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Vibronic point level detection

Point level switches in liquids and solids

Vibronic point level detection
21 Products
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Liquiphant FTL51B - Vibronic
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  • Reliable, robust and low-maintenance

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  • Designed for demanding applications

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Meet your basic measurement needs

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Handle your core processes easily

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Optimize your processes with innovative technologies

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Master your most challenging applications

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Liquiphant FTL51B - Vibronic Liquiphant FTL51B - digital, simple and safe
Liquiphant FTL51B - digital, simple and safe

Point level switch for all liquid media

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Process temperature -50 °C...+150 °C
(-58 °F...+302 °F)
Process pressure / max. overpressure limit Vacuum...100 bar
Vacuum...1450 psi
Min. density of medium 0.5 g/cm³
(0.4 g/cm³ optional)
Liquiphant FTL31 - Vibronic point level detection
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Liquiphant FTL31 - Vibronic point level detection Vibronic Point level detection Liquiphant FTL31
Vibronic Point level detection Liquiphant FTL31

Point level switch for liquids in compact design with stainless steel housing

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Process temperature -40 °C ... 150 °C
(-40 °F ... 302 °F)
Process pressure / max. overpressure limit Vacuum ... 40 bar
(Vacuum ... 580 psi)
Min. density of medium >0,7g/cm³
(>0,5g/cm³ optional)
Liquiphant FTL33 - Vibronic point level detection
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Liquiphant FTL33 - Vibronic point level detection Vibronic Point level detection Liquiphant FTL33
Vibronic Point level detection Liquiphant FTL33

Point level switch for liquids in compact hygienic design for the food industry

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Process temperature -40 °C ... 150 °C
(-40 °F ... 302 °F)
Process pressure / max. overpressure limit Vacuum ... 40 bar
(Vacuum ... 580 psi)
Min. density of medium >0,7g/cm³
(>0,5g/cm³ optional)
Liquiphant FTL43 – product picture
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New
Liquiphant FTL43 – product picture Liquiphant FTL43 – hygienic point level switch for liquids
Liquiphant FTL43 – hygienic point level switch for liquids

Proven in the field, particularly compact and perfectly suitable for hygienic applications

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Process temperature -40 °C...+150 °C
(-40 °F...+302 °F)
Process pressure / max. overpressure limit Vacuum...64 bar
(Vacuum...928 psi)
Min. density of medium 0.5 g/cm³ (25.0 lb/ft3)
(0.4 g/cm³ (31.2 lb/ft3) optional)
Liquiphant FTL51 - Vibronic
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Phase out - View Successors
Liquiphant FTL51 - Vibronic Vibronic Point level detection Liquiphant FTL51
Vibronic Point level detection Liquiphant FTL51
Phase out - View Successors

Point level switch with extension tube for liquids in all industries

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Process temperature -50 °C...+150 °C
(-58 °F...+302 °F)
Process pressure / max. overpressure limit Vacuum...100 bar
Min. density of medium 0.5g/cm³(0.4g/cm³ optional)

Product is getting phased out

Phase out Product status
Liquiphant FTL51 - Vibronic Vibronic Point level detection Liquiphant FTL51

New alternatives available

Successor
Liquiphant FTL51B - Vibronic Liquiphant FTL51B
Phase out policy
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Phase out policy

Endress+Hauser are committed to the long term support of all our products

We undertake support and service for our products for a period of ten years after notice of product withdrawal (until spareparts are not available any more)

However we reserve us the right to offer alternative solutions including replacement products if deemed more appropriated.

Product status

Product root FTL51
Name Vibronic Point level detection Liquiphant FTL51
Product status In phase out
Phase out date 9/2021
Order stop 9/2026
Spare sensor until not applicable
Calibration until not applicable
Spares available 9/2029
Repair until not applicable
New alternative FTL51B
Maintenance advice
Liquiphant FTL51C - Vibronic
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Liquiphant FTL51C - Vibronic Vibronic Point level detection Liquiphant FTL51C
Vibronic Point level detection Liquiphant FTL51C
Phase out - View Successors

Point level switch for liquids with highly corrosion-resistant coating

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Process temperature -50 °C...+150 °C
(-58 °F...+302 °F)
up to 230 °C / 450°F on request
Process pressure / max. overpressure limit Vacuum...40 bar
(Vacuum...580 psi)
Min. density of medium 0.5g/cm³ (0.4g/cm³ optional)

Product is getting phased out

Phase out Product status
Liquiphant FTL51C - Vibronic Vibronic Point level detection Liquiphant FTL51C

New alternatives available

Successor
New Liquiphant FTL62 - Vibronic Liquiphant FTL62
Phase out policy
Compare products

Phase out policy

Endress+Hauser are committed to the long term support of all our products

We undertake support and service for our products for a period of ten years after notice of product withdrawal (until spareparts are not available any more)

However we reserve us the right to offer alternative solutions including replacement products if deemed more appropriated.

