Housing design = Cylindrical
Thread size = M8 x 1
Output type = PNP normally open
Sensing range = 1.5 mm
Connection type = M8 - 3-pole
Supply voltage = 10 → 30 V dc
Length = 41mm
DC voltage max = 30V
Mounting
Thread size = M8 x 1
Output type = PNP normally open
Sensing range = 1.5 mm
Connection type = M8 - 3-pole
Supply voltage = 10 → 30 V dc
Length = 41mm
DC voltage max = 30V
Mounting
type = Non flush
Protection class = IP67
Housing material = Polyoxymethylene, stainless steel
Short circuit and overload protection = Yes
IFM IZ5 cylinder proximity sensors with 4 mm diameter. Inductive sensors are nowadays indispensable in industrial applications. Unlike mechanical switches, they offer almost ideal conditions: non-contact operation without any wear, high switching frequencies and high accuracy. In addition, they are insensitive to vibrations, dust and moisture. Inductive sensors detect all metals without contact. Cable device =V2A; plug device=brass nickel-plated Switching distance 0.8mm (b), flush mountable Output function N/O contact Connection via cable or plug connection Connection diagram see DC PNP.
Protection class = IP67
Housing material = Polyoxymethylene, stainless steel
Short circuit and overload protection = Yes
IFM IZ5 cylinder proximity sensors with 4 mm diameter. Inductive sensors are nowadays indispensable in industrial applications. Unlike mechanical switches, they offer almost ideal conditions: non-contact operation without any wear, high switching frequencies and high accuracy. In addition, they are insensitive to vibrations, dust and moisture. Inductive sensors detect all metals without contact. Cable device =V2A; plug device=brass nickel-plated Switching distance 0.8mm (b), flush mountable Output function N/O contact Connection via cable or plug connection Connection diagram see DC PNP.
Item number | 10099901 |
Manufacturer | |
Category | |
Manufacturer no. | IZ5046 |
Release date | 11/13/2018 |
External links |
Width | 6 cm |
Height | 2 cm |
Weight | 20 g |
Specifications may include unverified machine translations.