SICK Inductive Threaded Barrel Proximity Sensor, M12, 8 mm Detection, PNP NO/NC, 10 → 30 V dc
- RS-artikelnummer:
- 266-9787
- Tillv. art.nr:
- IMC12-08NPPVC0SB00
- Tillverkare / varumärke:
- SICK
Antal (1 enhet)*
950,74 kr
(exkl. moms)
1 188,42 kr
(inkl. moms)
GRATIS leverans för online beställningar över 500,00 kr
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- Leverans från den 26 januari 2026
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Enheter | Per enhet |
|---|---|
| 1 + | 950,74 kr |
*vägledande pris
- RS-artikelnummer:
- 266-9787
- Tillv. art.nr:
- IMC12-08NPPVC0SB00
- Tillverkare / varumärke:
- SICK
Specifikationer
Datablad
Lagstiftning och ursprungsland
Produktdetaljer
Hitta liknande produkter genom att välja ett eller flera attribut.
Välj alla | Attribut | Värde |
|---|---|---|
| Brand | SICK | |
| Thread Size | M12 | |
| Sensor Technology | Inductive | |
| Body Style | Threaded Barrel | |
| Detection Range | 8 mm | |
| Digital Switching Output Type | PNP | |
| Output Function | NO/NC | |
| Connection Type | M12 | |
| Supply Voltage | 10 → 30 V dc | |
| Length | 65mm | |
| IP Rating | IP68 | |
| Mounting Type | Non-Flush | |
| Width | 12mm | |
| Housing Material | Stainless Steel | |
| Maximum DC Voltage | 30V | |
| Minimum Operating Temperature | -40°C | |
| Switching Current | 200 mA | |
| Maximum Switching Frequency | 1kHz | |
| Shielding | Unshielded | |
| Series | IMC | |
| Standards Met | CE, EAC | |
| Reverse Polarity Protection | Yes | |
| Maximum Operating Temperature | +75°C | |
| Switching Frequency | 1 kHz | |
| Short Circuit Overload Protection | Yes | |
| Välj alla | ||
|---|---|---|
Brand SICK | ||
Thread Size M12 | ||
Sensor Technology Inductive | ||
Body Style Threaded Barrel | ||
Detection Range 8 mm | ||
Digital Switching Output Type PNP | ||
Output Function NO/NC | ||
Connection Type M12 | ||
Supply Voltage 10 → 30 V dc | ||
Length 65mm | ||
IP Rating IP68 | ||
Mounting Type Non-Flush | ||
Width 12mm | ||
Housing Material Stainless Steel | ||
Maximum DC Voltage 30V | ||
Minimum Operating Temperature -40°C | ||
Switching Current 200 mA | ||
Maximum Switching Frequency 1kHz | ||
Shielding Unshielded | ||
Series IMC | ||
Standards Met CE, EAC | ||
Reverse Polarity Protection Yes | ||
Maximum Operating Temperature +75°C | ||
Switching Frequency 1 kHz | ||
Short Circuit Overload Protection Yes | ||
- COO (Country of Origin):
- HU
Overview
The inductive, intelligent, and, thanks to IO-Link 1.1, communication-enabled IMC proximity sensors offer a whole host of new options to make handling applications easier and more reliable in every industry. Up to four individual switching points or windows including the hysteresis can be set. Equipped with two freely programmable switching end stages, an IMC can therefore replace several conventional devices. Adjustable switch-on and switch-off delays help to reliably suppress unwanted switching pulses in harsh environments.
The additional on-board functions, such as logic modules, temperature measurement, counters, or time measurement enable complex tasks to be completed with ease directly in the sensor.
At a glance
Types: M8 to M30
IQ10 and IQ12
Four programmable switching points or windows at an Sn of up to 20 mm
Freely programmable output function
Enclosure rating: IP 68, IP 69K
Temperature range: –40 °C to +75 °C
Rugged stainless-steel or VISTAL housing
Logic, counter, time measurement, or temperature monitoring function
IO-Link 1.1
Four programmable switching points or windows at an Sn of up to 20 mm
Freely programmable output function
Enclosure rating: IP 68, IP 69K
Temperature range: –40 °C to +75 °C
Rugged stainless-steel or VISTAL housing
Logic, counter, time measurement, or temperature monitoring function
IO-Link 1.1
Your Benefit
Advanced diagnostic options ensure stable processes
Programmable switching thresholds and windows make predictive maintenance easier and reduce machine downtimes
Switching point teaching enables precise object positioning without the need for time-consuming adjustment
Reduced costs as fewer sensors or sensor variants are required
Stable signals thanks to integrated debounce function
Reduced project planning and cabling work as complex tasks are easy to implement directly in the process
Future-proof thanks to IO-Link 1.1 communication
Programmable switching thresholds and windows make predictive maintenance easier and reduce machine downtimes
Switching point teaching enables precise object positioning without the need for time-consuming adjustment
Reduced costs as fewer sensors or sensor variants are required
Stable signals thanks to integrated debounce function
Reduced project planning and cabling work as complex tasks are easy to implement directly in the process
Future-proof thanks to IO-Link 1.1 communication
Applications
Open and closed position on valves and grippers with just one sensor
Component wear monitoring
Distinguishing between materials in the machine tools industry
Distinguishing between objects in the handling industry
Monitoring of industrial brakes
Precise stopping in the handling industry
Quality control in mechanical production
Component wear monitoring
Distinguishing between materials in the machine tools industry
Distinguishing between objects in the handling industry
Monitoring of industrial brakes
Precise stopping in the handling industry
Quality control in mechanical production
Note
relaterade länkar
- SICK Inductive Threaded Barrel Proximity Sensor 8 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 4 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 4 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 15 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 8 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 20 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 5 mm Detection 10 → 30 V dc
- SICK Inductive Threaded Barrel Proximity Sensor 12 mm Detection 10 → 30 V dc