The LMS1225 device is an
industry-first 22.5V, synchronous-rectification power stage with
an integrated gate driver and a MOSFET. The device provides body-diode conduction
sensing and reporting and integrates a high performance driver that allows any
digital PWM controller to achieve advanced synchronous-rectification (SR) control.
The device contains a high-speed gate driver, a body-diode conduction-sensing
circuit, an autonomous turn-on and dead time reporting features. The device is
designed for high-efficiency center-tapped LLC applications, where SR dead-time
optimization is desired.
The LMS1225 device offers efficient operation at high frequencies up
to 5MHz. The gate drive control turns on through PWM signal in standard operation or
autonomously turns on in IDM operation. In IDM operation an internal high-speed
comparator with a –250mV threshold detects the body-diode
conduction and autonomously switches on the MOSFET at the turn-on edge if the PWM
signal is already high. The device is capable of sensing body-diode conduction time
as low as 4ns. In both operation modes, turn-off control
relies on PWM falling edge.
The LMS1225 internal high-speed comparator with a –250mV threshold detects the body-diode conduction and
reports the information to the digital-power controller through the DTC pin. The
device senses body-diode conduction time as low as 4ns.
The SR turn-on and turn-off edge is optimized by the digital-power controller which
analyzes the body-diode conduction information reported by the LMS1225 DTC pin.
The benefits of the chipset include maximizing
system efficiency by minimizing body-diode conduction time, robust and fast
bi-directional current sensing. The integrated approach promotes high power density
with a layout which is optimized by as much as 30% in comparison to discrete
solutions.
The LMS1225 device is an
industry-first 22.5V, synchronous-rectification power stage with
an integrated gate driver and a MOSFET. The device provides body-diode conduction
sensing and reporting and integrates a high performance driver that allows any
digital PWM controller to achieve advanced synchronous-rectification (SR) control.
The device contains a high-speed gate driver, a body-diode conduction-sensing
circuit, an autonomous turn-on and dead time reporting features. The device is
designed for high-efficiency center-tapped LLC applications, where SR dead-time
optimization is desired.
The LMS1225 device offers efficient operation at high frequencies up
to 5MHz. The gate drive control turns on through PWM signal in standard operation or
autonomously turns on in IDM operation. In IDM operation an internal high-speed
comparator with a –250mV threshold detects the body-diode
conduction and autonomously switches on the MOSFET at the turn-on edge if the PWM
signal is already high. The device is capable of sensing body-diode conduction time
as low as 4ns. In both operation modes, turn-off control
relies on PWM falling edge.
The LMS1225 internal high-speed comparator with a –250mV threshold detects the body-diode conduction and
reports the information to the digital-power controller through the DTC pin. The
device senses body-diode conduction time as low as 4ns.
The SR turn-on and turn-off edge is optimized by the digital-power controller which
analyzes the body-diode conduction information reported by the LMS1225 DTC pin.
The benefits of the chipset include maximizing
system efficiency by minimizing body-diode conduction time, robust and fast
bi-directional current sensing. The integrated approach promotes high power density
with a layout which is optimized by as much as 30% in comparison to discrete
solutions.