參數(shù)資料
型號(hào): LTC3862HFE#PBF
廠商: LINEAR TECHNOLOGY CORP
元件分類: 穩(wěn)壓器
英文描述: DUAL SWITCHING CONTROLLER, 500 kHz SWITCHING FREQ-MAX, PDSO24
封裝: 4.40 MM, LEAD FREE, PLASTIC, TSSOP-24
文件頁數(shù): 7/40頁
文件大?。?/td> 613K
代理商: LTC3862HFE#PBF
LTC3862
15
3862fb
OPERATION
Operation at High Supply Voltage
At high input voltages, the LTC3862’s internal LDO can
dissipate a signicant amount of power, which could
cause the maximum junction temperature to be exceeded.
Conditions such as a high operating frequency, or the use
of more than one power MOSFET per channel, could push
the junction temperature rise to high levels. If the thermal
equations above indicate too high a rise in the junction
temperature, an external bias supply can always be used
to reduce the power dissipation on the IC, as shown in
Figure 3.
For example, a 5V or 12V system rail that is available
would be more suitable than the 24V main input power
rail to power the LTC3862. Also, the bias power can be
generated with a separate switching or LDO regulator. An
example of an LDO regulator is shown in Figure 3. The
output voltage of the LDO regulator can be set by selecting
an appropriate zener diode to be higher than 5V but low
enough to divide the power dissipation between LTC3862
and Q1 in Figure 3. The absolute maximum voltage rating
of the INTVCC pin is 6V.
ow from the external INTVCC supply, through the body
diode of the LDO PMOS device, to the input capacitor
and VIN pin. This high current ow could trigger a latchup
condition and cause catastrophic failure of the IC.
If, however, the VIN supply to the IC comes up before the
INTVCC supply, the external INTVCC supply will act as a
load to the internal LDO in the LTC3862, and the LDO will
attempt to charge the INTVCC output with its short-circuit
current. This will result in excessive power dissipation and
possible thermal overload of the LTC3862.
If an independent 5V supply exists in the system, it may be
possible to short INTVCC and VIN together to 5V in order to
reduce gate drive power dissipation. With VIN and INTVCC
shorted together, the LDO output PMOS transistor is biased
at VDS = 0V, and the current demand of the internal analog
and digital control circuitry, as well as the gate drive cur-
rent, will be supplied by the external 5V supply.
Programming the Output Voltage
The output voltage is set by a resistor divider according
to the following formula:
VV
R
OUT =+
1 223
1
2
1
.
The external resistor divider is connected to the output
as shown in Figure 4. Resistor R1 is normally chosen so
that the output voltage error caused by the current owing
out of the VFB pin during normal operation is negligible
compared to the current in the divider. For an output volt-
age error due to the error amp input bias current of less
than 0.5%, this translates to a maximum value of R1 of
about 30k.
Figure 3. Using the LTC3862 with an External Bias Supply
Figure 4. Programming the Output Voltage
with a Resistor Divider
VIN
R1
Q1
D1
CVCC
(OPT)
3862 F03
LTC3862
VIN
INTVCC
LTC3862
FB
SGND
R2
R1
3862 F04
VOUT
Power Supply Sequencing
As shown in Figure 1, there are body diodes in parallel
with the PMOS output transistors in the two LDO regula-
tors in the LTC3862. As a result, it is not possible to bias
the INTVCC and VIN pins of the chip from separate power
supplies. Independently biasing the INTVCC pin from a
separate power supply can cause one of two possible
failure modes during supply sequencing. If the INTVCC
supply comes up before the VIN supply, high current will
相關(guān)PDF資料
PDF描述
LTC3862EGN#TRPBF DUAL SWITCHING CONTROLLER, 500 kHz SWITCHING FREQ-MAX, PDSO24
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LTC3862EGN#PBF DUAL SWITCHING CONTROLLER, 500 kHz SWITCHING FREQ-MAX, PDSO24
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