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ZHCSHZ3C April 2018 – August 2019 TMUX1072

PRODUCTION DATA.

封裝選項(xiàng)

機(jī)械數(shù)據(jù) (封裝 | 引腳)

DGS|10
- MPDS035C
RUT|12
- MPQF248C

散熱焊盤機(jī)械數(shù)據(jù) (封裝 | 引腳)

訂購信息

6.5 Electrical Characteristics

T_A = –40°C to +125°C , V_CC = 2.3 V to 5.5 V, GND = 0V, Typical values are at V_CC = 3.3 V, T_A = 25°C, (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
SUPPLY
V_CC	Power supply voltage		2.3		5.5	V
I_CC	Active supply current	OE = 0 V SEL1, SEL2 = 0 V, 1.8 V or V_CC 0 V < V_I/O < 3.6 V		75	110	µA
I_CC	Supply current during OVP condition	OE = 0 V SEL1, SEL2 = 0 V, 1.8 V or V_CC V_I/O> V_{POS_THLD}		65	98	µA
I_{CC_PD}⁽²⁾	Standby powered down supply current	OE = 1.8 V or V_CC SEL1 = 0 V, 1.8 V, or VCC SEL2 = 0 V, 1.8 V, or VCC		3	10	µA
UVLO	Under Voltage Lock Out	V_CC = rising and falling	1.65			V
DC Characteristics
R_ON	ON-state resistance	V_I/O = 0 V to V_CC I_SINK = 8 mA Refer to ON-State Resistance Figure		6	18	Ω
ΔR_ON	ON-state resistance match between channels	V_I/O= 0 V to V_CC I_SINK= 8 mA Refer to ON-State Resistance Figure		0.07	0.5	Ω
R_ON (FLAT)	ON-state resistance flatness	V_I/O = 0 V to V_CC I_SINK = 8 mA Refer to ON-State Resistance Figure		2.5	7	Ω
I_OFF	I/O pin OFF leakage current	V_COM1/2 = 0 V to 5.5 V ⁽³⁾ V_CC= 2.3 V to 5.5 V V_NC1/2or V_NO1/2 = 5.5 V or 0 V Refer to Off Leakage Figure		3.6	10	µA
		V_COM1/2 = 5.5 V ⁽³⁾ V_CC = 5.5 V V_NC1/2 or V_NO1/2= 5.5 V Refer to Off Leakage Figure			3	µA
		V_COM1/2 = 3.6 V ⁽³⁾ V_CC = 3.3 V V_NC1/2 or V_NO1/2= 3.6 V Refer to Off Leakage Figure			2	µA
		V_COM1/2 = 5.5 V V_CC = 0 V V_NC1/2 or V_NO1/2= 5.5 V Refer to Off Leakage Figure			15	µA
		V_COM1/2 = 3.6 V V_CC = 0 V V_NC1/2 or V_NO1/2= 3.6 V Refer to Off Leakage Figure			10	uA
		V_COM1/2 = 1 V V_CC = 0 V V_NC1/2 or V_NO1/2= 1 V Refer to Off Leakage Figure			2	uA
		V_COM1/2 = 18 V V_CC = 0 V, 5.5 V V_NC1/2 or V_NO1/2= 0 V Refer to Off Leakage Figure		165	185	µA
I_ON	ON leakage current	V_COM1/2 = 5.5 V V_CC = 5.5 V V_NC1/2 and V_NO1/2 = high-Z Refer to On Leakage Figure		1.2	3.5	µA
I_ON	ON leakage current	V_COM1/2 = 0 V to 5.5 V V_CC = 2.3-5.5 V V_NC1/2 and V_NO1/2 = high-Z Refer to On Leakage Figure			11.5	µA
Digital Characteristics
V_IH	Input logic high	SEL1, SEL2, OE	1.45			V
V_IL	Input logic low	SEL1, SEL2, OE			0.5	V
V_OL	Output logic low	FLT I_OL = 3 mA			0.3	V
I_IH	Input high leakage current	SEL1, SEL2, OE = 1.8 V, V_CC	-1	2	5	μA
I_IL	Input low leakage current	SEL1, SEL2, OE = 0 V	-1	±0.2	1	μA
R_PD	Internal pull-down resistor on digital input pins	SEL1, SEL2		6	12	MΩ
R_PD	Internal pull-down resistor on digital input pins	OE		3	6	MΩ
C_I⁽¹⁾	Digital input capacitance	SEL1, SEL2 = 0 V, 1.8 V or VCC f = 1 MHz		8		pF
Protection and Detection
V_{OVP_TH}	OVP positive threshold		5.55	5.8	6.0	V
V_{OVP_HYST}⁽¹⁾	OVP threshold hysteresis		40	100	300	mV
T_{SD_HYST}⁽¹⁾	Thermal Shutdown Hysteresis		3		8	°C
T_{OTD_TH}⁽¹⁾	Overtemperature detection threshold		135		165	°C
V_{CLAMP_V}⁽¹⁾	Maximum voltage to appear on NC1/2 and NO1/2 pins during OVP scenario	V_COM1/2 = 0 to 18 V t_RISEand t_FALL(10% to 90 %) = 100 ns R_L = Open Switch on or off OE = 0 V	0		9.6	V
V_{CLAMP_V}⁽¹⁾		V_COM1/2 = 0 to 18 V t_RISEand t_FALL(10% to 90 %) = 100 ns R_L = 50Ω Switch on or off OE = 0 V	0		9.0	V
t_{EN_OVP}⁽¹⁾	OVP enable time	R_PU = 10 kΩ to VCC (FLT) C_L = 35 pF Refer to OVP Timing Diagram Figure		0.6	3	μs
t_{REC_OVP}⁽¹⁾	OVP recovery time	R_PU = 10 kΩ to VCC (FLT) C_L = 35 pF Refer to OVP Timing Diagram Figure		1.5	5	μs

(1) Specified by design, not tested in production.

(2) Not tested for DGS package due to absence of FLT and OE pin.

(3) Not tested on COM1/2 pins for DGS package due to the absence of OE pin