CD405XB

CD405xB CMOS Single 8-Channel Analog Multiplexer or Demultiplexer With Logic-Level Conversion

Overview

Part: CD405xB

Type: CMOS Single 8-Channel Analog Multiplexer or Demultiplexer With Logic-Level Conversion

Key Specs:

Digital signal levels: 3V to 20V
Analog signal levels: ≤ 20V_P-P
Single supply range: 3V to 20V
Dual supply range: ± 3V to ± 10V
ON resistance: 125Ω (typical) over input range for V_DD = 15V
Channel leakage: ±10pA (typical) at V_DD = 15V
Quiescent power dissipation: 0.2μW (typical)
ESD protection HBM: 3000V
ESD protection CDM: 2000V
Recommended Operating Temperature Range: –55°C to 125°C

Features:

Wide range of digital and analog signal levels
Single supply range
Dual Supply range
Low ON resistance
Low channel leakage
Low quiescent power dissipation
Break-before-make switching eliminates channel overlap
Bidirectional signal path
ESD protection
Pin compatible with industry standard 4051 muxes

Applications:

Analog and digital multiplexing and demultiplexing
Analog to digital and digital to analog conversion
Signal gating
Factory automation
Televisions
Appliances
Consumer audio
Programmable logic circuits
Sensors

Package:

J (CDIP, 16): 19.50mm × 6.92mm
N (PDIP, 16): 19.3mm × 9.4mm
D (SOIC, 16): 9.9mm × mm
NS (SOP, 16): 10.2mm × 7.8mm
PW (TSSOP, 16): 5mm × 6.4mm

Features

Wide range of digital and analog signal levels:
- Digital: 3V to 20V
- Analog: ≤ 20V_P-P
Single supply range: 3V to 20V (performance degrades for VDD < 3V)
Dual Supply range: ± 3V to ± 10V
Low ON resistance, 125Ω (typical) over input range for V_DD = 15V
Low channel leakage of ±10pA (typical) at V_DD = 15V
Low guiescent power dissipation: 0.2μW (typical)
Break-before-make switching eliminates channel overlap
Bidirectional signal path
ESD protection HBM: 3000V, CDM: 2000V
Pin compatible with industry standard 4051 muxes

Applications

Analog and digital multiplexing and demultiplexing
Analog to digital and digital to analog conversion
Signal gating
Factory automation
Televisions
Appliances
Consumer audio
Programmable logic circuits
Sensors

Pin Configuration

Figure 4-1. CD4051B E, M, NS, and PW Package, 16-Pin PDIP, CDIP, SOIC, SOP, and TSSOP (Top View)

Figure 4-2. CD4052B E, M, NS, and PW Package, 16-Pin PDIP, CDIP, SOP, and TSSOP (Top View)

Figure 4-3. CD4053B E, M, NS, and PW Package, 16-Pin PDIP, CDIP, SOP, and TSSOP (Top View)

	PIN
NO.	NAME
1	CH 4 IN/OUT
2	CH 6 IN/OUT
3	COM OUT/IN
4	CH 7 IN/OUT
5	CH 5 IN/OUT
6	INH
7	VEE
8	VSS
9	C
10	B
11	A
12	CH 3 IN/OUT
13	CH 0 IN/OUT
14	CH 1 IN/OUT
15	CH 2 IN/OUT
16	VDD

Table 4-1. Pin Functions CD4051B

(1) I = input, O = output

Table 4-2. Pin Functions CD4052B

	PIN
NO.	NAME
1	Y CH 0 IN/OUT
2	Y CH 2 IN/OUT
3	Y COM OUT/IN
4	Y CH 3 IN/OUT
5	Y CH 1 IN/OUT
6	INH
7	VEE
8	VSS
9	B
10	A
11	X CH 3 IN/OUT
12	X CH 0 IN/OUT
13	X COM IN/OUT
14	X CH 1 IN/OUT
15	X CH 2 IN/OUT
16	VDD

(1) I = input, O = output

Table 4-3. Pin Functions CD4053B

	PIN	TYPE(1)
NO.	NAME
1	BY IN/OUT	I/O
2	BX IN/OUT	I/O
3	CY IN/OUT	I/O
4	CX OR CY OUT/IN	I/O
5	CX IN/OUT	I/O
6	INH	I
7	VEE	—
8	VSS	—
9	C	I
10	B	I
11	A	I
12	AX IN/OUT	I/O
13	AY IN/OUT	I/O
14	AX OR AY OUT/IN	I/O
15	BX OR BY OUT/IN	I/O
16	VDD	—

