PAC5223
Power Application Controller
9V, or 12V by the microcontroller after initialization. When VP is lower than the target regulation voltage, the internal
feedback control circuitry causes the inductor current to increase to raise VP. Conversely, when VP is higher than the
regulation voltage, the feedback loop control causes the inductor current to decrease to lower VP. The feedback loop is
internally stabilized. The output current capability of the switching supply is determined by the external current sense
resistor. In the high-side current sense buck or SEPIC mode, the inductor current signal is sensed differentially between the
CSM pin and VP, and has a peak current limit threshold of 0.26V. In the low-side current sense flyback mode, the inductor
current signal is sensed differentially between the CSM pin and VSSP, and has a peak current limit threshold of 1V.
The MMSS controller is flexible and configurable as a buck, SEPIC or an AC/DC converter. Input sources include battery
supply for buck mode (Figure 10-2) or SEPIC mode (Figure 10-3), and AC Line Supply for AC/DC Flyback (Figure 10-4).
The MMSS controller operational mode is determined by external configuration and register settings from the
microcontroller after power up. It can operate in either high-side or low-side current sense mode, and does not require
external feedback loop compensation circuitry. For optional extended application range, the MMSS also incorporates
additional digital control by the microcontroller to add accurate computations for outer feedback loop control such as power
factor correction and accurate current control.
Figure 10-2. Buck Mode
VHM
DRM
V
IN
PAC522x3x
V
(15V default)
P
CSM
VP
Figure 10-3. SEPIC Mode
V
VHM
IN
PAC5223
VP
DRM
CSM
V
(9V/12V/15V)
P
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Rev 1.17‒September 20, 2017