SLVK168 Radiation & reliability report

SLVK168 February 2024 TPS7H3014-SP

PRODUCTION DATA

3.2.1 Electrical Characteristics

Parameter	Test Conditions		Sub-Group	MIN	TYP	MAX	UNIT	Test Number
SUPPLY VOLTAGES AND CURRENTS
V_IN quiescent current	In waiting to sequence up and down states with all outputs floating.		1, 2, 3		2.5	4	mA	6.0 and 6.1
V_IN rising undervoltage lockout			1, 2, 3	2.72	2.79	2.84	V	6.124
V_INfalling undervoltage lockout			1, 2, 3	2.59	2.64	2.69	V	6.125
Internal linear regulator output voltage	5V ≤ V_IN ≤ 14V		1, 2, 3	3.19	3.29	3.38	V	6.3
Internal linear regulator output voltage	V_IN < 3.24V		1, 2, 3	97%	99%		× V_IN	6.2
Internal bandgap voltage			1, 2, 3	1.188	1.2	1.212	V	6.4 and 6.5
Power on reset voltage	1.6V ≤ V_{PULL_UPx}≤ 7V, V_OL≤ 320mV with I_ENx= –2mA		1, 2, 3		1.41	2		6.126, 6.127, 6.128, 6.129, 6.130, 6.131, 6.132, 6.133, 6.134, 6.135, 6.136, 6.137
Power on reset voltage	V_IN= 0V, V_OL≤ 320mV with I_ENx= –100µA		1, 2, 3		0.89	1.4		6.138, 6.139, 6.14, 6.141, 6.142, 6.143
SENSE1 TO SENSE4, UP AND DOWN COMPARATOR INPUTS
Threshold voltage at SENSEx			1, 2, 3	593	599	605	mV	13.3, 13.4, 13.5, 13.6, 13.7, 13.8, 13.9, 13.1, 13.14, 13.15, 13.16,13.17, 13.18, 13.19, 13.2,13.21, 13.25, 13.26, 13.27,13.28, 13.29, 13.3,13.31, 13.32, 13.36, 13.37, 13.38,13.39, 13.4, 13.41, 13.42, 13.43
SENSEx hysteresis current	V_SENSEx = 700mV		1, 2, 3	23.28	24	24.72	µA	6.2, 6.21, 6.22, 6.23, 6.24, 6.25, 6.26, 6.27
Input leakage current at SENSEx	V_SENSEx= 500mV		1, 2, 3		2	100	nA	6.9, 6.10, 6.11, 6.12
Rising threshold voltage at UP	V_UP rising to 1V		1, 2, 3	580	598	615	mV	13.1, 13.12, 13.23, 13.34
Falling threshold voltage at DOWN	V_DOWN falling from 1V		1, 2, 3	483	498	512	mV	13.2, 13.13, 13.24, 13.35
UP and DOWN hysteresis voltage			1, 2, 3		100		mV	13.11, 13.22, 13.33, 13.44
Input leakage current at UP and DOWN	V_UP = V_DOWN= 500mV		1, 2, 3		2	100	nA	6.7, 6.8, 6.14, 6.15
Channel 2, 3, 4 turn off voltage			1, 2, 3	87%	89%	91%	× VLDO	6.144, 6.145, 6.146
EN1 TO EN4, SEQ_DONE AND PWRGD PUSH PULL OUTPUTS
Low-level ENx output voltage	1.6V ≤ V_{PULL_UP1} ≤ 7V	I_LOAD = –2mA	1, 2, 3			10%	x V_{PULL_UP1}	6.52, 6.53, 6.54, 6.55, 6.58, 6.59, 6.6, 6.61, 6.64, 6.65, 6.66, 6.67, 6.7, 6.71, 6.72, 6.73
Low-level ENx output voltage	1.6V ≤ V_{PULL_UP1} ≤ 7V	I_LOAD = –10mA	1, 2, 3			25%		6.1, 6.101, 6.102, 6.103, 6.106A, 6.107, 6.108, 6.109, 6.112, 6.113, 6.114, 6.115, 6.118, 6.119, 6.12, 6.121
High-level ENx output voltage	1.6V ≤ V_{PULL_UP1} ≤ 7V	I_LOAD = 2mA	1, 2, 3	90%				6.28, 6.29, 6.3, 6.31, 6.34, 6.35, 6.36, 6.37, 6.4, 6.41, 6.42, 6.43, 6.46, 6.47, 6.48, 6.49
