Sick Inductive Barrel-Style Proximity Sensor, M12 x 1, 4 mm Detection, PNP Output, 10 → 30 V dc, IP67
- RS Stock No.:
- 703-3729
- Mfr. Part No.:
- IME12-04BPSZCOS
- Manufacturer:
- Sick
11 In Global stock for delivery in 4-6 working days, delivery time may vary for certain locations or FTZ
325 In Global stock for delivery in 4-6 working days, delivery time may vary for certain locations or FTZ
Added
Price Each
Was MYR175.04
You pay
MYR165.08
Units | Per Unit |
1 + | MYR165.08 |
- RS Stock No.:
- 703-3729
- Mfr. Part No.:
- IME12-04BPSZCOS
- Manufacturer:
- Sick
Technical data sheets
Legislation and Compliance
- COO (Country of Origin):
- HU
Product Details
Cylindrical Threaded Housing Inductive Sensors
The IME08 series of inductive proximity sensors from SICK are ideal for use in many applications they can reduce machine downtime and have fewer maintenance costs due to longer service life.
Features and benefits
DC 3-wire
M8 nickel plated brass housing
High resistance to shock and vibrations
Reduced mechanical damage
Operating temperature from -25° C to +75 °C
M8 nickel plated brass housing
High resistance to shock and vibrations
Reduced mechanical damage
Operating temperature from -25° C to +75 °C
IME12-04BPSZCOS
SICK IME12-04BPSZCOS inductive proximity sensor features a sensing range upto 4 mm with a PNP-NO output. The sensors is encapsulated in nickel-plated brass with a M12 x 1 fully threaded body and a M12 4 Pin electrical connection.
Sick Inductive Sensors
Specifications
Attribute | Value |
---|---|
Body Style | Barrel |
Thread Size | M12 x 1 |
Sensor Technology | Inductive |
Output Type | PNP-NO |
Detection Range | 4 mm |
Terminal Type | M12 - 4 Pin |
IP Rating | IP67 |
Supply Voltage | 10 → 30 V dc |
Length | 65mm |
Width | 12mm |
Maximum DC Voltage | 30V |
Mounting Type | Flush Mount |
Switching Current | 200 mA |
Shielding | Shielded |
Housing Material | Nickel Plated Brass |
Maximum Switching Frequency | 2kHz |
Maximum Operating Temperature | +75°C |
Minimum Operating Temperature | -25°C |
Short Circuit Overload Protection | Yes |
Reverse Polarity Protection | Yes |