IFM inductive proximity switch IE5199 in stock.
$344.05
The input of an IFM inductive proximity switch is characterized by magnetic flux density B. When the value of B reaches a certain level (such as B1), the trigger inside the Hall switch flips, and the output level of the Hall switch also flips accordingly. The output generally uses a transistor output, and similar to other sensors, it can be classified as NPN, PNP, normally open, normally closed, latching (bipolar), or dual-signal output.
Brand
IFM/Germany
Application Areas
Chemical, Petroleum, Energy, Electrical, General
IFM Inductive Proximity Switch IE5199 in Stock
IFM Process Sensors, IFM Photoelectric Sensors, IFM Incremental Encoders
Introduction to IFM Inductive Proximity Switches
An IFM inductive proximity switch consists of three main parts: an oscillator, a switching circuit, and an amplifier output circuit. The oscillator generates an alternating magnetic field. When a metal target approaches this magnetic field and reaches the sensing distance, eddy currents are generated within the metal target, causing the oscillation to decay and eventually stop. The changes in oscillation and cessation are processed by the subsequent amplifier circuit and converted into a switching signal, triggering the drive controller to achieve non-contact detection.
Principle of IFM Inductive Proximity Switches
2. Working Principle of Hall Effect Proximity Switches
Introduction to the Principle of IFM Inductive Proximity Switches:
When a metal or semiconductor sheet carrying a current is placed perpendicularly in a magnetic field, a potential difference is generated across the two ends of the sheet. This phenomenon is called the Hall effect. The potential difference between the two ends is called the Hall potential U, and its expression is:
U = K·I·B/d
Where K is the Hall coefficient, I is the current flowing through the thin film, B is the magnetic flux density of the applied magnetic field (Lorentz force), and d is the thickness of the thin film.
Therefore, the sensitivity of the Hall effect is directly proportional to the magnetic flux density of the applied magnetic field.
Hall switches belong to this type of active magnetoelectric conversion device. Based on the Hall effect principle, they are manufactured using integrated packaging and assembly processes. They can easily convert magnetic input signals into electrical signals for practical applications, while also meeting the requirements of ease of operation and reliability in industrial applications.
Hall switches feature contactless operation, low power consumption, long service life, and high response frequency. Internally, they are encapsulated in epoxy resin, allowing for reliable operation in various harsh environments. Hall switches can be used in proximity sensors, pressure sensors, odometers, etc., as a new type of electrical accessory.
IFM Linear Proximity Sensor Principle
IFM Inductive Proximity Switch Working Principle:
A linear proximity sensor is a linear device that senses metal. When powered on, an alternating magnetic field is generated on the sensor's sensing surface. When a metal object approaches this sensing surface, eddy currents are generated in the metal, absorbing energy from the oscillator. This causes the oscillator's output amplitude to decrease linearly. The change in attenuation is then used to achieve non-contact object detection.
This proximity sensor has no sliding contacts, is unaffected by non-metallic factors such as dust, and features low power consumption and long lifespan, making it suitable for various harsh conditions. Linear sensors are mainly used in intelligent control of analog quantities in automated equipment production lines.
IFM Inductive Proximity Switch Working Principle
An IFM inductive proximity switch consists of three main parts: an oscillator, a switching circuit, and an amplification output circuit. The oscillator generates an alternating magnetic field. When a metal target approaches this magnetic field and reaches the sensing distance, eddy currents are generated within the metal target, causing the oscillation to attenuate and eventually stop. The oscillation and cessation of the oscillator are processed by the subsequent amplifier circuit and converted into a switching signal, triggering the drive controller to achieve non-contact detection.
Inductive Proximity Switch
IE5199
IEB3001-BPKG/PH
Extremely small housing
For space-constrained applications
Space-saving connection technology
Rugged metal housing suitable for harsh industrial environments
Switching frequency
Product Features
Electrical Design
PNP
Output Function
Normally Open
Sensing Distance [mm]
1
Housing
Threaded Construction
Dimensions [mm]
M8 x 1 / L = 35
Electrical Data
Operating Voltage [V]
10...36 DC
Current Dissipation [mA]
10; (24 V)
Protection Class
III
Reverse Phase Protection
Yes
Output
Electrical Design
PNP
Output Function
Normally Open
Maximum DC Voltage Drop for Switch Output [V]
2.5
Continuous Current Load of Switch Output DC [mA]
200
Switching Frequency DC [Hz]
750
Switching Frequency Precautions [Hz]
1000 nb
Short Circuit Protection
Yes
Overload Protection
Yes
Monitoring Range
Sensing Distance [mm]
1
Actual Sensing Distance Sr [mm]
1 ± 10 %
Working Distance [mm]
0...0.8
Accuracy/Tolerance
Correction Factor
Steel: 1 / Special Steel: 0.7 / Brass: 0.4 / Aluminum: 0.4 / Copper: 0.3
Hysteresis [Percentage of Sr]
3...15
Switching Point Offset [Percentage of Sr]
-10...10
Operating Conditions
Ambient Temperature [°C]
-25...80
Enclosure Protection Rating
IP 67
Certifications/Testing
EMC Electromagnetic Compatibility
EN 61000-4-2 ESD
4 kV CD / 8 kV AD
EN 61000-4-3 HF Electromagnetic Field Radiation
3 V/m
EN 61000-4-4 Burst
2 kV
EN 61000-4-6 Conducted Immunity to Radio Frequency Induction
3 V
EN 55011
Class B
MTTF [Year]
2804
Mechanical Technical Data
Weight [g]
47
Housing
Threaded Construction
Mounting
Flush Mount
Dimensions [mm]
M8 x 1 / L = 35
Thread Designation
M8 x 1
Material
Brass, Nickel Plated; PBT
Tightening Torque [Nm]
A = 5 mm: 1 Nm; B: 2 Nm
Indicator/Operator
Display
Switch Status
1 x LED, Yellow
Accessories
Scope of Supply
Fixed Nuts: 2
Notes
Packaging Units
1 Components
Electrical Connections
Interfaces
Cable: 2 m, PUR; Highly Flexible; 3 x 0.14 mm²
Diagram
Installation
IFM Inductive Proximity Switches
IE5192 IE5193 IE5199
IE5202 IE5203 IE5207
IE5208 IE5212 IE5215
IE5219 IE5222 IE5229
IE5238 IE5249 IE5256
IE5257 IE5258 IE5260
IE5261 IE5265 IE5266
IE5267 IE5270 IE5273
IE5274 IE5281 IE5282
IE5287 IE5288 IE5292
IE5295 IE5298 IE5302
IE5303 IE5304 IE5306
IE5310 IE5311 IE5312
IE5313 IE5314 IE5315
IE5317 IE5318 IE5319
IE5320 IE5321 IE5324
Our company mainly deals in European and American brands and can source brands from any European country. For example, our advantageous German brands include: BURKERT, DEMAG, HAWE, REXROTH, HYDAC, PILZ relays, FESTO, IFM sensors, E+H, HEIDENHAIN, P+F sensors, SICK, TURCK, and HIRSCHMANN industrial switches. German brands: Hengstler, Murr, Schmersal, Samson, EPRO (Emerson Group)
American brands: MOOG, ASCO, MAC, NUMATICS, PARKER, Vickers, Helón (Norgren)
Italian brands: OMAL, ATOS, CAMOZZI, UNIVER, Camozzi
