Temperature sensors are nowadays key components of modern electronic devices. At the Faculty of Electrical Engineering, within the framework of the course Sensors and Measurement Transducers, a new platform for testing temperature sensors is needed. This thesis presents the design and testing of a temperature-controlled demonstration platform that addresses the shortcomings of similar systems (from the literature and industry), as well as the specified performance requirements. These include the ability to set the temperature from 10 °C to 80 °C, stable operation without static error, and adequate dynamics (temperature change from minimum to maximum within a maximum of 10 minutes). The platform consists of a Peltier element, a power converter, a myRIO platform, and connecting circuitry. A heat sink with a fan is mounted on one side of the Peltier element, while a metal plate, whose temperature is controlled, is attached to the other side. Thermistors are installed on both sides of the Peltier element for temperature measurement. A graphical user interface was developed in the NI LabVIEW software environment, allowing for monitoring of the system status and setting of the desired temperature. The power converter operates with pulse-width modulation, enabling continuous and stable operation across the entire operating range. The demonstration platform was tested at various operating points, and the system’s response to external disturbances was verified. The results of the performance testing confirm the suitability of the platform for use in laboratory exercises.