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  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Inductances
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Electromagnets
  • Electricity/Electronics > Electromagnetic components > Équipements magnétiques (translation in progress) > Permanent magnets
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Inductances
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Electromagnets
  • Electricity/Electronics > Electromagnetic components > Équipements magnétiques (translation in progress) > Permanent magnets
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Inductances
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Electromagnets
  • Electricity/Electronics > Electromagnetic components > Équipements magnétiques (translation in progress) > Permanent magnets
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Inductances
  • Electricity/Electronics > Electromagnetic components > Équipements électromagnétiques (translation in progress) > Electromagnets
  • Electricity/Electronics > Electromagnetic components > Équipements magnétiques (translation in progress) > Permanent magnets

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Appareils électromagnétiques (translation in progress)
Filtres magnétiques (translation in progress)
Electromagnetic components
Équipements magnétiques (translation in progress)
Équipements électromagnétiques (translation in progress)


Electromagnetic components :

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MOVING MAGNET CLOSED LOOP - 6200H

MOVING MAGNET CLOSED LOOP - 6200H

Galvanometer Based Optical Scanner: 6200H Moving Magnet Closed Loop Galvanometer Specifications Cambridge Technology brings you the smallest galvanometer available on the market today. Designed for applications where size is of the greatest importance the 6200H compact footprint allows the 6200H to be easily incorporated into any system without compromising space. Our 6200H can be designed and optimized for speed, size, cost and accuracy with typical beam diameters of 3mm or smaller. Designed for applications where size is of the greatest importance the 6200H compact footprint allows the 6200H to be easily incorporated into any system without compromising space. Our 6200H can be designed and optimized for speed, size, cost and accuracy with typical beam diameters of 3mm, 4mm, 5mm, 6mm, and 7mm. Mechanical Specifications Rated Angular Excursion: 40° Rotor Inertia: 0.013 gm cm2, +/-10% Torque Constant: 1.20x104 dyne cm/amp, +/-10% Maximum Rotor Temperature: 110°C Thermal Resistance (Rotor to Case): 3.8°C/Watt, Max Electrical Specifications/Drive Mechanism Coil Resistance: 2.14 Ohms, +/-10% Coil Inductance: 52 µH, +/-10% Back EMF Voltage: 20.9 µV/degree/sec, +/-10% RMS Current: 2.3 Amperes at Tcase of 50°C, Max Peak Current: 6 Amperes, Max Small Angle Step Response Time: 130 µs with 3mm Y mirror, settled to 99% Position Detector Linearity: 99.9%, Minimum, over 20 degrees, 99.5%, Typical, over 40 degrees Scale Drift: 50 PPM/°C, Maximum Zero Drift: 15 µrad/°C, Maximum Repeatability, Short Term: 8 microradians Output Signal, Common Mode: 155 µA with AGC current of 30mA, +/-20% Output Signal, Differential Mode: 12 µA/°, at common mode current of 155 µA, +/-20% >>>
View the product on cambridgetechnology.com Cambridge Technology
MOVING MAGNET CLOSED LOOP - 6210H

MOVING MAGNET CLOSED LOOP - 6210H

Model 6210H Moving Magnet Closed Loop Galvanometer Based Optical Scanner Supports apertures of 3mm, 4mm, 5mm, 6mm, and 7mm. Shown here with A connecter and 3mm Y mirror. Galvanometer Specifications All Position Detector specifications apply with Cambridge Technology servo driver after a 30 second warm-up. All angles are in mechanical degrees. Consult manual for complete operating instructions. Mechanical Rated Angular Excursion: 40° Rotor Inertia: 0.018 gm cm2 , +/-10% Torque Constant: 2.79x104 dyne cm/amp, +/-10% Maximum Rotor Temperature: 110° C Thermal Resistance (Coil to Case): 2° C/Watt, Max Electrical/Drive Mechanism Coil Resistance: 3.72 Ohms, +/-10% Coil Inductance: 109 µH, +/-10% Back EMF Voltage: 48.7 µV/degree/sec, +/-10% RMS Current: 2.4 Amperes at Tcase of 50° C, Max Peak Current: 8 Amperes, Max Small Angle Step Response Time: 100 µs, with 3mm, Y mirror, settled to 99% Position Detector Linearity: 99.9 %, Minimum, over 20 degrees, 99.5% Typical, over 40 degrees Scale Drift: 50 PPM/° C, Maximum Zero Drift: 15 µrad/° C, Maximum Repeatability, Short Term: 8 microradians Output Signal, Common Mode: 155 µA with AGC current of 30mA, +/-20% Output Signal, Differential Mode: 12 µA/°, at common mode current of 155 µA, +/-20% >>>
View the product on cambridgetechnology.com Cambridge Technology
MAGNETIC ASSEMBLY

MAGNETIC ASSEMBLY

Datoyo also have ability to produce and design magnetic assemblies and magnetic systems, like Magnetic filter bar / magnetic cartridge (It is designed to get rid off iron matter on liquor then be used in various domains such as chemical industry, foodstuff industry, medicament, feedstuff industry and so on), magnetic separator, Pot Magnet, Petrol Saver and other magnetic appliance ------ Lifting Magnet and Magnetic Chuck. >>>
View the product on datoyo.com DATOYO
MOVING MAGNET CLOSED LOOP - 6215H

