Multi-path devices with mutual inductance compensation networks and methods thereof
First Claim
1. An apparatus comprising:
- a first output lead;
a second output lead;
a multi-path device, the multi-path device having a first amplifier with a first output, and a second amplifier with a second output;
a first set of multiple parallel bonding wires coupling the first output of the first amplifier with the first output lead;
a second set of multiple parallel bonding wires coupling the second output of the second amplifier with the second output lead, wherein the second set of bonding wires has a first mutual inductance with the first set of bonding wires;
a first compensation network coupled in series with the first set of multiple parallel bonding wires between the first output and the first output lead; and
a second compensation network coupled in series with the second set of multiple parallel bonding wires between the second output and the second output lead, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance.
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Accused Products
Abstract
The embodiments described herein provide compensation for mutual inductance in a multi-path device. In one embodiment, a device includes a multi-path integrated device. The multi-path integrated device includes a first output and a second output. The first output is configured to be coupled to a first output lead through a first bonding wire, and the second output is configured to be coupled to a second output lead through a second bonding wire. Due to their proximity, the second bonding wire has a first mutual inductance with the first bonding wire. A first compensation network is coupled to the first output, and a second compensation network is coupled to the second output. The second compensation network is configured to have a second mutual inductance with the first compensation network. The second mutual inductance at least partially cancels the effects of the first mutual inductance.
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Citations
20 Claims
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1. An apparatus comprising:
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a first output lead; a second output lead; a multi-path device, the multi-path device having a first amplifier with a first output, and a second amplifier with a second output; a first set of multiple parallel bonding wires coupling the first output of the first amplifier with the first output lead; a second set of multiple parallel bonding wires coupling the second output of the second amplifier with the second output lead, wherein the second set of bonding wires has a first mutual inductance with the first set of bonding wires; a first compensation network coupled in series with the first set of multiple parallel bonding wires between the first output and the first output lead; and a second compensation network coupled in series with the second set of multiple parallel bonding wires between the second output and the second output lead, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance. - View Dependent Claims (2, 3)
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4. An apparatus comprising:
a multi-path integrated device, the multi-path integrated device having a first output and a second output, where the first output is configured to be coupled to a first output lead through a first bonding wire and where the second output is configured to be coupled to a second output lead through a second bonding wire, and where the second bonding wire has a first mutual inductance with the first bonding wire; and a first compensation network coupled to the first output and a second compensation network coupled to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance, wherein the first compensation network and the second compensation network comprise bonding wires having a relative coiling direction opposite the first bonding wire and the second bonding wire.
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5. An apparatus comprising:
a multi-path integrated device, the multi-path integrated device having a first output and a second output, where the first output is configured to be coupled to a first output lead through a first bonding wire and where the second output is configured to be coupled to a second output lead through a second bonding wire, and where the second bonding wire has a first mutual inductance with the first bonding wire; and a first compensation network coupled to the first output and a second compensation network coupled to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance, wherein the first compensation network and the second compensation network comprise interleaved integrated passive inductors.
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6. An apparatus comprising:
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a multi-path integrated device, the multi-path integrated device having a first output and a second output, where the first output is configured to be coupled to a first output lead through a first bonding wire and where the second output is configured to be coupled to a second output lead through a second bonding wire, and where the second bonding wire has a first mutual inductance with the first bonding wire; and a first compensation network coupled to the first output and a second compensation network coupled to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance, wherein the first compensation network is coupled between the multi-path integrated device and the first bonding wire and wherein the second compensation network is coupled between the multi-path integrated device and the second bonding wire. - View Dependent Claims (7, 8)
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9. An apparatus comprising:
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a multi-path integrated device, the multi-path integrated device having a first output and a second output, where the first output is configured to be coupled to a first output lead through a first bonding wire and where the second output is configured to be coupled to a second output lead through a second bonding wire, and where the second bonding wire has a first mutual inductance with the first bonding wire; and a first compensation network coupled to the first output and a second compensation network coupled to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance, wherein the multi-path integrated device comprises a first amplifier and a second amplifier, the first amplifier coupled to the first output and the second amplifier coupled to the second output. - View Dependent Claims (10)
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11. An apparatus comprising:
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a multi-path integrated device, the multi-path integrated device having a first output and a second output, where the first output is configured to be coupled to a first output lead through a first bonding wire and where the second output is configured to be coupled to a second output lead through a second bonding wire, and where the second bonding wire has a first mutual inductance with the first bonding wire; and a first compensation network coupled to the first output and a second compensation network coupled to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance, wherein the multi-path integrated device additionally comprises a first input and a second input, where the first input is configured to be coupled to a first input lead through a third bonding wire and where the second input is configured to be coupled to a second input lead through a fourth bonding wire, and where the third bonding wire has a third mutual inductance with the fourth bonding wire, and wherein the apparatus further comprises; a third compensation network coupled to the first input and a fourth compensation network coupled to the second input, the fourth compensation network configured to have a fourth mutual inductance with the third compensation network, the fourth mutual inductance configured to at least partially cancel effects of the third mutual inductance.
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12. A packaged integrated circuit device comprising:
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one or more semiconductor die including a multi-path amplifier, the multi-path amplifier including a first output and a second output; a package encasing the semiconductor die, the package including a first output lead and a second output lead, the first output lead coupled to the first output through a first bonding wire and the second output lead coupled to the second output through a second bonding wire, where the second bonding wire has a first mutual inductance with the first bonding wire; and a first compensation network coupled to the first output and a second compensation network coupled to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance. - View Dependent Claims (13, 14, 15, 16)
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17. A method comprising:
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providing a semiconductor die including a multi-path device, the multi-path device including a first output and a second output; coupling a first output lead to the first output through a first bonding wire; coupling a second output lead to the second output through a second bonding wire, where the second bonding wire has a first mutual inductance with the first bonding wire; coupling a first compensation network to the first output; and coupling a second compensation network to the second output, the second compensation network configured to have a second mutual inductance with the first compensation network, the second mutual inductance configured to at least partially cancel effects of the first mutual inductance. - View Dependent Claims (18, 19, 20)
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Specification