參數(shù)資料
型號(hào): LTC3808EDE
廠商: LINEAR TECHNOLOGY CORP
元件分類: 穩(wěn)壓器
英文描述: No RSENSE Low EMI, Synchronous DC/DC Controller with Output Tracking
中文描述: 1 A SWITCHING CONTROLLER, 825 kHz SWITCHING FREQ-MAX, PDSO14
封裝: 4 X 3 MM, PLASTIC, MO-229WGED-3, DFN-14
文件頁(yè)數(shù): 21/28頁(yè)
文件大?。?/td> 372K
代理商: LTC3808EDE
21
LTC3808
3808f
Low Input Supply Voltage
Although the LTC3808 can function down to below 2.4V,
the maximum allowable output current is reduced as V
IN
decreases below 3V. Figure 10 shows the amount of
change as the supply is reduced down to 2.4V. Also shown
is the effect on V
REF
.
Minimum On-Time Considerations
Minimum on-time, t
ON(MIN)
is the smallest amount of time
that the LTC3808 is capable of turning the top P-channel
MOSFET on. It is determined by internal timing delays and
the gate charge required to turn on the top MOSFET. Low
duty cycle and high frequency applications may approach
the minimum on-time limit and care should be taken to
ensure that:
t
V
f
V
ON MIN
(
OUT
OSC
IN
)
<
If the duty cycle falls below what can be accommodated by
the minimum on-time, the LTC3808 will begin to skip
cycles (unless forced continuous mode is selected). The
output voltage will continue to be regulated, but the ripple
current and ripple voltage will increase. The minimum on-
time for the LTC3808 is typically about 210ns. However,
as the peak sense voltage (I
L(PEAK)
R
DS(ON)
) decreases,
the minimum on-time gradually increases up to about
260ns. This is of particular concern in forced continuous
applications with low ripple current at light loads. If forced
continuous mode is selected and the duty cycle falls below
the minimum on time requirement, the output will be
regulated by overvoltage protection.
Efficiency Considerations
The efficiency of a switching regulator is equal to the
output power divided by the input power times 100%. It is
often useful to analyze individual losses to determine what
is limiting efficiency and which change would produce the
most improvement. Efficiency can be expressed as:
Efficiency = 100% – (L1 + L2 + L3 + …)
where L1, L2, etc. are the individual losses as a percentage
of input power.
Although all dissipative elements in the circuit produce
losses, four main sources usually account for most of the
losses in LTC3808 circuits: 1) LTC3808 DC bias current,
2) MOSFET gate charge current, 3) I
2
R losses and
4) transition losses.
1) The V
IN
(pin) current is the DC supply current, given in
the Electrical Characteristics, which excludes MOSFET
driver currents. V
IN
current results in a small loss that
increases with V
IN
.
2) MOSFET gate charge current results from switching the
gate capacitance of the power MOSFET. Each time a
MOSFET gate is switched from low to high to low again, a
packet of charge dQ moves from SENSE
+
to ground. The
resulting dQ/dt is a current out of SENSE
+
, which is
typically much larger than the DC supply current. In
continuous mode, I
GATECHG
= f Q
P
.
3) I
2
R losses are calculated from the DC resistances of the
MOSFETs, inductor and/or sense resistor. In continuous
mode, the average output current flows through L but is
“chopped” between the top P-channel MOSFET and the
bottom N-channel MOSFET. The MOSFET R
DS(ON)
and/or
the resistance of the sense resistor multiplied by duty cycle
can be summed with the resistance of L to obtain I
2
R
losses.
4) Transition losses apply to the external MOSFET and
increase with higher operating frequencies and input volt-
ages. Transition losses can be estimated from:
Transition Loss = 2 V
IN2
I
O(MAX)
C
RSS
f
Other losses, including C
IN
and C
OUT
ESR dissipative
losses and inductor core losses, generally account for less
than 2% total additional loss.
APPLICATIU
W
U
U
INPUT VOLTAGE (V)
75
N
85
95
105
80
90
100
2.2
2.4
2.6
2.8
3808 F10
3.0
2.1
2.0
2.3
2.5
2.7
2.9
V
REF
MAXIMUM
SENSE VOLTAGE
Figure 10. Line Regulation of V
REF
and Maximum Sense Voltage
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