Ship stealthiness, as a crucial evaluation metric, requires accurate measurement of its radiated noise level during navigation using sonar equipment. Since the vessel acts as a volumetric source, its radiated noise spectrum typically exhibits a broadband continuous spectrum plus line spectra. Consequently, meeting measurement requirements necessitates that the sonar array for radiated noise measurement must achieve constant beamwidth across the required bandwidth to guarantee accuracy in full-bandwidth measurements. This paper proposes a constant-beamwidth beamforming method based on a V-shaped nested array. This method ingeniously utilizes the inherent "port-starboard ambiguity" characteristic of linear arrays to form a V-shaped configuration. By combining the properties of nested linear arrays with the capability to control beamwidth by adjusting the included angle, it achieves a constant-beamwidth beamforming method with higher measurement gain. Finally, computer simulation experiments verify the correctness of the proposed method. Compared to traditional nested linear arrays, this approach resolves the "port-starboard ambiguity" limitation of linear arrays while achieving higher spatial array gain, providing an improved measurement technique for underwater vehicle radiated noise measurement.