Omron Automation and Safety E3FR-T86H
- Part Number:
- E3FR-T86H
- Manufacturer:
- Omron Automation and Safety
- Ventron No:
- 4861148-E3FR-T86H
- Description:
- SENSOR PHOTO TB TR ANGLE PNP
- Datasheet:
- E3FR-T86H
Omron Automation and Safety E3FR-T86H technical specifications, attributes, parameters and parts with similar specifications to Omron Automation and Safety E3FR-T86H.
- Operating Temperature-25°C~55°C
- SeriesE3FR
- Published2002
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Connector TypeConnector
- Max Operating Temperature55°C
- Min Operating Temperature-25°C
- Voltage - Supply10V~30V
- Ingress ProtectionIEC IP67, IP69K
- Output ConfigurationPNP - Dark-ON/Light-ON - Selectable
- Response Time1ms
- Sensing Distance590.551 (15m)
- Sensing MethodThrough-Beam
- Connection MethodConnector
- Light SourceInfrared (870nm)
- RoHS StatusRoHS Compliant
- RatingsIP67
E3FR-T86H Overview
To maintain reliable performance, the photoelectric sensor should have a temperature of -25°C~55°C. In order for these electronic components to work, their voltage must be set to 10V~30V. Ideally, photoelectric sensors should respond within 1ms. It is essential that photoelectric sensors operate at a minimum working temperature of -25°C to ensure their reliability. Reliability is ensured by operating at a temperature of 55°C maximum.
E3FR-T86H Features
Sensing Distance: 590.551 (15m)
Response Time: 1ms
Operating Temperature: -25°C~55°C
E3FR Series
E3FR-T86H Applications
There are a lot of Omron Automation and Safety
E3FR-T86H Photoelectric Sensors applications.
Pharmaceutical industry
Checking objects on production lines or conveyors
Counting small objects
Detecting colours
Monitoring bigger areas for objects with light grids
Measuring distance
Logistics and materials handling
Automatic doors
Zone scanners
Passive infrared sensors
To maintain reliable performance, the photoelectric sensor should have a temperature of -25°C~55°C. In order for these electronic components to work, their voltage must be set to 10V~30V. Ideally, photoelectric sensors should respond within 1ms. It is essential that photoelectric sensors operate at a minimum working temperature of -25°C to ensure their reliability. Reliability is ensured by operating at a temperature of 55°C maximum.
E3FR-T86H Features
Sensing Distance: 590.551 (15m)
Response Time: 1ms
Operating Temperature: -25°C~55°C
E3FR Series
E3FR-T86H Applications
There are a lot of Omron Automation and Safety
E3FR-T86H Photoelectric Sensors applications.
Pharmaceutical industry
Checking objects on production lines or conveyors
Counting small objects
Detecting colours
Monitoring bigger areas for objects with light grids
Measuring distance
Logistics and materials handling
Automatic doors
Zone scanners
Passive infrared sensors
The three parts on the right have similar specifications to E3FR-T86H.
-
ImagePart NumberManufacturerOperating TemperatureSeriesPublishedPart StatusMoisture Sensitivity Level (MSL)Connector TypeMax Operating TemperatureMin Operating TemperatureVoltage - SupplyIngress ProtectionOutput ConfigurationResponse TimeSensing DistanceSensing MethodConnection MethodLight SourceRoHS StatusRatingsAdjustment TypeView Compare
-
E3FR-T86H-25°C~55°CE3FR2002Obsolete1 (Unlimited)Connector55°C-25°C10V~30VIEC IP67, IP69KPNP - Dark-ON/Light-ON - Selectable1ms590.551 (15m)Through-BeamConnectorInfrared (870nm)RoHS CompliantIP67--
-
-25°C~55°CE3FR2002Obsolete1 (Unlimited)---10V~30VIEC IP67, IP69KPNP - Dark-ON/Light-ON - Selectable1ms7.874 (200mm)Retroreflective, PolarizedWireRed (660nm)--Fixed
-
-25°C~55°CE3FR2002Obsolete1 (Unlimited)---10V~30VIEC IP67, IP69KPNP - Dark-ON/Light-ON - Selectable1ms3.937 ~ 157.480 (100mm ~ 4m) ADJRetroreflective, PolarizedWireRed (660nm)---
-
-25°C~55°CE3FR2002Obsolete1 (Unlimited)---10V~30VIEC IP67, IP69KPNP - Dark-ON/Light-ON - Selectable1ms3.937 (100mm)Retroreflective, PolarizedWireRed (650nm)--Fixed
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
07 November 2023
TLP250 MOSFET IGBT Driver: Manufacturer, Footprint and Applications
Ⅰ. Overview of TLP250Ⅱ. Manufacturer of TLP250Ⅲ. TLP250 symbol, footprint and pin configurationⅣ. What are the features of TLP250?Ⅴ. Technical parameters of TLP250Ⅵ. How to use TLP250 isolated... -
07 November 2023
LM2596 Voltage Regulator: Equivalents, Features, Structure and Applications
Ⅰ. What is a voltage regulator?Ⅱ. Overview of LM2596 voltage regulatorⅢ. Features of LM2596 voltage regulatorⅣ. Pin configuration of LM2596 voltage regulatorⅤ. Structure of LM2596 voltage regulatorⅥ. LM2596... -
08 November 2023
What is MOC3021 Optocoupler Triac Driver?
Ⅰ. What is an optocoupler?Ⅱ. Overview of MOC3021 optocouplerⅢ. Pin configuration of MOC3021 optocouplerⅣ. Features of MOC3021 optocouplerⅤ. Technical parameters of MOC3021 optocouplerⅥ. Working principle of MOC3021 optocouplerⅦ.... -
08 November 2023
LM324 vs LM358: What is the Difference Between Them?
Ⅰ. What is an operational amplifier?Ⅱ. Overview of LM324Ⅲ. Overview of LM358Ⅳ. LM324 vs LM358: FeaturesⅤ. LM324 vs LM358: Technical parametersⅥ. LM324 vs LM358: Pin configurationⅦ. LM324 vs...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.