This paper proposes a quantitative performance analysis of both symmetric (AES) and asymmetric (RSA, ECC) cryptographic algorithms in a low-power IoT environment using the ESP32-S2 microcontroller. Based on the results, we propose strategies for leveraging hardware acceleration and selecting suitable cryptographic algorithms. Specifically, we measure the encryption time and throughput of AES-128 in ECB and CBC modes, and evaluate the signing and verification times of RSA for various key lengths. In the case of ECC, we analyze the performance of signature and verification operations with the secp256r1 and secp384r1 standard curves. The findings show that ECC, requiring comparatively smaller key sizes yet offering security levels similar to RSA, achieves faster overall performance—indicating its suitability for low-power IoT systems. These results serve as a valuable reference for choosing cryptographic algorithms in resource-constrained IoT devices.