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TC1313_09 Datasheet, PDF (15/32 Pages) Microchip Technology – 500 mA Synchronous Buck Regulator, + 300 mA LDO
TC1313
3.0 PIN DESCRIPTIONS
The descriptions of the pins are listed in Table 3-1.
TABLE 3-1: PIN FUNCTION TABLE
Pin
DFN
MSOP
Function
1
SHDN2
SHDN2 Active Low Shutdown Input for LDO Output Pin
2
VIN2
3
VOUT2
4
NC
VIN2
VOUT2
NC
Analog Input Supply Voltage Pin
LDO Output Voltage Pin
No Connect
5
AGND
AGND
Analog Ground Pin
6
VFB / VOUT1 VFB / VOUT1 Buck Feedback Voltage (Adjustable Version)/Buck Output Voltage (Fixed
Version) Pin
7
SHDN1
SHDN1 Active Low Shutdown Input for Buck Regulator Output Pin
8
VIN1
9
LX
10
PGND
11
EP
VIN1
LX
PGND
—
Buck Regulator Input Voltage Pin
Buck Inductor Output Pin
Power Ground Pin
Exposed Pad. It is a thermal path to remove heat from the device. Electri-
cally, this pad is at ground potential and should be connected to AGND.
3.1 LDO Shutdown Input Pin (SHDN2)
SHDN2 is a logic-level input used to turn the LDO
regulator on and off. A logic-high (> 45% of VIN) will
enable the regulator output. A logic-low (< 15% of VIN)
will ensure that the output is turned off.
3.2 LDO Input Voltage Pin (VIN2)
VIN2 is a LDO power-input supply pin. Connect
variable-input voltage source to VIN2. Connect VIN1 and
VIN2 together with board traces as short as possible.
VIN2 provides the input voltage for the LDO regulator.
An additional capacitor can be added to lower the LDO
regulator input ripple voltage.
3.3 LDO Output Voltage Pin (VOUT2)
VOUT2 is a regulated LDO output voltage pin. Connect
a 1 µF or larger capacitor to VOUT2 and AGND for proper
operation.
3.4 No Connect Pin (NC)
No connection.
3.5 Analog Ground Pin (AGND)
AGND is the analog ground connection. Tie AGND to the
analog portion of the ground plane (AGND). See the
physical layout information in Section 5.0 “Application
Circuits/Issues” for grounding recommendations.
3.6 Buck Regulator Output Sense Pin
(VFB/VOUT1)
For VOUT1 adjustable-output voltage options, connect
the center of the output voltage divider to the VFB pin.
For fixed-output voltage options, connect the output of
the buck regulator to this pin (VOUT1).
3.7 Buck Regulator Shutdown Input
Pin (SHDN1)
SHDN1 is a logic-level input used to turn the buck
regulator on and off. A logic-high (> 45% of VIN) will
enable the regulator output. A logic-low (< 15% of VIN)
will ensure that the output is turned off.
3.8 Buck Regulator Input Voltage Pin
(VIN1)
VIN1 is the buck regulator power-input supply pin.
Connect a variable-input voltage source to VIN1.
Connect VIN1 and VIN2 together with board traces as
short as possible.
3.9 Buck Inductor Output Pin (LX)
Connect LX directly to the buck inductor. This pin
carries large signal-level current; all connections
should be made as short as possible.
3.10 Power Ground Pin (PGND)
Connect all large-signal level ground returns to PGND.
These large-signal level ground traces should have a
small loop area and length to prevent coupling of
switching noise to sensitive traces. Please see the
physical layout information supplied in Section 5.0
“Application Circuits/Issues” for grounding
recommendations.
3.11 Exposed Pad (EP)
For the DFN package, connect the EP to AGND with
vias into the AGND plane.
© 2009 Microchip Technology Inc.
DS21974B-page 15