The UCC33421 device integrates a high-efficiency, low-emissions isolated DC/DC converter. Requiring minimum passive components to form a completely functional DC/DC power module, the device can deliver a maximum power of 1.5W across a 5kV_RMS reinforced isolation barrier over a wide range of operating temperatures in a low profile, high power density SSOP-16-pin package.

The easy-to-use feature, low profile and high power density promotes this device for size limited, cost sensitive systems with a minimum design effort replacing bulky and expensive transformer based designs.

The integrated DC/DC converter uses switched mode operation and proprietary circuit techniques to reduce power losses and boost efficiency across all loading conditions. Specialized control mechanisms, clocking schemes, and the use of an on-chip transformer provide high efficiency and low EMI emissions.

The VINP supply is provided to the primary power controller that switches the power stage connected to the integrated transformer. Power is transferred to the secondary side, rectified, and regulated using a fast hysteretic burst mode control scheme that monitors VCC and ensures it is kept within the hysteresis band under normal and transient loading events while maintaining efficient operation across all loading conditions. The VCC is regulated to 5.0V or to 5.5V by SEL pin connection to have enough headroom for a post regulator LDO for tighter regulation or lower output ripple requirement applications.

The device has an enable pin to turn the device on or off depending on the system requirement. Pulling enable pin low will reduce the quiescent current significantly if the system wants to operate in a low power consumption mode. The enable pin can also be used as a fault reporting pin, when connected to 18kΩ, the pin will be pulled low for 200μs for any fault shutdown of the device. The device has a soft-start mechanism for a smooth and fast VCC ramp up with minimum input inrush current to avoid oversizing front-end power supplies powering the device's input.