 Figure 4. Structure of switch using Hall IC |
 |
| The configuration examples below show the relation between the magnet and the Hall IC (in case of EW-750B) for types A and B. The calculations are performed using the following two types of general-purpose magnets (Neodymium magnet: 5 mm x 5 mm x t1 mm Br = 1300 mT, ferrite magnet: 25 mm x 15 mm x t10 mm; Br = 300 mT). The NS polarization of the magnet is in the direction of its thickness (vertical to the Hall IC package). (* The size variation of the general-purpose magnet is large.) |
| The magnetic characteristics of EW-750B is shown in Table 3. |
| Table 3. Magnetic influence of EW-750B (Ta = 25°C, Vcc = 12 V) |
Item |
Symbol |
Min |
Typ |
Max |
Unit |
Operating Point |
Bop |
3 |
6 |
9 |
mT |
Release Point |
Brp |
2.5 |
5 |
9.5 |
mT |
Hysteresis |
Bh |
0.5 |
1.1 |
2.5 |
mT |
|
| The calculations below are based on initial alignment of the magnet center with the Hall IC sensor center. |
 Type A
Figure 5 shows the relationship between distance d from the magnet surface and the magnetic flux B of two types of squarer magnets.
Figure 5. Relationship between distance d from the magnet surface and the magnetic flux B of two types of square magnets
|
According to these results,the configuration of the two types of magnets and the Hall IC (EW-750B) is shown below in Table 4. |
 Table 4. Configuration example of magnet and Hall IC by using EW-750B
|
|
Magnet type and size |
Distance from Hall IC package surface to magnet surface when Hall IC is L |
Distance from Hall IC package surface to magnet surface when Hall IC is H |
Neodymium magnet
5 mm x 5 mm x t1 mm |
6.7 mm or less (at 25°C) |
11.9 mm or more (at 25°C) |
Ferrite magnet
25 mm x 15 mm x t10 mm |
18.6 mm or less (at 25°C) |
35.3 mm or more (at 25°C) |
|
