ZHCSMV7B 数据表 | 德州仪器 TI.com.cn

ZHCSMV7B February 2020 – May 2021 ISO1640 , ISO1641

PRODUCTION DATA

封装选项

机械数据 (封装 | 引脚)

D|8
- MSOI002K
DW|16
- MSOI003I

散热焊盘机械数据 (封装 | 引脚)

DW|16
- QFND505A

订购信息

6.3 Recommended Operating Conditions

		MIN	NOM	MAX	UNIT
V_CC1(UVLO+)	UVLO threshold when supply voltage is rising on Side 1		2.7	2.9	V
V_CC1(UVLO-)	UVLO threshold when supply voltage is falling on Side 1	2.3	2.6		V
V_CC2(UVLO+)	UVLO threshold when supply voltage is rising on Side 2		2	2.25	V
V_CC2(UVLO-)	UVLO threshold when supply voltage is falling on Side 2	1.7	1.8		V
V_HYS1(UVLO)	Supply voltage UVLO hysteresis, Side 1	100	150		mV
V_HYS2(UVLO)	Supply voltage UVLO hysteresis, Side 2	100	150		mV
V_CC1	Supply voltage, Side 1	3.0		5.5	V
V_CC2	Supply voltage, Side 2	2.25		5.5	V
V_SDA1, V_SCL1	I2C Input and output signal voltages, Side 1	0		V_CC1	V
V_SDA2, V_SCL2	I2C Input and output signal voltages, Side 2	0		V_CC2	V
V_IL1	I2C Low-level input voltage, Side 1	0		480	mV
V_IH1	I2C High-level input voltage, Side 1	0.7 × V_CC1		V_CC1	V
V_IL2	I2C Low-level input voltage, Side 2	0		0.3 × V_CC2	V
V_IH2	I2C High-level input voltage, Side 2	0.5 × V_CC2		V_CC2	V
I_OL1	I2C Output current, Side 1	0.5		3.5	mA
I_OL2	I2C Output current, Side 2	0.5		50	mA
C1	Capacitive load, Side 1			80	pF
C2	Capacitive load, Side 2			400	pF
f_MAX	I2C Operating frequency⁽¹⁾			1.7	MHz
V_ILIO	Low-level input voltage, GPIO pins (ISO1644 only)	0.7 × V_CC1		V_CC1	V
V_IHIO	High-level input voltage, GPIO pins (ISO1644 only)	0		0.3 × V_CC2	V
I_OHIO	GPIO High-level output current (ISO1644 only), V_CCO = 5 V	-4			mA
	GPIO High-level output current (ISO1644 only), V_CCO = 3.3 V	-2			mA
	GPIO High-level output current (ISO1644 only), V_CCO = 2.5 V	-1			mA
I_OLIO	GPIO Low-level output current (ISO1644 only), V_CCO = 5 V			4	mA
	GPIO Low-level output current (ISO1644 only), V_CCO = 3.3 V			2	mA
	GPIO Low-level output current (ISO1644 only), V_CCO = 2.5 V			1	mA
f_DR	GPIO maximum data rate frequency (ISO1644 only)			50	Mbps
T_A	Ambient temperature	–40	25	125	°C

(1) Maximum frequency is a function of the RC time constant on the bus. If the system has less bus capacitance, then higher frequencies can be achieved.