ISL6315 Two-Phase Multiphase Buck PWM Controller with MOSFET Drivers Integrated (No Droop)

The ISL6315 two-phase PWM control integrated circuit (IC) offers a precise voltage regulation system capable of handling advanced loads ranging from 60A to 80A. Multiphase power conversion represents a significant shift from traditional single-phase converter configurations, which are increasingly inadequate to meet the rising current demands of modern microprocessors and other electronic devices. By distributing power and load current, multiphase converters enable the use of smaller, lower-cost transistors and reduce the number of required input and output capacitors. These benefits arise from the higher effective conversion frequency and the increased frequency ripple current due to the phase interleaving process inherent in this topology. Key features of this controller IC include programmable Voltage Identification (VID) codes that are compatible with Intel VRM9, VRM10, and AMD's Hammer microprocessors, as well as a system regulation accuracy of ±1%. However, the ISL6315 does not support load-line regulation (no droop). Additional important features include advanced overvoltage and overcurrent protection mechanisms. In the event of an overvoltage condition, the converter activates the lower MOSFETs to clamp the rising output voltage, thereby safeguarding the microprocessor. Like other Intersil multiphase controllers, the ISL6315 employs cost-effective and space-efficient rDS(ON) sensing for channel current balancing and overcurrent protection. The channel current balancing is both automatic and precise, thanks to the integrated current-balance control system. Overcurrent protection can be customized for any application without the need for extra components. These features collectively provide intelligent protection for contemporary power systems.

The ISL6315 operates in a two-phase PWM control configuration, which enhances the efficiency and performance of voltage regulation in high-current applications. The architecture allows for a more effective distribution of load currents across multiple phases, which mitigates thermal stress and improves overall system reliability. The integration of programmable VID codes facilitates seamless compatibility with various microprocessor standards, ensuring that the voltage output can be tailored to the specific requirements of the connected load.

The advanced overvoltage protection mechanism is critical in preventing damage to sensitive components, as it actively regulates output voltage during fault conditions. By turning on the lower MOSFETs, the ISL6315 effectively clamps the output voltage, thereby preventing potential overvoltage scenarios that could lead to catastrophic failures.

Furthermore, the rDS(ON) sensing technology employed in the ISL6315 not only contributes to cost savings but also enhances the accuracy of current balancing across the phases. This is vital for maintaining equal load sharing, which is essential for the longevity and performance of the power delivery system. The automatic nature of the current balancing system reduces the need for external components, simplifying the overall design and reducing the footprint of the circuit.

In terms of design considerations, the ISL6315 is optimized for high-frequency operation, which allows for the use of smaller inductors and capacitors, further contributing to a compact design. The integration of sophisticated protection features ensures that the system remains robust under various operating conditions, making the ISL6315 an ideal choice for modern power management applications in high-performance computing environments.The ISL6315 two-phase PWM control IC provides a precision voltage regulation system for advanced loads up to 60A to 80A. Multiphase power conversion is a marked departure from single phase converter configurations employed to satisfy the increasing current demands of modern microprocessors and other electronic circuits.

By distributing the power a nd load current, implementation of multiphase converters utilize smaller and lower cost transistors with fewer input and output capacitors. These reductions accrue from the higher effective conversion frequency with higher frequency ripple current due to the phase interleaving process of this topology.

Outstanding features of this controller IC include programmable VID codes compatible with Intel VRM9, VRM10, as well as AMD`s Hammer microprocessors, along with a system regulation accuracy of ±1%. The ISL6315, though, does not intrinsically allow for load-line regulation (no droop). Important features of this controller IC include a set of sophisticated overvoltage and overcurrent protection.

Overvoltage results in the converter turning the lower MOSFETs ON to clamp the rising output voltage and protect the microprocessor. Like other Intersil multiphase controllers, the ISL6315 uses cost and space-saving rDS(ON) sensing for channel current balance and overcurrent protection.

Channel current balancing is automatic and accurate with the integrated current-balance control system. Overcurrent protection can be tailored to any application with no need for additional parts. These features provide intelligent protection for modern power systems. 🔗 External reference