LT3029 Ver la hoja de datos (PDF) - Linear Technology
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LT3029 Datasheet PDF : 20 Pages
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LT3029
PIN FUNCTIONS
BYP1/BYP2 (Pin 1/Pin 8): Bypass. Use the BYP1/BYP2
pins to bypass the reference of the LT3029 regulator and
achieve low output noise performance. Internal circuitry
clamps the BYP1/BYP2 pins to ±0.6V (one VBE) from
ground. A small capacitor from the corresponding output
to this pin bypasses the reference to lower the output
voltage noise. Using a maximum value of 10nF reduces
the output voltage noise to a typical 20μVRMS over a 10Hz
to 100kHz bandwidth. If not used, this pin must be left
unconnected.
NC (Pin 2): No Connect. This pin is not connected to
any internal circuitry. It may be floated, tied to VIN or tied
to GND.
OUT1/OUT2 (Pins 3, 4/Pins 6, 7): Output. The outputs
supply power to the loads. A minimum 3.3μF output ca-
pacitor prevents oscillations on each output. Applications
with large output load transients require larger values of
output capacitance to limit peak voltage transients. See
the Applications Information section for more on output
capacitance and reverse output characteristics.
GND (Pin 5, 17): Ground. The exposed pad (Pin 17) of
the DFN and MSOP packages is an electrical connection
to GND. To ensure proper electrical and thermal perfor-
mance, solder Pin 17 to the PCB ground and tie directly
to Pin 5. Connect the bottom of the output voltage setting
resistor divider directly to GND (Pin 5) for optimum load
regulation performance.
IN1/IN2 (Pins 13, 14/Pins 11, 12): Inputs. The IN1/IN2
pins supply power to each channel. The LT3029 requires
a bypass capacitor at the IN1/IN2 pins if located more
than six inches away from the main input filter capacitor.
Include a bypass capacitor in battery-powered circuits,
as a battery’s output impedance rises with frequency. A
bypass capacitor in the range of 1μF to 10μF suffices. The
LT3029’s design withstands reverse voltages on the IN pins
with respect to ground and the OUT pins. In the case of
a reversed input, which occurs if a battery is plugged in
backwards, the LT3029 acts as if a diode is in series with
its input. No reverse current flows into the LT3029 and no
reverse voltage appears at the load. The device protects
itself and the load.
SHDN1 / SHDN2 (Pin 15/Pin 10): Shutdown. Pulling the
SHDN1 or SHDN2 pin low puts its corresponding LT3029
channel into a low power state and turns its output off. The
SHDN1 and SHDN2 pins are completely independent of
each other, and each SHDN pin only affects operation on
its corresponding channel. Drive the SHDN1 and SHDN2
pins with either logic or an open collector/drain with pull-up
resistors. The resistors supply the pull-up current to the
open collectors/drains and the SHDN1 or SHDN2 current,
typically less than 1μA. If unused, connect the SHDN1 and
SHDN2 to their corresponding IN pins. Each channel will
be in its low power shutdown state if its corresponding
SHDN pin is not connected.
ADJ1/ADJ2: (Pin 16/Pin 9) Adjust Pin. These are the error
amplifier inputs. These pins are internally clamped to ±9V.
A typical input bias current of 30nA flows into the pins
(see curve of ADJ1/ADJ2 Pin Bias Current vs Temperature
in the Typical Performance Characteristics section). The
ADJ1 and ADJ2 pin voltage is 1.215V referenced to ground
and the output voltage range is 1.215V to 19.5V.
3029fa
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