Tehniskie dokumenti
Specifikācija
Brand
EatonBody Style
Barrel
Thread Size
M12 x 1
Sensor Technology
Inductive
Output Type
Analogue
Detection Range
4 mm
Terminal Type
4-Pin M12 Connector
Series
Eaton Moeller
Supply Voltage
15 → 30 V dc
IP Rating
IP67
Length
77.5mm
Maximum dc Voltage
30V
Mounting Type
Flush
Switching Current
20 mA
Housing Material
Stainless Steel
Maximum Operating Temperature
+70°C
Shielding
Partial
Reverse Polarity Protection
Yes
Short Circuit Overload Protection
Yes
Minimum Operating Temperature
-40°C
Produkta apraksts
Eaton AccuProx E59 Series Proximity Sensors
The AccuProx E59 series of high performance inductive proximity sensors from Eaton provide an excellent sensing range, linearity and resolution in an affordable and compact tubular package. AccuProx analog sensors provide an electrical signal that varies in proportion to the position of the metal target within its sensing range.
Eaton Sensors
Noliktavas stāvoklis patreiz nav pieejams
Lūdzu pārbaudiet vēlreiz vēlāk
€ 222,00
Katrs (bez PVN)
€ 268,62
Katrs (Ieskaitot PVN)
1
€ 222,00
Katrs (bez PVN)
€ 268,62
Katrs (Ieskaitot PVN)
1
Pirkt iepakojumos
Daudzums | Vienības cena |
---|---|
1 - 2 | € 222,00 |
3+ | € 213,00 |
Tehniskie dokumenti
Specifikācija
Brand
EatonBody Style
Barrel
Thread Size
M12 x 1
Sensor Technology
Inductive
Output Type
Analogue
Detection Range
4 mm
Terminal Type
4-Pin M12 Connector
Series
Eaton Moeller
Supply Voltage
15 → 30 V dc
IP Rating
IP67
Length
77.5mm
Maximum dc Voltage
30V
Mounting Type
Flush
Switching Current
20 mA
Housing Material
Stainless Steel
Maximum Operating Temperature
+70°C
Shielding
Partial
Reverse Polarity Protection
Yes
Short Circuit Overload Protection
Yes
Minimum Operating Temperature
-40°C
Produkta apraksts
Eaton AccuProx E59 Series Proximity Sensors
The AccuProx E59 series of high performance inductive proximity sensors from Eaton provide an excellent sensing range, linearity and resolution in an affordable and compact tubular package. AccuProx analog sensors provide an electrical signal that varies in proportion to the position of the metal target within its sensing range.