The device is available in the 8-pin MSOP package. The device also features a fixed 2ms soft-start time. The output voltage can be programmed between 0.8V and 6.5V. The device operates from 4.5V to 17V VIN input. It also has a proprietary circuit that enables the device to adopt to both low equivalent series resistance (ESR) output capacitors, such as POSCAP or SP-CAP, and ultra-low ESR ceramic capacitors. The adaptive on-time control supports seamless transition between PWM mode at higher load conditions and advanced Eco-Mode operation at light loads. The main control loop for the device uses the D-CAP2 mode control that provides a fast transient response with no external compensation components. The device lets system designers complete the suite of various end-equipment power bus regulators with a cost-effective, low component count and low standby current solution. Pricing is $5.70 each in quantities of 1,000.The Texas Instruments TPS560200-Q1 is an 17V, 500mA, low-Iq, adaptive on-time D-CAP2 mode synchronous monolithic buck converter with integrated MOSFETs in easy-to-use 8-pin MSOP package. The device comes in a small 28-pin HTSSOP (6.4 mm x 9.7 mm), PowerPad™ package for thermal enhancement and space savings. The TPS54010 is available now in volume production. For better noise performance, the device’s switching frequency is fixed over the entire output current range, and can be adjusted up to 700 kHz to reduce the size of passive components. The TPS54010 SWIFT converter provides more than 90% power efficiency and 1% output-voltage accuracy (down to 0.9 V), while integrating an array of control and supervisory features. The new TPS54010 gives point-of-load designers greater flexibility and faster time to market when designing 3.3 V industrial and telecom systems that use high-performance, digital signal processors (DSPs), field programmable gate arrays (FPGAs) and microprocessors. (TI, Dallas, TX) announced the a high-efficiency, step-down, continuous-output, 14 A dc-dc converter with peak 18 A FETs integrated onto a single chip. Extending its family of Switcher with Integrated FET Technology (SWIFT™) power management integrated circuits (ICs) Texas Instruments Inc. Looks like it gets the gist, it might not be 100 accurate for more complex code but it would be good enough starting point for something trying to convert.
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