Vibronic Point Level Detection

Point level switches in liquids and solids.

1 - 31 of 31 Products
Probe 11375Z
Endress+Hauser
Probe 11375Z
Lean Lean
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Liquiphant FTL80/81/85 FTL81
Endress+Hauser
Liquiphant FTL80/81/85 FTL81
Xpert Xpert
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Liquiphant FTL62/63/64 FTL63
Endress+Hauser
Liquiphant FTL62/63/64 FTL63
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Vibronic level switch Liquiphant FTL43
Endress+Hauser
Vibronic level switch Liquiphant FTL43
Lean Lean
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Liquiphant FTL62/63/64 FTL64
Endress+Hauser
Liquiphant FTL62/63/64 FTL64
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Probe 11363Z
Endress+Hauser
Probe 11363Z
Lean Lean
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Nivotester FTL825
Endress+Hauser
Nivotester FTL825
Xpert Xpert
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Probe 11362Z
Endress+Hauser
Probe 11362Z
Lean Lean
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Capacitance level switch Nivotester FTW325
Endress+Hauser
Capacitance level switch Nivotester FTW325
Lean Lean
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Nivotester FTL325N/325P/375P FTL325P
Endress+Hauser
Nivotester FTL325N/325P/375P FTL325P
Extended Extended
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Vibronic level switch Soliphant FTM5x FTM51
Endress+Hauser
Vibronic level switch Soliphant FTM5x FTM51
Extended Extended
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Transmitter NRR26x NRR262
Endress+Hauser
Transmitter NRR26x NRR262
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Transmitter NRR26x NRR261
Endress+Hauser
Transmitter NRR26x NRR261
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Liquiphant FTL80/81/85 FTL85
Endress+Hauser
Liquiphant FTL80/81/85 FTL85
Xpert Xpert
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Soliphant FTM5x FTM52
Endress+Hauser
Soliphant FTM5x FTM52
Extended Extended
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Vibronic level switch Liquiphant FTL31/33 FTL33
Endress+Hauser
Vibronic level switch Liquiphant FTL31/33 FTL33
Fundamental Fundamental
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Vibronic level switch Liquiphant FTL50/H, FTL51/C/H FTL51H
Endress+Hauser
Vibronic level switch Liquiphant FTL50/H, FTL51/C/H FTL51H
Extended Extended
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Probe 11961Z
Endress+Hauser
Probe 11961Z
Lean Lean
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Vibronic level switch Soliphant FTM2x FTM21
Endress+Hauser
Vibronic level switch Soliphant FTM2x FTM21
Fundamental Fundamental
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Vibronic level switch Soliphant FTM2x FTM20
Endress+Hauser
Vibronic level switch Soliphant FTM2x FTM20
Fundamental Fundamental
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Oil Leak Detector NAR300
Endress+Hauser
Oil Leak Detector NAR300
Xpert Xpert
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Vibronic level switch Liquiphant FTL31/33
Endress+Hauser
Vibronic level switch Liquiphant FTL31/33
Fundamental Fundamental
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Vibronic level switch Liquiphant FTL51B
Endress+Hauser
Vibronic level switch Liquiphant FTL51B
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Nivotester FTL325N/325P/375P
Endress+Hauser
Nivotester FTL325N/325P/375P
Extended Extended
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Vibronic level switch Soliphant FTM5x FTM50
Endress+Hauser
Vibronic level switch Soliphant FTM5x FTM50
Extended Extended
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Liquiphant FTL41
Endress+Hauser
Liquiphant FTL41
Lean Lean
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Capacitance level switch Nivotester FTC325
Endress+Hauser
Capacitance level switch Nivotester FTC325
Extended Extended
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Liquiphant FTL80/81/85
Endress+Hauser
Liquiphant FTL80/81/85
Xpert Xpert
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Liquiphant FTL62/63/64
Endress+Hauser
Liquiphant FTL62/63/64
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Liquiphant FTL50/H, FTL51/C/H FTL50H
Endress+Hauser
Liquiphant FTL50/H, FTL51/C/H FTL50H
Extended Extended
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Probe 11371
Endress+Hauser
Probe 11371
Lean Lean
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Vibronic Point Level Detection

Vibronic point level switches use a vibrating tuning fork (liquids) or vibrating rod (solids) excited at resonance; when the sensor is covered by product, the resonance behavior changes (frequency and/or amplitude), and the electronics convert that change into a discrete switching signal. This method is widely used for reliable point level detection and overfill prevention because it is largely insensitive to common process disturbances such as foam, turbulence, vibration, and build-up.

The key benefit is high switching reliability with minimal setup. Vibronic switches are typically ready to use without calibration, have no moving mechanical linkages, and include self-monitoring behavior that supports high availability. They are often applied as an independent protection layer for overfill prevention, including in applications requiring SIL-rated protective functions.

Design considerations are primarily mechanical and materials-based: mounting orientation, insertion length, coating selection, and process connection compatibility with cleaning regimes and corrosion/erosion risks. While vibronic technology tolerates many deposits, extreme crystallization or heavy bridging should be evaluated, and the switch should be placed to represent the true trip point (not a localized “dead zone”).

Typical applications include minimum/maximum level control, dry-run protection for pumps, leak detection in sumps or annular spaces, and high-high overfill protection in tanks and process vessels. It is used broadly in chemical and general industry, and is also a strong fit for hygienic services and for powdery solids in silos where a robust, calibration-free switch is preferred.

Operationally, vibronic switches simplify proof testing: plants can validate switching using controlled wetting/covering or built-in test routines (where available) and confirm loop response at the logic solver. Their predictable behavior and tolerance to process variability reduce nuisance trips while maintaining a dependable safety function.

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