Field Coating Thickness Gauge with a Built-In Printer: Measure, Display Statistics, and Print On the Spot
The L500 measures coating thickness on both magnetic and non-magnetic metal substrates, then prints results, statistics, and limit flags right at the part. Pair the main unit with the probe that fits your job, from general-purpose tips to right-angle probes for tight spaces.
Built-in printer: Print readings and statistics at the point of measurement and attach the slip directly to the part or job sheet.
Probe you choose: Select an electromagnetic or eddy current probe to match your substrate, with straight and right-angle tips for hard-to-reach geometry.
On-board statistics: Average, standard deviation, high and low values, organized by block and group for fast accept or reject decisions.
Works anywhere: Runs on AC power or AA batteries, with up to 70 hours of battery life and a backlit display for dark work areas.
Ferrous Coating Thickness Gauge — Magnetic Induction, Integrated Printer - no longer in production
The LE200C measured non-magnetic coatings on iron and steel substrates, with on-board statistics and a built-in thermal printer. It has been replaced by the L500 dual-mode coating thickness gauge.
Ferrous substrates: Non-magnetic coatings on iron and steel
Magnetic induction method: Instant, non-destructive readings
Integrated thermal printer: Statistics printed on the spot
Ferrous Coating Thickness Gauge — Magnetic Induction, Integrated Printer - no longer in production
The LE200 measured non-magnetic coatings on iron and steel substrates, with on-board statistics and a built-in thermal printer. It has been replaced by the L500 dual-mode coating thickness gauge.
Ferrous substrates: Non-magnetic coatings on iron and steel
Magnetic induction method: Instant, non-destructive readings
Integrated thermal printer: Statistics printed on the spot
Dual-Mode Coating Thickness Gauge — Ferrous and Non-Ferrous, Integrated Printer - no longer in production
The LZ200C measured coatings on both ferrous and non-ferrous substrates in one instrument, with double calibration memory and a built-in thermal printer. It has been replaced by the L500 dual-mode coating thickness gauge.
Dual mode: Ferrous and non-ferrous substrates in one unit
Two methods: Magnetic induction and eddy current
Double calibration memory: Four parameter sets per mode
Integrated thermal printer: Statistics printed on the spot
Dual-Mode Coating Thickness Gauge — Ferrous and Non-Ferrous, RS-232C, Integrated Printer - no longer in production
The LZ200J measured coatings on both ferrous and non-ferrous substrates in one instrument, with double calibration memory, RS-232C data output, and a built-in thermal printer. It has been replaced by the L500 dual-mode coating thickness gauge.
Dual mode: Ferrous and non-ferrous substrates in one unit
Two methods: Magnetic induction and eddy current
RS-232C output: Data transfer to computer
Double calibration memory: Four parameter sets per mode
Non-Ferrous Coating Thickness Gauge — Eddy Current, Integrated Printer - no longer in production
The LH200 measured insulating coatings on aluminum, copper, brass, and other non-ferrous metals, with on-board statistics and a built-in thermal printer. It has been replaced by the L500 dual-mode coating thickness gauge.
Non-ferrous substrates: Insulating coatings on non-magnetic metals
Eddy current method: Instant, non-destructive readings
Integrated thermal printer: Statistics printed on the spot