參數資料
型號: ISL6232CAZA-T
廠商: INTERSIL CORP
元件分類: 穩(wěn)壓器
英文描述: High Efficiency System Power Supply Controller for Notebook Computers
中文描述: 2 A DUAL SWITCHING CONTROLLER, 345 kHz SWITCHING FREQ-MAX, PDSO28
封裝: ROHS COMPLIANT, PLASTIC, QSOP-28
文件頁數: 19/25頁
文件大小: 746K
代理商: ISL6232CAZA-T
19
FN9116.0
April 18, 2005
LINEAR REGULATORS AND 2V REFERENCE
In ISL6232, there are two internal regulators available, which
are LDO5 (5V) and LDO3 (3.3V). Once LDO5 is higher than
4.3V, it provides power for buck controllers, 2V reference,
and all the other blocks powered by VCC. The maximum
guaranteed output current that both LDO5 and LDO3
regulators can supply is 100mA. The real maximum current
drawn from the LDOs is determined by the maximum power
dissipation allowed in the package. A short-circuit or
overcurrent limit protection, 170mA (typ), is implemented for
both LDO5 and LDO3. Bypass LDO5 and LDO3 with a 4.7μF
ceramic capacitor.
When OUT5 is larger than the LDO5 switch-over threshold
(4.78V) and after soft-start is finished, LDO5 is shorted to
OUT5 through an internal 2
switch and the LDO5 regulator
is disabled to reduce the power dissipation. Similarly, when
OUT3 is larger than the LDO3 switch-over threshold (3.0V)
and after soft-start is finished, LDO3 is shorted to OUT3
through an internal 2.5
switch and LDO3 is turned off. All
the internal blocks (powered by VCC) get the power from the
high-efficiency switching power supply instead of the linear
regulator.
The reference voltage, REF, is 2V with a ±1.5% accuracy.
REF provides the reference voltage, 0.8V, for buck
controllers. REF is bypassed to GND with a 0.22μF
capacitor.
Application Information
This section describes how to select the external
components including the inductor, input and output
capacitors, switching MOSFETs, current sensing resistors
and loop compensator design.
The inductor selection has to accommodate trade-offs
between cost, size and efficiency. For example, the lower the
inductance, the smaller the inductor size, but ripple current is
higher; this results in higher ac losses in the magnetic core
and the windings, which decrease the system efficiency. On
the other hand, the higher inductance results in lower ripple
current and smaller output filter capacitors, but higher DCR
(dc resistance of the inductor) loss and slower transient
response. Practical inductor design is based on the inductor
ripple current being ±(15-20)% of the maximum operating dc
current at maximum input voltage. The required inductance
can be calculated from:
where V
IN
is input voltage, V
OUT
is the output voltage,
I
L
is
the inductor ripple current and f
s
is the switching frequency.
The practical inductor ripple current is chosen at 30% of the
output current:
I
L
30% I
OUT
=
For V
IN
= 12V, V
OUT
= 5V, I
OUT
= 5A, and f
s
= 300kHz,
Ferrite core inductors are often the best choice since they
are optimized at 300kHz to 600kHz operation with low core
loss. The inductor must be large enough not to saturate at
the overcurrent limit I
OC
One important factor is that the smaller the inductance, the
faster the transient response. One of the parameters limiting
the converters response to load transient is the time required
to change the inductor current. Given a sufficiently fast
control loop design, the ISL6232 can provide either
approximately 5% or 95% duty cycle in response to a load
transient. The response time is the time required to slew the
inductor current from an initial current value to the transient
current level. During this interval the difference between the
inductor current and the transient current level must be
supplied by the output capacitor. Minimizing the response
time can minimize the output capacitance required. The
response time to a transient is different for the application of
load and the removal of load.
TABLE 3. SUMMARY FOR VARIOUS OPERATION MODES
MODE
CONDITION
COMMENT
Shutdown
SHDN# = Low.
All circuitry off.
Standby
SHDN# = High.
EN3 = EN5 = Low.
LDO5, LDO3, and 2V
reference active. LGATE
stays high.
Soft-Start
LDO5>UVLO EN3
or/and EN5 enabled.
Output voltage ramps up
in 1.2ms.
Normal
Operation
SHDN# = High. EN3 and
EN5 enabled.
All circuitry is running.
Discharge
Either output is still high
in standby mode.
Discharging the output
through an internal 20
switch from PHASE to
PGND. One output may
still operate while the
other is in discharge
mode. LDO5 active.
Undervoltage
Protection
Either output is below
75% of nominal after a
20ms blanking time and
output enabled.
Lower side MOSFET is
latched on after discharge
mode terminates. LDO5 is
active. Reset by toggling
EN3, EN5, SHDN#, VIN
POR.
Overvoltage
Protection
Either output voltage is
13% higher than the
nominal.
Low side MOSFET is
forced high and high side
MOSFET is forced low.
L
---------------------------------
-----------------
=
(EQ. 5)
L
5
5
×
-----------------
12
300
10
3
×
×
--------------------------------------
6.5
μ
H
=
=
(EQ. 6)
IOC
----------------
=
(EQ. 7)
ISL6232
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