AP2011 Просмотр технического описания (PDF) - Anachip Corporation
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AP2011 Datasheet PDF : 9 Pages
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Synchronous PWM with VFC Controller
AP2011
Function Description
Synchronous Buck Converter
Primary VCORE power is provided by a synchronous,
voltage-mode pulse width modulated (PWM)
controller. This section has all the features required
to build a high efficiency synchronous buck converter,
including soft-start, shutdown, and cycle-by-cycle
current limit.
Referring to the functional block diagram FIG 1, the
output voltage of the synchronous converter is set
and controlled by the output of the error comparator.
The external resistive divider reference voltage, is
derived from an internal trimmed-bandgap voltage
reference. The inverting input of the error
comparator receives its voltage from the FB pin.
The internal oscillator uses an on-chip capacitor and
trimmed precision current sources to set the virtual
oscillation frequency to 200Khz. The virtual
frequency oscillator sets the PWM latch. This pulls
DRVN low, turning off the low-side N_MOSFET and
DRVP is pulled low, turning on the high-side
P-MOSFET (once the cross-current control allows it).
The triangular voltage ramp at the FB pin is then
compared against the reference voltage at the
inverting input of the error comparator. When the FB
voltage increases above the reference voltage, the
comparator output goes high. This pulls DRVP high,
turning off the high-side P-MOSFET, and DRVN is
pulled high, turning on the low-side N-MOSFET
(once the cross-current control allows it). The Virtual
Frequency Oscillator then generates a programmed
off time to allow the FB voltage to return to the valley
voltage of the triangular ramp. At the end of the off
time the PWM latch is set and the cycle repeats
again.
Under Voltage Lockout
The under voltage lockout circuit of the AP2011
assures that the high-side P-MOSFET driver outputs
remain in the off state whenever the supply voltage
drops below set parameters. Lockout occurs if VCC
falls below 6.5V. Normal operation resumes once
VCC rises above 6.8V.
RDS(ON) Current Limiting
The current limit threshold is set by connecting an
external resistor from the VCC supply to OCSET. The
voltage drop across this resistor is due to the 70uA
internal sink sets the voltage at the pin. This voltage
is compared to the voltage at the PHASE node. This
comparison is made only when the high-side drive is
high to avoid false current limit triggering due to
uncontributing measurements from the MOSFETs
off-voltage. When the voltage at PHASE is less than
the voltage at OCSET, an overcurrent condition
occurs and the soft start cycle is initiated. The
synchronous switch turns on and SS/ SHDN starts
to sink 2uA. When SS/ SHDN reaches 0.2V, it then
starts to source 10uA and a new cycle begins. When
the soft start voltage is below 0.9V the cycle is
controlled with pulse by pulse current limiting.
Soft Start
Initially, SS/ SHDN sources 10uA of current to charge
an external capacitor. The inverting input of the error
comparator is clamped to a voltage proportional to
the voltage on SS/ SHDN . This limits the on-time of
the high-side P-MOSFET, thus leading to a
controlled ramp-up of the output voltages.
Anachip Corp
www.anachip.com.tw
Rev. 1.1 Apr 1, 2005
7/9
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