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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YP Series DC Power Supply
The DC power supply is a bipolar constant current power supply with high stability, high accuracy, high linearity and low ripple noise;<br/> Relay-reversal direction controlled by the microprocessor with 5 options to delay time; <br/> Reversal current surge: Less than 1 mA; <br/> Three linear sweep modes including I, I-III, I-III-I quadrants; <br/> Provided with built-in RS-232 or USB port and the relative conversion port;<br/> A set of computer interface command (for RS-232 or USB port);<br/> Timing continuous trigger output during sweeping.
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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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Multi-Pole Electromagnet
Multi-Pole Electromagnet is a kind of closed loop electromagnet composed of multiple caps, which is basically the Four-Pole Electromagnet, and also has the other multi-pole applications such as Five-Pole, Six-Pole, and Eight-Pole. They are mainly applied for Multi-Pole Magnetic Ring Magnetization, Radial-Direction Gradient Magnetic Field, and Rotating Magnetic Field Magnetic Guidance and etc. and they can be designed and produced according to user's individual requirements.
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SBV Series Eectromagnet
The SBV electromagnet is a double-yoke(H-Frame) , variable air gap magnetic field generation equipment with one 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 SBV 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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Flux-gate magnetometer
Flux-gate magnetometer is a that accurately measures weak static and low-frequency vector magnetic fields,which has the characteristics of high stability, high linearity, high-precision and full digitization. Compared with magnetic field measurement instruments based on Hall effect principle or magnetoresistance effect principle, it is the best choice for measuring weak magnetic fields. It has digital and analog signal output, and a unique CAN bus network interface suitable for multi array magnetic field testing. It is widely used in scientific research, military industry, aerospace and other departments
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HALL EFFECT MEASUREMENT SYSTEM
HALL EFFECT MEASUREMENT SYSTEM is used to measure the important parameters of Semiconductor Materials such as Carrier Concentration, Mobility, Resistivity, and Hall Coefficient, and so on. These parameters must be grasped and controlled in advance in order to understand the electrical characteristics of semiconductor materials. Therefore, the Hall Effect Measurement System is an indispensable tool for understanding and studying the electrical characteristics of Semiconductor Devices and Semiconductor Materials. The experimental results are automatically calculated by the software, and the Bulk Carrier Concentration, Sheet Carrier Concentration, Mobility, Resistivity, Hall Coefficient, Magneto-Resistance, and other parameters can be obtained at the same time.
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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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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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Three-Axis Helmholtz Coil
The three-axis Helmholtz coil is composed of 3 pairs of Helmholtz coils arranged along three orthogonal axes, which can simultaneously generate uniform magnetic fields in the direction of x-, y-, or z-axis.Helmholtz coils can be customized by through adjusting the coil diameter, required magnetic field, working time, structural requirements, and dissipation requirements (air cooling or water cooling).
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.
