INPUT SUPPLY (VDD) |
|
VUVR |
UVLO threshold, rising |
|
2.2 |
2.32 |
2.45 |
V |
VUVhyst |
UVLO hysteresis |
|
|
0.1 |
|
V |
IQON |
Supply current: IVDD+IA+IC+ IOUTH |
Device on, VENHS = VENOR = 2V |
|
4.2 |
6 |
mA |
HOT SWAP FET ENABLE (ENHS) |
|
VENHS |
Threshold voltage, rising |
|
1.3 |
1.35 |
1.4 |
V |
VENHShyst |
Hysteresis |
|
|
50 |
|
mV |
IENHS |
Input Leakage Current |
0 ≤ VENHS ≤ 30V |
–1 |
|
1 |
µA |
BLOCKING (ORING) FET ENABLE (ENOR) |
|
VENOR |
Threshold voltage, rising |
|
1.3 |
1.35 |
1.4 |
V |
VENORhyst |
Hysteresis |
|
|
50 |
|
mV |
IENOR |
Input leakage current |
0 V ≤ VENOR ≤ 30V |
–1 |
0 |
1 |
µA |
OVER VOLTAGE (OV) |
|
VOVR |
Threshold voltage, rising |
|
1.3 |
1.35 |
1.4 |
mV |
VOVhyst |
Hysteresis |
|
|
50 |
|
mV |
IOV |
Input leakage current |
0 ≤ VOV ≤ 30V |
–1 |
|
1 |
µA |
POWER LIMIT PROGRAMING (PLIM) |
|
VPLIM,BIAS |
Bias voltage |
Sourcing 10μA |
0.66 |
0.675 |
0.69 |
V |
VIMON,PL |
Regulated IMON voltage during power limit |
RPLIM = 52 kΩ; VSENM-OUTH=12V; |
114.75 |
135 |
155.25 |
mV |
RPLIM = 105 kΩ; VSENM-OUTH=12V; |
56.95 |
67 |
77.05 |
RPLIM = 261 kΩ; VSENM-OUTH=12V; |
18.9 |
27 |
35.1 |
RPLIM = 105 kΩ; VSENM-OUTH=2V; |
341.7 |
402 |
462.3 |
RPLIM = 105 kΩ; VSENM-OUTH=18V; |
38.25 |
45 |
51.75 |
SLOW TRIP THRESHOLD (SET) |
|
VOS_SET |
Input referred offset (VSNS to VIMON scaling) |
RSET = 44.2Ω; RIMON=3kΩ to 1.2kΩ (corresponds to VSNS,CL=10mV to 25mV) |
–150 |
|
150 |
µV |
VGE_SET |
Gain error (VSNS to VIMON scaling)(1) |
–0.4% |
|
0.4% |
|
FAST TRIP THRESHOLD PROGRAMMING (FSTP) |
|
IFSTP |
FSTP input bias current |
VFSTP=12V |
95 |
100 |
105 |
µA |
VFASTRIP |
Fast trip threshold |
RFSTP = 200 Ω, VSNS when VHGATE ↓ |
18 |
20 |
22 |
mV |
RFSTP = 1 kΩ, VSNS when VHGATE ↓ |
95 |
100 |
105 |
RFSTP = 4 kΩ, VSNS when VHGATE ↓ |
380 |
400 |
420 |
CURRENT MONITOR and CURRENT LIMIT PROGRAMING (IMON) |
|
VIMON,CL |
Slow trip threshold at summing node |
VIMON↑, when ITFLT starts sourcing |
660 |
675 |
690 |
mV |
CURRENT MONITOR (IMONBUF) |
|
VOS_IMONBUF |
Buffer offset |
VIMON = 50mV to 675mV, Input referred |
–3 |
0 |
3 |
mV |
GAINIMONBUF |
Buffer voltage gain |
ΔVIMONBUFF / ΔVIMON |
2.97 |
2.99 |
3.01 |
V |
BWIMONBUF |
Buffer closed loop bandwidth |
CIMONBUF = 75pF |
|
1 |
|
MHz |
HOT SWAP GATE DRIVER (HGATE) |
|
VHGATE |
HGATE output voltage |
5 ≤ VVDD ≤ 16V; measure VHGATE-OUTH |
12 |
13.6 |
15.5 |
V |
2.5V <VVDD < 5V; 16V <VVDD < 20V measure VHGATE-OUTH |
