ZHCSJL6C 数据表 | 德州仪器 TI.com.cn

ZHCSJL6C August 1998 – March 2023 CD4051B-Q1 , CD4053B-Q1

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PW|16
- MPDS361A

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6.5 Electrical Characteristics - CD4051B-Q1

Over operating free-air temperature range, V_SUPPLY = ±5 V, and R_L = 100 Ω, (unless otherwise noted)⁽¹⁾

PARAMETER			TEST CONDITIONS					MIN	TYP	MAX	UNIT
			V_IS (V)	V_EE (V)	V_SS (V)	V_DD (V)	TEMP
SIGNAL INPUTS (V_IS) AND OUTPUTS (V_OS) - CD4051B-Q1
Quiescent Device Current, I_DD (Max)				0 V	0 V	5 V	–55°C			60	µA
							–40°C			60
							25°C		17	60
							85°C			150
							125°C			150
				0 V	0 V	10 V	–55°C			60
							–40°C			60
							25°C		18	60
							85°C			300
							125°C			300
				0 V	0 V	15 V	–55°C			60
							–40°C			60
							25°C		18	60
							85°C			600
							125°C			600
				0 V	0 V	20 V	–55°C			100
							–40°C			100
							25°C		18	100
							85°C			3000
							125°C			3000
Drain to Source ON Resistance r_ON (Max) 0 ≤ V_IS ≤ V_DD				0 V	0 V	5 V	–55°C			800	Ω
							–40°C			850
							25°C		470	1050
							85°C			1200
							125°C			1300
				0 V	0 V	10 V	–55°C			310
							–40°C			300
							25°C		180	400
							85°C			520
							125°C			550
				0 V	0	15 V	–55°C			200
							–40°C			210
							25°C		125	240
							85°C			300
							125°C			300
Change in ON Resistance (Between Any Two Channels), ΔR_ON				0 V	0 V	5 V	25°C		15		Ω
				0 V	0 V	10 V			10
				0 V	0 V	15 V			5
OFF Channel Leakage Current: Any Channel OFF (Max) or ALL Channels OFF (COMMON OUT/IN) (Max)				0 V	0 V	18 V	–55°C			± 100	nA
							–40°C
							25°C		± 0.3	± 100⁽²⁾
							85°C			± 1000⁽²⁾
							125°C
ON Channel Leakage Current: Any Channel ON (Max) or ALL Channels ON (COMMON OUT/IN) (Max)			5 or 0	–5 V	0 V	10.5 V	85°C			± 800	nA
			5	0 V	0 V	18 V	85°C			± 800	nA
Capacitance	Input, C_IS			0 V	0 V	10 V	25°C		5		pF
	Output, C_OS	CD4051-Q1							30
	Feed-through, C_IOS								0.2
Prop Delay			V_DD	R_L = 200 kΩ		5 V	25°C		30	60	ns
				C_L = 50 pF		10 V			15	30
				t_r, t_f = 20 ns		15 V			10	20
CONTROL (ADDRESS OR INHIBIT), V_C- CD4051B-Q1
Input Low Voltage, V_IL, (Max)						5 V	–55°C		0.8		V
							–40°C		0.8
							25°C			0.8
							85°C		0.8
							125°C		0.8
						10 V	–55°C		0.8
							–40°C		0.8
							25°C			0.8
							85°C		0.8
							125°C		0.8
						15 V	–55°C		0.8
							–40°C		0.8
							25°C			0.8
							85°C		0.8
							125°C		0.8
Input High Voltage, V_IH, (Min)						5 V	–55°C		3.5		V
							–40°C		3.5
							25°C	3.5
							85°C		3.5
							125°C		3.5
						10 V	–55°C		7
							–40°C		7
							25°C	7
							85°C		7
							125°C		7
						15 V	–55°C		11
							–40°C		11
							25°C	11
							85°C		11
							125°C		11
Input current, I_IN(Max)			V_IN = 0, 18			18 V	–55°C			±1	µA
							–40°C			±1
							25°C		±0.6	±1
							85°C			±1
							125°C			±1
Propagation Delay Time	Address-to-Signal OUT (Channels ON or OFF) (See Figure 7-2 Figure 7-3, and Figure 7-8)		t_r , t_f= 20ns, C_L = 50 pF, R_L = 10 kΩ	0 V	0 V	5 V			450	720	ns
				0 V	0 V	10 V			160	320
				0 V	0 V	15 V			120	240
				–5 V	0 V	5 V			225	450
Propagation Delay Time	Inhibit-to-Signal OUT (Channel Turning ON) (See Figure 7-3)		t_r , t_f= 20 ns, C_L = 50 pF, R_L = 1 kΩ	0 V	0 V	5 V			400	720	ns
				0 V	0 V	10 V			160	320
				0 V	0 V	15 V			120	240
				–10 V	0 V	5 V			200	400
Propagation Delay Time	Inhibit-to-Signal OUT (Channel Turning OFF) (See Figure 7-10)		t_r , t_f= 20 ns, C_L = 50 pF, R_L = 10 kΩ	0 V	0 V	5 V			200	450	ns
				0 V	0 V	10 V			90	210
				0 V	0 V	15 V			70	160
				–10 V	0 V	5 V			130	300
Input Capacitance, C_IN (Any Address or Inhibit Input)				–5 V	0 V	5 V	25°C		5	7.5	pF

(1) Peak-to-Peak voltage symmetrical about (V_DD – V_EE) / 2.

(2) Determined by minimum feasible leakage measurement for automatic testing.