The RoHS 2.0-compliant Pyrolysis-Gas Chromatography (PY-GC) System offers a fast, accurate, and eco-friendly solution for detecting phthalate esters in various materials. Designed with optimized features for rapid analysis, it eliminates the need for solvents, complex preparation, and waste discharge—making it the preferred system for RoHS 2.0-compliant material testing in plastics, electronics, and polymers.
Completes full phthalate detection in just 20 minutes, with no complex pretreatment steps required.
No wastewater or chemical solvents are used—ensuring the system complies with RoHS 2.0 environmental safety regulations and is exempt from environmental impact assessments (EIA).
RoHS 2.0-compliant process involves only cutting and weighing the sample—eliminating chemical extraction or dilution steps.
Utilizes temperature-programmed pyrolysis for controlled and consistent thermal decomposition of the sample.
Suitable for testing a variety of sample forms including solids, liquids, powders, foils, and colloids, meeting the diverse requirements of RoHS 2.0 analysis.
Targeted detection of RoHS 2.0-restricted phthalate esters (e.g., DEHP, DBP, BBP, DIBP)
Commonly used for polymer screening, including plastics, cables, electronics, and household goods requiring RoHS 2.0 certification.
Fast RoHS 2.0-compliant phthalate screening with simplified operation
Programmable temperature control for precise pyrolysis
Short preparation time supported by efficient heat dissipation design
No cold spots during sample injection—ensuring reliable repeatability and analysis precision
Solvent-free operation, meeting all RoHS 2.0 environmental safety guidelines
Accommodates multiple material types (solid, liquid, and gaseous samples)
User-friendly software tailored for RoHS 2.0 testing workflows
High repeatability and stability due to advanced control over heating and pressure
Solid Samples: Cut into fine particles (approx. 0.5–1.5 mg) and place in a quartz sample boat
Liquid Samples: Inject approx. 1 µl directly into the injection port
Insert sample boat into the pyrolysis injection system and begin RoHS 2.0-compliant analysis
Pyrolysis Temp Program: 100 °C → (72 °C/min) → 280 °C (hold for 2 min)
Transfer Line Temperature: 300 °C
Injection Mode: Split injection
Solid: 0.5–1 mg
Liquid: ~1 µl
FID Detector & Injection Port Temperatures: 300 °C
GC Temp Program: Start at 100 °C (hold 1 min), ramp at 20 °C/min to 300 °C (hold for 14 min)
Operating Temperature: 15–35 °C (Optimal: 18–28 °C)
Relative Humidity: ≤ 75%, non-condensing
Environment: Free from corrosive gases and excessive dust (≤80 mg/m³)
Power Supply: 220V ±10V, 50 Hz, properly grounded
Free from electromagnetic interference
Three 10A 3-pin plug points required
Recommended UPS: Minimum 10 KVA for stable, RoHS 2.0-compliant operation
Table must support a combined weight of up to 120 kg (Pyrolysis unit, GC, PC, printer, and accessories)
Minimum space clearance: 0.5 meters around the table for safe access and operation
Recommended Table Dimensions: 250 cm (L) x 80 cm (W) x 75 cm (H)
Install exhaust ventilation above the table to manage heat and emissions
Dedicated workspace with electronic balance and RoHS 2.0-compliant tools
Ensure table stability to minimize vibration and enhance weighing accuracy
Keep balance away from airflow sources to prevent measurement interference
Recommended Dimensions: 120 cm x 80 cm x 75 cm
For limited space: two 150 cm-length tables may be used
