Product | SKU № | Power supply | Voltage | Housing | Output | Switching output | Housing material |
Price
|
---|---|---|---|---|---|---|---|---|
IA12U1E1LB |
182605
|
AC
|
24-250V
|
M12x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA12U1E1CLB |
182610
|
AC
|
24-250V
|
M12x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA12U11LB |
182603
|
AC
|
24-250V
|
M12x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA18U11LB |
182703
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA12U2E1LB |
182608
|
AC
|
24-250V
|
M12x1
|
two wire non polar
|
NC
|
chrome plated brass
|
|
IA12U21LB |
182606
|
AC
|
24-250V
|
M12x1
|
two wire non polar
|
NC
|
chrome plated brass
|
|
IA12U1E1LB |
320213
|
AC
|
24-250V
|
M12x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA18U1E1LB |
182705
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA18U1E1LB |
182704
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA18U1E1CLB |
182743
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NO
|
chrome plated brass
|
|
IA18U12LB |
182714
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NO
|
plastic
|
|
IA20U12LB |
182741
|
AC
|
24-250V
|
M20x1
|
two wire non polar
|
NO
|
plastic
|
|
IA18U2E1LB |
182708
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NC
|
chrome plated brass
|
|
IA18U22LG |
182730
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NC
|
plastic
|
|
IA18U22LB |
182711
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NC
|
plastic
|
|
IA18U21LB |
182706
|
AC
|
24-250V
|
M18x1
|
two wire non polar
|
NC
|
chrome plated brass
|
This type of sensor is absolutely mandatory in most industrial processes. Inductive sensors are probably the most popular type of non-contact sensors as they are characterized by a high switching frequency. In industry, inductive sensors are the preferred way to register metal objects in a variety of environments. They are not affected by dust, moisture or lighting and the technology allows them to read all types of metals.
When metal object enters the area of the sensitive element of an inductive sensor - metal, magnetic or ferromagnetic material of a certain size, the amplitude of the oscillations of the generator changes. The supply voltage applied to the inductive sensor creates an alternating magnetic field, which is disturbed by the metal object entering it. They register different metals from different distances. Ferromagnetic metals such as iron and steel have a stronger effect on the inductive sensor, while non-magnetic materials such as copper and aluminum can reduce the operating distance significantly. This also determines different mountings and mounting distance of the sensor depending on the site. We manufacture sensors in standard cylindrical or non-standard rectangular housings. They are manufactured for shielded and unshielded installation.
For alternating current (AC)
For direct current (DC)
Self-teaching function included
Namur
For RPM control