ZHCSMH9C 数据表 | 德州仪器 TI.com.cn

ZHCSMH9C april 2022 – august 2023 TPSI3052-Q1

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机械数据 (封装 | 引脚)

DWZ|8
- MPSS140

散热焊盘机械数据 (封装 | 引脚)

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6.9 Electrical Characteristics

over operating free-air temperature range (unless otherwise noted). Typicals at T_A = 25℃. C_VDDP = 220 nF (two-wire mode), C_VDDP = 1 µF (three-wire mode) , C_DIV1 = 5.1 nF, C_DIV2 = 15 nF, C_VDRV= 100 pF, R_PXFR = 7.32 kΩ ±1%

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
COMMON
V_{VDDP_UV_R}	VDDP under-voltage threshold rising	VDDP rising	2.50	2.70	2.90	V
V_{VDDP_UV_F}	VDDP under-voltage threshold falling	VDDP falling	2.35	2.55	2.75	V
V_{VDDP_UV_HYS}	VDDP under-voltage threshold hysteresis			75		mV
V_{VDDH_UV_R}	VDDH under-voltage threshold rising	VDDH rising.	12.5	13	13.4	V
V_{VDDH_UV_F}	VDDH under-voltage threshold falling.	VDDH falling.	9.9	10.4	10.9	V
V_{VDDH_UV_HYS}	VDDH under-voltage threshold hysteresis.			2.5		V
V_{VDDM_UV_R}	VDDM under-voltage threshold rising	VDDM rising.	2.8	3.3	3.7	V
V_{VDDM_UV_F}	VDDM under-voltage threshold falling	VDDM falling.	2.6	3	3.5	V
V_{VDDM_UV_HYS}	VDDM under-voltage threshold hysteresis.			0.3		V
I_{Q_VDDH}	Internal quiescent current of VDDH supply.			45		µA
R_{DSON_VDRV}	Driver on resistance in low state.	Force V_VDDH= 15 V, sink I_VDRV = 50 mA.		1.7		Ω
R_{DSON_VDRV}	Driver on resistance in high state.	Force V_VDDH= 15 V, source I_VDRV = 50 mA.		2.5		Ω
I_{VDRV_PEAK}	VDRV peak output current during rise	V_VDDH in steady state, transition EN low to high, measure peak current.		1.5		A
I_{VDRV_PEAK}	VDRV peak output current during fall	V_VDDH in steady state, transition EN high to low, measure peak current.		3		A
TSD	Temperature shutdown			173		℃
TSDH	Temperature shutdown hysteresis			32		℃
CMTI	Common-mode transient immunity	\|V_CM\| = 1000 V	100			V/ns
TWO-WIRE MODE
V_{IH_EN}	Minimum voltage on EN to be detected as a valid logic high.		6.5			V
V_{IL_EN}	Maximum voltage on EN to be detected as a valid logic low.				2.0	V
I_{EN_START}	Enable current at startup	EN = 0 V → 6.5 V		27		mA
I_EN	Enable current steady state	EN = 6.5 V, R_PXFR = 7.32 kΩ, R_PXFR ≥100 kΩ or R_PXFR ≤1 kΩ, V_VDDH in steady state.		1.9		mA
I_EN	Enable current steady state	EN = 6.5 V, R_PXFR = 20 kΩ, V_VDDH in steady state.		6.8		mA
V_{VDDP_AVG}	VDDP average voltage.	EN = 6.5 V, V_VDDH in steady state, measure average VDDP voltage.		4.5		V
V_VDDH	VDDH output voltage	EN = 6.5 V, V_VDDH in steady state.	13.9	15	16.2	V
V_{VDRV_H}	VDRV output voltage driven high	EN = 6.5 V, V_VDDH in steady state, no DC loading.	13.9	15	16.2	V
