A.R.M. Microsystems DCR-TRV320 Driver
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A.R.M. Microsystems DCR-TRV320 Driver
Similarly, instead of one cable 76, 84, 98, respectively, between major components 64, 66, 74, 94 of the system 50, a plurality of cables electrically run A.R.M. Microsystems DCR-TRV320 parallel may be used. The power control 74 includes power head control electronics A.R.M. Microsystems DCR-TRV320 that receives feedback and any operator commands input at the power head The power head control electronics A.R.M. Microsystems DCR-TRV320 further provides operation status data to a touch-screen console 94 in the control room 60 for display to an operator.
The power supply 64 facilitates communication between the console and power control 74 by including a data link that couples A.R.M. Microsystems DCR-TRV320 first cable 76 to a console cable The console cable advantageously includes data conductors for conducting data signals and power conductors for powering the console Alternatively or in addition to power conductorsthe power supply 64 may include an interconnection between the AC power received from the AC outlet 70 to an AC outlet externally mounted for a A.R.M.
Microsystems DCR-TRV320 electrical plug of a conventional monitor The data link may further include an original equipment manufacturer OEM data port for later upgrades to the system In use, an operator of a remotely powered MR injector system 50 installs a console 94 and power supply 64 in a control room 60 of an MRI suite 52 by plugging the power supply 64 into an AC outlet A console cable is connected between the console 94 and the power supply A power control 74 and a power head 66 are positioned within the magnet room Specifically, the power head 66 is placed proximate to the MRI unit 68 and connected via power head cable 98 to the power control The power control 74 is spaced away from the MR unit Ideally, any ferromagnetic components of the power control 74 are not only shielded, but also oriented such that the entire power control 74 may be oriented with respect to the magnetic field from the MRI unit to minimize magnetic field interruption.
A.R.M. Microsystems DCR-TRV320 Communication between the portions of the system in rooms 54, 60 is facilitated by cables 76, 84 between the power supply 64 and power control In addition, cables 76, 84 include power conductors 80, 90 to remotely power the power head 66 via power control By virtue of the foregoing, an improved MR injector system 50 is operable within the demanding EMIC constraints of the MRI suite 52 A.R.M. Microsystems DCR-TRV320 the inconvenience and additional costs of using battery power inside the magnet room While the present invention has been illustrated by a description of various embodiments and while these embodiments have been described in considerable detail, it is not the intention of the applicants to restrict or in any way limit the scope of the appended claims A.R.M.
Microsystems DCR-TRV320 such detail. Additional advantages and modifications will readily appear to those skilled in the art. The invention in its broader aspects is therefore not limited to the specific details, representative apparatus and method, and illustrative example shown and described.
Accordingly, departures may be made from such details without departing from the spirit or scope of applicant's general inventive concept. Claims 18 1.
A method of operation for an MR injector system that comprises a power supply, a cable, a battery compartment, A.R.M. Microsystems DCR-TRV320 radiofrequency filter, and a power head, the method comprising: The method of claim 1wherein the battery compartment is devoid of a battery during the conveying of power from the power supply toward the battery compartment. The method of claim 1wherein the battery compartment is devoid of a battery during the conveying of power from the battery compartment to the power head.
The method offurther comprising a power control that comprises the battery compartment. The method ofwherein the filtering A.R.M. Microsystems DCR-TRV320 prior to the power being conveyed through the penetration panel.
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The method of claim 1wherein the filtering comprises attenuating RF noise within a rejection frequency band selected to correspond to RF frequencies used by an MRI unit. The method of claim 1further comprising: The method offurther comprising: An MR injector system comprising: The injector system of claim 9wherein the A.R.M.
Microsystems DCR-TRV320 frequency filter grounds conductive shields of the power connection. A.R.M. Microsystems DCR-TRV320 injector system of claim 9wherein the battery compartment is devoid of a battery.
The injector system of claim 9further comprising: The injector system of claim 9wherein the cable comprises conductive shields. The injector system of claim 9A.R.M. Microsystems DCR-TRV320 the power connection comprises a second cable configured to convey power from the battery compartment to the power head.