High-level ENx output voltage	1.6V ≤ V_{PULL_UP1} ≤ 7V	I_LOAD = 10mA	1, 2, 3	70%				6.76, 6.77, 6.78, 6.79, 6.82, 6.83, 6.84, 6.85, 6.88, 6.89, 6.9, 6.91, 6.94, 6.95, 6.96, 6.97
Low-level SEQ_DONE output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = –2mA	1, 2, 3			10%	x V_{PULL_UP2}	6.56, 6.62, 6.68, 6.74
Low-level SEQ_DONE output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = –10mA	1, 2, 3			25%		6.104, 6.11, 6.116, 6.122
High-level SEQ_DONE output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = 2mA	1, 2, 3	90%				6.32, 6.38, 6.44, 6.5
High-level SEQ_DONE output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = 10mA	1, 2, 3	70%				6.8, 6.86, 6.92, 6.98
Low-level PWRGD output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = –2mA	1, 2, 3			10%		6.57, 6.63, 6.69, 6.75
Low-level PWRGD output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = –10mA	1, 2, 3			25%		6.105, 6.111, 6.117, 6.123
High-level PWRGD output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = 2mA	1, 2, 3	90%				6.33, 6.39, 6.45, 6.51
High-level PWRGD output voltage	1.6V ≤ V_{PULL_UP2} ≤ 7V	I_LOAD = 10mA	1, 2, 3	70%				6.81, 6.87, 6.93, 6.99
PULL_UPx leakage current	V_{PULL_UPx}= 7V		1, 2, 3		48	121	µA	6.148, 6.149, 6.150, 6.151
Enable rising output voltage slew rate	10% to 90% of V_{PULL_UP1}, R_LOAD = 50kΩ, C_LOAD = 100pF	1.6V ≤ V_{PULL_UP1} ≤ 7V	9, 10, 11	17	125		V/µs	19.0, 19.1, 19.2, 19.3, 19.12, 19.13, 19.14, 19.15, 19.24, 19.25, 19.26, 19.27, 19.36, 19.37, 19.38, 19.39
SEQ_DONE rising output voltage slew rate	10% to 90% of V_{PULL_UP2}, R_LOAD = 50kΩ, C_LOAD = 100pF	1.6V ≤ V_{PULL_UP2} ≤ 7V	9, 10, 11	17	125			19.5, 19.17, 19.29, 19.41
PWRGD rising output voltage slew rate	10% to 90% of V_{PULL_UP2}, R_LOAD = 50kΩ, C_LOAD = 100pF	1.6V ≤ V_{PULL_UP2} ≤ 7V	9, 10, 11	17	125			19.4, 19.16, 19.28, 19.4
Enable falling output voltage slew rate	90% to 10% of V_{PULL_UP1}, R_LOAD = 50kΩ, C_LOAD = 100pF	1.6V ≤ V_{PULL_UP1} ≤ 7V	9, 10, 11	44	126			19.6, 19.7, 19.8, 19.9, 19.18, 19.19, 19.2, 19.21, 19.3, 19.31, 19.32, 19.33, 19.42, 19.43, 19.44, 19.45
SEQ_DONE falling output voltage slew rate		1.6V ≤ V_{PULL_UP2} ≤ 7V	9, 10, 11	44	126			19.11, 19.23, 19.35, 19.47
PWRGD falling output voltage slew rate		1.6V ≤ V_{PULL_UP2} ≤ 7V	9, 10, 11	44	126			19.1, 19.22, 19.34, 19.46
EN PMOS source output resistance	I_LOAD = 2mA	1.6V ≤ V_{PULL_UP1} ≤ 3.3V	1, 2, 3		18	40	Ω	18.0, 18.1, 18.2, 18.3, 18.6, 18.7, 18.8, 18.9
