Pulsed eddy current array (PECA) is the new standard by Eddyfi Technologies

PEC Reinvented—CUI Programs Redefined

Corrosion under insulation (CUI) is possibly the greatest unresolved asset integrity problem in the industry. Current methods for measuring wall thickness over insulation (liftoff) without removing it all have severe limitations. Lyft is a high-performance solution reinventing pulsed eddy current (PEC). The patent-pending Eddyfi® solution features:

  • State-of-the-art portable instrument
  • Standard pulsed eddy current array (PECA) technology
  • Real-time C-scan imaging
  • Fast data acquisition
  • Grid and dynamic scanning modes

Lyft can scan through thick metal and insulation, as well as aluminum, stainless steel, and galvanized steel weather jackets. It also benefits from a range of PECA, single-element PEC, and application- specific probes to support various applications. Who else but Eddyfi to reinvent an eddy current technique and redefine CUI programs. Got Lyft?

Lyft Pulsed Eddy Current (PEC) System


Automated Software for Reliable and Repeatable Results 

The Lyft software is packed with automation and advanced algorithms that remove operator-specific dependence, thanks to the power of the SmartPULSE technology. It automatically optimizes pulser and receiver parameters (gain, duration, time gates, filters, etc.). SmartPULSE also adjusts wall thickness (WT) measurements to ensure optimal performance and repeatability, while limiting the need for advanced knowledge of pulsed eddy current. The user-friendly multi-touch software also includes several innovative features, including real-time C-scan imaging (grid-mapping and dynamic modes), complete wall thickness measurements (ID and OD corrosion), as well as complete inspection management and reporting capabilities. Download the Lyft software now.

Unique to Lyft—Wall Thickness Measurement Tool for Smaller FlawsLyft Compensated Wall Thickness Tool

Under sizing is a well-known phenomenon for PEC where defects smaller than the probe’s averaging area appear shallower than they really are. The Lyft’s compensated wall thickness (CWT) tool mitigates this phenomenon by quantifying the minimum wall thickness of a specific region in a C-scan. The CWT tool’s specialized algorithms isolate a defect’s contribution to the A-scan signal to more precisely compute its minimum wall thickness.

Lyft Pro Desktop Analysis Software

Desktop Analysis Software

Lyft Pro enables advanced Lyft data analysis and features the same graphical user interface than the Lyft software, making it easy to learn and benefiting from larger data layouts. This translates into Lyft instruments out in the field acquiring data while analysts work hard to extract value from acquired data. Lyft Pro makes it easier to plan inspections for several Lyft instruments. The software also has features to generate richer reports and tools to bridge calibration parameters between scan zones. Available for free to subscribing Lyft software and service plan users. Download Lyft Pro here.

SurfacePro 3D is an advanced visualization and reporting software designed to automatically create components and overlay stitched C-scan data. Use it to import Lyft reports, create 3D components, and stitch color maps automatically. Easily import, export, create, and edit report templates. Compile and merge inspection data with associated images, inspection parameters, and defect tables for fast and compelling reporting. Download SurfacePro here.


Optimized Performance for Wall Thickness and LiftoffPulsed Eddy Current Array (PECA) Probe

The Lyft solution includes several sizes of plug-and-play probes for the right balance between wall thickness and liftoff.

The 6-element PECA probe is capable of a single-pass coverage of 457 mm (18 in) in grid or high-resolution, dynamic mode. It supports metal thicknesses 6–25 mm (0.25–1.0 in), insulation 0–102 mm (0–4 in), and stainless steel / aluminum. Displaying C-scans has never been this fast, improving overall inspection productivity as much as 10 times.

Buy a PECA probe Now!

The single-element PEC probe family supports metal thicknesses up to 100 mm (4 in), insulation as thick as 300 mm (12 in), and stainless steel / aluminum / galvanized steel weather jackets. They complement the array probe in limited-access, small-pipe, and thick-component inspections.

Pulsed Eddy Current (PEC) Probes for Specialized Applications

 Application-Specific Probes

The tank floor probe enables the in-service inspection of storage tank annular rings. With its 4.8 mm (0.2 in) thick, super-thin titanium blade, the probe can slide up to 400 mm (16 in) under tank floor edges, assessing the remaining wall thickness of this critical region exposed to corrosion. The embedded remote controls and status LEDs are also perfect for one-person operation.

The splash zone probe can tackle offshore applications, thanks to its rugged design, water-tightness to 15 m (49 ft) in grid-mapping mode, and 25 m (82 ft) heavy-duty cable. The splash zone probe is flexible enough to support metal up to 76 mm (3 in) thick and insulation or marine growth up to 203 mm (8 in) thick.

The patent-pending galvanized steel cladding probe (PEC-GS) is specifically designed to improve detection capa-bilities and sizing accuracy by reducing the footprint dimensions to normal. The design neutralizes the interference from the jacket, improving signal penetration, and prevents vibration for an unsurpassed signal-to-noise ratio.

