services

Performance testing measures a product’s operational efficiency, power output, and reliability under realistic working conditions.

Why is it important?
Ensures products meet design expectations and customer needs, critical for battery longevity and engine efficiency in automotive and EE sectors.

Methods 
Battery Thermal Performance Tests (charge/discharge efficiency), Engine performance test (power output, fuel efficiency).

Applications
Electric vehicle batteries, hybrid propulsion systems, coolant pumps, engine control systems, HVAC units.

Reference Standards
SAE J2464, ISO 12405-2, etc.

Safety testing assesses a product’s ability to operate without posing risks to users or the environment under extreme conditions.

Why is it important?
Critical for protecting lives and meeting regulatory requirements, especially in automotive safety systems and battery applications.

Methods
Flammability test, airbag deployment test (pressure and velocity), head impact test (50 km/h), crash test (frontal/side), Electrostatic Discharge (ESD), Battery Fire Exposure Test.

Applications
Interior trims, battery enclosures, HV cables, EV battery modules, child restraint systems, airbag.

Standards
FMVSS 302, UL 94, ISO 6469-1, IEC 61000-4-2, ECE R16, FMVSS 201/208, UL 1642, etc.

Electromagnetic Compatibility (EMC) testing evaluates a product’s ability to function without electromagnetic interference and resist external interference.

Why is it important?
Compliance with EMC standards prevents malfunction, especially in safety-critical applications.

Methods

• Emission Test: Radiated Emission, conducted emission, Harmonic Current.
• Immunity Tests: Electrostatic Discharge (ESD), Radiated RF Immunity, Electrical Fast Transients, Surge Immunity, Conducted RF Immunity

Applications
PCBs, control modules, EV chargers, inverters, smartphones, automotive ECU, household equipment

Reference Standards
CISPR 25, ISO 11452, IEC 61000-4-x

IP (Ingress Protection) testing assesses a product’s resistance to dust and water, ensuring sealing integrity under various environmental conditions.

Why is it important?
Crucial for products exposed to outdoor or wet environments, especially electronics and enclosures.

Methods
Water: IPX3 to IPX9K, Dust: IP5X, IP6X

Applications
Housing/sealing (automotive seals, EE enclosures), EE products (mobile phones, headphones, speakers, rugged laptops), engine (air intake systems), battery (waterproof casings)

Reference Standards
IEC 60529 (IP Code), ISO 20653

Surface testing evaluates the durability, appearance, and resistance of coatings, paints, and materials against environmental, chemical and mechanical stresses.

Why is it important?
It confirms the aesthetic and functional quality of visible or exposed parts.

Methods
Xenon weathering test (UV aging), light fastness test (color stability), aging test (long-term exposure), condensation test (moisture resistance), coating/ painting thickness test, cross hatch test (adhesion), adhesive strength test (pull-off), gloss measurement, color measurement (spectrophotometer), abrasion resistance (Taber test), fingernail test (scratch resistance), stone chip test (gravel impact), scratch resistance (linear abrasion), chemical resistance, wear resistance test, color fastness test.

Applications
Automotive painted part, plated parts (chrome, aluminum), EE housings, appliance surfaces, coated textiles, automotive interior decorative surfaces.

Reference Standards
ISO 4892-2, ASTM D523, ISO 2409, ASTM D3363, SAE J2527, ISO 6270, ISO 105-B02, OEM std, GB/T 6739, GB / T 31591, ISO 20567-1

Emission testing measures volatile organic compounds (VOCs), fogging, and odors released by materials, assessing air quality and environmental impact.

Why is it important?
To assess health impacts and meet global environmental and automotive air quality standards.

Methods
VOC test, fogging test (condensation analysis), odor test.

Application
Automotive interiors (dashboards, trims, headliners), seat foams, insulation pads, adhesives, leather and synthetic leather, full-vehicle cabin assessments

Reference Standards
VDA 278, VDA 270, DIN 75201, ISO 12219

Material testing analyzes the physical and chemical properties of materials (e.g., strength, composition) to ensure they meet design specifications and regulatory requirements.

Why is it important?
Essential for ensuring material safety, environmental compliance, and performance, preventing failures due to substandard materials in products.

Methods
RoHS (restricted substances), REACH (chemical compliance), composition test (material analysis), ELV test (end-of-life vehicle compliance); Material property test (density, tensile test, bending strength, lap shear, melt flow, charpy /izod impact test, creep, compression test, elongation testing).

Applications
Plastic, metal, foam, glass, rubber

Reference Standards
EU Directive 2011/65/EU (RoHS), EU Regulation 1907/2006 (REACH), ISO 14040 (ELV), ASTM D638, GB / T 1040.2, ASTM D792, ISO 527, ASTM D790, ASTM D1002, ISO 1133, ISO 179/180

Environmental testing exposes products to extreme conditions like temperature, humidity, and corrosion to simulate long-term exposure and ensure performance across diverse climates.

Why is it important?
It ensures that products maintain function and integrity under real-world conditions, especially in harsh climates.

Methods
High temp test (up to 150°C), low temp test (down to -40°C), thermal shock (rapid transitions), humid test (95% RH), thermal cycle test (1000+ cycles), sun simulation test salt spray test (corrosion resistance), cyclic corrosion test (accelerated aging), CASS test (copper-accelerated acetic acid salt spray).

Applications
Automotive components (interior trims, exterior mirrors, battery packs, engine systems); Household products (storage containers, refrigerated units); EE devices (phone, speaker, circuit boards, power supplies, outdoor IoT hubs).

Reference Standards
ISO 16750-4, MIL STD 810H, QC/T 15, ISO 9227, ISO 11997, SAE J2334, IEC 60068-2-x, OEM STD

Mechanical testing assesses a product's ability to withstand physical forces such as shock, vibration, or tensile stress.
It reveals how materials and assemblies behave under mechanical loads.

Why is it important?
Mechanical testing is vital for verifying structural strength, fatigue resistance, and reliability over a product's lifetime.

Methods
Vibration test, shock test, impact test (structural integrity), static load test (load-bearing capacity), free fall test, peeling test (Tape/ Glue), welding strength test (joint durability).

Applications
Automotive components (dashboards and seats, exterior panels, chassis frames, battery, engine); EE products (mobile phones, headphones, speakers, smartwatches, IoT sensors).

Reference Standards
IEC 60068-2-6/27, ISO 16750-3, MIL STD 810H, ASTM D3332, IEC 60068-2-31, ISTA requirement, OEM STD.

Reliability and durability testing evaluates a product’s ability to perform consistently over its intended lifespan under repeated stress or aging

Why is it important?
Ensures long-term customer satisfaction and compliance with safety regulations throughout a product's lifecycle

Methods
Accelerated lifetime test (ALT), High Accelerated lifetime test (HALT), fatigue test (cyclic loading), endurance test (10,000+ cycles).

Applications
EE product or component (circuit boards, LED modules, power adapters, speaker, phone), automotive component (chassis frames, body-in-white, suspension systems), etc.

Reference Standards
Customer specification