– Try a different weighting (1/x or 1/x²) or remove the highest standard if it’s curved. WinLab32’s linear through zero often works better for low-level work.
The key is understanding how it organizes things: → Methods → Samples → Results winlab32 for aa
Set up your project first, then build or load a method, build a sequence, and go. 1. Built-in Method Library WinLab32 comes with default methods for most elements (Cu, Pb, Cr, etc.). They include reasonable lamp currents, slit widths, and flame conditions. Perfect as a starting point—just tweak for your matrix. 2. Real-Time Graphics Watching the absorbance trace live is useful for troubleshooting. You’ll see noisy baselines, carryover, or spiking artifacts immediately. 3. Autosampler Control (for Furnace or Flame) If you have an AS‑900 or similar, WinLab32 handles vial mapping, rinse cycles, and even automated calibration. Set it once, and you can walk away for 50+ samples. 4. Quality Control Checks Easily add CCV (continuing calibration verification), blanks, and duplicates into your sequence. The software flags failures—no more manually checking every result. Common Annoyances (And Fixes) “Lamp not recognized” – Check that the lamp type (HCL vs EDL) matches what’s set in the method. Also, warm up EDLs for 15+ minutes before calibrating. – Try a different weighting (1/x or 1/x²)