Underwater probes can tackle deeper offshore applications. They are watertight down to 100 m (330 ft) and, through the long extension cable, are used with Lyft in grid-mapping mode. The embedded status LEDs ensure better control and synchronisation with the topside team. The probes can be used on metal as thick as 100 mm (4 in), as well as insulation and marine growth as thick as 300 mm (12 in). 

The Best of PEC in a Portable InstrumentLyft Pulsed Eddy Current (PEC) System

The Lyft instrument is sealed and designed for IP65. Its magnesium alloy casing is tough, water and dust resistant, and cools without any external air exchange. The adjustable stand, the top handle, and four corner anchor points make it practical for on-site inspections. The embedded and portable Windows® PC offers standard connect-anywhere capabilities and advanced productivity tools that optimize field testing. The premium-quality 26.4 cm (10.4 in) LED display is optically bonded, non-reflective, comes with 3 mm (1/8 in) strengthened glass, and is designed for gloved hands, under any lighting conditions. The system also comes with two, hot-swappable batteries for extended battery operation.


Frost & Sullivan 2016 Global New Product Innovation Award

Global NDT Equipment New Product Innovation Award Recipient

For its dedication to creating a power-packed product that solves one of the major challenges across industries, testing for corrosion under insulation, Frost & Sullivan presented Eddyfi with the 2016 Global Nondestructive Testing Equipment New Product Innovation Award. “Eddyfi has done away with the dependence on operators by packing Lyft with its SmartPULSE technology, wherein the system automatically iterates to find the best parameters for the inspection configuration,” said Frost & Sullivan Principal Lead Nikhil Jain. “Using an autoset feature, the probe can find the optimal configuration for measurements and repeatability, adjusting the pulse frequency, gains, and other parameters.”

Complete Eddyfi Certified Training

Get Eddyfi Certified Anywhere

We are geared to offer PEC training: a blend of e-learning and hands-on training at our offices or yours that will give you the necessary knowledge and skills to efficiently use PEC when inspecting assets. Contact us for details or to book a training session.



Lyft can be used in any number of applications, such as corrosion under insulation (CUI), corrosion blistering and scabs, flow-accelerated corrosion (FAC), corrosion under fireproofing (CUF), in the splash zone and underwater, surface corrosion, corrosion under coatings, and waterworks:

Corrosion under insulation (CUI)Corrosion blistering and scabsFlow-accelerated corrosion (FAC)Corrosion under fireproofing (CUF)Corrosion in the splash zone and underwater in offshore installationsSurface corrosionCorrosion under coatingsWaterworks



Instrument dimensions (W×H×D)

355×288×127 mm (14.0×11.3×5.0 in)

Instrument weight

6.6 kg (14.5 lb)

Number of channels

6 (GD/GDA)


  • 26.4 cm (10.4 in)
  • Multi-touch
  • Non-reflective (AR coating)
  • Anti-fingerprint (oleophobic coating)
  • 3 mm (1/8 in), chemically strengthened glass cover
  • Optically bonded LCD and touchscreen
  • Passive backlight enhancement


Gigabit Ethernet, Wi-Fi, Bluetooth®, USB 2.0 (×3)


Dynamic data acquisition

Up to 15 points/s

Dynamic scan speed

Up to 75 mm/s (3 in/s)

Grid-mapping scan speed

Instant, less than 1 second (typical)


  • Automatic configuration of PEC pulser-receiver parameters 
  • Full thickness sensitivity (OD and ID flaw detection)
  • Reliable measurements even with liftoff variations, weather jackets overlaps, straps, and corrosion scabs
  • Repeatability optimization
  • One-point calibration (on nominal wall or known thickness value) and auto-normalization



  • Remote control keypad
  • Lyft 27-pin Fischer connector
  • Heavy-duty 5 m (16.4 ft) cable
  • Support for universal clip-on encoder

Nominal wall thickness

Up to 102 mm (4 in)

Insulation (liftoff)

  • PECA-6CH-MED: 0–102 mm (0–4 in)
  • PEC-152-G2: 0–305 mm (0–12 in)
  • PEC-089-G2: 0–203 mm (0–8 in)
  • PEC-025-G2: 0–76 mm (0–3 in)

Smallest detectable defect volume

15% of footprint volume (footprint × wall thickness)

Minimum measurable remaining wall thickness

15% from nominal

Weather jackets

  • Stainless steel up to 1.5 mm (0.06 in)
  • Aluminum up to 1 mm (0.04 in)
  • Galvanized steel up to 1 mm (0.04 in)

Pipe diameter

Down to 25 mm (1 in)

Testing temperatures

  • Carbon steel structure temperature range: –150°C to 500°C (–238°F to 932°F)
  • Maximum weather jacket temperature for direct contact operation: 70°C (158°F)
  • Maximum weather jacket temperature with probe shoe: 120°C (248°F)

Application-Specific Probes