The Cloud Remote Sensing Laboratory is equipped with a suite of active and passive instruments designed to monitor atmospheric processes related to cloud and precipitation dynamics, boundary layer structure, and wind fields. The instrumentation enables high-resolution profiling of thermodynamic and dynamic atmospheric properties, supporting long-term studies of cloud microphysics, aerosol-cloud interactions, and hydrometeor classification. Instruments operating at the site include two cloud radars operating at 35 GHz and 94 GHz, respectively, which provide continuous measurements of cloud structure and evolution under all weather conditions. The scanning Doppler lidar complements these observations by retrieving wind speed and direction, as well as optical properties of aerosol layers. The RPG HATPRO G2 and G5 microwave radiometers provide vertical profiles of temperature and humidity, as well as cloud liquid water path and stability indices. The Lufft CHM15k ceilometer offers information on cloud base height, aerosol layering, and vertical visibility, extending up to 15 km. Additionally, a Parsivel disdrometer delivers precise data on hydrometeor size distribution and precipitation type, enabling classification of rain, snow, hail, and mixed events. All instruments operate continuously, supported by an on-site weather station for basic meteorological parameters such as temperature, humidity, wind speed, and pressure. Together, the measurement systems form an integrated platform for atmospheric profiling, capable of supporting both process studies and validation activities for satellite observations or numerical weather prediction models.