The Coupled Cyclotron Facility (CCF) has been operating at the NSCL since 2001,providing up to 160MeV/u heavy ion beams for nuclear physics experiments.Recent steps,particularly the improvement of the ECR-to-K500 injection line,were taken to improve the CCF performance.For that purpose an off-line ECR source,ARTEMIS-B,was built and used to investigate the impact on beam brightness under various source operating conditions,different initial focusing systems and current analysis dipole.Beam dynamics simulations including space-charge and 3D electrostatic field effects were performed and beam diagnostics including emittance scanner were used,leading to a better understanding of the CCF beam injection process. New initial electrostatic focusing elements such as a large-bore quadrupole triplet and a quadrupole double- doublet with compensating octupole were tested,and a new beam tuning procedure was established to improve the beam brightness for the CCF.Following these efforts,a significant increase of primary beam power out of the CCF has been achieved. The Coupled Cyclotron Facility (CCF) has been operating at the NSCL since 2001, providing up to 160 MeV / u heavy ion beams for nuclear physics experiments. Recent steps, particularly the improvement of the ECR-to-K500 injection line, were taken to improve the CCF performance. For that purpose an off-line ECR source, ARTEMIS-B, was built and used to investigate the impact on beam brightness under various source operating conditions, different initial focusing systems and current analysis dipole.Beam dynamics simulations including space- charge and 3D electrostatic field effects were performed and beam diagnostics including emittance scanner were used, leading to a better understanding of the CCF beam injection process. New initial electrostatic focusing elements such as a large-bore quadrupole triplet and a quadrupole double-doublet with compensating octupole were tested, and a new beam tuning procedure was established to improve the beam brightness for the CCF. Popular these efforts, a significant increase of primary beam power out of the CCF has been achieved.