The freezing point is the main test for the detection of added water in raw milk. However, other contaminants can be used to mask fraud in the cryoscope. The near infrared spectroscopy has proved to be a workaround in the determination of water addition, since it is a fast, nondestructive, and widespread method for compounds identification, which reduces the risk of being deceived. This paper presents a prototype for raw milk analysis that identifies the added water. A sample preparation methodology was elaborated in order to avoid a high scattering of the infrared light by fat globules. The sampling method is based on diffuse reflectance associated with a low-cost integrating sphere, which avoids the expensive commercial solutions. The developed sphere presents a reflectance index of 88% in the near infrared response region. The prototype uses LEDs as infrared light sources and an In-Ga-As-Sb photodiode for detection. The calibration was performed from a set of samples with different adulterations, later a new set was tested to validate the model created by the estimator. A coefficient of determination (R
2
) equals to 0.9562 was obtained. In the validation step, the root-mean-squared error of prediction was 0.01794. Therefore, the prototype showed that it could determine the concentration of water in the sample.