ZHCSD04E November 2014 – March 2022 TPS65400
PRODUCTION DATA
PIN | DESCRIPTION | |
---|---|---|
NAME | NO. | |
CB1 | 1 | Bootstrap pin for the high-side MOSFET gate drive for SW1 |
SW1 | 2 | Switch pin for SW1 |
3 | ||
4 | ||
PVIN1 | 5 | Power input for the buck switching regulator SW1 |
PVIN2 | 6 | Power input for SW2 |
PGND1 | 7 | Power ground for buck converters |
PGND2 | 8 | Power ground for buck converters |
SW2 | 9 | Switch pin for SW2 |
10 | ||
11 | ||
CB2 | 12 | Bootstrap pin for the SW2 high-side MOSFET gate drive |
ENSW2 | 13 | Enable input pin for SW2. Active high. A 2-µA internal pullup current is inside. |
VFB2 | 14 | Feedback input pin for SW2 |
COMP2 | 15 | Compensation pin for external compensation network for SW2. Pulling this line high to VDDA configures the SW1 controller to control both SW1 and SW2. |
SS2/PG2 | 16 | Soft start for SW2 (default). A capacitor is used to set the start-up time. This pin can also be reconfigured through I2C to display the PGOOD2 signal instead. |
PGOOD | 17 | Default PGOOD signal is for all switchers. It can be changed according to (D2h) PIN_CONFIG_00. If all switchers are disabled, PGOOD is low. |
VDDG | 18 | Supply for gate drives. Bypass locally to PGND. |
VDDA | 19 | Output of internal regulator for analog controls |
VDDD | 20 | 3.3-V output of internal regulator digital controls |
AGND | 21 | Ground connection for analog controls |
VIN | 22 | Analog VIN. Power input pin for the VDDD, VDDA, and VGATE subregulator power |
CE | 23 | Chip enables. Internal pullup current will default to high if the pin is left floating. Connect to an open-drain output to pull low to disable. Driving with a push-pull output is not recommended. When low, internal regulators are shutdown to minimize power, and functions are disabled. Configuration is reloaded from EEPROM as part of the power-up sequence when CE goes high. |
SS3/PG3 | 24 | Soft-start for SW3 (default). A capacitor is used to set the startup time. This pin can also be reconfigured through I2C to display the PGOOD3 signal instead. |
COMP3 | 25 | Compensation pin for external compensation network for SW3 |
VFB3 | 26 | Feedback input pin for SW3 |
ENSW3 | 27 | Enable input pin for SW3. Active high. A 2-µA internal pullup current is inside. |
CB3 | 28 | Bootstrap pin for SW3 high-side MOSFET gate drive |
SW3 | 29 | Switch pin for SW3. The maximum rated output current is 2 A. |
PVIN3 | 30 | Power input for buck switching regulator SW3 |
PVIN4 | 31 | Power input for SW4 |
SW4 | 32 | Switch pin for SW4. The maximum rated output current is 2 A. |
CB4 | 33 | Bootstrap pin for SW4 high-side MOSFET gate drive |
ENSW4 | 34 | Enable input pin for SW4. Active high. A 2-µA internal pullup current is inside. |
VFB4 | 35 | Feedback input pin for SW4 |
COMP4 | 36 | Compensation pin for external compensation network for SW4. Pulling this line high to VDDA configures the SW3 controller to control both SW3 and SW4. |
SS4/PG4 | 37 | Soft start for SW4 (default). A capacitor is used to set the start-up time. This pin can also be reconfigured through I2C to display the PGOOD4 signal instead. |
I2CADDR | 38 | Select I2C address with a resistor to AGND. |
RST_N | 39 | Reset of digital logic. When low, all switchers are disabled. Configuration is reloaded from EEPROM when RESET_N is deasserted. |
RCLOCK_SYNC | 40 | Resistor for setting primary clock frequency from 275 kHz to 2.2 MHz or for clock sync |
I2CALERT | 41 | Open-drain output that is pulled low for 200 µs when a timeout condition is detected by the I2C watchdog on either SDA or SCL. |
SDA | 42 | Data input/output pin for I2C bus |
SCL | 43 | Clock input pin for I2C bus |
CLK_OUT | 44 | Clock output signal. Open-collector output, requires pull up |
SS1/PG1 | 45 | Soft start for SW1 (default). A capacitor is used to set the start-up time. This pin can also be reconfigured through I2C to display the PGOOD1 signal instead. |
COMP1 | 46 | Compensation pin for external compensation network for SW1 |
VFB1 | 47 | Feedback input pin for SW1 |
ENSW1/ENSEQ | 48 | Enable input pin for SW1. Active high. A 2-µA internal pullup current is inside. |