The diagram of UV and molecular weight cut-off of several health drinks in the market had a difficulty by naked eye to select the optimal location to understand the contribution of individual components using deconvolution method and Gauss function. After this transformation, a more detailed and accurate view could be provided to make the qualitative analysis and a comparison with the commercially available standard products of Antrodia camphorata, providing more subtle and meaningful observations on commercial products, including Ganoderma lucidum, Cordyceps sinensis and Ginseng. Based on the consideration of particle size of the powder of Antrodia camphorata dissolved into ethanol was diluted with 10,000 time by ethanol and pure water, whole samples should be filtered by 0.2 μm membrane filter. The stock solution of Antrodia camphorata diluted with 10,000 times in both solvents had three UV peaks ranged from 251 nm to 284 nm excluding the effect of anion ions by deconvolution method and Gauss function. High correlation coefficients and statistically significant were found on simulated diagram in comparison with original diagram. For Ganoderma, there had three UV peaks of 285, 300 and 391 nm. UV Components of 268 nm 279 nm existed in Cordyceps sinensis. Ginseng had UV characteristic of 259 and 268 nm. Regarding to the original diagram of molecular weight cut-offs (MWCOs) applied with deconvolution method, the dominant values at UV=265 nm and UV =280 nm were respectively 2.8 kDa and 3.2 kDa. MWCOs of typical samples taken from each kind of commercial health drinks (UV=265 nm) ranged from 3 kDa to 4.5 kDa, approaching 2.8 kDa of Ganoderma lucidum. Similar location of MWCOs for typical samples taken from each kind of commercial health drinks were found between at UV=280 nm and UV=265 nm; however, the major location at UV=280 nm was close to the proximity of 3.2 k Da of Ganoderma lucidum. This research provide an evidence to confirm the applicability of Deconvolution method and Gauss function on the analysis of UV and molecular weight diagrams, being as a qualitative and subsequently quantitative reference.