goCORE sensors deliver the accurate data necessary for the optimal operation of engine management and other critical vehicle systems.
Built with high-grade components to withstand intense vibration and extreme temperature fluctuations, they ensure fast response times and reliable signal transmission in all conditions.




The intake grid, made either from a plastic-stainless steel combination or high-quality plastic alone, shields the element from debris while directing laminar airflow across the sensor for exact readings. For maximum durability, the housing and connector are manufactured from high-grade PBT polymer, offering excellent resistance to vibrations, chemicals, and temperature fluctuations.
Phosphor bronze connector pins provide stable electrical conductivity and long-term corrosion protection. Accurate connector and housing geometry ensure a reliable fit and smooth installation process.
Electrical contacts made of H62 copper-zinc alloy ensure high conductivity and resistance to oxidation for stable signal transmission. The connector housing is manufactured from PA66-GF30, offering exceptional strength and durability against high temperatures and aggressive fluids. Advanced diaphragm bonding techniques and high-grade sealing materials ensure leak-tight performance.
Precision-machined threads and exact body geometry ensure a secure fit in the cylinder block or oil filter housing, providing reliable installation.
The sensor body is constructed from stainless steel and copper alloys to effectively resist heat, corrosion, and mechanical stress. High-grade copper contacts guarantee excellent conductivity, while a reinforced PA66 connector housing withstands intense vibrations and reliably protects sensitive electrical components. To ensure a secure fit and a leak-proof seal under high pressure, each sensor is supplied with a high-quality MVQ or aluminium gasket.
To ensure dependable sealing, a fluororubber O-ring maintains its elasticity and protective properties even under high temperatures and chemical exposure. Internally, high-grade copper leads and contacts ensure superior conductivity and corrosion resistance for stable signal transmission. The cable features a durable, wear-resistant polyurethane sheath, which provides reliable protection against mechanical and environmental stress. Strict manufacturing standards guarantee precise geometry for straightforward installation and consistent operation.
The electrodes are shielded by aluminium oxide insulation to prevent degradation from heat and exhaust contaminants, while the entire assembly is reinforced by a double protection cover. The durable cable construction features integrated strain relief at both ends. Selected SKUs include an additional heat shield to minimise thermal exposure from nearby exhaust components. The goCORE range offers both direct-fit and universal oxygen sensors.
The sensor head is constructed from SUS310S austenitic stainless steel, offering exceptional resistance to extreme heat and corrosive exhaust gases. Each unit features a PA66-GF30 connector housing and silver-plated copper contacts to ensure stable electrical conductivity. To provide robust protection against thermal stress and mechanical vibration, cables are enclosed in a silicone-coated woven sheath. Specific SKUs feature additional aluminium foil or corrugated tube heat shielding to ensure long-term reliability in the harshest environments.
High-conductivity contacts maintain stable signal transmission, while the durably insulated cable resists road chemicals, moisture, and mechanical stress, remaining flexible in sub-zero conditions. Precisely manufactured housings and connectors ensure a seamless installation and secure, vibration-resistant fit.
The sensor head, manufactured from high-grade PA66 plastic, withstands intense vibration and mechanical stress, while copper contacts ensure stable signal transmission and high corrosion resistance. A durable, flexible, and heat-resistant TPU sheath shields the cables from dirt, moisture, temperature fluctuations, and abrasive wear.