Magnetic Active Compensation System (MACS/D) for MRI
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ETS-Lindgren's wideband digital Magnetic Active Compensation System (MACS/D) is a triaxial magnetic field compensator designed to significantly attenuate environmental magnetic fields affecting the image quality of supercon and magnetic resonance imaging (MRI) and spectroscopy (NMR/EPR) sites.

Key Features
  • Remote Access for all Monitor, Setup, Diagnostic and Parametric Adjustment Capabilities
  • High Performance, reliable Adjustable Ratio Compensation Architecture Applied to Environmental Shielding Designed Specifically for MRI Systems
  • Three-axis, High Power Compensation Corrects for Magnetic EMI in Extreme Environments
  • Effective Protection Against Fluctuations in Magnetic Fields Caused by Subways, Elevators, Moving Vehicles, Magnetic Navigation Systems and Electrical Distribution Equipment
  • Cancellation of Environmental AC/DC Magnetic Interference Over Wide Frequency Range
  • HTML Trace Page Permit Scrolling Display of any Subset or all of 35 Parameters
  • Data Logging Screen Provides Detailed Output of System Status and Status History when Required
  • Secure VPN-protected Remote Access; Critical Adjustments are Password Protected
  • Compatible with all Magnets, from 0.2T to 3T and Higher, Superconducting or Resistive
  • Utilizes a Hemholtz coil design

ETS-Lindgren's digital Magnetic Active Compensation System (MACS/D) provides cost-effective, maintenance-free high performance attenuation of dynamic environmental magnetic fields for magnetic resonance imaging (MRI) and spectroscopy (NMR/EPR) sites. The MACS/D system incorporates ACR technology (U.S. patent 9,692,391 B2), which provides higher compensation at the magnet's isocenter than other active compensation systems, with effective attenuation factors in the isocenter of up to 350 versus 40 or less attainable by competing systems. Custom high-power coil drivers provide constant attenuation over a wide dynamic range that can extend to 45 Tesla (450 mGauss) with standard coil sets in each of the three axes. Additionally, the MACS/D high efficiency, low dissipation coil driver amplifier insures long-term system reliability at sites with frequent high-level interfering field levels.

Signal processing within the MACS/D system is accomplished entirely in the digital domain by a 450 MHz DSP engine. For ACR magnet isocenter attenuation enhancement, the digital processing algorithm applied in real time to the compensating signal includes modeling of the magnet's external to isocenter transfer characteristic.

For operator convenience, the MACS/D controller front panel screen provides three-axis residual magnetic field scrolling displays, with text descriptions of instantaneous axial field values, the MACS/D system configuration, system state, time and date, and LAN IP. An embedded machine control computer provides full LAN-based capability for site setup and remote diagnostic viewing that includes real-time HTML-based monitoring displays of up to 35 parameters. Additionally, password protected access to MACS/D standard and advanced operational parameters, DSP coefficients and system configuration is included in the standard software package. VPN client support is available for secure remote data logging and diagnostics, and the VPN support ensemble also includes provision for downloading of software upgrades.

ETS-Lindgren MACS/D systems for MRI and magnetic resonance spectroscopy employ traditional negative feedback, but with wideband, high resolution state of the art signal processing entirely in the digital domain, permitting incorporation of complex ACR algorithms to enhance performance. Tri-axial compensation provides additional attenuation in all axes by minimizing field gradients through the magnet volume. Along with the flexibility of the DSP based technology, the MACS/D provides superior compensation for higher order effects attributable to residual environmental field gradients and the MRI magnet's frequency-dependent response to such fields.

MACS/D ACR technology, fast, high-resolution DSP based conversion and computing and universal architecture provides maximum software and firmware flexibility, enabling the MACS/D to be locally and remotely updated with software upgrades, maximizing long-term utility. From a reputation as industry leader with over 100 high performance MACS MRI installations worldwide, introduction of the MACS/D system advances ETS-Lindgren to a preeminent position of currently sourcing the world's premier active compensation system, specifically tailored for MRI sites.


View the Magnetic Active Compensation System (MACS/D) for MRI technical specifications below

Physical Specifications

Width: 53.34 cm (21 in)
Height: 22.9 cm (9 in)
Length: 43.18 cm (17 in)
Weight: 27.22 kg (60 lb)

Electrical Specifications

Input Voltage: 95 to 125V or 210 to 240 AC (50/60Hz), 15A Maximum
Maximum Compensating Field: 15 T (150 mG), Standard Cable Installation; >45 T (450 mG) Augmented Cable Installation
Magnetic Field Sensor: Bartington Mag-03 MC 1000 (1 mT/10 G) Probe, Tri-axial, Plug-compatible with and Powered by System MMA-configured Controller
Noise Floor: <0.4 nT (4.0 G) rms, Determined Primarily by Sensor Noise Contribution
Baseline Acquisition Range: 900 T (Maximum Permissible Environmental Static Field for System with Above Probe
Operational Range: Baseline 99.99 T
Front Panel Field Display Range: 99.99 T (Averaged, Weighted Peak Absolute Magnitude)
Attenuation, MRI Isocenter: B0 Axis: Factor of 100 (40 dB) Minimum, 200 (46 dB) Typical, 350 (51 dB) Typical with Optimized Magnet-specific ACR Coefficients.
Remote Monitoring:
  • Residual Main X, Y, Z Axial Fields, Absolute Magnitude, 99.99 T Maximum
  • Residual Main X, Y, Z Axial Fields, Raw Data, 99.99 T
  • Aux (Optional Probe) X, Y, Z Axial Fields, Absolute Magnitude, 99.99 T Maximum
  • Aux (Optional Probe) X, Y, Z Axial Fields, Raw Data, 99.99 T
  • PEM (Parameter Extraction Module) X, Y, Z Coil Currents, 7A Nominal
  • Drive (Signal to CDA/Coil Drive Amplifier) X, Y, Z, 10V f.s.
  • AMP CURRENT (CDA a.c. Mains Input Current), 10A rms, Maximum
  • ACR Signal Nodes through DSP Processing Chain (Development Aid)

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