Peripheral vascular array
First Claim
Patent Images
1. A coil interface in an imaging system, comprising, in combination:
- N image signal inputs connected to N corresponding surface coils;
a coil select signal connected to an NMR scanner, the coil select signal indicative of a selected coil group comprising at least one coil;
a plurality of coil switches connected to a plurality of said N image signal inputs;
circuitry for selecting a group of said N image signal inputs by enabling a selected group of said plurality of switches in response to the selected coil group indicated by the coil select signal; and
M image signal outputs, at least one of said image signal outputs being connected to a selected group of N image signal inputs when said selected group of said plurality of switches is enabled, said image signal outputs being operable to receive said image signals when N is greater than M.
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Abstract
An interface that couples a surface coil array having N receiving elements to an NMR scanner having M preamplifier inputs. The interface includes an RF switch array and a transmit/receive bias circuit. The RF switch array and the transmit/receive bias circuit are controlled by a control logic circuit. In response to a predetermined input, the control logic circuit causes a predetermined subset of the N receiving elements to be couple to the preamplifier inputs of the NMR scanner. Preferably, N may be larger than M.
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Citations
30 Claims
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1. A coil interface in an imaging system, comprising, in combination:
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N image signal inputs connected to N corresponding surface coils;
a coil select signal connected to an NMR scanner, the coil select signal indicative of a selected coil group comprising at least one coil;
a plurality of coil switches connected to a plurality of said N image signal inputs;
circuitry for selecting a group of said N image signal inputs by enabling a selected group of said plurality of switches in response to the selected coil group indicated by the coil select signal; and
M image signal outputs, at least one of said image signal outputs being connected to a selected group of N image signal inputs when said selected group of said plurality of switches is enabled, said image signal outputs being operable to receive said image signals when N is greater than M. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
a plurality of preamplifier switches, each of said preamplifier switches having at least one signal input connected via selected coil switches to said N image signal inputs and signal outputs connected to corresponding preamplifiers.
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4. The coil interface of claim 1 wherein said plurality of coil switches includes an RF switch comprising:
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at least one RF switch input each coupled to a corresponding one of said N image signal inputs; and
at least one PIN diode corresponding to said at least one RF switch input, said at least one PIN diode coupled at the anode to the corresponding one of said at least one RF switch input and coupled at the cathode to an RF switch output, said PIN diodes operative to output the image signal from said one of said N image signal inputs in a forward bias state and operative to block said RF signal in a reverse bias state.
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5. The coil interface of claim 4 further comprising at least one control input coupled to a corresponding one of said at least one PIN diode to set said PIN diode in the forward bias state when said control input receives an enable signal and in the reverse bias state when said control input receives a disable signal.
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6. The coil interface of claim 1 wherein said plurality of coil switches includes an RF switch comprising:
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an RF switch input coupled to a corresponding one of said N image signal inputs; and
a plurality of PIN diodes coupled at the cathode of each PIN diode to a corresponding plurality of RF switch outputs and coupled at the anode to the RF switch input, said PIN diodes operative to output the image signal from said one of said N image signal inputs in a forward bias state and operative to block said RF signal in a reverse bias state.
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7. The coil interface of claim 6 further comprising a plurality of control inputs coupled to set a corresponding PIN diode in the forward bias state when said control input receives an enable signal and in the reverse bias state when said control input receives a disable signal.
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8. The coil interface of claim 1 wherein said plurality of coil switches includes an RF switch comprising:
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a plurality of RF switch inputs each coupled to a corresponding one of said N image signal inputs; and
a plurality of PIN diodes coupled at the cathode of each PIN diode to a corresponding plurality of RF switch outputs and coupled at the anode to a corresponding one of the plurality of RF switch inputs, said PIN diodes operative to output the image signal from said one of said N image signal inputs in a forward bias state and operative to block said RF signal in a reverse bias state.
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9. The coil interface of claim 8 further comprising a plurality of control inputs coupled to set a corresponding PIN diode in the forward bias state when said control input receives an enable signal and in the reverse bias state when said control input receives a disable signal.
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10. The coil interface of claim 1 further comprising at least one RF combiner for combining the image signal from one of said N image signal inputs with the image signal from another one of said N image signal inputs.
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11. The coil interface of claim 1 further comprising a mode select switch operable to select a unilateral left, a unilateral right and a bilateral mode coil configuration.
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12. The coil interface of claim 1 wherein M>
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13. An imaging system comprising:
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a surface coil array comprising N surface coils;
a first number, N, of RF inputs, the RF inputs being arranged to receive signals from the surface coil array;
an NMR scanner operable to generate a coil select signal indicative of a selected coil group comprising at least one coil and to receive signals from the selected coil group;
an RF switch circuit coupled to the RF inputs, said RF switch circuit having a second number, M, of RF outputs, wherein the RF switch circuit comprises a first plurality of RF switches coupled to the RF inputs, a second plurality of RF combiners coupled to receive outputs from a subset of the first plurality of RF switches, and a third plurality of RF switches coupled to receive outputs from the second plurality of RF combiners; and
a control logic circuit coupled to the RF switch circuit, wherein the control logic circuit receives the coil select signal from the NMR scanner and controls a state of the first plurality of RF switches and the third plurality of RF switches in response to the coil select signal. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A method for coupling image signals from a selected group of N image signal inputs to M image signal outputs, the method comprising the steps of:
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receiving a user accessible and user-configurable group selector input from a NMR scanner;
selecting a group of N image signal inputs by enabling a selected group of switches connected to the N image signal inputs in response to the group selector input;
coupling the selected group of image signal inputs to the M image signal outputs; and
receiving an image signal from the selected group of image signal inputs on at least one of the image signal outputs. - View Dependent Claims (25, 26, 27, 28, 29, 30)
selecting a group of preamplifiers to receive image signals from the selected group of N image signal inputs; and
coupling the selected group of preamplifiers to at least one of the M image signal outputs.
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26. The method of claim 24, wherein the switches include RF switches, each comprising at least one RF switch input, a PIN diode and at least one RF switch output.
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27. The method of claim 26, wherein the step of enabling the switches includes the step of enabling a selected group of PIN diodes corresponding to the switches.
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28. The method of claim 27, wherein the step of enabling the selected group of PIN diodes comprises the step of imposing a threshold voltage on each selected PIN diode to conduct image signals through the selected group of switches.
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29. The method of claim 28, further comprising the step of disabling an unselected group of switches by imposing a second voltage on unselected PIN diodes, the second voltage being less than the threshold voltage.
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30. The method of claim 24, further comprising the step of combining at least one of the image signal inputs with at least another one of the image signal inputs by selecting at least one of the switches.
Specification