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LTC3869-2 Datasheet(PDF) 10 Page - Linear Technology

Part # LTC3869-2
Description  Fast, Accurate, 2-Phase, Single-Output Step-Down DC/DC Controller
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Manufacturer  LINER [Linear Technology]
Direct Link  http://www.linear.com
Logo LINER - Linear Technology

LTC3869-2 Datasheet(HTML) 10 Page - Linear Technology

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LTC3839
10
3839fa
PGOOD (Pin 13): Power Good Indicator Output. This
open-drain logic output is pulled to ground when the
output voltage goes out of a ±7.5% window around the
regulation point, after a 50μs power-bad-masking delay.
Returning to the regulation point, there is a 20μs delay to
power good, and a hysteresis of around 2% on both sides
of the voltage window.
BOOST1, BOOST2 (Pin 14, Pin 27): Boosted Floating
Supplies for Top MOSFET Drivers. The (+) terminal of the
bootstrap capacitor, CB, connects to this pin. The BOOST
pins swing by a VIN between a diode drop below DRVCC,
or (DRVCC – VD) and (VIN + DRVCC – VD).
TG1, TG2 (Pin 15, Pin 26): Top Gate Driver Outputs. The
TG pins drive the gates of the top N-channel power MOSFET
with a voltage swing of VDRVCC between SW and BOOST.
SW1, SW2 (Pin 16, Pin 25): Switch Node Connection to
Inductors. Voltage swings are from a diode voltage below
ground to VIN. The (–) terminal of the bootstrap capacitor,
CB, connects to this node.
BG1, BG2 (Pin 17, Pin 24): Bottom Gate Driver Outputs.
The BG pins drive the gates of the bottom N-channel power
MOSFET between PGND and DRVCC.
DRVCC1, DRVCC2 (Pin 18, Pin 23): Supplies of Bottom
Gate Drivers. DRVCC1 is also the output of an internal 5.3V
regulator. DRVCC2 is also the output of the EXTVCC switch.
Normally the two DRVCC pins are shorted together on the
PCB, and decoupled to PGND with a minimum of 4.7μF
ceramic capacitor, CDRVCC.
VIN (Pin 19): Input Voltage Supply. The supply voltage
can range from 4.5V to 38V. For increased noise immunity
decouple this pin to SGND with an RC filter. Voltage at this
pin is also used to adjust top gate on-time, therefore it
is recommended to tie this pin to the main power input
supply through an RC filter.
PGND (Pin 20, Exposed Pad Pin 33): Power Ground.
Connect this pin as close as practical to the source of
the bottom N-channel power MOSFET, the (–) terminal of
CDRVCC and the (–) terminal of CIN. Connect the exposed
pad and PGND pin to SGND pin using a single PCB trace
under the IC. The exposed pad must be soldered to the
circuit board ground for electrical connection and rated
thermal performance.
INTVCC (Pin 21): Supply Input for Internal Circuitry (Not
Including Gate Drivers). Normally powered from the DRVCC
pins through a decoupling RC filter to SGND (typically
2Ω and 1μF).
EXTVCC (Pin 22): External Power Input. When EXTVCC
exceeds the switchover voltage (typically 4.6V), an internal
switch connects this pin to DRVCC2 and shuts down the
internal regulator so that INTVCC and gate drivers draw
power from EXTVCC. The VIN pin still needs to be powered
up but draws minimum current.
RUN (Pin 28): Run Control Inputs. An internal propor-
tional-to-absolute-temperature (PTAT) pull-up current
source (~2.5μA at 25°C) is constantly connected to this
pin. Taking the RUN pin below a threshold voltage (~0.8V
at 25°C) shuts down all bias of INTVCC and DRVCC and
places the LTC3839 into micropower shutdown mode.
Allowing the RUN pin to rise above this threshold would
turn on the internal bias supply and the circuitry. When
the RUN pin rises above 1.2V, both channels’ TG and BG
drivers are turned on and an additional 10μA temperature-
independent pull-up current is connected internally to the
RUN pin. The RUN pin can sink up to 100μA, or be forced
no higher than 6V.
VRNG (Pin 32): Current Sense Voltage Range Input. When
programmed between 0.6V and 2V, the voltage applied to
VRNG is twenty times (20×) the maximum sense voltage
between SENSE1,2+ and SENSE1,2, i.e., for either chan-
nel, (VSENSE+ – VSENSE–) = 0.05 • VRNG. If a VRNG is tied
to SGND, the channel operates with a maximum sense
voltage of 30mV, equivalent to a VRNG of 0.6V; If tied to
INTVCC, a maximum sense voltage of 50mV, equivalent
to a VRNG of 1V.
PIN FUNCTIONS


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