ST’s VIPER01 operates directly from a rectified mains supply and integrates an 800V avalanche-rugged Power MOSFET with PWM (Pulse-Width Modulation) current-mode control and multiple protection circuits. The converter is tailored to provide the auxiliary supply to microcontrollers in IoT devices that are permanently connected to the Internet or a local network.
The new device belongs to the VIPerPlus family of high-voltage converters, now in its second generation, and uses ST’s BCD (Bipolar-CMOS-DMOS) technology. BCD allows the integration in a single chip of a high-performance PWM controller with a high-voltage logic-level control transistor, protection and diagnostic circuitry, without significantly impacting the robustness and reliability of the power transistor.
VIPER01 enables designers to meet the most stringent energy-saving standards, as it has very low power consumption and switches automatically to pulse frequency modulation under light load conditions. It can be used in fly-back, buck, and buck-boost converter topologies, while the integrated high-voltage start-up, sense-FET, error amplifier, and oscillator with jitter allow a complete application to be designed with the minimum number of external components.
Features of the VIPER01 include:
800 V avalanche-rugged Power MOSFET allowing ultra-wide VAC input range;
Embedded HV start-up and sense-FET;
Current mode PWM controller;
Drain current limit protection;
Wide supply-voltage range from 4.5V to 30V;
Self-supply option allows auxiliary winding or bias components to be removed;
Jittered switching frequency reduces the EMI filter cost;
Embedded error amplifier with 1.2V reference voltage;
Protections with automatic restart include overload/short-circuit, line or output OVP, maximum duty cycle counter, VCC clamp;
Embedded thermal shutdown;
Built-in soft-start for improved system reliability.
The VIPER01 comes with a set of tools including evaluation kits, application notes, and spice models to jumpstart more robust, safer, and cost-effective SMPS designs, and costs $0.364 (1,000)