SNVSB63 Data sheet | TI.com

SNVSB63A September 2018 – June 2021 LP8732-Q1

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

RHD|28
- MPQF133F

Thermal pad, mechanical data (Package|Pins)

RHD|28
- QFND560A

Orderable Information

8.2.3 Application Curves

Measurements are done using typical application set up with connections shown in Section 8.2. Graphs may not reflect the OTP default settings. Unless otherwise specified: V_{(VIN_Bx)} = V_{(VIN_LDOx)} = V_(VANA) = 3.7 V, V_{OUT_Bx} = 1 V, V_{OUT_LDOx} = 1 V, T_A = 25°C, L = 0.47 µH (TOKO DFE252012PD-R47M), C_{OUT_BUCK} = 22 µF / phase, and C_{POL_BUCK} = 22 µF, C_{OUT_LDO} = 1 µF.

V_OUT = 1.8 V

Figure 8-4 Buck Efficiency in PFM/PWM and Forced PWM Mode (Single-Phase Output)

V_IN = 3.3 V

Figure 8-6 Buck Efficiency in Forced PWM Mode (Single-Phase Output)

V_IN = 5 V

Figure 8-8 Buck Efficiency in Forced PWM Mode (Single-Phase Output)

V_OUT = 1 V

Figure 8-10 Buck Output Voltage vs Load Current in Forced PWM Mode (Single-Phase Output)

V_OUT = 1 V

Figure 8-12 Buck Output Voltage vs Load Current in PFM/PWM Mode (Single-Phase Output)

V_OUT = 1 V

Load = 1 A

Figure 8-14 Buck Output Voltage vs Input Voltage in PWM Mode (Single-Phase Output)

Load = 1 A (PWM) and 0.1 A (PFM)

Figure 8-16 Buck Output Voltage vs Temperature

Slew-rate = 10 mV/µs

I_LOAD = 0 A

V_OUT = 1 V

Figure 8-18 Buck Start-Up With EN1, Forced PWM Mode (Single-Phase Output)

Slew-rate = 10 mV/µs

R_LOAD = 1 Ω

V_OUT = 1 V

Figure 8-20 Buck Start-Up with EN1, Forced PWM Mode (Single-Phase Output)

Slew-rate = 10 mV/µs

R_LOAD = 1 Ω

V_OUT = 1 V

Figure 8-22 Buck Shutdown With EN1, Forced PWM Mode (Single-Phase Output)

I_OUT = 10 mA

Figure 8-24 Buck Output Voltage Ripple, PFM Mode (Single-Phase Output)

I_OUT = 200 mA

Figure 8-26 Buck Output Voltage Ripple, Forced PWM Mode (Single-Phase Output)

Figure 8-28 Buck Transient From PFM-to-PWM Mode (Single-Phase Output)

Figure 8-30 Buck Transient From PWM-to-PFM Mode (Single-Phase Output)

Figure 8-32 Buck Transient From 1-Phase to 2-Phase Operation (Dual-Phase Output)

I_OUT = 0.1 A → 2 A → 0.1 A

T_R = T_F = 400 ns

Figure 8-34 Buck Transient Load Step Response, AUTO Mode (Single-Phase Output)

I_OUT = 0.1 A → 2 A → 0.1 A

T_R = T_F = 400 ns

Figure 8-36 Buck Transient Load Step Response, Forced PWM Mode (Single-Phase Output)

Figure 8-38 Buck V_OUT Transition from 0.6 V to 1.4 V With Different Slew Rate Settings

Figure 8-40 Buck Start-Up With Short on Output (Single-Phase Output)

V_OUT = 1 V

Figure 8-42 LDO Output Voltage vs Load Current

V_OUT = 1 V

Load = 200 mA

Figure 8-44 LDO Output Voltage vs Temperature

R_LOAD = 3.3 Ω

V_OUT = 1 V

Figure 8-46 LDO Start-Up

I_OUT = 0 A → 0.3 A → 0 A

T_R = T_F = 1 µs

Figure 8-48 LDO Transient Load Step Response

Figure 8-50 LDO V_OUT Transition from 1.2 V to 1.8 V

V_OUT = 1.8 V

Figure 8-5 Buck Efficiency in PFM/PWM and Forced PWM Mode (Dual-Phase Output)

V_IN = 3.3 V

Figure 8-7 Buck Efficiency in Forced PWM Mode (Dual-Phase Output)

V_IN = 5 V

Figure 8-9 Buck Efficiency in Forced PWM Mode (Dual-Phase Output)

V_OUT = 1 V

Figure 8-11 Buck Output Voltage vs Load Current in Forced PWM Mode (Dual-Phase Output)

V_OUT = 1 V

Figure 8-13 Buck Output Voltage vs Load Current in PFM/PWM Mode (Dual-Phase Output)

V_OUT = 1 V

Load = 1 A

Figure 8-15 Buck Output Voltage vs Input Voltage in PWM Mode (Dual-Phase Output)

V_IN = 3.7 V

Figure 8-17 Buck Phase Adding and Shedding vs Load Current (Dual-Phase Output)

Slew-rate = 10 mV/µs

I_LOAD = 0 A

V_OUT = 1 V

Figure 8-19 Buck Start-Up With EN1, Forced PWM Mode (Dual-Phase Output)

Slew-rate = 10 mV/µs

R_LOAD = 0.5 Ω

V_OUT = 1 V

Figure 8-21 Buck Start-Up with EN1, Forced PWM Mode (Dual-Phase Output)

Slew-rate = 10 mV/µs

R_LOAD = 0.5 Ω

V_OUT = 1 V

Figure 8-23 Buck Shutdown With EN1, Forced PWM Mode (Dual-Phase Output)

I_OUT = 10 mA

Figure 8-25 Buck Output Voltage Ripple, PFM Mode (Dual-Phase Output)

I_OUT = 200 mA

Figure 8-27 Buck Output Voltage Ripple, Forced PWM Mode (Dual-Phase Output)

Figure 8-29 Buck Transient From PFM-to-PWM Mode (Dual-Phase Output)

Figure 8-31 Buck Transient From PWM-to-PFM Mode (Dual-Phase Output)

Figure 8-33 Buck Transient From 2-Phase to 1-Phase Operation (Dual-Phase Output)

I_OUT = 0.1 A → 4 A → 0.1 A

T_R = T_F = 400 ns

Figure 8-35 Buck Transient Load Step Response, AUTO Mode (Dual-Phase Output)

I_OUT = 0.1 A → 4 A → 0.1 A

T_R = T_F = 400 ns

Figure 8-37 Buck Transient Load Step Response, Forced PWM Mode (Dual-Phase Output)

Figure 8-39 Buck V_OUT Transition from 1.4 V to 0.6 V With Different Slew Rate Settings

Figure 8-41 Buck Start-up With Short on Output (Dual-Phase Output)

V_OUT = 1 V

Load = 200 mA

Figure 8-43 LDO Output Voltage vs Input Voltage

I_LOAD = 0 A

V_OUT = 1 V

Figure 8-45 LDO Start-Up

I_LOAD = 0 A

V_OUT = 1 V

Figure 8-47 LDO Shutdown

Figure 8-49 LDO V_OUT Transition from 1.8 V to 1.2 V

Start-up delay is 500 µs

Figure 8-51 LDO Start-Up With Short on Output