參數(shù)資料
型號: ISL6526CR-T
廠商: INTERSIL CORP
元件分類: 穩(wěn)壓器
英文描述: Single Synchronous Buck Pulse-Width Modulation (PWM) Controller
中文描述: 2 A SWITCHING CONTROLLER, 325 kHz SWITCHING FREQ-MAX, PQCC16
封裝: 5 X 5 MM, PLASTIC, MO-220-VHHB, QFN-16
文件頁數(shù): 12/15頁
文件大?。?/td> 420K
代理商: ISL6526CR-T
12
The maximum RMS current required by the regulator may be
closely approximated through the following equation:
For a through hole design, several electrolytic capacitors may
be needed. For surface mount designs, solid tantalum
capacitors can be used, but caution must be exercised with
regard to the capacitor surge current rating. These capacitors
must be capable of handling the surge-current at power-up.
Some capacitor series available from reputable manufacturers
are surge current tested.
MOSFET Selection/Considerations
The ISL6526 requires two N-Channel power MOSFETs.
These should be selected based upon r
DS(ON)
, gate supply
requirements, and thermal management requirements.
In high-current applications, the MOSFET power dissipation,
package selection and heatsink are the dominant design
factors. The power dissipation includes two loss components;
conduction loss and switching loss. The conduction losses are
the largest component of power dissipation for both the upper
and the lower MOSFETs. These losses are distributed between
the two MOSFETs according to duty factor. The switching
losses seen when sourcing current will be different from the
switching losses seen when sinking current. When sourcing
current, the upper MOSFET realizes most of the switching
losses. The lower switch realizes most of the switching losses
when the converter is sinking current (see equations on next
page). These equations assume linear voltage-current
transitions and do not adequately model power loss due the
reverse-recovery of the upper and lower MOSFET’s body
diode. The gate-charge losses are dissipated by the ISL6526
and don't heat the MOSFETs. However, large gate-charge
increases the switching interval, t
SW
which increases the
MOSFET
switching losses. Ensure that both MOSFETs are
within their maximum junction temperature at high ambient
temperature by calculating the temperature rise according to
package thermal-resistance specifications. A separate heatsink
may be necessary depending upon MOSFET power, package
type, ambient temperature and air flow.
Given the reduced available gate bias voltage (5V), logic-
level or sub-logic-level transistors should be used for both
N-MOSFETs. Caution should be exercised with devices
exhibiting very low V
GS(ON)
characteristics. The shoot-
through protection present aboard the ISL6526 may be
circumvented by these MOSFETs if they have large parasitic
impedances and/or capacitances that would inhibit the gate
of the MOSFET from being discharged below its threshold
level before the complementary MOSFET is turned on.
Bootstrap Component Selection
External bootstrap components, a diode and capacitor, are
required to provide sufficient gate enhancement to the upper
MOSFET. The internal MOSFET gate driver is supplied by
the external bootstrap circuitry as shown in Figure 7. The
boot capacitor, C
BOOT
, develops a floating supply voltage
referenced to the PHASE pin. This supply is refreshed each
cycle, when D
BOOT
conducts, to a voltage of CPVOUT less
the boot diode drop, V
D
, plus the voltage rise across
Q
LOWER
.
Just after the PWM switching cycle begins and the charge
transfer from the bootstrap capacitor to the gate capacitance
is complete, the voltage on the bootstrap capacitor is at its
lowest point during the switching cycle. The charge lost on
the bootstrap capacitor will be equal to the charge
transferred to the equivalent gate-source capacitance of the
upper MOSFET as shown:
where Q
GATE
is the maximum total gate charge of the upper
MOSFET, C
BOOT
is the bootstrap capacitance, V
BOOT1
is
the bootstrap voltage immediately before turn-on, and
V
BOOT2
is the bootstrap voltage immediately after turn-on.
The bootstrap capacitor begins its refresh cycle when the gate
drive begins to turn-off the upper MOSFET. A refresh cycle
ends when the upper MOSFET is turned on again, which
varies depending on the switching frequency and duty cycle.
I
RMSMAX
V
V
IN
-------------
I
OUTMAX
2
1
12
------
V
---------–
V
f
s
L
V
V
IN
-------------
×
2
×
+
×
=
P
LOWER
= Io
2
x r
DS(ON)
x (1 - D)
Where: D is the duty cycle = V
OUT
/ V
IN
,
t
SW
is the combined switch ON and OFF time, and
f
s
is the switching frequency.
Losses while Sourcing current
Io
2
=
Losses while Sinking current
P
UPPER
= Io
2
x r
DS(ON)
x D
P
LOWER
Io
2
r
DS ON
)
×
1
D
(
)
×
1
2
--
Io
V
IN
×
t
SW
f
s
×
×
+
=
P
UPPER
r
DS ON
)
×
D
×
1
2
--
Io
V
IN
×
t
SW
f
s
×
×
+
ISL6526
GND
LGATE
UGATE
PHASE
BOOT
V
IN
NOTE:
V
G-S
= V
CC
-V
D
NOTE:
V
G-S
= V
CC
C
BOOT
D
BOOT
Q
UPPER
Q
LOWER
+
FIGURE 7. UPPER GATE DRIVE BOOTSTRAP
+
V
D
-
CPVOUT
Q
GATE
C
BOOT
V
BOOT1
V
BOOT2
(
)
×
=
ISL6526
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PDF描述
ISL6526EVAL1 Single Synchronous Buck Pulse-Width Modulation (PWM) Controller
ISL6526EVAL2 Single Synchronous Buck Pulse-Width Modulation (PWM) Controller
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