SIP12201 查看數據表(PDF) - Vishay Semiconductors
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SIP12201 Datasheet PDF : 12 Pages
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SiP12201
Vishay Siliconix
into a fault state. If the over current condition is
removed before seven consecutive cycles the IC will
revert to normal mode.
Fault State:
The IC can only enter into Fault mode after the soft
start mode has ended and seven consecutive over cur-
rent condition cycles has occurred. Once it enters the
Fault state, with the High Side MOSFET turned off and
the Low Side MOSFET turned on, any occurring over
current condition will be ignored. The Fault State will
last for seven soft start cycles. After which the IC will
enter Soft Start mode. If the over current condition is
removed the IC will operate normally, otherwise the
over current sequence is repeated. This fault scheme
minimizes thermal stress on the external power MOS-
FET switches.
Over Temperature:
When the temperature of the chip goes above 165 °C,
the chip enters into over temperature shutdown. The
High Side gate will be off and the Low Side gate will be
on. Only system monitor circuitry will be active. Once
the temperature of the chip drops below 145 °C, the
chip enters into the normal operation mode.
Duty-Factor Limitations for Low VOUT / VIN Ratios
The SiP12201 output voltage is adjustable down to 0.6
V. However, the minimum duty factor may limit the
ability to supply low-voltage outputs from high voltage
inputs. With high-input voltages, the required duty fac-
tor is approximately:
Setting the Output Voltage:
An output voltage between 0.6 V and 20 V (if VIN is
between 4.2 V and 6.0 V then the maximum VOUT is
0.9* VIN) and can be configured by connecting FB pin
to a resistive divider between the output and GND.
Select resistor R2 in the 1 kΩ to 10 kΩ range. R1 is
then given by:
( ) R1 = R2
V OUT− 1
V FB
where VFB = 0.6 V.
VOUT
R1
FB
R2
0.6 V
( ) VOUT + RDS(ON) × ILOAD
VIN
where RDS(ON) x ILOAD is the voltage drop across the
synchronous rectifier. The SiP12201 minimum duty
factor is 10%, so the maximum input voltage (VIN(MAX))
that can supply a given output voltage is:
VIN ( MAX) ≤ 10 X (VOUT + R DS(ON) × I LOAD)
If the circuit cannot attain the required duty factor dic-
tated by the input and output voltages, the output volt-
age still remains in regulation. However, there may be
intermittent or continuous half-frequency operations as
the controller attempts to lower the average duty factor
by deleting pulses. This can increase output voltage
ripple and inductor current ripple, which increases
noise and reduces efficiency. Furthermore, circuit sta-
bility is not guaranteed.
Document Number: 73541
S-52332–Rev. B, 07-Nov-05
www.vishay.com
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