參數(shù)資料
型號: LT1616ES6
英文描述: Analog IC
中文描述: 模擬IC
文件頁數(shù): 6/16頁
文件大?。?/td> 257K
代理商: LT1616ES6
6
LT1614
The LT1614 combines a current mode, fixed frequency
PWM architecture with a –1.23V reference to directly
regulate negative outputs. Operation can be best under-
stood by referring to the block diagram of Figure 2. Q1 and
Q2 form a bandgap reference core whose loop is closed
around the output of the converter. The driven reference
point is the lower end of resistor R4, which normally sits
at a voltage of –1.23V. As the load current changes, the
NFB pin voltage also changes slightly, driving the output
of g
m
amplifier A1. Switch current is regulated directly on
a cycle-to-cycle basis by A1’s output. The flip-flop is set at
the beginning of each cycle, turning on the switch. When
the summation of a signal representing switch current and
a ramp generator (introduced to avoid subharmonic oscil-
lations at duty factors greater than 50%) exceeds the V
C
signal, comparator A2 changes stage, resetting the flip-
flop and turning off the switch. Output voltage decreases
(the magnitude increases) as switch current is increased.
The output, attenuated by external resistor divider R1 and
R2, appears at the NFB pin, closing the overall loop.
Frequency compensation is provided externally by a series
RC connected from the V
C
pin to ground. Typical values
are 100k and 1nF. Transient response can be tailored by
adjustment of these values.
As load current is decreased, the switch turns on for a
shorter period each cycle. If the load current is further
decreased, the converter will skip cycles to maintain
output voltage regulation.
OPERATIOU
The LT1614 can work in either of two topologies. The
simpler topology appends a capacitive level shift to a
boost converter, generating a negative output voltage,
which is directly regulated. The circuit schematic is de-
tailed in Figure 3. Only one inductor is required, and the
two diodes can be in a single SOT-23 package. Output
noise is the same as in a boost converter, because current
is delivered to the output only during the time when the
LT1614’s internal switch is on.
If D2 is replaced by an inductor, as shown in Figure 4, a
higher performance solution results. This converter topol-
ogy was developed by Professor S. Cuk of the California
Institute of Technology in the 1970s. A low ripple voltage
results with this topology due to inductor L2 in series with
the output. Abrupt changes in output capacitor current are
eliminated because the output inductor delivers current to
the output during both the off-time and the on-time of the
LT1614 switch. With proper layout and high quality output
capacitors, output ripple can be as low as 1mV
P–P
.
The operation of Cuk’s topology is shown in Figures 5
and6. During the first switching phase, the LT1614’s
switch, represented by Q1, is on. There are two current
loops in operation. The first loop begins at input capacitor
C1, flows through L1, Q1 and back to C1. The second loop
flows from output capacitor C3, through L2, C2, Q1 and
back to C3. The output current from R
LOAD
is supplied by
L2 and C3. The voltage at node SW is V
CESAT
and at node
SWX the voltage is –(V
IN
+ |V
OUT
|). Q1 must conduct both
L1 and L2 current. C2 functions as a voltage level shifter,
with an approximately constant voltage of (V
IN
+ |V
OUT
|)
across it.
V
IN
V
IN
–V
OUT
1614 F03
SW
L1
D1
D2
GND
LT1614
C1
C3
C2
1
μ
F
R2
10k
10Ok
1nF
R1
NFB
SHDN
V
C
SHUTDOWN
+
+
V
IN
V
IN
–V
OUT
1614 F04
SW
L1
L2
D1
GND
LT1614
C1
C3
C2
1
μ
F
R2
10k
R1
NFB
+
+
10Ok
1nF
SHDN
SHUTDOWN
V
C
Figure 3. Direct Regulation of Negative Output
Using Boost Converter with Charge Pump
Figure 4. L2 Replaces D2 to Make Low Output Ripple
Inverting Topology. Coupled or Uncoupled Inductors Can
Be Used. Follow Phasing If Coupled for Best Results
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