HIP6006CB Intersil, HIP6006CB Datasheet - Page 9
HIP6006CB
Manufacturer Part Number
HIP6006CB
Description
IC CTRLR PWM VOLTAGE MODE 14SOIC
Manufacturer
Intersil
Datasheet
1.HIP6006CBZ.pdf
(12 pages)
Specifications of HIP6006CB
Pwm Type
Voltage Mode
Number Of Outputs
1
Frequency - Max
215kHz
Duty Cycle
100%
Voltage - Supply
2.5 V ~ 12 V
Buck
Yes
Boost
No
Flyback
No
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
No
Operating Temperature
0°C ~ 70°C
Package / Case
14-SOIC (3.9mm Width), 14-SOL
Frequency-max
215kHz
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
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Manufacturer:
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Quantity:
20 000
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20 000
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 (see the equations below). Only the
upper MOSFET has switching losses, since the Schottky
rectifier clamps the switching node before the synchronous
rectifier turns on.
P
Where: D is the duty cycle = V
These equations assume linear voltage-current transitions
and do not adequately model power loss due the reverse-
recovery of the lower MOSFETs body diode. The
gate-charge losses are dissipated by the HIP6006 and don't
heat the MOSFETs. However, large gate-charge increases
the switching interval, t
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.
Standard-gate MOSFETs are normally recommended for
use with the HIP6006. However, logic-level gate MOSFETs
can be used under special circumstances. The input voltage,
upper gate drive level, and the MOSFETs absolute gate-to-
source voltage rating determine whether logic-level
MOSFETs are appropriate.
Figure 9 shows the upper gate drive (BOOT pin) supplied by
a bootstrap circuit from V
develops a floating supply voltage referenced to the PHASE
pin. This supply is refreshed each cycle to a voltage of V
less the boot diode drop (V
turns on. A logic-level MOSFET can only be used for Q1 if
the MOSFETs absolute gate-to-source voltage rating
exceeds the maximum voltage applied to V
logic-level MOSFET can be used if its absolute gate-to-
source voltage rating exceeds the maximum voltage applied
to PVCC.
Figure 10 shows the upper gate drive supplied by a direct
connection to V
converter systems where the main input voltage is +5 VDC
or less. The peak upper gate-to-source voltage is
approximately VCC less the input supply. For +5V main
power and +12 VDC for the bias, the gate-to-source voltage
of Q1 is 7V. A logic-level MOSFET is a good choice for Q1
and a logic-level MOSFET can be used for Q2 if its absolute
gate-to-source voltage rating exceeds the maximum voltage
applied to PVCC.
P
LOWER
UPPER
t
Fs is the switching frequency.
SW
= I
= I
O
O
is the switching interval, and
2
2
x r
x r
CC
DS(ON)
DS(ON)
. This option should only be used in
SW
CC
x D + 1
x (1 - D)
which increases the upper
D
. The boot capacitor, C
) when the lower MOSFET, Q2
9
O
2
/ V
Io x V
IN
,
IN
x t
CC
SW
. For Q2, a
x Fs
BOOT
CC
HIP6006
FIGURE 10. UPPER GATE DRIVE - DIRECT V
Schottky Selection
Rectifier D2 is a clamp that catches the negative inductor
swing during the dead time between turning off the lower
MOSFET and turning on the upper MOSFET. The diode must
be a Schottky type to prevent the lossy parasitic MOSFET
body diode from conducting. It is acceptable to omit the diode
and let the body diode of the lower MOSFET clamp the
negative inductor swing, but efficiency will drop one or two
percent as a result. The diode's rated reverse breakdown
voltage must be greater than the maximum input voltage.
FIGURE 9. UPPER GATE DRIVE - BOOTSTRAP OPTION
HIP6006
+
HIP6006
+
-
-
+12V
+12V
VCC
VCC
+
GND
D
GND
V
BOOT
D
BOOT
UGATE
PHASE
LGATE
PGND
PVCC
BOOT
UGATE
PHASE
LGATE
PGND
PVCC
-
+5V
+5V
OR +12V
OR +12V
C
BOOT
Q1
Q2
Q1
+5V OR +12V
Q2
+5V OR LESS
D2
CC
D2
NOTE:
V
V
NOTE:
NOTE:
V
NOTE:
V
G-S
G-S
DRIVE OPTION
G-S
G-S
≈ V
≈ V
≈ PVCC
≈ PVCC
CC
CC
- V
- 5V
D
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