Discover our state-of-the-art diagnostic, testing, and balancing devices engineered to meet rigorous workshop environments and advanced electric vehicle protocols.
The global automotive marketplace is experiencing a tectonic transition toward electrification, connectivity, and autonomous safety architectures. As internal combustion engines (ICE) make way for High-Voltage Traction Batteries, Complex Battery Management Systems (BMS), and Ethernet-based communication arrays, legacy diagnostic tools are rendered obsolete.
At Shenzhen Kore Auto Co., Ltd., we serve as a premier manufacturer and global exporter of high-precision diagnostic ecosystems. We bridge the technology gap for international workshops, OEMs, fleet managers, and service networks by developing highly custom OBD2 systems, high-voltage battery testers, and specialized diagnostic software suites.
Our research and engineering pipelines are built upon the pillars of E-E-A-T (Experience, Expertise, Authoritativeness, and Trustworthiness). By developing specialized firmware capable of mapping individual battery pack health and integrating advanced modules like the Launch X431 EV Diagnostic Kit and Micsig Automotive Oscilloscopes, we empower technicians to confidently assess, maintain, and certify both battery-electric vehicles (BEV) and plug-in hybrid electric vehicles (PHEV).
Diagnostic operations are no longer limited to basic Powertrain Code clearance. Today's commercial requirements span dynamic calibration of Advanced Driver Assistance Systems (ADAS), safety validation of high-voltage cells, and state-of-health (SoH) diagnostics for insurance and secondary trading markets.
We lead the technical frontier of vehicle communication protocols, dynamic battery management calibration, and advanced signal mapping.
Our high-capacity balancing machines (such as the 2-24S 10A 15A Lithium Battery Balancing Machine) resolve cell voltage discrepancies within multi-cell EV arrays. Proper balancing restores overall pack capacity, avoids thermal runaway, and extends the cycle life of automotive lithium battery cells.
New energy vehicle networks process immense data loads. Our smart diagnostic interfaces adopt CAN FD (Controller Area Network Flexible Data-Rate) and DoIP (Diagnostics over Internet Protocol) architectures. This enables ultra-fast ECU flashing, programming, and real-time sensor monitoring.
Safety in smart vehicles depends on precise sensor data. Integrating specialized solutions like the Launch X-431 ADAS Mobile system allows body shops to realign radar, lidar, and optical cameras following structural repairs, windshield swaps, or wheel alignment corrections.
Physical signal debugging requires high sample rates. With multi-channel tools like the Micsig SATO1004 Portable Automotive Oscilloscope, technicians can monitor CAN signal integrity, diagnose faulty ignition wave forms, and locate sensor glitches that standard code scanners might miss.
Our high-end platforms (e.g., X431 PAD V) support dynamic J2534 programming interfaces. This allows workshops to flash target control units directly with factory software, map custom features, and execute online diagnostic parameters across major global automotive makes.
High-voltage protection is paramount when interfacing with EV architecture. Our specialized circuit and voltage testers (such as the TopDiag P100 and customized line testers) ensure structural grounding and isolation parameters meet stringent SAE and ISO safety mandates.
From urban fleet maintenance in North America to battery recycling facilities in Europe, our tools are adapted to real-world industrial environments.
Delivery fleets are rapidly integrating BEVs. To prevent unscheduled downtime, operators implement our remote and bench-testing devices. By executing battery health diagnostics via the Launch X431 EV Diagnostic Kit and tracking vehicle battery pack internal resistance using our Three-Channel DC Resistance Tester, managers can flag deteriorating cells before a module failure compromises the entire vehicle range.
Collision centers and automotive repair facilities require tools that serve both internal combustion engines (ICE) and hybrid/electric drivetrains. In these environments, diagnostic platforms must run continuous ECU flashes, recalibrate radar and camera sensors using the ADAS Mobile Calibration platform, and quickly check basic circuits using the TopDiag P100 PowerScan. This minimizes repair turnaround times and boosts service profitability.
As electric vehicles reach the end of their operational lifecycle, traction battery packs are graded for energy storage applications. This requires precise discharge testing. Our Battery Discharge Tester 10-60V 200A determines true cell capacity. Technicians then utilize our cell balancing equipment to harmonize voltage across the pack, making it ready for reliable second-life industrial use.
Shenzhen is the world's epicentre of advanced electronics manufacturing, offering an unparalleled ecosystem of electronic design, software engineering, and supply chain speed. Shenzhen Kore Auto Co., Ltd. leverages this cluster advantage to offer high-quality, cost-effective OEM/ODM diagnostic solutions.
Our vertical integration ensures we manage every step of the diagnostic tool life cycle—from initial PCB design and multi-layered surface mount technology (SMT) assembly to customized casing injections and proprietary software localization. This comprehensive control allows us to pivot rapidly as new vehicle models enter the market.
Furthermore, our strict quality control standards ensure every unit undergoes exhaustive load, voltage, and signal integrity testing. This guarantees that whether you are purchasing high-volume consumer scanners like the KW340 OBD2 Code Reader or multi-channel industrial components, you receive reliable performance out of the box.
Under strict quality guidelines, we verify and test all diagnostic products in-house.











We ensure our hardware designs meet international standards, and support multi-language localizations to fit distinct markets.
All EV testing equipment conforms to CE, FCC, and RoHS parameters, ensuring isolation detection protocols protect workshops from accidental discharges. Our equipment handles the unique high-voltage requirements of EV repair environments safely and reliably.
We specialize in localizing software interfaces into English, Spanish, German, French, Portuguese, Arabic, and more. Databases are structured for region-specific passenger and commercial vehicle coverage, ensuring smooth diagnostic operations globally.
Explore technical details and capabilities of our OEM diagnostic equipment.
Engineered for specialized workshop operations, battery diagnostics, and calibration tasks.