LFL1.333 Siemens Gas Burner Controller AC230V –10 °C – 55 °C Ignition Controller
Product Highlights
One instrument covers the entire 190–1700 nm wavelength range, acquiring full spectra in 3 ms, providing laboratory-grade accuracy and production-line speed for QC, research, and online monitoring.
Key Specifications
• Wavelength Range: 190–1700 nm (UV-Vis-NIR)
• Optical Resolution: ≤0.1 nm (@ 1200 g/mm grating)
• Signal-to-Noise Ratio: ≥ 6000:1 (High-speed mode)
• Integration Time: 3 ms – 30 s
• Sampling Frequency: Up to 1 kHz (Continuous mode)
• Interface: USB 3.2 / RS-485 / Ethernet / Wi-Fi
• Detector: 2048×64 pixel BSI-CCD + 256 pixel extended InGaAs
• Operating Temperature: –10 °C – 55 °C
• Calibration: NIST traceable, factory-calibrated wavelength and intensity
• Compatible Protocols: Modbus-TCP, OPC-UA, API (C/C++/Python/LabVIEW)
Key Advantages
1. Full Wavelength Range without Switching
Patented dual-path optical design, simultaneously acquiring UV-Vis and NIR spectra, eliminating mechanical switching errors, suitable for complex multi-component samples.
2. 3 ms Ultra-Fast Acquisition
High-sensitivity BSI-CCD combined with low-noise circuitry achieves millisecond-level full spectrum output, meeting the needs of high-speed sorting and reaction kinetics studies.
3. Thermal Drift < 0.01 nm/°C
Built-in temperature compensation algorithm and active cooling module ensure consistent wavelength accuracy for 24/7 operation.
4. Plug-and-Play Software Ecosystem
Free LFL-Spec Pro (Windows/macOS/Linux), Python SDK, and RESTful API; 5-minute development time.
5. Industry 4.0 Ready
Supports MQTT and OPC-UA, directly integrates with SCADA, MES, and cloud platforms for remote diagnostics and firmware OTA updates.
Typical Application Scenarios
• Pharmaceuticals: Real-time monitoring of API concentration and moisture content, complying with FDA 21 CFR Part 11 electronic record-keeping requirements
• Food: Online detection of fat, protein, and sugar content; high-speed sorting of up to 1200 packages per minute
• Semiconductor: Monitoring silicon wafer coating thickness with 0.1 nm precision, improving yield by 3%
• Environment: Simultaneous measurement of COD, ammonia nitrogen, and total phosphorus in surface water, without the need for reagents
• Scientific Research: Transient absorption of perovskite thin films; 1 kHz sampling captures picosecond-scale carrier dynamics
Product details pictures
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