SLVSE16C Data sheet

SLVSE16C May 2019 – January 2020 TPS1HB08-Q1

PRODUCTION DATA.

パッケージ・オプション

メカニカル・データ（パッケージ｜ピン）

PWP|16
- MPDS371A

サーマルパッド・メカニカル・データ

PWP|16
- PPTD352A

発注情報

7.1 Typical Characteristics

Figure 1. Transient Thermal Impedance

V_OUT = 0 V	V_EN = 0 V	V_{DIAG_EN} = 0 V

Figure 3. Output Leakage Current (I_OUT(standby)) vs Temperature

I_OUT = 200 mA	V_EN = 5 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ

Figure 5. On Resistance (R_ON) vs Temperature

R_OUT = 2.6 Ω	V_EN = 0 V to 5 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 7. Turn-on Delay Time (t_DR) vs Temperature

R_OUT = 2.6 Ω	V_EN = 0 V to 5 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 9. V_OUT Slew Rate Rising (SR_R) vs Temperature

R_OUT = 2.6 Ω	V_EN = 0 V to 5 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 11. Turn-on Time (t_ON) vs Temperature

R_OUT = 2.6 Ω	V_EN = 0 V to 5 V and 5 V to 0 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 13. Turn-on and Turn-off Matching (t_ON - t_OFF) vs Temperature

V_SEL1 = 0 V	V_EN = 5 V	V_{DIAG_EN} = 5 V
R_SNS = 1 kΩ	T_A = 25°C

Figure 15. Current Sense Output Current (I_SNSI) vs Load Current (I_OUT) Across V_BB

V_SEL1 = 0 V	V_EN = 0 V	V_{DIAG_EN} = 5 V
R_SNS = 500 Ω	V_OUT Floating

Figure 17. Fault High Output Current (I_SNSFH) vs Temperature

V_EN = 0 V to 3.3 V	V_OUT = 0 V	V_{DIAG_EN} = 0 V
R_OUT = 1 kΩ

Figure 19. V_IH vs Temperature

V_EN = 0.8 V	V_OUT = 0 V	V_{DIAG_EN} = 0 V
R_OUT = 1 kΩ

Figure 21. I_IL vs Temperature

R_OUT1 = 2.6 Ω	R_SNS = 1 kΩ	V_{DIA_EN} = 5 V
V_SEL = 0 V

Figure 23. Turn-on Time (t_ON)

R_OUT1 = 2.6 Ω	R_SNS = 1 kΩ	V_SEL = 0 V
I_OUT1 = 1 A to 5 A	V_BB = 13.5 V

Figure 25. I_SNS Settling time (t_SNSION1) on Load Step

L_OUT = 5 µH to GND	R_SNS = 1 kΩ	V_SEL = 0 V
V_EN = 0 V to 5 V	V_{DIAG_EN} = 5 V	T_A = 25°C

Figure 27. Device Version F Short Circuit Event

V_OUT = 0 V	V_EN = 0 V	V_{DIAG_EN} = 0 V

Figure 2. Standby Current (I_SB) vs Temperature

I_OUT = 0 A	V_EN = 5 V	V_{DIAG_EN} = 5 V
R_SNS = 1 kΩ	V_SEL1 = 0 V

Figure 4. Quiescent Current (I_Q) vs Temperature

I_OUT = 200 mA	V_EN = 5 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 6. On Resistance (R_ON) vs V_BB

R_OUT = 2.6 Ω	V_EN = 5 V to 0 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 8. Turn-off Delay Time (t_DF) vs Temperature

R_OUT = 2.6 Ω	V_EN = 5 V to 0 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 10. V_OUT Slew Rate Falling (SR_F) vs Temperature

R_OUT = 2.6 Ω	V_EN = 5 V to 0 V	V_{DIAG_EN} = 0 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 12. Turn-off Time (t_OFF) vs Temperature

V_SEL1 = 0 V	V_EN = 5 V	V_{DIAG_EN} = 5 V
R_SNS = 1 kΩ	V_BB = 13.5 V

Figure 14. Current Sense Output Current (I_SNSI) vs Load Current (I_OUT) Across Temperature

V_SEL1 = 5 V	V_EN = 0 V	V_{DIAG_EN} = 5 V
R_SNS = 1 kΩ

Figure 16. Temperature Sense Output Current (I_SNST) vs Temperature

V_EN = 3.3 V to 0 V	V_OUT = 0 V	V_{DIAG_EN} = 0 V
R_OUT = 1 kΩ

Figure 18. V_IL vs Temperature

V_EN = 0 V to 3.3 V and 3.3 V to 0 V	V_OUT = 0 V	V_{DIAG_EN} = 0 V
R_OUT = 1 kΩ

Figure 20. V_IHYS vs Temperature

V_EN = 5 V	V_OUT = 0 V	V_{DIAG_EN} = 0 V
R_OUT = 1 kΩ

Figure 22. I_IH vs Temperature

R_OUT1 = 2.6 Ω	R_SNS = 1 kΩ	V_{DIA_EN} = 5 V
V_SEL = 0 V

Figure 24. Turn-off Time (t_OFF)

V_BB = 13.5 V	T_A = 25°C	I_OUT1 = 5 A
V_EN = 0 V to 5 V

Figure 26. SNS Output Current Measurement Enable on DIAG_EN PWM

TPS1HB08-Q1 5_IND_LOAD_VBB=13p5__TEMP=125_EN_2200uS_47mJ.png

V_BB = 13.5 V	T_A = 25°C	L_OUT = 5 mH

Figure 28. 5 mH Inductive Load Demagnetization