SICK Inductive Threaded Barrel Proximity Sensor, M14, 3 mm Detection, PNP NC, 10 → 30 V dc
- N° de stock RS:
- 266-8596
- Référence fabricant:
- IMP14-03BPOVC0S
- Fabricant:
- SICK
Sous-total (1 unité)*
209,98 €
(TVA exclue)
254,08 €
(TVA incluse)
Frais de livraison offerts pour toute commande de plus de 75,00 €
Temporairement en rupture de stock
- Expédition à partir du 20 janvier 2026
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Unité | Prix par unité |
|---|---|
| 1 + | 209,98 € |
*Prix donné à titre indicatif
- N° de stock RS:
- 266-8596
- Référence fabricant:
- IMP14-03BPOVC0S
- Fabricant:
- SICK
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Détails du produit
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Sélectionner tout | Attribut | Valeur |
|---|---|---|
| Marque | SICK | |
| Thread Size | M14 | |
| Sensor Technology | Inductive | |
| Detection Range | 3 mm | |
| Body Style | Threaded Barrel | |
| Output Function | NC | |
| Digital Switching Output Type | PNP | |
| Connection Type | M12 | |
| Supply Voltage | 10 → 30 V dc | |
| Length | 65mm | |
| IP Rating | IP68 | |
| Mounting Type | Flush | |
| Width | 14mm | |
| Housing Material | Stainless Steel | |
| Maximum DC Voltage | 30V | |
| Minimum Operating Temperature | -25°C | |
| Reverse Polarity Protection | Yes | |
| Standards Met | CE, EAC | |
| Maximum Operating Temperature | +80°C | |
| Switching Current | 200 mA | |
| Series | IMP | |
| Switching Frequency | 500 Hz | |
| Maximum Switching Frequency | 500Hz | |
| Shielding | Shielded | |
| Short Circuit Overload Protection | Yes | |
| Sélectionner tout | ||
|---|---|---|
Marque SICK | ||
Thread Size M14 | ||
Sensor Technology Inductive | ||
Detection Range 3 mm | ||
Body Style Threaded Barrel | ||
Output Function NC | ||
Digital Switching Output Type PNP | ||
Connection Type M12 | ||
Supply Voltage 10 → 30 V dc | ||
Length 65mm | ||
IP Rating IP68 | ||
Mounting Type Flush | ||
Width 14mm | ||
Housing Material Stainless Steel | ||
Maximum DC Voltage 30V | ||
Minimum Operating Temperature -25°C | ||
Reverse Polarity Protection Yes | ||
Standards Met CE, EAC | ||
Maximum Operating Temperature +80°C | ||
Switching Current 200 mA | ||
Series IMP | ||
Switching Frequency 500 Hz | ||
Maximum Switching Frequency 500Hz | ||
Shielding Shielded | ||
Short Circuit Overload Protection Yes | ||
Overview
The inductive, high-pressure-resistant IMP sensors are perfectly suited for the query of end positions in hydraulic cylinders. The use of state-of-the-art ASIC and manufacturing technologies from SICK sets new standards in installation size, service life and load capability for the sensors. Due to the stable stainless steel housing and an active high-performance ceramic surface, they are pressure-resistant up to 500 bar.
Above-average system throughput is a matter of course for the range of models M5, M8, M12 andM14 thanks to 1 million tested pressure cycles.
At a glance
Types: M5, M8, M12 and M14
Extended sensing ranges: 1 mm to 3 mm
Electrical configuration: DC 3- and 4-wire
Enclosure rating: IP 68
Temperature range: –25 °C to +100 °C
Stainless steel housing with active surface made from stable high-performance ceramic
Pressure resistant up to 500 bar, gas-tight front
Expected service life of up to 1 million pressure cycles
Extended sensing ranges: 1 mm to 3 mm
Electrical configuration: DC 3- and 4-wire
Enclosure rating: IP 68
Temperature range: –25 °C to +100 °C
Stainless steel housing with active surface made from stable high-performance ceramic
Pressure resistant up to 500 bar, gas-tight front
Expected service life of up to 1 million pressure cycles
Your Benefit
Reduced maintenance costs
Extremely resilient and durable
Up to 50 times longer service life compared to conventional sensors under pressure cycles
Simple compensation of cylinder tolerances
Simple integration due to small design
Controlled piston deceleration
Increased piston service life due to collision prevention at the end of the work cycle
Extremely resilient and durable
Up to 50 times longer service life compared to conventional sensors under pressure cycles
Simple compensation of cylinder tolerances
Simple integration due to small design
Controlled piston deceleration
Increased piston service life due to collision prevention at the end of the work cycle
Applications
End position detection of a piston stroke in hydraulic cylinders