V_{VDRV_L}	VDRV output voltage driven low	EN = 6.5 V → 0 V, V_VDDH in steady state, sink 10 mA load.			0.1	V
V_{VDDM_IAUX}	Average VDDM voltage when sourcing external current.	EN = 6.5 V, steady state. R_PXFR = 7.32 kΩ, R_PXFR ≥ 100 kΩ or R_PXFR≤ 1 kΩ, C_DIV1 = 75 nF, C_DIV2= 220 nF, source 0.20 mA from VDDM, measure VDDM voltage.	4.6		5.5	V
V_{VDDM_IAUX}	Average VDDM voltage when sourcing external current.	EN = 6.5 V, steady state. R_PXFR = 20 kΩ, C_DIV1 = 75 nF, C_DIV2= 220 nF, source 1.2 mA from VDDM, measure VDDM voltage.	4.6		5.5	V
THREE-WIRE MODE
V_{IH_EN}	Minimum voltage on EN to be detected as a valid logic high. V_IH(min) = 0.7 x V_VDDP	V_VDDP = 3 V	2.1			V
V_{IH_EN}		V_VDDP = 5.5 V	3.85			V
V_{IL_EN}	Maximum voltage on EN to be detected as a valid logic low.	V_VDDP = 3 V			0.9	V
V_{IL_EN}	Maximum voltage on EN to be detected as a valid logic low.	V_VDDP = 5.5 V			1.65	V
I_VDDP	VDDP average current in steady state	EN = 3.3 V, V_VDDP = 3.3 V, R_PXFR = 7.32 kΩ, R_PXFR ≥ 100 kΩ or R_PXFR ≤ 1 kΩ, C_VDDP = 10 µF, V_VDDH in steady state, measure I_VDDP.		3.1		mA
		EN = 3.3 V, V_VDDP = 3.3 V, R_PXFR = 20 kΩ, C_VDDP = 10 µF, V_VDDH in steady state, measure I_VDDP.		26		mA
		EN = 5 V, V_VDDP = 5 V, R_PXFR = 7.32 kΩ, R_PXFR ≥ 100 kΩ or R_PXFR ≤ 1 kΩ, C_VDDP = 10 µF, V_VDDH in steady state, measure I_VDDP.		4.8		mA
		EN = 5 V, V_VDDP = 5 V, R_PXFR = 20 kΩ, C_VDDP = 10 µF, V_VDDH in steady state, measure I_VDDP.		37		mA
V_{VDDM_IAUX}	Average VDDM voltage when sourcing external current.	V_VDDP = 3.3 V, EN = 0.0 V, steady state. R_PXFR = 7.32 kΩ, C_DIV1 = 75 nF, C_DIV2 = 220 nF, Source 0.35 mA from VDDM measure V_VDDM.	4.6		5.5	V
V_{VDDM_IAUX}	Average VDDM voltage when sourcing external current.	V_VDDP = 5.0 V, EN = 0.0 V, steady state. R_PXFR = 7.32 kΩ, C_DIV1 = 75 nF, C_DIV2 = 220 nF, Source 0.50 mA from VDDM measure V_VDDM.	4.6		5.5	V
V_{VDDM_IAUX}	Average VDDM voltage when sourcing external current.	V_VDDP = 3.3 V, EN = 0.0 V, steady state. R_PXFR = 20 kΩ C_DIV1 = 75 nF, C_DIV2 = 220 nF, Source 3.0 mA from VDDM measure V_VDDM.	4.6		5.5	V
V_{VDDM_IAUX}	Average VDDM voltage when sourcing external current.	V_VDDP = 5.0 V, EN = 0.0 V, steady state. R_PXFR = 20 kΩ C_DIV1 = 75 nF C_DIV2 = 220 nF Source 5.0 mA from VDDM measure V_VDDM.	4.6		5.5	V
V_VDDH	VDDH output voltage	V_VDDP = 3.0 V, EN = 3.0 V, V_VDDH in steady state.	13.9	15	16.2	V
V_{VDRV_H}	VDRV output voltage driven high	V_VDDP = 3.0 V, EN = 3.0 V, V_VDDH in steady state, no DC loading.	13.9	15	16.2	V
V_{VDRV_L}	VDRV output voltage driven low	V_VDDP = 3.0 V, EN = 0 V, V_VDDH in steady state, VDRV sinking 10 mA.			0.1	V