ZHCSNB3 February 2023 LM5148-Q1
PRODUCTION DATA
PIN | I/O(1) | DESCRIPTION | |
---|---|---|---|
NO. | NAME | ||
1 | NC | ̶̶ | Connect to GND at the exposed pad to improve heat spreading. |
2 | NC | ̶̶ | Connect to GND at the exposed pad to improve heat spreading. |
3 | CNFG | I | Connect a resistor to ground to set primary/secondary, spread spectrum enable/disable, or interleaved operation. |
4 | RT | I | Frequency programming pin. A resistor from RT to AGND sets the oscillator frequency between 100 kHz and 2.2 MHz. |
5 | EXTCOMP | O | Transconductance error amplifier output. If used, connect the compensation network from EXTCOMP to AGND. |
6 | FB | I | Connect FB to VDDA to set the output voltage to 3.3 V. Connect FB using a 24.9 kΩ or 49.9 kΩ to VDDA to set the output voltage to 5 V or 12 V, respectively. Install a resistor divider from VOUT to AGND to set the output voltage setpoint between 0.8 V and 55 V. The FB regulation voltage is 0.8 V. |
7 | AGND | G | Analog ground connection. Ground return for the internal voltage reference and analog circuits |
8 | VDDA | O | Internal analog bias regulator. Connect a ceramic decoupling capacitor from VDDA to AGND. |
9 | VCC | P | VCC bias supply pin. Connect a ceramic capacitor between VCC and PGND. |
10 | PGND | G | Power ground connection pin for low-side MOSFET gate driver |
11 | LO | O | Low-side power MOSFET gate driver output |
12 | VIN | P | Supply voltage input source for the VCC regulator |
13 | HO | O | High-side power MOSFET gate driver output |
14 | SW | P | Switching node of the buck regulator and high-side gate driver return. Connect to the bootstrap capacitor, the source terminal of the high-side MOSFET, and the drain terminal of the low-side MOSFET. |
15 | CBOOT | P | High-side driver supply for bootstrap gate drive |
16 | VCCX | P | Optional input for an external bias supply. If VVCCX > 4.3 V, VCCX is internally connected to VCC and the internal VCC regulator is disabled. |
17 | PG/SYNCOUT | O | An open-collector output that goes low if VOUT is outside the specified regulation window. The PG/SYNCOUT pin of the primary controller in dual-phase mode provides a 180° phase-shifted SYNCOUT signal. |
18 | PFM/SYNC | I | Connect PFM/SYNC to VDDA to enable diode emulation mode. Connect PFM to AGND to operate the LM5148-Q1 in forced PWM (FPWM) mode with continuous conduction at light loads. PFM can also be used as a synchronization input to synchronize the internal oscillator to an external clock signal. |
19 | EN | I | An active-high precision input with rising threshold of 1 V and hysteresis current of 10 µA. If the EN voltage is less than 0.5 V, the LM5148-Q1 is in shutdown mode, unless a SYNC signal is present on PFM/SYNC. |
20 | ISNS+ | I | Current sense amplifier input. Connect this pin to the inductor side of the external current sense resistor (or to the relevant sense capacitor terminal if inductor DCR current sensing is used) using a low-current Kelvin connection. |
21 | VOUT | I | Output voltage sense and the current sense amplifier input. Connect VOUT to the output side of the current sense resistor (or to the relevant sense capacitor terminal if inductor DCR current sensing is used). |
22 | NC | — | Connect to GND at the exposed pad to improve heat spreading. |
23 | NC | — | Connect to GND at the exposed pad to improve heat spreading. |
24 | NC | — | Connect to GND at the exposed pad to improve heat spreading. |