IP1001 Просмотр технического описания (PDF) - International Rectifier
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IP1001 Datasheet PDF : 18 Pages
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iP1001
iP1001 User’s Design Guidelines
The iP1001 is a 20A power block that consists of
optimized power semiconductors, PWM control and
its associated passive components. It is based on
a synchronous buck topology and offers an optimized
solution where space, efficiency and noise caused
by stray parasitics are of concern. The iP1001 com-
ponents are integrated in a ball grid array (BGA) pack-
age where the electrical and thermal conduction is
accomplished through solder balls.
FUNCTIONAL DESCRIPTION
VIN
The standard iP1001 operating input voltage range
is 5V to 12V. The input voltage can also be easily
configured to run at voltages down to 3.3V.
FREQ
The PWM control is pseudo current mode. The ESR
of the output filter capacitor is used for current sens-
ing and the output voltage ripple developed across
the ESR provides the PWM ramp signal.
iP1001 offers two switching frequency settings,
200kHz and 300kHz. At a given setting the switching
frequency will remain relatively constant indepen-
dent of load current.
VDD (+5V bias)
An external 5V bias supply is required to operate the
iP1001. In applications where input voltages are
lower than 4.5V, and where 5V is not available, a
special boost
(as shown in
circuit is required to supply
the reference design).
VDD
with
5V
Soft Start, VDD Undervoltage Lockout
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start is initiated by
current limit. The
ramp time is typically 1.8ms. An external capacitor
can be added across the current limit resistor from
ILIM to PGND to provide up to 5ms ramp time. Select
the capacitor according to the 10nf/ms rule.
10
PGOOD
The PGOOD
undervoltage.
comparator constantly monitors
A 5% drop in output voltage can
cVaFufsoer
PGOOD to go low. PGOOD pin is internally pulled-
up
to
utoseVDthDethProGuOghOaD1s0ig0nKa, l5t%o
resistor. If it is desired
enable another stage
using iP1001, then it is recommended to filter and
buffer PGOOD to prevent transients appearing at
the output from pulling PGOOD low.
OVP (Output Overvoltage Protection)
If the overvoltage trip 2.25V threshold is reached, the
OVP is triggered, the circuit is shutdown and the
bottom FET is latched on discharging the output filter
capacitor. Pulling ENABLE low resets the latch. The
overvoltage trip threshold is scaled accordingly, if
output voltages greater than 2V are set through
voltage dividers.
UVP (Output Undervoltage Protection)
The Output Undervoltage Protection trip threshold is
fixed
0.8V
at 0.8V. If ENABLE is pulled up and
for a duration of 10-20ms, the PWM
VwFililsbbeeilnowa
latched state, with the bottom FET latched on, and
will not restart until ENABLE is recycled.
DAC Converter (D0-D4)
The output voltage is programmed through a 5-bit
DAC (see the VID code in table 1). The output volt-
age can be programmed from 0.925V to 2V. To elimi-
nate external resistors, the DAC pins are internally
pulled up. To set for output voltages above 2V, the
DAC must be set to 2V and a resistor divider,
R3 & R4 (see Fig 10.), is used. The values of the
resistors are selected using equation 1.
Equation 1 : Vout = VF x (1 + R3/R4)
where VF is equal to the DAC setting
and R4 is recommended to be ~1kΩ
ENABLE
Low
High
High
High
Bottom
FET
ON
OFF
Switching
ON
Mode
Com me nts
Shutdown
Shutdown
DAC code = X1111, Both FETs
are turned OFF.
PW M (Running)
Fault latch set by OVP or UVP.
Fault
This mode will sustain until VDD
is cycled or ENABLE is reset.
Table 3 - iP1001 Operating Truth Table
www.irf.com
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