Name: magneTherm Digital
Brand: Nano Therics
SKU: RP7QCN2H
Availability: InStock

magneTherm Digital

RP7QCN2H

Brand: Nano Therics

Category: Nanoparticle heating

Industry: Life Science and Biotechnology, Academia, Pharma, Bio-pharma & Vaccine, Clinical Research & Diagnostics, Material Science & Chemistry, Cement, Iron & Steel

The NanoTherics MagneTherm™ Digital is the next-generation magnetic hyperthermia system, delivering fully automated control over field strength, frequency, pulse width, and temperature for precise nanoparticle heating studies. Operating across 10 standard frequencies (40–700 kHz) and field strengths up to 50 mT (500 Gauss / 40 kA/m), it enables accurate SAR, frequency response, and thermal profiling for magnetic fluids, nanoparticles, and biological samples. Integrated with closed-loop temperature control, real-time data acquisition, and fiber-optic thermal sensing, MagneTherm™ Digital provides end-to-end, software-driven hyperthermia research in one compact platform.

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The MagneTherm™ Digital represents the latest evolution in NanoTherics’ magnetic hyperthermia technology, offering a completely integrated and software-controlled system for advanced nanoparticle heating and biomedical hyperthermia research.

Unlike conventional systems requiring manual adjustments or hardware swaps, the MagneTherm™ Digital allows instant configuration of frequency, field amplitude, and pulse modulation directly through its dedicated software—no coil or capacitor changes required. With 10 selectable frequencies between 40 kHz and 700 kHz, researchers can efficiently establish frequency-dependent SAR profiles and thermal response curves for materials of varying size, composition, and anisotropy.

The system supports field strengths up to 50 mT (40 kA/m) and features real-time monitoring and feedback-controlled temperature stabilization, ensuring precise, reproducible results. Its dual-channel fiber-optic temperature system offers ±0.2 °C precision and supports simultaneous multi-point measurements in calorimetric, in vitro, or in vivo formats.

A suite of modular accessories extends MagneTherm™ Digital’s versatility—enabling in vivo testing (water-jacketed modules), cell exposure experiments (with CO₂ and temperature regulation), drug release monitoring, and infrared thermal imaging. Combined with excellent thermal insulation and intelligent pulse frequency modulation, it delivers stable and artifact-free operation, ideal for quantitative hyperthermia studies and biomedical material testing.

With its desktop-compatible AMF Power Module, user-friendly software, and robust safety compliance (EMC, LVD standards), the MagneTherm™ Digital sets a new benchmark in precision nanoparticle heating and frequency-tunable hyperthermia research.

10 Standard Frequencies (40–700 kHz) – Wide-range tunability without hardware changes
High Field Strengths – Up to 50 mT (500 Gauss / 40 kA/m) alternating magnetic field
Full Software Automation – Digital control of frequency, pulse width, and field amplitude
Closed-Loop Temperature Regulation – Integrated dual-channel fiber-optic sensing
Real-Time Data Visualization – Live graphing, field calculation, and power modulation
Pulse Frequency Modulation – Enhanced control for time-varying field exposure
Integrated Calorimetric Capability – For precise SAR and thermal efficiency studies
Optional Biological Modules – In vivo water jacket, live-cell CO₂ control, and drug release testing
Compact Modular Design – Single-phase power input and small laboratory footprint
Compliant with EMC & LVD Standards – Safe and reliable operation

Smart. Precise. Digital.
The NanoTherics MagneTherm™ Digital redefines magnetic nanoparticle hyperthermia testing through full digital automation, broad frequency control, and integrated fiber-optic temperature monitoring. With field strengths up to 50 mT, 10 configurable frequencies, and real-time data visualization, it delivers accurate SAR and thermal profiles across calorimetric, in vitro, and in vivo experiments—empowering next-generation nanomedicine and hyperthermia research.

Parameter	Specification / Capability
Frequency Range	10 fixed frequencies (40–700 kHz)
Field Strength	Up to 50 mT (40 kA/m, 500 Gauss)
Power Output	Up to 3500 W (max current 15 A)
Temperature Control	Integrated closed-loop feedback system
Temperature Range (Operation)	5–40 °C (max power: 5–30 °C)
Fiber-Optic Temperature Probes	2 channels, ±0.2 °C precision, range –10 to 150 °C
Sample Formats	Calorimetric, in vitro, in vivo
Dimensions (System)	800 × 900 × 470 mm
Weight	30 kg
Power Requirements	85–264 V AC, single phase
Software Interface	Full digital control (Windows 7–10 compatible)
Cooling Requirement	2000 W capacity, 5 L/min typical flow
Compliance	EMC 2004/108/EC, LVD 2006/95/EC (UNE-EN standards)

Magnetic Nanoparticle Hyperthermia – Heating efficiency and SAR measurement
Frequency-Response Studies – Characterization across 40–700 kHz range
Biomedical and In Vivo Research – Controlled heating in tissue-mimicking environments
Cellular and Drug Release Experiments – CO₂ and temperature-regulated exposure
Magnetic Fluid Evaluation – Field-dependent thermal performance analysis
Thermal Imaging Correlation – IR-based surface temperature mapping

magneTherm Digital