High-precision Impressed Current Cathodic Protection
(ICCP) keeps potential errors under 5 mV for ultimate infrastructure longevity.
For buried underground pipelines, corrosion is not merely a
maintenance challenge—it is an existential threat. Deep within the soil, steel
naturally loses electrons, initiating a slow, invisible process of oxidation
that eventually leads to catastrophic leaks and structural failure.

To combat this fundamental law of nature, KIG TECH delivers a definitive engineering solution: Impressed Current Cathodic Protection (ICCP). By systematically "feeding electrons" back into the pipe, the entire structure is forced to become a cathode, effectively neutralizing the electrochemical reaction and halting corrosion in its tracks.
The Anatomy of a Closed-Loop Shield
At the heart of KIG TECH’s ICCP system is a meticulously
engineered current loop. A stable DC power supply drives protective current
through an auxiliary anode into the surrounding soil. This current flows
directly into the pipeline to shield the metal, before returning to the
system’s core: the KIG TECH Potentiostat.
Acting as the "intelligent brain" of the
operation, the potentiostat continuously communicates with a reference
electrode to monitor the pipeline's real-time potential. It automatically
compares these field readings against preset safety thresholds, dynamically
adjusting its voltage and current output.

Precision Down to the Millivolt
In cathodic protection, balance is everything.
Under-protection leaves the metal vulnerable to rust, while over-protection can
cause coating disbondment or hydrogen embrittlement. KIG TECH’s potentiostat
solves this dilemma by maintaining industry-leading output stability, keeping
potential errors strictly under 5 mV.
Dedicated to advancing cathodic protection technology, KIG
TECH centers its one-stop solutions around these high-performance
potentiostats—ensuring corrosion-free, long-term operation, and safeguarding
the world's most vital underground infrastructure.

KIG TECH
2026/06/26