SBOS705D Data sheet

SBOS705D January 2016 – Feburary 2019 MUX36D04 , MUX36S08

PRODUCTION DATA.

Package Options

Mechanical Data (Package|Pins)

RRJ|16
- MPQF541
RUM|16
- MPQF223A
PW|16
- MPDS361A

Thermal pad, mechanical data (Package|Pins)

RUM|16
- QFND157C

Orderable Information

7.6 Electrical Characteristics: Single Supply

at T_A = 25°C, V_DD = 12 V, and V_SS = 0 V (unless otherwise noted)

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
ANALOG SWITCH
	Analog signal range	T_A = –40°C to +125°C		V_SS		V_DD	V
R_ON	On-resistance	V_S = 10 V, I_CH = 1 mA			235	340	Ω
			T_A = –40°C to +85°C			390
			T_A = –40°C to +125°C			430
ΔR_ON	On-resistance match	V_S = 10 V, I_CH = 1 mA			3.1	12	Ω
			T_A = –40°C to +85°C			19
			T_A = –40°C to +125°C			23
	On-resistance drift	V_S = 10 V			1.13		%/°C
I_S(OFF)	Input leakage current	Switch state is off, V_S = 1 V and V_D = 10 V, or V_S = 10 V and V_D = 1 V⁽¹⁾		–-0.04	0.001	0.04	nA
			T_A = –40°C to +85°C	–0.15		0.15
			T_A = –40°C to +125°C	–1.9		1.9
I_D(OFF)	Output off leakage current	Switch state is off, V_S = 1 V and V_D = 10 V, or V_S = 10 V and V_D = 1 V⁽¹⁾		–0.1	0.005	0.1	nA
			T_A = –40°C to +85°C	–0.5		0.5
			T_A = –40°C to +125°C	–2		2
I_D(ON)	Output on leakage current	Switch state is on, V_D = 1 V and 10 V, V_S = floating		–0.1	0.008	0.1	nA
			T_A = –40°C to +85°C	–0.5		0.5
			T_A = –40°C to +125°C	–3.3		3.3
LOGIC INPUT
V_IH	Logic voltage high			2.0			V
V_IL	Logic voltage low					0.8	V
I_D	Input current					0.15	µA
SWITCH DYNAMIC CHARACTERISTICS⁽²⁾
t_ON	Enable turn-on time	V_S = 8 V, R_L = 300 Ω, C_L= 35 pF			85	140	ns
			T_A = –40°C to +85°C			145
			T_A = –40°C to +125°C			149
t_OFF	Enable turn-off time	V_S = 8 V, R_L = 300 Ω, C_L= 35 pF			48	83	ns
			T_A = –40°C to +85°C			94
			T_A = –40°C to +125°C			102
t_t	Transition time	V_S = 8 V, C_L= 35 pF			87	147	ns
		V_S = 8 V, R_L = 300 Ω, C_L= 35 pF	T_A = –40°C to +85°C			153
		V_S = 8 V, R_L = 300 Ω, C_L= 35 pF	T_A = –40°C to +125°C			155
t_BBM	Break-before-make time delay	V_S = 8 V, R_L = 300 Ω, C_L= 35 pF, T_A = –40°C to +125°C		30	54		ns
Q_J	Charge injection	C_L = 1 nF, R_S = 0 Ω	V_S = 6 V		0.15		pC
Q_J	Charge injection	C_L = 1 nF, R_S = 0 Ω	V_S = 0 V to 12 V,		±0.4		pC
	Off-isolation	R_L = 50 Ω, V_S = 1 V_RMS, f = 1 MHz	Nonadjacent channel to D, DA, DB		-96		dB
	Off-isolation	R_L = 50 Ω, V_S = 1 V_RMS, f = 1 MHz	Adjacent channel to D, DA, DB		-85		dB
	Channel-to-channel crosstalk	R_L = 50 Ω, V_S = 1 V_RMS, f = 1 MHz	Nonadjacent channels		–96		dB
	Channel-to-channel crosstalk	R_L = 50 Ω, V_S = 1 V_RMS, f = 1 MHz	Adjacent channels		-88		dB
C_S(OFF)	Input off-capacitance	f = 1 MHz, V_S = 6 V			2.7	3.2	pF
C_D(OFF)	Output off-capacitance	f = 1 MHz, V_S = 6 V	MUX36S08		9.1	10	pF
C_D(OFF)	Output off-capacitance	f = 1 MHz, V_S = 6 V	MUX36D04		5	5.7	pF
C_S(ON), C_D(ON)	Output on-capacitance	f = 1 MHz, V_S = 6 V	MUX36S08		10.8	12	pF
C_S(ON), C_D(ON)	Output on-capacitance	f = 1 MHz, V_S = 6 V	MUX36D04		6.9	8	pF
POWER SUPPLY
	V_DD supply current	All V_A = 0 V or 3.3 V, V_S = 0 V, V_EN = 3.3 V			42	53	µA
			T_A = –40°C to +85°C			56
			T_A = –40°C to +125°C			77
	V_SS supply current	All V_A = 0 V or 3.3 V, V_S = 0 V, V_EN = 3.3 V			23	31	µA
			T_A = –40°C to +85°C			38
			T_A = –40°C to +125°C			51

(1) When V_S is 1 V, V_D is 10 V, and vice versa.

(2) Specified by design; not subject to production testing.