LT3510EFE-TR(RevC) データシートの表示(PDF) - Linear Technology
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LT3510EFE-TR Datasheet PDF : 28 Pages
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LT3510
APPLICATIONS INFORMATION
LT3510
CURRENT MODE
SW
POWER STAGE
gm = 2.2mho
gm = 275μmho
FB
VC
RC
CF
CC
3.6M
ERROR +
AMP
0.8V
R1
CPL
OUTPUT
ESR
C1
C1
TANTALUM
R2
OR
POLYMER
CERAMIC
3510 F06
Figure 6. Model for Loop Response
the output capacitor integrates this current, and that the
capacitor on the VC pin (CC) integrates the error ampli-
fier output current, resulting in two poles in the loop. In
most cases a zero is required and comes from either the
output capacitor ESR or from a resistor in series with CC.
This simple model works well as long as the value of the
inductor is not too high and the loop crossover frequency
is much lower than the switching frequency. A phase lead
capacitor (CPL) across the feedback divider may improve
the transient response.
Synchronization
The RT/SYNC pin can be used to synchronize the regulators
to an external clock source. Driving the RT/SYNC resistor
with a clock source triggers the synchronization detection
circuitry. Once synchronization is detected, the rising edge
of SW1 will be synchronized to the rising edge of the
RT/SYNC pin signal. An AGC loop will adjust the internal
oscillators to maintain a 180 degree phase between SW1
and SW2, and also adjust slope compensation to avoid
subharmonic oscillation.
The synchronizing clock signal input to the LT3510 must
have a frequency between 250kHz and 1.5MHz, a duty
cycle between 20% and 80%, a low state below 0.5V and
a high state above 1.6V. Synchronization signals outside
of these parameters will cause erratic switching behavior.
The RT/SYNC resistor should be set such that the free
running frequency ((VRT/SYNC – VSYNCLO)/RRT/SYNC) is
approximately equal to the synchronization frequency. If
the synchronization signal is halted, the synchronization
detection circuitry will timeout in typically 10μs at which
18
VOUT1
LT3510
PG1 RT/SYNC
VCC
SYNCHRONIZATION
CIRCUITRY
CLK
3510 F07
Figure 7. Synchronous Signal Powered from Regulator’s Output
time the LT3510 reverts to the free-running frequency
based on the current through RT/SYNC. If the RT/SYNC
resistor is held above 2V at any time, switching will be
disabled.
If the synchronization signal is not present during regula-
tor start-up (for example, the synchronization circuitry is
powered from the regulator output) the RT/SYNC pin must
see an equivalent resistance to ground between 15.4k and
133k until the synchronization circuitry is active for proper
start-up operation.
If the synchronization signal powers up in an undetermined
state (VOL, VOH, Hi-Z), connect the synchronization clock
to the LT3510 as shown in Figure 7. The circuit as shown
will isolate the synchronization signal when the output
voltage is below 90% of the regulated output. The LT3510
will start-up with a switching frequency determined by the
resistor from the RT/SYNC pin to ground.
If the synchronization signal powers up in a low impedance
state (VOL), connect a resistor between the RT/SYNC pin
and the synchronizing clock. The equivalent resistance
seen from the RT/SYNC pin to ground will set the start-up
frequency.
3510fc
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