ZHCSLR4F 数据表 | 德州仪器 TI.com.cn

ZHCSLR4F december 2019 – july 2023 TMUX1308-Q1 , TMUX1309-Q1

PRODUCTION DATA

7.6 Electrical Characteristics

At specified V_DD ±10%
Typical values measured at nominal V_DD

PARAMETER		TEST CONDITIONS	V_DD	Operating free-air temperature (T_A)									UNIT
				25°C			–40°C to 85°C			–40°C to 125°C
				MIN	TYP	MAX	MIN	TYP	MAX	MIN	TYP	MAX
ANALOG SWITCH
R_ON	On-state switch resistance	V_S = 0 V to V_DD I_SD = 0.5 mA	1.8 V		650	1500			1700			1700	Ω
			2.5 V		230	600			670			670
			3.3 V		120	330			350			370
			5 V		75	195			220			270
Δ_RON	On-state switch resistance matching between inputs	V_S = V_DD / 2 I_SD = 0.5 mA	1.8 V		10	38			45			45	Ω
			2.5 V		3	20			22			22
			3.3 V		2	8			11			15
			5 V		1	7			10			14
I_S(OFF)	Source off-state leakage current	Switch Off V_D = 0.8 x V_DD/ 0.2 x V_DD V_S = 0.2 x V_DD/ 0.8 x V_DD	1.8 V		±1		–25		25	–800		800	nA
			2.5 V		±1		–25		25	–800		800
			3.3 V		±1		–25		25	–800		800
			5 V		±1		–25		25	–800		800
I_D(OFF)	Drain off-state leakage current (common drain pin)	Switch Off V_D = 0.8 x V_DD/ 0.2 x V_DD V_S = 0.2 x V_DD/ 0.8 x V_DD	1.8 V		±1		–45		45	–800		800	nA
			2.5 V		±1		–45		45	–800		800
			3.3 V		±1		–45		45	–800		800
			5 V		±1		–45		45	–800		800
I_D(ON) I_S(ON)	Channel on-state leakage current	Switch On V_D = V_S = 0.8 x V_DD or V_D = V_S = 0.2 x V_DD	1.8 V		±1		–45		45	–800		800	nA
			2.5 V		±1		–45		45	–800		800
			3.3 V		±1		–45		45	–800		800
			5 V		±1		–45		45	–800		800
C_SOFF	Source off capacitance	V_S = V_DD / 2 f = 1 MHz	1.8 V		2	14			14			14	pF
			2.5 V		2	14			14			14
			3.3 V		2	14			14			14
			5 V		2	14			14			14
C_DOFF	Drain off capacitance	V_S = V_DD / 2 f = 1 MHz	1.8 V		7	37			37			37	pF
			2.5 V		7	37			37			37
			3.3 V		7	37			37			37
			5 V		7	37			37			37
C_SON C_DON	On capacitance	V_S = V_DD / 2 f = 1 MHz	1.8 V		11	40			40			40	pF
			2.5 V		11	40			40			40
			3.3 V		11	40			40			40
			5 V		11	40			40			40
POWER SUPPLY
I_DD	V_DD supply current	Logic inputs = 0 V or V_DD	1.8 V			1			1			1.2	µA
			2.5 V			1			1			1.5
			3.3 V			1			1			2
			5 V			1			1.5			3