ZHCSHF3C january 2018 – may 2023 TPS65268-Q1
PRODUCTION DATA
PIN | TYPE(1) | DESCRIPTION | |
---|---|---|---|
NO. | NAME | ||
1 | EN3 | I | Enable for BUCK3. Float to enable. Use this pin to adjust the UVLO input voltage of BUCK3 with a resistor divider. |
2 | AGND | G | Analog ground common to buck controllers and other analog circuits. This pin must be routed separately from high-current power grounds to the negative pin of bypass capacitor of input voltage (VIN). |
3 | |||
4 | |||
5 | |||
6 | FB2 | I | Feedback Kelvin sensing pin for BUCK2 output voltage. Connect this pin to the BUCK2 resistor divider. |
7 | COMP2 | O | Error amplifier output and loop compensation pin for BUCK2. Connect a series resistor and capacitor to compensate the control loop of BUCK2 with peak-current PWM mode. |
8 | SS2 | O | Soft-start and tracking input for BUCK2. An internal 5.2-µA pullup current source is connected to this pin. The soft-start time can be programmed by connecting a capacitor between this pin and ground. |
9 | BST2 | O | Boot-strapped supply to the high-side floating gate driver in BUCK2. Connect a capacitor (recommended value of 47 nF) from the BST2 pin to LX2 pin. |
10 | LX2 | O | Switching node connection to the inductor and bootstrap capacitor for BUCK2. The voltage swing at this pin is from a diode voltage below the ground up to the PVIN2 voltage. |
11 | PGND2 | G | Power ground connection of BUCK2. Connect the PGND2 pin as close as possible to the negative pin of VIN2 input ceramic capacitor. |
12 | PVIN2 | P | Input power supply for BUCK2. Connect the PVIN2 pin as close as possible to the positive pin of an input ceramic capacitor (recommended value of 10 µF). |
13 | PVIN3 | P | Input power supply for BUCK3. Connect the PVIN3 pin as close as possible to the positive pin of an input ceramic capacitor (recommended value of 10 µF). |
14 | PGND3 | G | Power ground connection of BUCK3. Connect the PGND3 pin as close as possible to the negative pin of the VIN3 input ceramic capacitor. |
15 | LX3 | O | Switching node connection to the inductor and bootstrap capacitor for BUCK3. The voltage swing at this pin is from a diode voltage below the ground up to the PVIN3 voltage. |
16 | BST3 | O | Boot-strapped supply to the high-side floating gate driver in BUCK3. Connect a capacitor (recommended value of 47 nF) from the BST3 pin to LX3 pin. |
17 | SS3 | O | Soft-start and tracking input for BUCK3. An internal 5.2-µA pullup current source is connected to this pin. The soft-start time can be programmed by connecting a capacitor between this pin and ground. |
18 | COMP3 | O | Error amplifier output and loop compensation pin for BUCK3. Connect a series resistor and capacitor to compensate the control loop of BUCK3 with peak-current PWM mode. |
19 | FB3 | I | Feedback Kelvin sensing pin for BUCK3 output voltage. Connect this pin to the BUCK3 resistor divider. |
20 | PGOOD | O | Output voltage supervision pin. When all buck converters are in the regulation range of the PGOOD monitor, the PGOOD pin is asserted high. |
21 | ROSC | O | Clock frequency adjustment pin. Connect a resistor from this pin to ground to adjust the clock frequency. When connected to an external clock, the internal oscillator synchronizes to the external clock. |
22 | FB1 | I | Feedback Kelvin sensing pin for BUCK1 output voltage. Connect this pin to the BUCK1 resistor divider. |
23 | COMP1 | O | Error amplifier output and loop compensation pin for BUCK1. Connect a series resistor and capacitor to compensate the control loop of BUCK1 with peak current PWM mode. |
24 | SS1 | O | Soft-start and tracking input for BUCK1. An internal 5.2-µA pullup current source is connected to this pin. The soft-start time can be programmed by connecting a capacitor between this pin and ground. |
25 | BST1 | O | Boot-strapped supply to the high-side floating gate driver in BUCK1. Connect a capacitor (recommended value of 47 nF) from the BST1 pin to LX1 pin. |
26 | LX1 | O | Switching node connection to the inductor and bootstrap capacitor for BUCK1. The voltage swing at this pin is from a diode voltage below the ground up to the PVIN1 voltage. |
27 | PGND1 | G | Power ground connection of BUCK1. Connect the PGND1 pin as close as possible to the negative pin of PVIN1 input ceramic capacitor. |
28 | PVIN1 | P | Input power supply for BUCK1. Connect the PVIN1 pin as close as possible to the positive pin of an input ceramic capacitor (suggest 10 µF). |
29 | VIN | P | Buck controller power supply |
30 | V7V | O | Internal LDO regulator for gate driver and internal controller. Connect a 10-µF capacitor from the pin to power ground. |
31 | EN1 | I | Enable for BUCK1. Float to enable. Use this pin to adjust the UVLO input voltage of BUCK1 with a resistor divider. |
32 | EN2 | I | Enable for BUCK2. Float to enable. Use this pin to adjust the UVLO input voltage of BUCK2 with a resistor divider. |
— | PAD | — | No electric signal is down bonded to thermal pad inside the device. Exposed thermal pad must be soldered to PCB for optimal thermal performance. |