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參數(shù)資料
| 型號: | LTC1929IG |
| 廠商: | LINEAR TECHNOLOGY CORP |
| 元件分類: | 穩(wěn)壓器 |
| 英文描述: | Isolated Flyback Switching Regulator with 9V Output |
| 中文描述: | 3 A DUAL SWITCHING CONTROLLER, 310 kHz SWITCHING FREQ-MAX, PDSO28 |
| 封裝: | 0.209 INCH, PLASTIC, SSOP-28 |
| 文件頁數(shù): | 12/24頁 |
| 文件大小: | 233K |
| 代理商: | LTC1929IG |
12
LTC1929
Figure 5a. Secondary Output Loop with EXTV
CC
Connection
Figure 5b. Capacitive Charge Pump for EXTV
CC
not present, a diode can be placed in series with the
LTC1929’s V
IN
pin and a Schottky diode between the
EXTV
CC
and the V
IN
pin, to prevent current from backfeeding
V
IN
.
Significant efficiency gains can be realized by powering
INTV
CC
from the output, since the V
IN
current resulting
from the driver and control currents will be scaled by the
ratio: (Duty Factor)/(Efficiency). For 5V regulators this
means connecting the EXTV
CC
pin directly to V
OUT
. How-
ever, for 3.3V and other lower voltage regulators, addi-
tional circuitry is required to derive INTV
CC
power from the
output.
The following list summarizes the four possible connec-
tions for EXTV
CC:
1. EXTV
CC
left open (or grounded). This will cause INTV
CC
to be powered from the internal 5V regulator resulting in
a significant efficiency penalty at high input voltages.
2. EXTV
CC
connected directly to V
OUT
. This is the normal
connection for a 5V regulator and provides the highest
efficiency.
3. EXTV
CC
connected to an external supply. If an external
supply is available in the 5V to 7V range, it may be used to
power EXTV
CC
providing it is compatible with the MOSFET
gate drive requirements.
4. EXTV
CC
connected to an output-derived boost network.
For 3.3V and other low voltage regulators, efficiency gains
can still be realized by connecting EXTV
CC
to an output-
derived voltage which has been boosted to greater than
4.7V but less than 7V. This can be done with either the
inductive boost winding as shown in Figure 5a or the
capacitive charge pump shown in Figure 5b. The charge
pump has the advantage of simple magnetics.
Topside MOSFET Driver Supply (C
B
,D
B
) (Refer to
Functional Diagram)
External bootstrap capacitors C
B1
and C
B2
connected to
the BOOST1 and BOOST2 pins supply the gate drive
voltages for the topside MOSFETs. Capacitor C
B
in the
Functional Diagram is charged though diode D
B
from
INTV
CC
when the SW pin is low. When the topside MOSFET
turns on, the driver places the C
B
voltage across the gate-
source of the desired MOSFET. This enhances the MOSFET
and turns on the topside switch. The switch node voltage,
SW, rises to V
IN
and the BOOST pin rises to V
IN
+ V
INTVCC
.
The value of the boost capacitor C
B
needs to be 30 to 100
times that of the total input capacitance of the topside
MOSFET(s). The reverse breakdown of D
B
must be greater
than V
IN(MAX).
The final arbiter when defining the best gate drive ampli-
tude level will be the input supply current. If a change is
made that decreases input current, the efficiency has
improved. If the input current does not change then the
efficiency has not changed either.
Output Voltage
The LTC1929 has a true remote voltage sense capablity.
The sensing connections should be returned from the load
back to the differential amplifier’s inputs through a com-
mon, tightly coupled pair of PC traces. The differential
APPLICATIU
W
U
U
1929 F05a
V
IN
TG1
N-CH
1N4148
N-CH
BG1
PGND
LTC1929
SW1
EXTV
CC
OPTIONAL EXTV
CC
CONNECTION
5V < V
SEC
< 7V
T1
R
SENSE
V
SEC
V
OUT
V
IN
+
C
IN
+
1
μ
F
+
C
OUT
1929 F05b
V
IN
TG1
N-CH
N-CH
BG1
PGND
LTC1929
SW1
EXTV
CC
L1
R
SENSE
BAT85
BAT85
BAT85
0.22
μ
F
V
OUT
V
IN
+
C
IN
+
+
C
OUT
VN2222LL
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| LTC1929CG | Isolated Flyback Switching Regulator with 9V Output |
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| LTC1929 | 500kHz and 1MHz High Efficiency 1.5A Switching Regulators; Package: SO; No of Pins: 8; Temperature Range: -40?°C to 85?°C |
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