The circuit in Figure 1 converts a regulated 5V input to an isolated 5V output with 1A current-output capability. IC1, a push-pull transformer driver, powers a pair of cross-coupled power MOSFETs in a flip-flop-like configuration. In turn, the MOSFETs toggle the primary winding of a forward transformer. The transformer's secondary output, after rectification and filtering, provides the isolated 5V supply. Because the output voltage is unregulated, its voltage tolerance depends on the input-voltage range and the range of load current. With Schottky rectifiers, such as the MBRS130 for D1 and D2, the circuit delivers 5V ±10% at 700 to 1000mA from a 5V ±5% input with 80% efficiency (Figure 2). Using ultrafast-recovery silicon rectifiers, such as the MURS120, the circuit delivers 5V ±10% at 200 to 500 mA from a 5V ±5% input, with 77% efficiency. (DI #2502) Figure 1. A simple circuit produces a 5V, 1A isolated output from a 5V regulated input. Figure 2. The efficiency of the circuit in Figure 1 depends directly on the forward drops of the output rectifiers. Reprinted from EDN Magazine March 30, 2000 Copyright Cahners Business Information 2000 A Division of Reed Elsevier Inc. Automatic Updates Would you like to be automatically notified when new application notes are published in your areas of interest? Sign up for EE-Mail™. We Want Your Feedback!   Download, PDF Format (33kB)  AN674, AN 674, APP674, Appnote674, Appnote 674