The emergence of nanomaterials has triggered a new technological revolution. The world, especially the developed countries, are optimistic about this new material and have invested heavily in research and development. According to reports, during the Clinton administration, the United States invested 500 million U.S. dollars as a funding guarantee for the research and application of nanomaterials; the Chinese government and the Chinese Academy of Sciences also paid great attention to this new material and its application, and provided it in terms of people, finances, and materials. stand by.
Nanocrystalline giant magneto-impedance materials developed by Chinese scientists, and nano-magnetic switches and sensors made of this material, have been applied in the machinery industry and the automotive industry. This new type of magnetic switch and sensor has the following features:
1. High sensitivity, 10 to 100 times higher than Hall devices;
2. The linearity is good;
3. The use of a wide temperature range, can be -195 °C ~ 300 °C normal work;
4. The stability is good, its magnetic stability is <10-8.
Therefore, this kind of device can replace the original sensor in many fields and bring the automatic control system of the product to a new level.
Many sensors are used on modern offset presses to control the automatic lift of Feida paper stacks, air pump air supply time detection, pressurization time detection, air gap detection, and ink volume control. At present, several domestic printer manufacturers have begun to use nano-magnetic switches and sensors to replace the reed sensor and Hall sensor used in the past. The main technical performance of nano-magnetic proximity switches commonly used on offset presses is described as follows:
Product Name: Nano-magnetic proximity switch
Model:C-NAMI-CQ-CZK-ID
Operating voltage (DC): 18V to 30V
Quiescent Current (V = 24 V): 5.0 to 30.0 mA
Output waveform: voltage type pulse (low level <1.0V; high level> 1.0V)
Action distance: ≤5mm
Jump time: ≥100msec
Magnetic field temperature: 250mm (standard magnetic field NF8φ6×2mm)
Detection frequency response: Light-emitting diode (LED) follow-up.
Working environment: -20°C~+80°C
Instructions for use
Connection mode: "red" is connected to the positive output of the power supply
"Black" connected to the negative output of the power supply
"Green" is the pulse output
Installation method: Magnetic lines should pass through the center of the sensor, and the mounting base should use non-integrated magnetic materials such as copper, aluminum, and stainless steel.
Nanocrystalline giant magneto-impedance materials developed by Chinese scientists, and nano-magnetic switches and sensors made of this material, have been applied in the machinery industry and the automotive industry. This new type of magnetic switch and sensor has the following features:
1. High sensitivity, 10 to 100 times higher than Hall devices;
2. The linearity is good;
3. The use of a wide temperature range, can be -195 °C ~ 300 °C normal work;
4. The stability is good, its magnetic stability is <10-8.
Therefore, this kind of device can replace the original sensor in many fields and bring the automatic control system of the product to a new level.
Many sensors are used on modern offset presses to control the automatic lift of Feida paper stacks, air pump air supply time detection, pressurization time detection, air gap detection, and ink volume control. At present, several domestic printer manufacturers have begun to use nano-magnetic switches and sensors to replace the reed sensor and Hall sensor used in the past. The main technical performance of nano-magnetic proximity switches commonly used on offset presses is described as follows:
Product Name: Nano-magnetic proximity switch
Model:C-NAMI-CQ-CZK-ID
Operating voltage (DC): 18V to 30V
Quiescent Current (V = 24 V): 5.0 to 30.0 mA
Output waveform: voltage type pulse (low level <1.0V; high level> 1.0V)
Action distance: ≤5mm
Jump time: ≥100msec
Magnetic field temperature: 250mm (standard magnetic field NF8φ6×2mm)
Detection frequency response: Light-emitting diode (LED) follow-up.
Working environment: -20°C~+80°C
Instructions for use
Connection mode: "red" is connected to the positive output of the power supply
"Black" connected to the negative output of the power supply
"Green" is the pulse output
Installation method: Magnetic lines should pass through the center of the sensor, and the mounting base should use non-integrated magnetic materials such as copper, aluminum, and stainless steel.
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