(1) I = input, O = output

Electrical Characteristics

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

Over operating free-air temperature range, VSUPPLY = ±5V, and RL = 100Ω, (unless otherwise noted)(1) PARAMETER			TEST CONDITIONS			MIN TYP		MAX UNIT
SIGNAL INPUTS (VIS) AND OUTPUTS (VOS)
	VIS (V)	VEE (V)	VSS (V)	VDD (V)	TEMP
					–55°C		60
					–40°C		60
		0V	0V	5V	25°C	17	60
					85°C		150
					125°C		150
					–55°C		60
					–40°C		60
		0V	0V	10V	25°C	18	60
					85°C		300
Quiescent Device Current, IDD Max					125°C		300
					–55°C		60	μA
				15V	–40°C		60
		0V	0V		25°C	18	60
					85°C		600
					125°C		600
					–55°C		100
					–40°C		100
		0V	0V	20V	25°C	18	100
					85°C		3000
					125°C		3000
					–55°C		800
				5V	–40°C		850
		0V	0V		25°C	470	1050
					85°C		1200
					125°C		1300
					–55°C		310
					–40°C		300
Drain to Source ON Resistance rON Max		0V	0V	10V	25°C	180	400	Ω
0 ≤ VIS ≤ VDD					85°C		520
					125°C		550
					–55°C		200
					–40°C		210
		0V	0	15V	25°C	125	240
					85°C		300
					125°C		300
		0V	0V	5V		15
Change in ON Resistance (Between Any Two Channels),		0V	0V	10V	25°C	10		Ω
ΔRON		0V	0V	15V		5

Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted)(1) (2)

			MIN	MAX	UNIT
	Supply Voltage	V+ to V-, Voltages Referenced to VSS Terminal	–0.5	20	V
	DC Input Voltage		–0.5	VDD+0.5	V
	DC Input Current	Any One Input	–10	10	mA
TJMAX1	Maximum junction temperature, ceramic package			175	°C
TJMAX2	Maximum junction temperature, plastic package			150	°C
Tstg	Storage temperature		–65	150	°C

⁽¹⁾ Stresses beyond those listed under Absolute Maximum Rating may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Condition. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

(2) All voltages are with respect to ground, unless otherwise specified.

Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)

	MIN	NOM	MAX	UNIT
Temperature Range	–55		125	°C

5.4 Thermal Information

THERMAL METRIC(1)		CD405x
		E (PDIP)
		16 PINS
RθJA	Junction-to-ambient thermal resistance	67

⁽²⁾ JEDEC document JEP157 states that 250V CDM allows safe manufacturing with a standard ESD control process.

5.5 Electrical Characteristics

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

Over operating free-air temperature range, VSUPPLY = ±5V, and RL = 100Ω, (unless otherwise noted)(1) PARAMETER			TEST CONDITIONS			MIN TYP		MAX UNIT
SIGNAL INPUTS (VIS) AND OUTPUTS (VOS)
	VIS (V)	VEE (V)	VSS (V)	VDD (V)	TEMP
					–55°C		60
					–40°C		60
		0V	0V	5V	25°C	17	60
					85°C		150
					125°C		150
					–55°C		60
					–40°C		60
		0V	0V	10V	25°C	18	60
					85°C		300
Quiescent Device Current, IDD Max					125°C		300
					–55°C		60	μA
				15V	–40°C		60
		0V	0V		25°C	18	60
					85°C		600
					125°C		600
					–55°C		100
					–40°C		100
		0V	0V	20V	25°C	18	100
					85°C		3000
					125°C		3000
					–55°C		800
				5V	–40°C		850
		0V	0V		25°C	470	1050
					85°C		1200
					125°C		1300
					–55°C		310
					–40°C		300
Drain to Source ON Resistance rON Max		0V	0V	10V	25°C	180	400	Ω
0 ≤ VIS ≤ VDD					85°C		520
					125°C		550
					–55°C		200
					–40°C		210
		0V	0	15V	25°C	125	240
					85°C		300
					125°C		300
		0V	0V	5V		15
Change in ON Resistance (Between Any Two Channels),		0V	0V	10V	25°C	10		Ω
ΔRON		0V	0V	15V		5