Product status

Product root FTL51C
Name Vibronic Point level detection Liquiphant FTL51C
Product status In phase out
Phase out date 9/2021
Order stop 9/2026
Spare sensor until not applicable
Calibration until not applicable
Spares available 9/2029
Repair until not applicable
New alternative FTL62
Maintenance advice
New Liquiphant FTL62 - Vibronic
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New Liquiphant FTL62 - Vibronic Liquiphant FTL62 - the specialist for aggressive media
Liquiphant FTL62 - the specialist for aggressive media

A level switch for aggressive and pumpable liquids

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Price on request
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Process temperature -50 °C...+150 °C
(-58 °F...+302 °F)
Process pressure / max. overpressure limit Vacuum...40 bar
Vacuum...580 psi
Min. density of medium 0.5 g/cm³
(0.4 g/cm³ optional)
Liquiphant FTL63 – product picture
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Liquiphant FTL63 – product picture Liquiphant FTL63 – hygienic point level switch for liquids
Liquiphant FTL63 – hygienic point level switch for liquids

Proven in the field, easy to use and perfectly suitable for hygienic applications.

Prices temporarily unavailable
Price on request
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Process temperature -50 °C...+150 °C
(-58 °F...+302 °F)
Process pressure / max. overpressure limit Vacuum...64 bar
(Vacuum...928 psi)
Min. density of medium 0.5 g/cm³
(0.4 g/cm³ optional)
New Liquiphant FTL64 - Vibronic
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New Liquiphant FTL64 - Vibronic Liquiphant FTL64 - reliable detection at high temperatures
Liquiphant FTL64 - reliable detection at high temperatures

A level switch for hot and pumpable liquids

Prices temporarily unavailable
Price on request
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Process temperature -60 °C...+280 °C
(-76 °F...+536 °F)
Process pressure / max. overpressure limit Vacuum...100 bar
Vacuum...1450 psi
Min. density of medium 0.5 g/cm³
(0.4 g/cm³ optional)
Liquiphant FTL80 - Vibronic
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Liquiphant FTL80 - Vibronic Vibronic Point level detection Liquiphant FTL80
Vibronic Point level detection Liquiphant FTL80

Point level switch for liquids for FailSafe overfill protection

Prices temporarily unavailable
Price on request
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price: provide information
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Process temperature -60°C...+280°C
(-76°F...+540°F)
Process pressure / max. overpressure limit Vacuum...100 bar
(1450 psi)
Min. density of medium Density from 0.4 g/cm3
(0.4 SGU)

Vibronic point level detection

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About vibronic point level detection

Vibronic point level detection offers safe overfill prevention in liquids and bulk solids in every industry. The second line of defense guarantees the highest degree of safety and availability of the switches. Liquiphant stands for reliable switching unaffected by: changing media properties, turbulences, foam, vibrations or build-up. In silos containing fine-grained or powdery solids Soliphant is the perfect match. For more information click on the button below.

Vibronic devices perfectly fit for numerous liquid applications from simple operational point level detection (min. and max. control), certified leakage monitoring and overfill prevention through to protective equipment in plant parts subject so Safety Integrity Levels (SIL 2/3). For applications in powdery or lumpy bulk solids the vibronic devices can also be used in hazardous areas, typically in primaries, the chemical or the food industry.

Vibronic point level detection: Measuring Principle

For point level detection in liquids a sensor in form of a tuning fork is excited at its resonant frequency. The drive works piezoelectrically. The oscillating frequency changes as the fork enters the medium. The change is analyzed and translated into a switching signal.

In solids a one-rod sensor is excited at its resonant frequency. The drive works piezoelectrically. The amplitude changes as the fork enters the medium. The change is also analyzed and translated into a switching signal.

Benefits

  • Unaffected by media
  • Unaffected by media properties
  • Easy installation and ready for use without calibration
  • Self-monitoring
  • No wear and tear, maintenance-free

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