MR imaging apparatus capable of automatically selecting multiple surface coils
First Claim
Patent Images
1. A magnetic resonance imaging apparatus comprising:
- a plurality of coil means having signal sensitive regions with respect to different portions of a biological body to be imaged for performing at least reception of NMR (nuclear magnetic resonance) signals induced from the different portions of the biological body;
memory means for previously storing sequence data for energizing said plurality of coil means; and
control means for reading out the stored sequence data so as to energize only a selected number of said plurality of coil means, said control means including a first controller for producing a reception timing signal preset to be synchronized with generation of the NMR signals, a second controller for reading the coil energizing sequence data from the memory means in response to the reception timing signal derived from the first controller and, energizing voltage producing means for producing an energizing voltage to be supplied to said selected number of said plurality of coil means in accordance with both said reception timing signal and said coil energizing sequence data.
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Abstract
In a magnetic resonance imaging apparatus, there are provided plural receiver coils over a portion of a biological body. Data on a coil energizing sequence is previously stored in a memory. An only limited number of receiving coils are sequentially energized based on the coil energizing sequence data.
39 Citations
9 Claims
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1. A magnetic resonance imaging apparatus comprising:
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a plurality of coil means having signal sensitive regions with respect to different portions of a biological body to be imaged for performing at least reception of NMR (nuclear magnetic resonance) signals induced from the different portions of the biological body; memory means for previously storing sequence data for energizing said plurality of coil means; and control means for reading out the stored sequence data so as to energize only a selected number of said plurality of coil means, said control means including a first controller for producing a reception timing signal preset to be synchronized with generation of the NMR signals, a second controller for reading the coil energizing sequence data from the memory means in response to the reception timing signal derived from the first controller and, energizing voltage producing means for producing an energizing voltage to be supplied to said selected number of said plurality of coil means in accordance with both said reception timing signal and said coil energizing sequence data. - View Dependent Claims (2, 3, 4, 5)
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6. A magnetic resonance imaging apparatus comprising:
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a plurality of coil means having signal sensitive regions with respect to different portions of a biological body to be imaged for performing at least reception of NMR (nuclear magnetic resonance) signals induced from the different portions of the biological body, wherein each one of said plurality of coil means includes a coil member capable of receiving the NMR signals induced from the portions of the biological body in conjunction with a tuning capacitor, and a PIN diode interposed between the coil member and tuning capacitor and becoming conductive when a biasing voltage is applied thereto, whereby the NMR signals are received by the coil member in conjunction with the tuning capacitor; memory means for previously storing sequence data for energizing said plurality of coil means; and control means for reading out the stored sequence data so as to energize only a selected number of said plurality of coil means, said control means including a first controller for producing a reception timing signal preset to be synchronized with generation of the NMR signals, a second controller for reading the coil energizing sequence data from the memory means in response to the reception timing signal derived from the first controller and, biasing voltage producing means for producing a biasing voltage to be supplied to said PIN diode employed in each of said plurality of coil means in accordance with both said reception timing signal and said coil energizing sequence data.
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7. A magnetic resonance imaging apparatus as claimed in 8, wherein said biasing voltage producing means includes a register and a plurality of OR gates coupled between said memory means and said PIN diodes.
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8. A magnetic resonance imaging apparatus comprising:
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a plurality of coil means having signal sensitive regions with respect to different portions of a biological body to be imaged for performing at least reception of NMR (nuclear magnetic resonance) signals induced from the different portions of the biological body; memory means for previously storing sequence data for energizing said plurality of coil means; and control means for reading out the stored sequence data so as to energize only a selected number of said plurality of coil means, said control means including a first controller for producing a gate signal in response to generation of a RF (radio frequency) pulse to the biological body, and also a reception timing signal preset to be synchronized with generation of the NMR signals, a second controller for reading the coil energizing sequence data from the memory means in response to the reception timing signal derived from the first controller; and
energizing voltage producing means for producing an energizing voltage to be supplied to said selected number of said plurality of said coil means based upon both said gate signal and said coil energizing sequence data.
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9. A magnetic resonance imaging apparatus comprising:
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a plurality of coil means having signal sensitive regions with respect to different portions of a biological body to be imaged for performing at least reception of NMR (nuclear magnetic resonance) signals induced from the different portions of the biological body, wherein each one of said plurality of coil means includes a coil member capable of receiving the NMR signals induced from the portion of the biological body in conjunction with a tuning capacitor, a PIN diode interposed between the coil member and tuning capacitor; and
a parallel resonance circuit connected parallel to the PIN diode and becoming non-conductive when a biasing voltage is applied thereto, whereby the reception of the NMR signals by the coil member is interrupted;memory means for previously storing sequence data for energizing said plurality of coil means; and control means for reading out the stored sequence data so as to energize only a selected number of said plurality of coil means, said control means including a first controller for producing a gate signal in response to generation of an RF (radio frequency) pulse to the biological body, and also a reception timing signal preset to be synchronized with generation of the NMR signals, a second controller for reading the coil energizing sequence data from the memory means in response to the reception timing signal derived from the first controller; and
biasing voltage producing means for producing a biasing voltage to be supplied to said PIN diode employed in each of the coil assemblies based upon both said gate signal and said coil energizing sequence data.
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Specification