LTC1430A 데이터 시트보기 (PDF) - Linear Technology
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LTC1430A Datasheet PDF : 24 Pages
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LTC1430A
APPLICATI S I FOR ATIO
internal 20µA source and runs at 200kHz. Connecting a
50k resistor from FREQSET to ground will sink an addi-
tional 25µA from FREQSET, causing the internal oscillator
to run at approximately 450kHz. Sourcing an external
10µA current into FREQSET will cut the internal frequency
to 100kHz. An internal clamp prevents the oscillator from
running slower than about 50kHz. Tying FREQSET to VCC
will cause it to run at this minimum speed.
Shutdown
The LTC1430A includes a low power shutdown mode,
controlled by the logic at the SHDN pin. A high at SHDN
allows the part to operate normally. A low level at SHDN
stops all internal switching, pulls COMP and SS to ground
internally and turns Q1 and Q2 off. In shutdown, the
LTC1430A itself will drop below 1µA quiescent current
typically, although off-state leakage in the external
MOSFETs may cause the total PVCC current to be some-
what higher, especially at elevated temperatures. When
SHDN rises again, the LTC1430A will rerun a soft start
cycle and resume normal operation. Holding the LTC1430A
in shutdown during PVCC power up removes any PVCC1
sequencing constraints.
External Clock Synchronization
The LTC1430A SHDN pin can double as an external clock
input for applications that require a synchronized clock or
a faster switching speed. The SHDN pin terminates the
internal sawtooth wave and resets the oscillator immedi-
ately when it goes low, but waits 50µs before shutting
down the rest of the internal circuitry. A clock signal
applied directly to the SHDN pin will force the LTC1430A
internal oscillator to lock to its frequency as long as the
external clock runs faster than the internal oscillator
frequency. The LTC1430A can be synchronized to fre-
quencies between 250kHz and 350kHz with no additional
components.
The LTC1430A is synchronizable at frequencies from
200kHz to 500kHz. Frequencies above 300kHz can cause
a decrease in the maximum obtainable duty cycle as rise/
fall time and propagation delay take up a large fraction of
the switch cycle. Circuits using these frequencies should
be checked carefully in applications where operation near
dropout is important—like 3.3V to 2.5V converters. Fre-
quencies above 500kHz can cause erratic current limit
operation and are not recommended.
LAYOUT CONSIDERATIONS
Grounding
Proper grounding is critical for the LTC1430A to obtain
specified output regulation. Extremely high peak currents
(as high as several amps) can flow between the bypass
capacitors and the PVCC1, PVCC2 and PGND pins. These
currents can generate significant voltage differences be-
tween two points that are nominally both “ground.” As a
general rule, GND and PGND should be totally separated
on the layout, and should be brought together at only one
point, right at the LTC1430A GND and PGND pins. This
helps minimize internal ground disturbances in the
LTC1430A by keeping PGND and GND at the same poten-
tial, while preventing excessive current flow from disrupt-
ing the operation of the circuits connected to GND. The
PGND node should be as compact and low impedance as
possible, with the negative terminals of the input and
output capacitors, the source of Q2, the LTC1430A PGND
node, the output return and the input supply return all
clustered at one point. Figure 14 is a modified schematic
showing the common connections in a proper layout. Note
that at 10A current levels or above, current density in the
PC board itself can become a concern; traces carrying high
currents should be as wide as possible.
Output Voltage Sensing
The 16-lead versions of the LTC1430A provide three pins
for sensing the output voltage: SENSE +, SENSE – and FB.
SENSE + and SENSE – connect to an internal resistor
divider which is connected to FB. To set the output of the
LTC1430A to 3.3V, connect SENSE + to the output as near
to the load as practical and connect SENSE – to the
common GND/PGND point. Note that SENSE – is not a true
differential input sense input; it is just the bottom of the
internal divider string. Connecting SENSE – to the ground
near the load will not improve load regulation. For any
other output voltage, the SENSE + and SENSE – pins should
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