As an important quantum communication protocol, quantum teleportation has broad applications in quantum information science and technology. For the application, it is essential to enhance the ability of quantum teleportation by teleporting multiple quantum states simultaneously. Here, we experimentally demonstrate deterministic quantum teleportation of multiple sideband qumodes of coherent states, which corresponds to teleporting multiple quantum states simultaneously, with the assistance of continuous-variable (CV) quantum entanglement. By fine-tuning the phases of two classical channels according to different adjustable frequencies, we successfully realize deterministic CV quantum teleportation with up to 5 sideband qumodes simultaneously within the frequency bandwidth of 24 MHz.