SCES677 Data sheet

SCES677F September 2006 – June 2024 SN74LVC1T45-Q1

PRODUCTION DATA

5.5 Electrical Characteristics

over operating free-air temperature range with all limits at T_A = –40°C to 125°C (unless otherwise noted)⁽¹⁾⁽²⁾

PARAMETER	TEST CONDITIONS			MIN	TYP	MAX	UNIT
V_OH	V_I = V_IH	I_OH = –100 µA, V_CCA = 1.65V to 4.5V, V_CCB = 1.65V to 4.5V		V_CCO – 0.1			V
		I_OH = –4mA, V_CCA = 1.65V, V_CCB = 1.65V		1.2
		I_OH = –8mA, V_CCA = 2.3V, V_CCB = 2.3V		1.9
		I_OH = –24mA, V_CCA = 3V, V_CCB = 3V		2.3
		I_OH = –32mA, V_CCA = 4.5V, V_CCB = 4.5V		3.8
V_OL	V_I = V_IL	I_OL = 100 µA, V_CCA = 1.65V to 4.5V, V_CCB = 1.65V to 4.5V				0.1	V
		I_OL = 4mA, V_CCA = 1.65V, V_CCB = 1.65V				0.45
		I_OL = 8mA, V_CCA = 2.3V, V_CCB = 2.3V				0.4
		I_OL = 24mA, V_CCA = 3V, V_CCB = 3V				0.65
		I_OL = 32mA, V_CCA = 4.5V, V_CCB = 4.5V				0.65
I_I	DIR at V_I = V_CCA or GND, V_CCA = 1.65V to 5.5V, V_CCB = 1.65V to 5.5V		T_A = 25°C			±1	µA
I_I			T_A = –40°C to 125°C			±4	µA
I_off	V_I or V_O = 0 to 5.5V	A port at V_CCA = 0V, V_CCB = 0 to 5.5V	T_A = 25°C			±1	µA
		A port at V_CCA = 0V, V_CCB = 0 to 5.5V	T_A = –40°C to 125°C			±10
		B port at V_CCA = 0 to 5.5V, V_CCB = 0V	T_A = 25°C			±1
		B port at V_CCA = 0 to 5.5V, V_CCB = 0V	T_A = –40°C to 125°C			±10
I_OZ	A or B port at V_O = V_CCO or GND, V_CCA = 1.65V to 5.5V, V_CCB = 1.65V to 5.5V		T_A = 25°C			±1	µA
I_OZ			T_A = –40°C to 125°C			±10	µA
I_CCA	V_I = V_CCI or GND, I_O = 0	V_CCA = 1.65V to 5.5V, V_CCB = 1.65V to 5.5V				10	µA
		V_CCA = 5.5V, V_CCB = 0V				4
		V_CCA = 0V, V_CCB = 5.5V				–10
I_CCB	V_I = V_CCI or GND, I_O = 0	V_CCA = 1.65V to 5.5V, V_CCB = 1.65V to 5.5V				10	µA
		V_CCA = 5.5V, V_CCB = 0V				–10
		V_CCA = 0V, V_CCB = 5.5V				4
I_CCA + I_CCB	V_I = V_CCI or GND, I_O = 0, V_CCA = 1.65V to 5.5V, V_CCB = 1.65V to 5.5V					20	µA
ΔI_CCA	V_CCA = 3V to 5.5V, V_CCB = 3V to 5.5V	A port at V_CCA – 0.6V, DIR at V_CCA, B port = open				50	µA
ΔI_CCA	V_CCA = 3V to 5.5V, V_CCB = 3V to 5.5V	DIR at V_CCA – 0.6V, B port = open, A port at V_CCA or GND				50	µA
ΔI_CCB	B port at V_CCB – 0.6V, DIR at GND, A port = open, V_CCA = 3V to 5.5V, V_CCB = 3V to 5.5V					50	µA
C_i	DIR at V_I = V_CCA or GND, T_A = 25°C, V_CCA = 3.3V, V_CCB = 3.3V				2.5		pF
C_io	A or B port at V_O = V_CCA/B or GND, T_A = 25°C, V_CCA = 3.3V, V_CCB = 3.3V				6		pF
C_pdA⁽³⁾	C_L = 0pF, f = 10MHz, t_r = t_f = 1ns	A-port input, B-port output	V_CCA = V_CCB = 1.8V		3		pF
			V_CCA = V_CCB = 2.5V		4
			V_CCA = V_CCB = 3.3V		4
			V_CCA = V_CCB = 5V		4
		B-port input, A-port output	V_CCA = V_CCB = 1.8V		18
			V_CCA = V_CCB = 2.5V		19
			V_CCA = V_CCB = 3.3V		20
			V_CCA = V_CCB = 5V		21
C_pdB⁽³⁾	C_L = 0pF, f = 10MHz, t_r = t_f = 1ns	A-port input, B-port output	V_CCA = V_CCB = 1.8V		18		pF
			V_CCA = V_CCB = 2.5V		19
			V_CCA = V_CCB = 3.3V		20
			V_CCA = V_CCB = 5V		21
		B-port input, A-port output	V_CCA = V_CCB = 1.8V		3
			V_CCA = V_CCB = 2.5V		4
			V_CCA = V_CCB = 3.3V		4
			V_CCA = V_CCB = 5V		4

(1) V_CCO is the V_CC associated with the output port.

(2) V_CCI is the V_CC associated with the input port.

(3) Power dissipation capacitance per transceiver