SLVSEM4B Data sheet

SLVSEM4B June 2018 – April 2021 LSF0204-Q1

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

PW|14
- MPDS360

Thermal pad, mechanical data (Package|Pins)

Orderable Information

6.5 Electrical Characteristics

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

PARAMETER		TEST CONDITIONS		MIN	TYP⁽¹⁾	MAX	UNIT
V_IK	Input clamp voltage	I_I = -18 mA, V_EN = 0				–1.2	V
I_IH	I/O input high leakage	V_I = 5 V, V_EN = 0				5.0	µA
I_CCBA	Leakage from Vref_B to Vref_A	V_{ref_B} = 3.3 V, V_{ref_A} = 1.8 V, V_EN = V_{ref_A} I_O = 0, V_I = 3.3 V or GND				3.5	µA
I_CCA + I_CCB⁽³⁾	Total Current through GND	V_{ref_B} = 3.3 V, V_{ref_A} = 1.8 V, V_EN = V_{ref_A} I_O = 0, V_I = 3.3 V or GND			0.2		µA
I_IN	Control pin current	V_{ref_B} = 5.5 V, V_{ref_A} = 4.5 V, V_EN = 0 to V_{ref_A} I_O = 0				±1	µA
I_off	Power Off Leakage Current	V_{ref_B} = V_{ref_A} = 0 V, V_EN = GND I_O = 0, V_I = 5 V or GND				±1	µA
C_{I(ref_A/B/EN)}	Input capacitance	V_I = 3 V or 0			7		pF
C_io(off)	I/O pin off-state capacitance	V_O = 3 V or 0, VEN = 0			5.0	6.0	pF
C_io(on)	I/O pin on-state capacitance	V_O = 3 V or 0, VEN = Vref_A			10.5	13	pF
V_{IH (EN pin)}	High-level input voltage	V_{ref_A} = 1.5 V to 4.5 V		0.7×Vref_A			V
V_{IL (EN pin)}	Low-level input voltage	V_{ref_A} = 1.5 V to 4.5 V				0.3×Vref_A	V
V_{IH (EN pin)}	High-level input voltage	V_{ref_A}= 1.0 V to 1.5 V		0.8×Vref_A			V
V_{IL (EN pin)}	Low-level input voltage	V_{ref_A} = 1.0 V to 1.5 V				0.3×Vref_A	V
∆t/∆v (EN pin)	Input transition rise or fall rate for EN pin				10		ns/V
r_on ⁽²⁾	On-state resistance	V_I = 0, I_O = 64 mA	V_{ref_A} = V_EN = 3.3 V; V_{ref_B} = 5 V		3		Ω
		V_I = 0, I_O = 64 mA	V_{ref_A} = V_EN = 1.8 V; V_{ref_B} = 5 V		4		Ω
		V_I = 0, I_O = 32 mA	V_{ref_A} = V_EN = 1.0 V; V_{ref_B} = 5 V		9		Ω
		V_I = 0, I_O = 32 mA	V_{ref_A} = V_EN = 1.8 V; V_{ref_B} = 5 V		4		Ω
		V_I = 0, I_O = 32 mA , V_{ref_A} = V_EN = 2.5 V; V_{ref_B} = 5 V			10		Ω
		V_I = 1.8 V, I_O = 15 mA, V_{ref_A} = V_EN = 3.3 V; V_{ref_B} = 5 V			5		Ω
		V_I = 1.0 V, I_O = 10 mA, V_{ref_A} = V_EN = 1.8 V; V_{ref_B} = 3.3 V			8		Ω
		V_I = 0 V, I_O = 10 mA, V_{ref_A} = V_EN = 1.0 V; V_{ref_B} = 3.3 V			6		Ω
		V_I = 0 V, I_O = 10 mA, V_{ref_A} = V_EN = 1.0 V; V_{ref_B} = 1.8 V			6		Ω

(1) All typical values are at T_A = 25°C.

(2) Measured by the voltage drop between the A and B terminals at the indicated current through the switch. On-state resistance is determined by the lowest voltage of the two (A or B) terminals.

(3) The actual supply current for LSF0204 is I_CCA + I_CCB; the leakage from Vref_B to Vref_A can be measured on Vref_A and Vref_B pin