Specifications:
| Type | O.D(mm) | T(mm) | Master (Number of pole pairs) |
Nonius (Number of pole pairs) |
Grade (Customizable) |
Coating (Customizable) |
| Multiturn Encoder Magnets | 44 | 1.5-1.7 | 45 | 45 | N35H | Galvanized |
| Singleturn Encoder Magnets | 39 | 1.5-1.7 | 32 | - | N35H | Galvanized |
| Singleturn Encoder Magnets | 31 | 1.5-1.7 | 31 | - | N35H | Galvanized |
| Multiturn Encoder Magnets | 30 | 1.5-1.7 | 32 | 32 | N35H | Galvanized |
| Multiturn Encoder Magnets | 30 | 1.5-1.7 | 24 | 24 | N35H | Galvanized |
Description:
Magnetic encoders typically utilize cylindrical permanent magnets. There are two types of magnetizing directions for permanent magnets: radial and axial (or plane) direction. As long as the conditions for the magnetic flux density required to function as an encoder are met, the magnetic material and dimensions can be freely chosen.
Usually, magnets based on samarium-cobalt (SmCo) with excellent temperature characteristics, neodymium (Ne-Fe-B) based magnets suitable for downsizing and lightweight applications, and ferrite-based magnets are selected according to the intended purpose.
Examples of Magnetization
Single-track ring magnets
Double-track ring magnets
Sensor Magnets
Examples of Magnetization Waves
Square Wave
Sine Wave
Application
Enterprise technology center and research institute
UAV
Industrial robot
jbartlett –
Great seller, very good quality product, fast communication and shipping as always. Will order again
9783376903 –
thank you!
jenniferocampoking –
Great!