SCES936A Data sheet

SCES936A May 2021 – September 2021 TXU0204

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

PW|14
- MPDS360
BQA|14
- MPQF538A
DTR|12
- MPQF637A
RUT|12
- MPQF248C

Thermal pad, mechanical data (Package|Pins)

BQA|14
- QFND686

Orderable Information

7.5 Electrical Characteristics

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

PARAMETER		TEST CONDITIONS	V_CCA	V_CCB	Operating free-air temperature (T_A)									UNIT
					25°C			–40°C to 85°C			–40°C to 125°C
					MIN	TYP	MAX	MIN	TYP	MAX	MIN	TYP	MAX
V_T+	Positive-going input-threshold voltage	Data Inputs (Ax, Bx) (Referenced to V_CCI)	1.1 V	1.1 V				0.44		0.88	0.44		0.88	V
			1.4 V	1.4 V				0.60		0.98	0.60		0.98
			1.65 V	1.65 V				0.76		1.13	0.76		1.13
			2.3 V	2.3 V				1.08		1.56	1.08		1.56
			3 V	3 V				1.48		1.92	1.48		1.92
			4.5 V	4.5 V				2.19		2.74	2.19		2.74
			5.5 V	5.5 V				2.65		3.33	2.65		3.33
		OE (Referenced to V_CCA or V_CCB)	1.1 V	1.1 V				0.44		0.88	0.44		0.88	V
			1.4 V	1.4 V				0.60		0.98	0.60		0.98
			1.65 V	1.65 V				0.76		1.13	0.76		1.13
			2.3 V	2.3 V				1.08		1.56	1.08		1.56
			3 V	3 V				1.48		1.92	1.48		1.92
			4.5 V	4.5 V				2.19		2.74	2.19		2.74
			5.5 V	5.5 V				2.65		3.33	2.65		3.33
V_T-	Negative-going input-threshold voltage	Data Inputs (Ax, Bx) (Referenced to V_CCI)	1.1 V	1.1 V				0.17		0.48	0.17		0.48	V
			1.4 V	1.4 V				0.28		0.59	0.28		0.59
			1.65 V	1.65 V				0.35		0.69	0.35		0.69
			2.3 V	2.3 V				0.56		0.97	0.56		0.97
			3 V	3 V				0.89		1.5	0.89		1.5
			4.5 V	4.5 V				1.51		1.97	1.51		1.97
			5.5 V	5.5 V				1.88		2.4	1.88		2.4
		OE (Referenced to V_CCA or V_CCB)	1.1 V	1.1 V				0.17		0.48	0.17		0.48	V
			1.4 V	1.4 V				0.28		0.59	0.28		0.59
			1.65 V	1.65 V				0.35		0.69	0.35		0.69
			2.3 V	2.3 V				0.56		0.97	0.56		0.97
			3 V	3 V				0.89		1.5	0.89		1.5
			4.5 V	4.5 V				1.51		1.97	1.51		1.97
			5.5 V	5.5 V				1.88		2.46	1.88		2.46
ΔV_T	Input-threshold hysteresis (V_T+ – V_T-)	Data Inputs (Ax, Bx) (Referenced to V_CCI)	1.1 V	1.1 V				0.2		0.4	0.2		0.4	V
			1.4 V	1.4 V				0.25		0.5	0.25		0.5
			1.65 V	1.65 V				0.3		0.55	0.3		0.55
			2.3 V	2.3 V				0.38		0.65	0.38		0.65
			3 V	3 V				0.46		0.72	0.46		0.72
			4.5 V	4.5 V				0.58		0.93	0.58		0.93
			5.5 V	5.5 V				0.69		1.06	0.69		1.06
		OE (Referenced to V_CCA or V_CCB)	1.1 V	1.1 V				0.15		0.41	0.15		0.41	V
			1.4 V	1.4 V				0.2		0.5	0.2		0.5
			1.65 V	1.65 V				0.23		0.55	0.23		0.55
			2.3 V	2.3 V				0.32		0.65	0.32		0.65
			3 V	3 V				0.39		0.72	0.39		0.72
			4.5 V	4.5 V				0.57		0.97	0.57		0.97
			5.5 V	5.5 V				0.69		1.18	0.69		1.18