EN PMOS source output resistance	I_LOAD = 2mA	3.3V ≤ V_{PULL_UP1} ≤ 7V	1, 2, 3		7	20		18.12, 18.13, 18.14, 18.15, 18.18, 18.19, 18.20, 18.21
SEQ_DONE PMOS source output resistance	I_LOAD = 2mA	1.6V ≤ V_{PULL_UP2} ≤ 3.3V	1, 2, 3		18	40		18.5, 18.11
SEQ_DONE PMOS source output resistance	I_LOAD = 2mA	3.3V ≤ V_{PULL_UP2} ≤ 7V	1, 2, 3		7	20		18.17, 18.23
PWRGD PMOS source output resistance	I_LOAD = 2mA	1.6V ≤ V_{PULL_UP2} ≤ 3.3V	1, 2, 3		18	40		18.4, 18.1
PWRGD PMOS source output resistance	I_LOAD = 2mA	3.3V ≤ V_{PULL_UP2} ≤ 7V	1, 2, 3		7	20		18.16, 18.22
EN NMOS sink output resistance	I_LOAD = –2mA, 1.6V ≤ V_{PULL_UP1} ≤ 7V		1, 2, 3		7	28		18.24, 18.25, 18.26,18.27, 18.3, 18.31, 18.32,18.33, 18.36, 18.37, 18.38,18.39, 18.42, 18.43, 18.44, 18.45
SEQ_DONE NMOS sink output resistance	I_LOAD = –2mA, 1.6V ≤ V_{PULL_UP1} ≤ 7V		1, 2, 3		7	28		18.29, 18.35, 18.41, 18.47
PWRGD NMOS sink output resistance	I_LOAD = –2mA, 1.6V ≤ V_{PULL_UP1} ≤ 7V		1, 2, 3		7	28		18.28, 18.34, 18.40, 18.46
FAULT OUTPUT
FAULT pull down resistance	I_FAULT = 100µA		1, 2, 3		131	512	Ω	18.48, 18.49
FAULT leakage current	V_FAULT=7V		1, 2, 3		23	600	nA	6.6, 6.13
DELAY AND TIME TO REGULATION TIMERS
Delay time	R_{DLY_TMR} = 10.5kΩ		1, 2, 3	0.205	0.268	0.342	ms	5.48, 5.49, 5.5, 5.51, 5.52, 5.53, 5.54, 5.55, 5.56, 5.57, 5.58, 5.79, 5.8, 5.81, 5.82, 5.83, 5.84, 5.85, 5.86, 5.87, 5.88, 5.89, 5.11, 5.111, 5.112, 5.113, 5.114, 5.115, 5.116, 5.117, 5.118, 5.119, 5.120, 5.141, 5.142, 5.143, 5.144, 5.145, 5.146, 5.147, 5.148, 5.149, 5.15, 5.151
	R_{DLY_TMR} = 619kΩ		1, 2, 3	10.77	12.5	14.14		5.59, 5.6, 5.61, 5.62, 5.63, 5.64, 5.65, 5.66, 5.67, 5.68, 5.9, 5.91, 5.92, 5.93, 5.94, 5.95, 5.96, 5.97, 5.98, 5.99, 5.121, 5.122, 5.123, 5.124, 5.125, 5.126, 5.127, 5.128, 5.129, 5.130, 5.152, 5.153, 5.154, 5.155, 5.156, 5.157, 5.158, 5.159, 5.16, 5.161
	R_{DLY_TMR} = 1.18MΩ		1, 2, 3	20	23.37	27.2		5.69, 5.7, 5.71, 5.72, 5.73, 5.74, 5.75, 5.76, 5.77, 5.78, 5.1, 5.101, 5.102, 5.103, 5.104, 5.105, 5.106, 5.107, 5.108, 5.109, 5.131, 5.132, 5.133, 5.134, 5.135, 5.136, 5.137, 5.138, 5.139, 5.140, 5.162, 5.163, 5.164, 5.165, 5.166, 5.167, 5.168, 5.169, 5.170, 5.171
Time to regulation	R_{REG_TMR} = 10.5kΩ		1, 2, 3	0.197	0.264	0.34		4.0, 4.1, 4.2, 4.3, 4.12,4.13, 4.14, 4.15, 4.24, 4.25, 4.26, 4.27, 4.36, 4.37, 4.38, 4.39
	R_{REG_TMR} = 619kΩ		1, 2, 3	10.8	12.4	14.1		4.4, 4.5, 4.6, 4.7, 4.16,4.17, 4.18, 4.19, 4.28, 4.29, 4.30, 4.31, 4.40, 4.41, 4.42, 4.43
	R_{REG_TMR} = 1.18MΩ		1, 2, 3	20.3	23.63	27.2		4.8, 4.9, 4.10, 4.11, 4.20, 4.21, 4.22, 4.23, 4.32, 4.33, 4.34, 4.35, 4.44, 4.45, 4.46, 4.47