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ISL6326 |
4-Phase PWM Controller with 8-Bit DACCode Capable of Precision DCRDifferential Current SensingThe ISL6326 controls microprocessor core voltage regulationby driving up to 4 synchronous-rectified buck channels inparallel. Multiphase buck converter architecture usesinterleaved timing to multiply channel ripple frequency andreduce input and output ripple currents. Lower ripple results infewer components, lower component cost, reduced powerdissipation, and smaller implementation area.Microprocessor loads can gen |
559.77Kb, 31 pg. |
ISL6326CRZ |
4-Phase PWM Controller with 8-Bit DACCode Capable of Precision DCRDifferential Current SensingThe ISL6326 controls microprocessor core voltage regulationby driving up to 4 synchronous-rectified buck channels inparallel. Multiphase buck converter architecture usesinterleaved timing to multiply channel ripple frequency andreduce input and output ripple currents. Lower ripple results infewer components, lower component cost, reduced powerdissipation, and smaller implementation area.Microprocessor loads can gen |
559.77Kb, 31 pg. |
ISL6326CRZ-T |
4-Phase PWM Controller with 8-Bit DACCode Capable of Precision DCRDifferential Current SensingThe ISL6326 controls microprocessor core voltage regulationby driving up to 4 synchronous-rectified buck channels inparallel. Multiphase buck converter architecture usesinterleaved timing to multiply channel ripple frequency andreduce input and output ripple currents. Lower ripple results infewer components, lower component cost, reduced powerdissipation, and smaller implementation area.Microprocessor loads can gen |
559.77Kb, 31 pg. |
ISL6326IRZ |
4-Phase PWM Controller with 8-Bit DACCode Capable of Precision DCRDifferential Current SensingThe ISL6326 controls microprocessor core voltage regulationby driving up to 4 synchronous-rectified buck channels inparallel. Multiphase buck converter architecture usesinterleaved timing to multiply channel ripple frequency andreduce input and output ripple currents. Lower ripple results infewer components, lower component cost, reduced powerdissipation, and smaller implementation area.Microprocessor loads can gen |
559.77Kb, 31 pg. |
ISL6326IRZ-T |
4-Phase PWM Controller with 8-Bit DACCode Capable of Precision DCRDifferential Current SensingThe ISL6326 controls microprocessor core voltage regulationby driving up to 4 synchronous-rectified buck channels inparallel. Multiphase buck converter architecture usesinterleaved timing to multiply channel ripple frequency andreduce input and output ripple currents. Lower ripple results infewer components, lower component cost, reduced powerdissipation, and smaller implementation area.Microprocessor loads can gen |
559.77Kb, 31 pg. |
ISL6326B |
he ISL6326B controls microprocessor core voltage regulation by driving up to 4 synchronous-rectified buck channels in parallel. Multiphase buck converter architecture uses interleaved timing to multiply channel ripple frequency and reduce input and output ripple currents. Lower ripple results in fewer components, lower component cost, reduced power dissipation, and smaller implementation area.Microprocessor loads can generate load transients with extremely fast edge rates. The ISL6326B utilizes Intersil’s p |
548.8Kb, 30 pg. |
ISL6326BCRZ |
he ISL6326B controls microprocessor core voltage regulation by driving up to 4 synchronous-rectified buck channels in parallel. Multiphase buck converter architecture uses interleaved timing to multiply channel ripple frequency and reduce input and output ripple currents. Lower ripple results in fewer components, lower component cost, reduced power dissipation, and smaller implementation area.Microprocessor loads can generate load transients with extremely fast edge rates. The ISL6326B utilizes Intersil’s p |
548.8Kb, 30 pg. |
ISL6326BCRZ-T |
he ISL6326B controls microprocessor core voltage regulation by driving up to 4 synchronous-rectified buck channels in parallel. Multiphase buck converter architecture uses interleaved timing to multiply channel ripple frequency and reduce input and output ripple currents. Lower ripple results in fewer components, lower component cost, reduced power dissipation, and smaller implementation area.Microprocessor loads can generate load transients with extremely fast edge rates. The ISL6326B utilizes Intersil’s p |
548.8Kb, 30 pg. |
ISL6326BIRZ |
he ISL6326B controls microprocessor core voltage regulation by driving up to 4 synchronous-rectified buck channels in parallel. Multiphase buck converter architecture uses interleaved timing to multiply channel ripple frequency and reduce input and output ripple currents. Lower ripple results in fewer components, lower component cost, reduced power dissipation, and smaller implementation area.Microprocessor loads can generate load transients with extremely fast edge rates. The ISL6326B utilizes Intersil’s p |
548.8Kb, 30 pg. |
ISL6326BIRZ-T |
he ISL6326B controls microprocessor core voltage regulation by driving up to 4 synchronous-rectified buck channels in parallel. Multiphase buck converter architecture uses interleaved timing to multiply channel ripple frequency and reduce input and output ripple currents. Lower ripple results in fewer components, lower component cost, reduced power dissipation, and smaller implementation area.Microprocessor loads can generate load transients with extremely fast edge rates. The ISL6326B utilizes Intersil’s p |
548.8Kb, 30 pg. |