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EATON E52 Series Inductive Proximity Sensors

Eaton E52 Series inductive proximity sensors are ideal for detecting a variety of metallic objects, including ferrous and non-ferrous metals such as copper, aluminium, brass and steel without any ...Read More

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EATON E52-18RU04-B1A
EATON E52-25QS10-B1B
EATON E52-18RU04-BC
EATON E52-16QS04-BD
EATON E52RAL12T111E
EATON E52-16QS04-CF
EATON E52-18RU04-CG
EATON E52-25QS10-CH
EATON E52-16QS04-C05I
EATON E52Q-DL15SAD01J
EATON E52Q-DL40UAD01K
EATON E52Q-DL30UAD01L
EATON E52Q-DL20UAD01M
EATON E52Q-DL15UAD01N
EATON E52Q-DL35UAD01O
EATON E52Q-DL25UAD01P
EATON E52Q-DL20SAD01Q
EATON E52Q-DL25UAE01R
StyleModelIp RatingCable LengthMax. Operating Temp.Min. Operating Temp.Contact RatingCable MaterialNumber Of PinsPrice
A
E52-18RU04-B1		IP662m130°F-13°F100 mAPVC-£231.48
B
E52-25QS10-B1		IP662m131°F14°F100 mA at 30V DCPVC--
RFQ
C
E52-18RU04-B		IP662m131°F14°F100 mA at 30V DCPVC--
RFQ
B
E52-18RU04-BN		IP662m131°F14°F100 mA at 30V DCPVC-£258.47
D
E52-16QS04-B		IP662m130°F-13°F100 mAPVC-£193.61
B
E52-25QS10-C1		IP662m131°F14°F100 mA at 30V DCPVC-£241.74
B
E52-18RU04-B1N		IP662m131°F14°F100 mA at 30V DCPVC-£247.54
E
E52RAL12T111		IP662m131°F14°F100 mA at 30V DCPVC-£392.76
F
E52-16QS04-C		IP662m130°F-13°F100 mAPVC-£192.14
B
E52-18RU04-C1		IP662m131°F14°F100 mA at 30V DCPVC--
RFQ
G
E52-18RU04-C		IP662m131°F14°F100 mA at 30V DCPVC-£232.76
B
E52-18RU04-C1N		IP66-131°F14°F100 mA at 30V DC--£249.13
B
E52-16QS04-B1		IP662m131°F14°F100 mA at 30V DCPVC-£173.98
H
E52-25QS10-C		IP662m131°F14°F100 mA at 30V DCPVC-£241.74
B
E52-25QS10-B		IP662m131°F14°F100 mA at 30V DCPVC--
RFQ
I
E52-16QS04-C05		IP665m131°F14°F100 mA at 30V DCPVC-£217.17
B
E52-25QU15-B1		IP662m131°F14°F100 mA at 30V DCPVC-£230.49
B
E52RAL12T110		IP662m131°F14°F100 mA at 30V DCPVC--
RFQ
B
E52-16QS04-C1		IP662m131°F14°F100 mA at 30V DCPVC-£174.41
B
E52-18RU04-CN		IP66-131°F14°F100 mA at 30V DC--£259.84
J
E52Q-DL15SAD01		IP67, IP68-158°F-40°F300 mA at 48V DC--£267.95
B
E52Q-DL20UAE01		IP67, IP68-158°F-40°F300 mA at 48V DC--£325.39
B
E52Q-DL35UAE01		IP67, IP68-158°F-40°F300 mA at 48V DC---
RFQ
K
E52Q-DL40UAD01		IP67, IP68-158°F-40°F300 mA at 48V DC--£266.42
B
E52Q-DL15UAE01		IP67, IP68-158°F-40°F300 mA at 48V DC--£257.20
L
E52Q-DL30UAD01		IP67, IP68-158°F-25°F300 mA-4-
RFQ
M
E52Q-DL20UAD01		IP67, IP68-158°F-25°F300 mA-4£236.14
N
E52Q-DL15UAD01		IP67, IP68-158°F-25°F300 mA-4-
RFQ
B
E52Q-DL30UAE01		IP67, IP68-158°F-40°F300 mA at 48V DC--£350.21
O
E52Q-DL35UAD01		IP67, IP68-158°F-25°F300 mA-4-
RFQ
B
E52Q-DL20SAE01		IP67, IP68-158°F-40°F300 mA at 48V DC--£356.99
P
E52Q-DL25UAD01		IP67, IP68-158°F-25°F300 mA-4£325.39
Q
E52Q-DL20SAD01		IP67, IP68-158°F-40°F300 mA at 48V DC--£279.14
B
E52Q-DL40UAE01		IP67, IP68-158°F-40°F300 mA at 48V DC---
RFQ
R
E52Q-DL25UAE01		IP67, IP68-158°F-40°F300 mA at 48V DC--£345.68
B
E52Q-DL15SAE01		IP67, IP68-158°F-40°F300 mA at 48V DC--£325.39
B
E52Q-DL40UAE02		IP67, IP68-158°F-40°F300 mA at 48V DC--£388.66

Working Mechanism

  • Eaton E52 Series inductive proximity sensors comprise three main components: an oscillator, a coil, and a sensing face. The oscillator generates an alternating magnetic field that is directed by the coil towards the sensing face. When a metallic object enters the sensor's range, it absorbs a portion of the magnetic field's energy, causing a reduction in the oscillator's output frequency. The sensor's internal circuitry detects this frequency change, leading to a corresponding change in the sensor's output state, indicating the presence or absence of the target object.

Frequently Asked Questions

How are Eaton E52 Series inductive proximity sensors installed?

  • Choose a suitable mounting place for the sensor, which should be close to the target object or material.
  • Make sure the mounting surface is spotless and free of any impurities or debris that can affect the sensor's operation.
  • Install a mounting bracket or sensor holder if necessary to keep the sensor in position.
  • In accordance with the wiring schematic included with the sensor, attach the wiring to the device.
  • Check the sensor's functionality by testing it.
  • When required, alter the sensor's sensitivity and detection range.
  • To prevent moisture or dust from entering the sensor, make sure the sensor is adequately sealed and secure any loose wires or connections.

How to verify the functionality of Eaton E52 Series inductive proximity sensors?

One way to verify the functionality of an inductive proximity sensor is to position a metallic object within its detection range and observe if the output state changes accordingly. Another method is to measure the sensor's output voltage or current using a multimeter.

How do I determine the correct sensor model for my application?

The appropriate model of the sensor depends on various factors, such as the required sensing range, the type of metallic object that needs to be detected, the operating environment and the preferred mounting method.

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