LTM4618V Ver la hoja de datos (PDF) - Linear Technology
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LTM4618V Datasheet PDF : 24 Pages
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LTM4618
PIN FUNCTIONS
NC (A1): No Connect. Leave floating.
FREQ (A2): Frequency Selection Pin. An internal low pass
filter is tied to this pin. The frequency can be selected from
250kHz to 780kHz by setting a voltage from this pin to
SGND. A programming resistor divider can be used to set
the operating frequency. See the Applications Information
section.
MODE/PLLIN (A3): Mode Selection or External Synchroni-
zation Pin. Tying this pin to INTVCC enables pulse-skipping
operation. Tying this pin low enables forced continuous
mode operation. Burst Mode operation is enabled by float-
ing the pin. A clock on the pin will force the controller into
forced continuous mode of operation and synchronize to
the internal oscillator. The programming DC voltage has
to be removed for clock synchronization.
PGND (BANK 2: A4, B4, D4-D7, E1-E7, F1-F7, G1-G7,
H1-H7, J5-J7, K5, K7, L5-L7, M5-M7): Power ground
pins for both input and output returns.
VIN (BANK 1: A5-A7, B5-B7, C5-C7): Power Input Pins.
Apply input voltage between these pins and PGND pins.
Recommend placing input decoupling capacitance directly
between VIN pins and PGND pins.
TK/SS (B1): Output Voltage Tracking and Soft-Start Pin. An
internal soft-start current of 1.3μA charges the soft-start
capacitor. See the Applications Information section.
RUN (B2): Run Control Pin. A voltage above 1.35V on
this pin turns on the module. Forcing this pin below 1.1V
will shut down the output. The RUN pin has a 1μA pull-
up current source that increases to 10μA as the RUN pin
voltage reaches 1.5V and up to compliance. Therefore the
pin can be left floating for normal operation. A maximum
of 6V can be applied to the pin. A voltage divider can be
used for a UVLO function. See the Applications Informa-
tion section.
SGND (B3, C2 and C3): Signal Ground Pin. Return ground
path for all analog and low power circuitry. Tie a single
connection to PGND. See applications for details.
COMP (C1): Current control threshold and error ampli-
fier compensation point. The module has been internally
compensated for most I/O ranges.
EXTVCC (C4): External Voltage Input. Bypasses the internal
INTVCC LDO and powers the internal circuitry and MOSFET
drivers. If a 5V source is available, the internal LDO is
disabled, and the power dissipation is lower, especially at
higher input voltages. See the Applications Information
section.
VFB (D1): The negative input of the error amplifier. Inter-
nally, this pin is connected to VOUT with a 60.4kΩ precision
resistor. Different output voltages can be programmed
with an additional resistor between VFB and SGND pins.
See applications for details.
PGOOD (D2): Output Voltage Power Good Indicator. Open-
drain logic output that is pulled to ground when the output
voltage is not within ±7.5% of the regulation point.
INTVCC (D3): Internal 5V Regulator Output. This pin is for
additional decoupling of the 5V internal regulator.
VOUT (BANK 3: J1-J4, K1-K4, L1-L4, M1-M4): Power Out-
put Pins. Apply output load between these pins and PGND
pins. Recommend placing output decoupling capacitance
directly between these pins and PGND pins.
SW (K6): Switching Node of the Circuit. This pin is used
to check the switching frequency. Leave pin floating. A
resistor-capacitor snubber can be placed from SW to
PGND to eliminate high frequency switch node ringing.
See the Applications Information section.
7
BANK 1
VIN 6
5
BANK 2
PGND
SW
SGND/PGND 4
3
2
CNTRL
1
BANK 3
VOUT
ABCDE F GH J K LM
4618f
7
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