MOVING MAGNET CLOSED LOOP - 6215H

Model 6215H Moving Magnet Closed Loop Galvanometer Based Optical Scanner Supports apertures of 3mm, 4mm, and 6mm. Shown here with B connecter and 6mm Y mirror. Galvanometer Specifications All Position Detector specifications apply with Cambridge Technology servo driver after a 30 second warm-up. All angles are in mechanical degrees. Consult manual for complete operating instructions. Mechanical Rated Angular Excursion: 40° Rotor Inertia: 0.028 gm cm2 , +/-10% Torque Constant: 3.78x104 dyne cm/amp, +/-10% Maximum Rotor Temperature: 110° C Thermal Resistance (Coil to Case): 1° C/Watt, Max Electrical/Drive Mechanism Coil Resistance: 2.53 Ohms, +/-10% Coil Inductance: 94 µH, +/-10% Back EMF Voltage: 66.0 µV/degree/sec, +/-10% RMS Current: 4.1 Amperes at Tcase of 50° C, Max Peak Current: 20 Amperes, Max Small Angle Step Response Time: 130 µs, with 3mm, Y mirror, settled to 99% Position Detector Linearity: 99.9 %, Minimum, over 20 degrees, 99.5% Typical, over 40 degrees Scale Drift: 50 PPM/° C, Maximum Zero Drift: 15 µrad/° C, Maximum Repeatability, Short Term: 8 microradians Out Signal, Common Mode: 155 µA with AGC current of 30mA, +/-20% Output Signal, Differential Mode: 12 µA/°, at common mode current of 155 µA, +/-20% >>>
View the product on cambridgetechnology.com Cambridge Technology
MOVING MAGNET CLOSED LOOP - 6220H

MOVING MAGNET CLOSED LOOP - 6220H

Model 6220H Moving Magnet Closed Loop Galvanometer Based Optical Scanner The 6220H galvanometer can be designed and optimized for speed, size, cost and accuracy with typical beam diameters of 5mm, 8mm, 9mm, and 10mm. Shown here with B connector and 8mm mirror. Galvanometer Specifications All Position Detector specifications apply with Cambridge Technology servo driver after a 30 second warm-up. All angles are in mechanical degrees. Consult manual for complete operating instructions. Mechanical Specifications Rated Angular Excursion: 40° Rotor Inertia: 0.125 gm cm2, +/-10% Torque Constant: 6.17x104 dyne cm/amp, +/-10% Maximum Coil Temperature: 110°C Thermal Resistance (Coil to Case): 1°C/Watt, Max Electrical Specifications/Drive Mechanism Coil Resistance: 2.79 Ohms, +/-10% Coil Inductance: 180 µH, +/-10% Back EMF Voltage: 108 µV/degree/sec, +/-10% RMS Current: 3.9 Amperes at Tcase of 50°C, Max Peak Current: 20 Amperes, Max Small Angle Step Response Time: 200 µs, with 5mm Y mirror, settled to 99% Position Detector Linearity: 99.9 %, Minimum, over 20 degrees. 99.5% Typical, over 40 degrees Scale Drift: 50 PPM/°C, Maximum Zero Drift: 15 µrad/°C, Maximum Repeatability, Short Term: 8 microradians Output Signal, Common Mode: 155 µA with AGC current of 30mA, +/-20% Output Signal, Differential Mode: 11.7 µA/°, at common mode current of 155 µA, +/-20% >>>
View the product on cambridgetechnology.com Cambridge Technology
MOVING MAGNET OPTICAL POSITION DETECTOR SCANNER - 6800HP

MOVING MAGNET OPTICAL POSITION DETECTOR SCANNER - 6800HP

Model 6800HP Moving Magnet Optical Position Detector Scanner Supports 3 mm apertures Galvanometer Specifications All Position Detector specifications apply with Cambridge Technology servo driver after a 30 second warm-up All angles are in mechanical degrees. Consult manual for complete operating instructions. Mechanical Rated Angular Excursion: 40° Rotor Inertia: 0.018 gm*cm2, +/-10% Torque Constant: 2.5X104 dyne-cm/amp, +/-10% Maximum Coil Temperature: 110°C Thermal Resistance (Coil to Case): 4.0°C/Watt, Max Electrical/Drive Mechanism Coil Resistance: 4.2 Ohms, +/-10% Coil Inductance: 96uH, +/-10% Back EMF Voltage: 0.04mV/degree/sec, +/-10% RMS Current: 1.6 Amperes at Tcase of 50°C, Max Peak Current: 6 Amperes, Max Small Angle Step Response Time: 0.3ms, with balanced load Position Detector Linearity: 98%, Minimum, over 30 degrees Scale Drift: 0.05 %/°C, Maximum Zero Drift: 0.01 degrees/°C, Maximum Repeatability, Short Term: 20 microradians Output Signal, Common Mode: 50 microamperes with AGC current of 20mA, +/-20% Output Signal, Differential Mode: 3.2 uA/degree, at common mode current of 50 uA, +/-20% >>>
View the product on cambridgetechnology.com Cambridge Technology


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