Datasheet
Table Of Contents
- FEATURES
- APPLICATIONS
- DESCRIPTION
- ABSOLUTE MAXIMUM RATINGS
- THERMAL INFORMATION
- RECOMMENDED OPERATING CONDITIONS
- ELECTRICAL CHARACTERISTICS
- DEVICE INFORMATION
- TYPICAL CHARACTERISTICS
- APPLICATION INFORMATION
- VDDQ Switch Mode Power Supply Control
- VREF and REFIN, VDDQ Output Voltage
- Soft-Start and Powergood
- Power State Control
- MODE Pin Configuration
- Discharge Control
- D-CAP™ Mode
- D-CAP2™ Mode Operation
- Light-Load Operation
- VTT and VTTREF
- VDDQ Overvoltage and Undervoltage Protection
- VDDQ Out-of-Bound Operation
- VDDQ Overcurrent Protection
- VTT Overcurrent Protection
- V5IN Undervoltage Lockout Protection
- Thermal Shutdown
- External Components Selection
- Layout Considerations
1
2
3
4
5
6
7
8 9
10
11
12
13
14
15
16
17
1819
20
TPS51916
Thermal Pad
VTTSNS
VLDOIN
VTT
VTTGND
VTTREF
VREF
GND
REFIN
VDDQSNS
PGND
DRVL
V5IN
SW
DRVH
VBST
S5
S3
TRIP
MODE
PGOOD
TPS51916
www.ti.com
SLUSAE1D –DECEMBER 2010–REVISED JUNE 2012
DEVICE INFORMATION
RUK PACKAGE (TOP VIEW)
PIN FUNCTIONS
PIN
I/O DESCRIPTION
NAME NO.
DRVH 14 O High-side MOSFET gate driver output.
DRVL 11 O Low-side MOSFET gate driver output.
GND 7 – Signal ground.
MODE 19 I Connect resistor to GND to configure switching frequency, control mode and discharge mode. (See Table 2)
PGND 10 – Gate driver power ground. R
DS(on)
current sensing input(+).
PGOOD 20 O Powergood signal open drain output. PGOOD goes high when VDDQ output voltage is within the target range.
Reference input for VDDQ. Connect to the midpoint of a resistor divider from VREF to GND. Add a capacitor for
REFIN 8 I
stable operation.
SW 13 I/O High-side MOSFET gate driver return. R
DS(on)
current sensing input(–).
S3 17 I S3 signal input. (See Table 1)
S5 16 I S5 signal input. (See Table 1)
TRIP 18 I Connect resistor to GND to set OCL at V
TRIP
/8. Output 10-μA current at room temperature, T
C
= 4700 ppm/°C.
VBST 15 I High-side MOSFET gate driver bootstrap voltage input. Connect a capacitor from the VBST pin to the SW pin.
VDDQSNS 9 I VDDQ output voltage feedback. Reference input for VTTREF. Also serves as power supply for VTTREF.
VLDOIN 2 I Power supply input for VTT LDO. Connect VDDQ in typical application.
VREF 6 O 1.8-V reference output.
VTT 3 O VTT 2-A LDO output. Need to connect 10 μF or larger capacitance for stability.
VTTGND 4 – Power ground for VTT LDO.
VTTREF 5 O Buffered VTT reference output. Need to connect 0.22 μF or larger capacitance for stability.
VTTSNS 1 I VTT output voltage feedback.
V5IN 12 I 5-V power supply input for internal circuits and MOSFET gate drivers.
Thermal
– – Thermal pad. Connect directly to system GND plane with multiple vias.
pad
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