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ACE707A Datasheet, PDF (6/9 Pages) ACE Technology Co., LTD. – Micro Power Step-up DC-DC Converter
Technology
ACE707A
Micro Power Step-up DC-DC Converter
ACE707A, ISMITCH=300mA
ACE707A, ISMITCH=70mA
Junction Temperature (℃)
Figure 7. Saturation Voltage vs. Junction Temperature
Junction Temperature (℃)
Figure 8. Saturation Voltage vs. Junction Temperature
Load Current (mA)
Figure 9. Efficiency
Load Current (mA)
Figure 10. Efficiency
Application Information
Operating Principles
ACE707A feature a constant off-time control scheme. Refer to Figure 3, the bandgap voltage VREF
(1.23V typical) is used to control the output voltage.
When the voltage at the FB pin drops below the lower hysteresis point of Feedback Comparator (typical
hysteresis is 8mV), the Feedback Comparator enables the chip and the NPN power switch is turned on,
the current in the inductor begins to ramp up and store energy in the coil while the load current is supplied
by the output capacitor. Once the current in the inductor reaches the current limit, the Current-Limit
Comparator resets the 400ns One-Shot which turns off the NPN switch for 400ns. The SW voltage rises
to the output voltage plus a diode drop and the inductor current begins to ramp down. During this time the
energy stored in the inductor is transferred to COUT and the load. After the 400ns off-time, the NPN
switch is turned on and energy will be stored in the inductor again.
This cycle will continue until the voltage at FB pin reaches 1.23V, the Feedback Comparator disables
the chip and turns off the NPN switch. The load current is then supplied solely by output capacitor and the
output voltage will decrease. When the FB pin voltage drops below the lower hysteresis point of
Feedback Comparator, the Feedback Comparator enables the device and repeats the cycle described
previously. Under not switching condition, the IQ of the device is about 17μA.
VER 1.2 6