VSM
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Product Description
A vibrating sample magnetometer(VSM) is an instrument that is used to measure magnetic properties. It is also called a Foner magnetometer or M-H Curve Hysteresis Graph Test System.
VSM is composed of a master device, an electromagnet, a vibrator, a computer. The electromagnet source, the vibrator source, the magnetic moment measuring unit and the magnetic field measuring unit which all controlled by MPU (AT89C52) constitute the instrument. The instrument communicates to the computer with the standard RS-232-C serial interface, then enhanced systematicness of the instrument and operability of the hardware. Operating functions of the special complement software is powerful and software is used conveniently.
Learn More About Our Products
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Axial-Direction Permanent Magnet
The Axial-Direction Permanent Magnet is composed of the array of Neodymium-Iron- Boron Magnets which have a special shape. The magnet features a Through Hole in the Central Axis of the magnetic field, the high Magnetic Field Strength, and Small Size. It is suitable for Optical Experiments and the Probe Calibration along the Axis Direction.
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Flux meter
The third-generation smart high precision flux meter is controlled by a microprocessor. It uses electronic integral principle, automatic digital suppression adjustment drift system. Display the measured magnetic flux and magnetic field intensity with a color display.It can measure the total magnetic flux and get the values of magnetic flux density and magnetic field strength. The flux meter is a valuable component in magnetizing machines, manual and automatic magnet detection and classification, and hysteresis loop measurement systems.
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Standard Permanent Magnet
A standard Magnet is a kind of permanent magnet which is specially designed for Hall Element Calibration,capable of generating a stable and uniform magnetic field between two magnetic pole.<br/> The Standard Magnets are manufactured with high-performance rare earth materials to ensure long-term maintenance of its excellent magnetic properties, and which is widely used in a variety of fields requiring accurate magnetic field calibration, such as laboratories, metrology institutes and industrial testing equipment
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SB Series Electromagnet
The SB electromagnet is a double-yoke(H-Frame) , variable air gap magnetic field generation equipment with each pole being adjustable. From the excitation of the excitating power source, the field vector forms a closed loop, and a high uniform magnetic field can be generated between two poles, and the field direction is along the axial direction of pole caps. All SB electromagnets are equipped with a pair of standard replaceable pole caps made of purity iron, which can be replaced to suit to individual experiment requirements. The pure-iron structure is suitable for coils heat dissipation, and the option of cooling water system is also available for extend the operating time.
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The dynamic magnetic field active geomagnetic shielding system
The dynamic magnetic field shielding effect can reach a higher level (better than 5 nT). By using AC current to generate a magnetic field, it has higher DC and AC magnetic field shielding efficiency, more accurate trajectory tracking function, larger range, and higher response speed. The ability to generate magnetic fields with three components X, Y, and Z within the range of (0-100000 nT) magnetic fields can be precise up to 5 nT, making products and experiments in scientific research, military industry, and medical care extremely meaningful and widely used.
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Clamp Type Electromagnet
Clamp Electromagnet, of which the shape is like a vice, has two magnetic poles protruding outside the coils. It is usually used to generate an in-plane magnetic field. It is suitable for special operation environments such as microscopy, probe station, the limited space, magneto-optical experiment, and magnetic mineral powder screening. The Clamp Electromagnet is basically custom-made, and can be designed and produced according to user's application conditions and magnetic field requirements.
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Variable-Magnetic-Field Permanent Magnet
Variable-Magnetic-Field Permanent Magnet is an innovative magnetic device that changes the magnetic field strength by adjusting the air gap, and which is widely used in various experiments and industrial applications that require variable magnetic fields. By combining precision mechanical design with high-performance rare earth materials, adjustable permanent magnets can flexibly adjust their magnetic field strength without the need for excitation current, providing multiple magnetic field environments to meet different application needs.
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Square Helmholtz Coil
The Square Helmholtz coil features a large homogeneity volume and a wide magnetic field working gap. The square coil is generally used for testing the large-sized sample, and the side length of the coil can reach 1 meter or even several meters, and it can be designed as the single-axis, two-axis or three-axis coil. The square coil is applied for Standard Magnetic Field Generation, Offset and Compensation of the Earth's Magnetic Field, Geomagnetic Environment Simulation, Judgment of Magnetic Shielding Effect, Electromagnetic Interference Simulation Experiments, Calibration of Hall Sensors and Magnetometers, Biological Magnetic Field Studies and Material Magnetic Characterization studies. Our Square Helmholtz Coil can be customer-designed and customer-made according to the user’s individual parameter requirements.
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WDS Series Electromagnet
The WDS electromagnet is a C-Frame, variable air gap magnetic field generation equipment with each pole being adjustable. From the excitation of the excitating power source, the field vector forms a closed loop, and a high uniform magnetic field can be generated between two poles, and the field direction is along the axial direction of pole caps. All WD electromagnets are equipped with a pair of standard replaceable pole caps made of purity iron, which can be replaced to suit to individual experiment requirements. The pure-iron structure is suitable for coils heat dissipation, and the option of cooling water system is also available for extend the operating time.
VSM Product Accessories
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Power Line
WD type electromagnetic power cord
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Probe Holder
WD type electromagnetic probe holder
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Pure Iron Tip
WD type electromagnet pure iron pole head
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High precision electric control turntable
WD type high-precision electromagnetic control turntable
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Manual Turntable
WD type manual turntable
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Closed Loop Control System
WD type closed-loop control system
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
The field air gap is adjustable in both directions, with a single yoke structure and a horizontal magnetic field direction; Standing upright and having a wide operating space, it is convenient for taking and placing samples and combining with other equipment, making it one of the most common electromagnetic magnets in magnetic research. Used for Hall effect research and magnetoresistance effect research.
