Magnetostatic shields based on Ni-Fe alloys were obtained via electrochemistry method with different thickness of partial magnetic layers. The experimental researches of the magnetic properties and magnetostatic shielding effectiveness of the single-layer and malty-layer cylindrical sample of the shields based on the electrodeposited Ni80Fe20 and Ni50Fe50 alloy are carried out. It has been shown that shields of gradient type (200 μm Ni50Fe50+200 μm Ni80Fe20 and 100 μm Ni50Fe50+300 μm Ni80Fe20) containing layers with different values of saturation induction (Bs) have a higher shielding efficiency than shield of a symmetric type (400 μm Ni50Fe50 and 400 μm Ni80Fe20). Maximum efficiency of magnetostatic shielding has been noted for 200 μm Ni50Fe50+ 200 μm Ni80Fe20 sample. It opens wide prospects for practical application for protection of the microelectronics devices against permanent magnetic fields.