AP2002 Ver la hoja de datos (PDF) - Anachip Corporation
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AP2002 Datasheet PDF : 7 Pages
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Synchronous PWM Controller
AP2002
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 “Power Good” flag, shutdown,
and cycle-by-cycle current limit.
The output voltage of the synchronous converter is
set and controlled by the output of the error
amplifier. The external resistive divider reference
voltage is derived from an internal trimmed
band-gap voltage reference. The inverting input of
the error amplifier receives its voltage from the
SENSE pin.
The internal oscillator uses an on-chip capacitor
and trimmed precision current sources to set the
oscillation frequency to 200KHz. The triangular
output of the oscillator sets the reference voltage at
the inverting input of the comparator. When the
oscillator output voltage drops below the error
amplifier output voltage, the comparator output
goes high. This pulls DRVL low, turning off the
low-side FET, and DRVH is pulled high, turning on
the high-side FET (once the cross-current control
allows it). When the oscillator voltage rises back
above the error amplifier output voltage, the
comparator output goes low. This pulls DRVH low,
turning off the high-side FET, and DRVL is pulled
high, turning on the low-side FET (once the
cross-current control allows it).
As SENSE increases, the output voltage of the
error amplifier decreases. This causes a reduction
in the on-time of the high-side MOSFET connected
to DRVH, hence lowering the output voltage.
Under Voltage Lockout
The under voltage lockout circuit of the AP2002
assures that the high-side MOSFET driver outputs
remain in the off state whenever the supply voltage
drops below set parameters. Lockout occurs if VCC
falls below 4.1V. Normal operation resumes once
VCC rises above 4.2V.
Over-Voltage Protection
The over-voltage protection pin (OVP) is high only
when the voltage at SENSE is 20% higher than the
target value programmed by the external resistor
divider. The OVP pin is internally connected to a
PNP’s collector.
Power Good
The power good function is to confirm that the
regulator outputs are within +/- 10% of the
programmed level. PWRGD remains high as long
as this condition is met. PWRGD is connected to an
internal open collector NPN transistor.
Soft Start
Initially, SS/ SHDN sources 10uA of current to
charge an external capacitor. The outputs of the
error amplifiers are clamped to a voltage
proportional to the voltage on SS/ SHDN . This limits
the on-time of the high-side MOSFET, thus leading
to a controlled ramp-up of the output voltages.
RDS(ON) Current Limiting
The current limit threshold is setting by connecting
an external resistor from VCC supply to OCSET.
The voltage drop across this resistor is due to the
200uA 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 un-contributing measurements
from the MOSFETs off-voltage. When the voltage at
PHASE is less than the voltage at OCSET, an
over-current condition occurs and the soft start
cycle is initiated. The synchronous switch turns off
and SS/ SHDN starts to sink 2uA. When
SS/ SHDN reaches 0.8V, it then starts to source
10uA and a new cycle begins.
Anachip Corp.
www.anachip.com.tw
Rev. 0.2 Apr 14, 2004
5/7
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