V_OH	High-level output voltage ⁽³⁾	I_OH = –0.1 mA	1.1V – 5.5V	1.1V – 5.5V				V_CCO – 0.1			V_CCO – 0.1			V
		I_OH = –0.5 mA	1.1 V	1.1 V				0.82			0.82
		I_OH = –3 mA	1.4 V	1.4 V				1			1
		I_OH = –4.5 mA	1.65 V	1.65 V				1.2			1.2
		I_OH = –8 mA	2.3 V	2.3 V				1.7			1.7
		I_OH = –10 mA	3 V	3 V				2.2			2.2
		I_OH = –12 mA	4.5 V	4.5 V				3.7			3.7
V_OL	Low-level output voltage ⁽⁴⁾	I_OL = 0.1 mA	1.1V – 5.5V	1.1V – 5.5V						0.1			0.1	V
		I_OL = 0.5 mA	1.1 V	1.1 V						0.27			0.27
		I_OL = 3 mA	1.4 V	1.4 V						0.35			0.35
		I_OL = 4.5 mA	1.65 V	1.65 V						0.45			0.45
		I_OL = 8 mA	2.3 V	2.3 V						0.7			0.7
		I_OL = 10 mA	3 V	3 V						0.8			0.8
		I_OL = 8 mA	4.5 V	4.5 V						0.55			0.55
		I_OL = 12 mA	4.5 V	4.5 V						0.8			0.8
I_I	Input leakage current	OE V_I = V_CC or GND	1.1V – 5.5V	1.1V – 5.5V	-0.1		1.5	-0.1		1.5	-0.1		2	µA
I_I	Input leakage current	Data Inputs (Ax, Bx) V_I = V_CCI or GND	1.1V – 5.5V	1.1V – 5.5V	–0.1		1.5	–0.1		1.5	–2		2	µA
I_off	Partial power down current	A Port or B Port V_I or V_O = 0 V - 5.5 V	0 V	0 V - 5.5 V	–1.5		1.5	–2		2	–2.5		2.5	µA
I_off	Partial power down current	A Port or B Port V_I or V_O = 0 V - 5.5 V	0 V - 5.5 V	0 V	–1.5		1.5	–2		2	–2.5		2.5	µA
I_off-float	Floating supply Partial power down current	A Port or B Port V_I or V_O = GND	Floating⁽⁵⁾	0 V - 5.5 V	–1.5		1.5	–2		2	–2.5		2.5	µA
I_off-float	Floating supply Partial power down current	A Port or B Port V_I or V_O = GND	0 V - 5.5 V	Floating⁽⁵⁾	–1.5		1.5	–2		2	–2.5		2.5	µA
I_OZ	Tri-state output current	A or B Port: V_I = V_CCI or GND V_O= V_CCO or GND OE = GND	1.1V – 5.5V	1.1V – 5.5V	–0.3		0.3	–1		1	–2		2	µA
I_CCA	V_CCA supply current	V_I= V_CCI or GND I_O = 0	1.1V – 5.5V	1.1V – 5.5V			1.5			2.5			6	µA
			0 V	5.5 V	–0.3			–1			–1
			5.5 V	0 V			1			1.5			3
		V_I= GND I_O = 0	5.5 V	Floating⁽⁵⁾			1.5			7			15
I_CCB	V_CCB supply current	V_I= V_CCI or GND I_O = 0	1.1V – 5.5V	1.1V – 5.5V			1.5			2.5			6	µA
			0 V	5.5 V			1			1.5			3
			5.5 V	0 V	–0.3			–1			–1
		V_I= GND I_O = 0	Floating⁽⁵⁾	5.5 V			1.5			7			15
I_CCA + I_CCB	Combined supply current	V_I= V_CCI or GND I_O = 0	1.1V – 5.5V	1.1V – 5.5V			2.5			3			6	µA
C_i	Control Input Capacitance	V_I = 3.3 V or GND	3.3 V	3.3 V		2.75			3			3.5		pF
C_io	Data I/O Capacitance	OE = GND, V_O = 1.65V DC +1 MHz -16 dBm sine wave	3.3 V	3.3 V		3			4			4		pF

(1) V_CCI is the V_CC associated with the input port

(2) V_CCO is the V_CC associated with the output port

(3) Tested at V_I = V_T+(MAX)

(4) Tested at V_I = V_T-(MIN)

(5) Floating is defined as a node that is both not actively driven by an external device and has leakage not exeeding 10nA