5.5 Electrical Characteristics (continued)

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

	PARAMETER				TEST CON	IDITIONS		MIN TYP MA	X UNIT
							–55°C	± 10	0
							-40°C	± 10	0
OFF Ch	OFF Channel Leakage Current: Any Channel OFF (Max)						25°C	± 0.3 10	2)
or ALL	or ALL Channels OFF (COMMON DUT/IN) (Max)	MON		OV	0V	18V	85°C	100	# nA 0 2)
							125°C	100	± 0 2)
	annel Leakage Curren	t: Any	5 or 0	-5V	0V	10.5V	85°C	± 30	0
	Channel ON (Max) or ALL Channels ON (COMMON OUT/IN)		5	0V	0V	18V	85°C	± 30	nA
	Input, C _IS							5
	Output, C _OS	CD4 051						30
Capaci tance	Output, C _OS	CD4 052		0V	0V	10V	25°C	18	pF
	Output, C _OS	CD4 053						9
	Feed through, C _IOS							0.2
				R _L = 200kΩ		5V		30 6	0
Prop De	Prop Delay		V_DD	C _L = 50pF	C _L = 50pF		25°C	15 3	0 ns
				t_r , t_f = 20 ns		15V		10 2	0

5.5 Electrical Characteristics (continued)

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

	PARAMETER			TEST CONDITIONS			MIN	TYP		MAX UNIT
	CONTROL (ADDRESS OR INHIBIT), VC
						–55°C		0.8
						–40°C		0.8
					5V	25°C			0.8
						85°C		0.8
						125°C		0.8
						–55°C		0.8
						–40°C		0.8
	Input Low Voltage, VIL, Max				10V	25°C			0.8	V
						85°C		0.8
						125°C		0.8
						–55°C		0.8
						–40°C		0.8
					15V	25°C			0.8
						85°C		0.8
						125°C		0.8
						–55°C		3.5
						–40°C		3.5
				5V		25°C	3.5
						85°C		3.5
						125°C		3.5
						–55°C		7
						–40°C		7
	Input High Voltage, VIH, Min			10V		25°C	7			V
						85°C		7
						125°C		7
						–55°C		11
						–40°C		11
					15V	25°C	11
						85°C		11
						125°C		11
						–55°C			±1
						–40°C			±1
	Input current, IIN (Max)	VIN = 0, 18			18V	25°C		±0.6	±1	μA
						85°C			±1
						125°C			±1
			0V	0V	5V			450	720
Propa	Address-to-Signal OUT tr , tf = 20ns,		0V	0V	10V			160	320
Delay	gation (Channels ON or OFF) (See Figure 10, Figure 11, and	CL = 50pF,	0V	0V	15V			120	240	ns
Time	Figure 15)	RL = 10kΩ	–5V	0V	5V			225 450
			0V	0V	5V			400	720
Propa	Inhibit-to-Signal OUT (Channel	tr , tf = 20ns,		0V	10V			160	320
gation Delay	Turning ON) (See Figure 11)	0V CL = 50pF,	0V	0V	15V			120	240	ns
Time		RL = 1kΩ –10V 0V		5V			200	400

Thermal Information

THERMAL METRIC(1)		CD405x
		E (PDIP)
		16 PINS
RθJA	Junction-to-ambient thermal resistance	67

⁽²⁾ JEDEC document JEP157 states that 250V CDM allows safe manufacturing with a standard ESD control process.

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
CD4051B	unknown	—
CD4052B	—	—
CD4052B-MIL	—	—
CD4052B-MIL.HTML	—	—
CD4052B.HTML	—	—
CD4052BE	Texas Instruments	16-DIP (0.300", 7.62mm)
CD4052BE.A	—	—
CD4052BEE4	—	—
CD4052BF	—	—
CD4052BF.A	—	—
CD4052BF3A	—	—
CD4052BF3A.A	—	—
CD4052BM	—	—
CD4052BM96		SOIC-16
CD4052BM96.A	—	—
CD4052BMT	—	—
CD4052BNSR	—	—
CD4052BNSR.A	—	—
CD4052BPW	—	—
CD4052BPWR	—	—
CD4052BPWR.A	—	—
CD4053B	—	—

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