ltc3850gn-2 Linear Technology Corporation, ltc3850gn-2 Datasheet - Page 8
ltc3850gn-2
Manufacturer Part Number
ltc3850gn-2
Description
Dual, 2-phase Synchronous Step-down Switching Controller
Manufacturer
Linear Technology Corporation
Datasheet
1.LTC3850GN-2.pdf
(36 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
LTC3850GN-2
Manufacturer:
LTNEAR
Quantity:
20 000
PIN FUNCTIONS
LTC3850-2
RUN1, RUN2 (Pin 1, Pin 13): Run Control Inputs. A voltage
above 1.2V on either pin turns on the IC. However, forcing
either of these pins below 1.2V causes the IC to shut down
that particular channel. There are 0.5μA pull-up currents
for these pins. Once the RUN pin rises above 1.2V, an
additional 4.5μA pull-up current is added to the pin.
SENSE1
Comparator Inputs. The (+) inputs to the current
comparators are normally connected to DCR sensing
networks or current sensing resistors.
SENSE1
Comparator Inputs. The (–) inputs to the current
comparators are connected to the outputs.
TK/SS1, TK/SS2 (Pin 5, Pin 9): Output Voltage Tracking
and Soft-Start Inputs. When one channel is confi gured to
be master of the two channels, a capacitor to ground at
this pin sets the ramp rate for the master channel’s output
voltage. When the channel is confi gured to be the slave
of two channels, the V
reproduced by a resistor divider and applied to this pin.
Internal soft-start currents of 1.3μA charge the soft-start
capacitors.
I
Error Amplifi er Compensation Points. Each associated
channels’ current comparator tripping threshold increases
with its I
V
Inputs. These pins receive the remotely sensed feedback
voltages for each channel from external resistive dividers
across the outputs.
SGND (Pin 7): Signal Ground. All small-signal components
and compensation components should connect to this
ground, which in turn connects to PGND at one point.
EXTV
Connected to INTV
IC power, bypassing the internal low dropout regulator,
whenever EXTV
on this pin and ensure V
8
TH1
FB1
, I
, V
CC
TH2
(Pin 14): External Power Input to an Internal Switch
FB2
+
–
TH
, SENSE2
, SENSE2
(Pin 6, Pin 8): Current Control Thresholds and
control voltage.
(Pin 4, Pin 10): Error Amplifi er Feedback
CC
CC
is higher than 4.7V. Do not exceed 6V
+
–
. This switch closes and supplies the
(Pin 3, Pin 11): Current Sense
(Pin 2, Pin 12): Current Sense
FB
IN
voltage of the master channel is
> V
EXTVCC
at all times.
PGOOD (Pin 15): Power Good Indicator Output. Open-drain
logic out that is pulled to ground when either channel
output exceeds the ±7.5% regulation window, after the
internal 17μs power bad mask timer expires.
PGND (Pin 19): Power Ground Pin. Connect this pin closely
to the sources of the bottom N-channel MOSFETs, the (–)
terminal of CV
INTV
trol circuits are powered from this voltage. Decouple this
pin to PGND with a 4.7μF low ESR tantalum or ceramic
capacitor.
V
PGND with a capacitor (0.1μF to 1μF). For applications
where the main input power is 5V, tie the V
pins together.
BG1, BG2 (Pins 23, 20): Bottom Gate Driver Outputs. These
pins drive the gates of the bottom N-Channel MOSFETs
and swings between PGND and INTV
BOOST1, BOOST2 (Pins 24, 18): Boosted Floating Driver
Supplies. The (+) terminal of the boost-strap capacitors
connect to these pins. These pins swing from a diode
voltage drop below INTV
TG1, TG2 (Pins 25, 17): Top Gate Driver Outputs. These are
the outputs of fl oating drivers with a voltage swing equal
to INTV
SW1, SW2 (Pins 26, 16): Switch Node Connections to
Inductors. Voltage swing at these pins are from a body
diode voltage drop below ground to V
MODE/PLLIN (Pin 27): Force Continuous Mode, Burst
Mode, or Pulse-Skipping Mode Selection Pin and
External Synchronization Input to Phase Detector Pin.
Connect this pin to SGND to force both channels into
the continuous mode of operation. Connect to INTV
to enable pulse-skipping mode of operation. Leaving the
pin fl oating will enable Burst Mode operation. A clock on
the pin will force the controller into continuous mode of
operation and synchronize the internal oscillator.
FREQ/PLLFLTR (Pin 28): The Phase-Locked Loop’s
Low-Pass Filter is Tied to This Pin. Alternatively, this pin
can be driven with a DC voltage to vary the frequency of
the internal oscillator.
IN
(Pin 22): Main Input Supply. Decouple this pin to
CC
CC
(Pin 21): Internal 5V Regulator Output. The con-
superimposed on the switch nodes voltages.
CC
and the (–) terminal of C
CC
up to V
IN
CC
+ INTV
IN
.
.
IN
IN
.
CC
and INTV
.
38502f
CC
CC
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