 The purpose of this research was to develop a low-cost, portable, and prospective laboratory kit module. This module was designed to be easily assembled with relatively small dimensions and suitable for use in laboratories with limited experimental space and funds. The research process included needs analysis, hardware design, software design, and overall testing. The test results showed that the DHT-11 temperature sensor could accurately read the temperature and humidity index, which were then displayed on the LCD screen. Additionally, the PWM of the DC motor and the direction of its rotation could be controlled by the DHT-11 sensor. Furthermore, the keypad could be used to control the direction of the servo motor, allowing students to authenticate themselves via password. Finally, the module was tested for data communication over the local network, which allowed it to control the motor and relay even if there was a slight delay in sending data due to the condition of the internet network at the time of testing. Overall, the test results worked well, suggesting that this module would encourage students to create technological innovations based on embedded systems and IoT, leading to greater technology development among them. This article was authored by Aira Madona, Ulastry Ulastry, and Garen Azushin, and others. We are article.tv. Links in the description below.