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LTC3706_15 Datasheet, PDF (7/22 Pages) Linear Technology – Secondary-Side Synchronous Forward Controller with PolyPhase Capability
LTC3706
PIN FUNCTIONS
SG (Pin 1): Gate Drive for the “Synchronous” MOSFET.
FG (Pin 2): Gate Drive for the “Forward” MOSFET.
PGOOD (Pin 3): Open-Drain Power Good Output. The FB
pin is monitored to ensure that the output is in regulation.
When the output is not in regulation, the PGOOD pin is
pulled low.
MODE (Pin 4): Tie to either GND or VCC to set the maxi-
mum duty cycle at either 50% or 75% respectively. Tie to
ground through either a 200k or 100k resistor (50% or
75% maximum duty cycle) to disable pulse encoding. In
this mode, normal PWM signals will be generated at the
PT+ pin, while a clock signal is generated at the PT– pin.
PHASE (Pin 5): Control Input to the Phase Selector. This
pin determines the phasing of the controller CLK relative
to the synchronizing signal at the FS/SYNC pin.
FB (Pin 6): The Inverting Input of the Main Loop Error
Amplifier.
ITH (Pin 7): The Output of the Main Loop Error Amplifier.
Place compensation components between the ITH pin
and GND.
RUN/SS (Pin 8): Combination Run Control and Soft-Start
Inputs. A capacitor to ground sets the ramp time of the
output voltage. Holding this pin below 0.4V causes the IC
to shut down all internal circuitry.
VSOUT, VS+, VS– (Pins 9, 10, 11): VSOUT is the output of
a precision, unity-gain differential amplifier. Tie VS+ and
VS– to the output of the main DC/DC converter to achieve
true remote differential sensing. This allows DCR error
effects to be minimized.
GND (Pin 12): Signal Ground.
FS/SYNC (Pin 13): Combination Frequency Set and SYNC
pin. Tie to GND or VCC to run at 200kHz and 300kHz
respectively. Place a single resistor to ground at this pin
to set the frequency between 100kHz and 500kHz. To
synchronize, drive this pin with a clock signal to achieve
PLL synchronization from 75kHz to 500kHz. Sources
20µA of current.
SLP (Pin 14): Slope Compensation Input. Place a single
resistor to ground to set the desired amount of slope
compensation.
IS– (Pin 15): Negative Input to the Current Sense Circuit.
When using current sense transformers, this pin may be
tied to VCC for single-ended sensing with a 1.28V maximum
current trip level.
IS+ (Pin 16): Positive Input to the Current Sense Circuit.
Connect to the positive end of a current sense resistor or
to the output of a current sense transformer.
REGSD (Pin 17): This pin is used to prevent overheating of the
external linear regulator pass device that generates the VCC
supply voltage from the VIN voltage. A current proportional
to the voltage across the external pass device flows out of
this pin. The IC shuts down the linear regulator when the
voltage on this pin exceeds 4V. Place a resistor (or a resistor
and capacitor in parallel) between this pin and GND to limit
the temperature rise of the external pass device.
NDRV (Pin 18): Drive Output for the External Pass Device
of the VCC Linear Regulator. Connect to the base (NPN) or
gate (NMOS) of an external N-type device.
VIN (Pin 19): Connect to a higher voltage bias supply,
typically the output of a peak detected bias winding. When
not used, tie together with the VCC and NDRV pins.
SW (Pin 20): Connect to the drain of the “synchronous”
MOSFET. This input is used for adaptive shoot-through
prevention and leading edge blanking.
PT–, PT+ (Pins 21, 22): Pulse Transformer Driver Outputs.
For most applications, these connect to a pulse trans-
former (with a series DC blocking capacitor). The PWM
information is multiplexed together with DC power and
sent through a single pulse transformer to the primary
side. This information may be decoded by the LTC3705
gate driver and primary-side controller.
PGND (Pin 23): Gate Driver Ground Pin.
VCC (Pin 24): Main VCC Input for all Driver and Control
Circuitry.
3706fd
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