Technical Document
Specifications
Body Style
Barrel
Reverse Polarity Protection
Yes
Short Circuit Overload Protection
Yes
For Use With HMI
X2
Thread Size
M18 x 1
Minimum Operating Temperature
-40°C
Maximum dc Voltage
36V
IP Rating
IP68
Model Number p
186110
Maximum Operating Temperature
+85°C
Outer Diameter
8.00mm
Mounting Type
Flush
Switching Current
200 mA
Detection Range
5 mm
Output Type
PNP
Length
65mm
Terminal Type
4-Pin M12 Connector
Supply Voltage
5 → 36 V dc
Brand
Pepperl + FuchsProduct details
ARM Cortex-M0 Microcontrollers, NXP
The NXP family of ARM Cortex-M0 based, low-cost 32-bit MCUs are designed for 8/16-bit microcontroller applications. They offer high performance, low power, simple instruction set and memory addressing together with reduced code size compared to existing 8/16-bit architectures.
32-bit performance in a 16-bit footprint resulting in more power efficiency and longer battery life
Small size enables the processor and analogue circuits to be implemented on single die
Ultra-low power consumption and integrated sleep modes resulting in longer battery life
Thumb® instruction set for maximum code density
ARM Cortex Microcontrollers, NXP
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SR 447.08
Each (ex VAT)
SR 514.14
Each (inc VAT)
1
SR 447.08
Each (ex VAT)
SR 514.14
Each (inc VAT)
1
Technical Document
Specifications
Body Style
Barrel
Reverse Polarity Protection
Yes
Short Circuit Overload Protection
Yes
For Use With HMI
X2
Thread Size
M18 x 1
Minimum Operating Temperature
-40°C
Maximum dc Voltage
36V
IP Rating
IP68
Model Number p
186110
Maximum Operating Temperature
+85°C
Outer Diameter
8.00mm
Mounting Type
Flush
Switching Current
200 mA
Detection Range
5 mm
Output Type
PNP
Length
65mm
Terminal Type
4-Pin M12 Connector
Supply Voltage
5 → 36 V dc
Brand
Pepperl + FuchsProduct details
ARM Cortex-M0 Microcontrollers, NXP
The NXP family of ARM Cortex-M0 based, low-cost 32-bit MCUs are designed for 8/16-bit microcontroller applications. They offer high performance, low power, simple instruction set and memory addressing together with reduced code size compared to existing 8/16-bit architectures.
32-bit performance in a 16-bit footprint resulting in more power efficiency and longer battery life
Small size enables the processor and analogue circuits to be implemented on single die
Ultra-low power consumption and integrated sleep modes resulting in longer battery life
Thumb® instruction set for maximum code density