MF-IA 阻抗分析仪
MF-IA是针对MFLI锁相放大器的升级选件。它提供完整的数字阻抗分析仪及精密LCR仪功能,在DC至500kHz/5MHz频率范围内树立了新的业内标杆。安装MF-IA选件后,阻抗测试的基本精度可达0.05%,测量范围为1 mΩ 至 1 TΩ,并且具有极高的测量重复性以及低的温漂。
MF-IA Key Features
DC to 500 kHz / 5 MHz, 1 mΩ to 1 TΩ,
0.05% basic accuracy at a rate of 20 ms per data point
LabOne Sweeper for frequency, bias voltage, and test signal amplitude response measurements
Compensation Advisor and Confidence Indicator for accurate measurements
25 s start-up time and high repeatability
LabOne APIs for C, MATLAB®, LabVIEW®, Python
MF-IA Applications
Life Sciences: Tissue impedance analysis, Single cell impedance spectroscopy (multi-frequency)
Electrochemistry: Batteries, Fuel cells, Corrosion
Electrical Engineering: Semiconductor wafer structures, Solar Cells, LED and LCD testing
Material Research: Quantum transport, Ceramics / Composites, Nanostructure characterization
Others: Scanning Capacitance Microscopy, Food reserach, MEMS sensors
MF-IA Upgrade and Compatibility
All MFLI instruments with a serial high than DEV3200 can be upgraded in the field. Customers with earlier versions are kindly requested to get in touch with our customer support.
The MF-IA option is compatible with all other MF options.
MF-IA Detailed description
The MFIA product page provides a detailed description of the MF-IA upgrade option including
-hardware features,
-LabOne toolset for impedance measurements,
-and the impedance related specification.
Feature overview
The following table gives a quick overview of the main features affected by the MF-MD option and the MF-IA option.
Features
MFLI
MFIA,
MFLI + MF-IAMFLI + MF-MD
MFIA + MF-MD
Simultaneous demodulation of
current input and voltage input-
✓
✓
✓
Number of oscillators
1
1
4
4
Number of demodulators
1
2
4
4
Number of impedance units
0
1
0
2
Number of external references
1
1
2
2
The listed features are independent of the frequency range and other options installed on the instrument.
描述 [描述] MF-IA是针对MFLI锁相放大器的升级选件。它提供完整的数字阻抗分析仪及精密LCR仪功能,在DC至500kHz/5MHz频率范围内树立了新的业内标杆。安装MF-IA选件后,阻抗测试的基本精度可达0.05%,测量范围为1 mΩ 至 1 TΩ,并且具有极高的测量重复性以及低的温漂。