltage protection elements being coupled to a respectively assigned transistor of the stack by a corresponding switching element of the plurality of switching elements, wherein; each overvoltage protection element of the plurality of overvoltage protection elements comprises at least one capacitor and the capacitance values of corresponding capacitors of the overvoltage protection elements assigned to different transistors have a deviation with respect to one another of more than 50%; and
/orthe capacitance value of the capacitor of a first overvoltage protection element of the plurality of overvoltage protection elements is greater than the capacitance value of the corresponding capacitor of a second overvoltage protection element of the plurality of overvoltage protection elements, and the first overvoltage protection element is assigned to a transistor of the stack which is arranged nearer to the input terminal in the stack than the transistor of the stack to which the second overvoltage protection element is assigned; and
/orthe capacitance values of corresponding capacitors of the plurality of overvoltage protection elements are smaller the further away from the input terminal the respectively assigned transistors are arranged in the stack; and
/orthe capacitance values of corresponding capacitors for overvoltage protection elements of the plurality of overvoltage protection elements assigned to different transistors have a deviation with respect to one another of less than 2%.
-
-
16. A switch, comprising:
-
an input terminal; an output terminal; a stack comprising transistors coupled in series, the stack being coupled between the input terminal and the output terminal; at least one switching element configured to be selectively operated in a conducting state or a non-conducting state; and at least one overvoltage protection element coupled to the stack by the at least one switching element, wherein the at least one switching element is configured to be operated in the conducting state or in the non-conducting state depending on a radio-frequency signal at the input terminal.
-
Specification