Dolphin design IP

Fast load transient response
Output voltage drop is less than 10 mV for a 16 to 65 mA load current step change in 50 ns
Voltage settles withing 2 mV of final voltage in less than 10 us under the same conditions
Low Bill-of-Material

High efficiency buck regulator (up to 95% peak), over wide load current range
Pulse With Modulation (PWM) mode enabling to master the frequency response
Automatic mode change of the Power Stage Unit, maintaining high-efficiency at low load current
Low Bill-Of-Material: fully integrated feedback and active compensation loop do not require additional external passive components.

Low noise: high power Supply Rejection Ratio (PSRR): - 65 dB at F < 10 kHz
Low intrinsic noise: 20 uVRMS at 10 Hz to 20 kHz
Low Bill-of-Material: optimized in density for the best trade-off for the given output current and input voltage range
Cost efficient solution compared to external Power Management.

Low dropout: 380mV of dropout at ILOAD= IMAX
Low Bill-of-Material: optimized in density for the best trade-off for the given output current and input voltage range
A cost-efficient solution compared to external Power Management
Behavioral models: ease of integration in SoC and optimization of Power Management Network (PMNet) using models to verify mode transitions as well as noise propagation

High efficiency buck regulator (up to 95% in peak), thanks to dual mode (dm) controller
Pulse Frequency Modulation (PFM) mode at low load and Pulse With Modulation (PWM) mode at high load.
Low Bill-Of-Material: fully integrated feedback and active compensation loop do not require additional external passive components.
Behavioral models: ease integration in SoC and optimized Power Management Network (PMNet) by verifying mode transitions as well as noise propagation

High efficiency buck regulator (up to 95% in peak), thanks to dual mode (dm) controller
Pulse Frequency Modulation (PFM) mode at low load and Pulse With Modulation (PWM) mode at high load.
Low Bill-Of-Material: fully integrated feedback and active compensation loop do not require additional external passive components.
Behavioral models: ease integration in SoC and optimized Power Management Network (PMNet) by verifying mode transitions as well as noise propagation

Low dropout: 380mV of dropout at ILOAD= IMAX
Low Bill-of-Material: optimized in density for the best trade-off for the given output current and input voltage range
A cost-efficient solution compared to external Power Management
Behavioral models: ease of integration in SoC and optimization of Power Management Network (PMNet) using models to verify mode transitions as well as noise propagation

High efficiency buck regulator (up to 95% in peak), thanks to dual mode (dm) controller
Pulse Frequency Modulation (PFM) mode at low load and Pulse With Modulation (PWM) mode at high load.
Low Bill-Of-Material: fully integrated feedback and active compensation loop do not require additional external passive components.
Behavioral models: ease integration in SoC and optimized Power Management Network (PMNet) by verifying mode transitions as well as noise propagation

High efficiency buck regulator (up to 90%)
PFM based mode allowing high-efficiency at low load
Configured output drive before delivery to fit the application
Low Bill-of-Material: fully integrated feedback and active compensation loop do not require additional external passive components

Dolphin Design IP