Due to the severe global warming and climate change, developing effective heat management using renewable energy has become a pivotal issue. With the sun as the heat source and the deep space as the cold source, electrochromic device is a key technology to modulate solar and thermal energy for heating and cooling performances. Here, a flexible ultra-wideband transparent conducting electrode (UWB-TCE) based on metal mesh, with low sheet resistance (R_s = 22.4 ohm/sq) and high optical transmittance (T_(UV-Vis) = 85.63%, T_(near-IR) =87.85%, and T_(mid-IR) = 84.87%) has been demonstrated to realize the electrochromic device that is capable of synergistic solar and radiative heat management. Enabled by the metal mesh-based electrochromic device, the UWB-TCE can also switch between solar heating mode (high solar absorptivity and low thermal emissivity) and radiative cooling mode (low solar absorptivity and high thermal emissivity) by controlling optimal electrodeposition morphology for surface plasmon resonance. The optimal solar absorptivity (α) and thermal emissivity (ε) of solar heating and radiative cooling mode are (α, ε) = (0.60, 0.20), and (0.33, 0.94), respectively. The proposed UWB-TCE and dual-band solar and mid-IR electrochromic device can bring vast opportunities for applications in heat management, camouflage, display, and building energy efficiency.