7 |
7.95 |
15 |
V |
VHGATEmax |
Clamp voltage |
Inject 10μA into HGATE, measure V(HGATE – OUTH) |
12 |
13.9 |
15.5 |
V |
IHGATEsrc |
Sourcing current |
VHGAT-OUTH = 2V-10V |
44 |
55 |
66 |
µA |
IHGATEfastSink |
Sinking current for fast trip |
VHGATE-OUTH = 2V -15V; V(FSTP – SENM) = 20mV |
0.45 |
1 |
1.6 |
A |
IHGATEsustSink |
Sustained sinking current |
Sustained, VHGATE-OUTH = 2V – 15V; VENHS = 0 |
30 |
44 |
60 |
mA |
CURRENT SENSE NEGATIVE INPUT (SENM) |
|
ISENM |
Input bias current |
VSENM = 12V |
|
15 |
20 |
µA |
INRUSH TIMER (TINR) |
|
ITINRsrc |
Sourcing current |
VTINR = 0V, In power limit or current limit |
8 |
10.25 |
12.5 |
µA |
ITINRsink |
Sinking current |
VTINR = 2V, In regular operation |
1.5 |
2 |
2.5 |
µA |
VTINRup |
Upper threshold voltage |
Raise VTINR until HGATE starts sinking |
1.3 |
1.35 |
1.4 |
V |
VTINRlr |
Lower threshold voltage |
Raise VTINR to 2V. Reduce VTINR until ITINR is sourcing. |
0.33 |
0.35 |
0.37 |
v |
RTINR |
Bleed down resistance |
VVDD = 0V, VTINR = 2V |
70 |
104 |
130 |
kΩ |
ITINR-PD |
Pulldown current |
VTINR = 2V, when VENHS = 0V |
2 |
4.2 |
7 |
mA |
VIMON,TINR |
See (2) |
RPLIM = 52kΩ, VSENM = 12V, VOUTH = 0 V. Raise IMON voltage and record IMON when TINR starts sourcing current |
47.75 |
90 |
132.25 |
mV |
VIMON,PL |
See (2) |
RPLIM = 52kΩ, VSENM = 12V, VOUTH = 0 V. Raise IMON voltage and record IMON when IHGATE starts sinking current. |
114.75 |
135 |
155.25 |
mV |
ΔVIMON,TINR |
See (2) |
RPLIM = 52kΩ, VSENM = 12V, VOUTH = 0 V. ΔVIMON,TINR = VIMON,PL – VIMON,TINR |
23 |
45 |
67 |
mV |
FAULT TIMER (TFLT) |
|
ITFLTsrc |
Sourcing current |
VTFLT = 0V, PGHS is high and in overcurrent |
8 |
10.25 |
12.5 |
µA |
ITFLTsink |
Sinking current |
VTFLT = 2V, Not in overcurrent |
1.5 |
2 |
2.5 |
µA |
VTFLTup |
Upper threshold voltage |
Raise VTFLT until HGATE starts sinking |
1.3 |
1.35 |
1.4 |
V |
RTFLT |
Bleed down resistance |
VVDD = 0V, VTFLT = 2V |
70 |
104 |
130 |
kΩ |
ITFLT-PD |
Pulldown current |
VTFLT = 2V, when VENHS = 0V |
2 |
5.6 |
7 |
mA |
HOT SWAP OUTPUT (OUTH) |
|
IOUTH, BIAS |
Input bias current |
VOUTH = 12V |
|
30 |
70 |
µA |
CHARGE PUMP FOR BGATE (CP) |
|
ICP |
CP Equivalent charging resistance |
VA = 12 V , 1mA CP current |
5 |
8.7 |
12.5 |
kΩ |
VCP |
CP Output voltage |
Max(VA, VC, VVDD) > 6 V, Measure VCP-A |
9 |
10 |
11 |
V |
6V > Max(VA, VC, VVDD) > 4V, Measure VCP-A |
5 |
5.9 |
11 |
Max(VA, VC, VVDD) = 2.5 V, Measure VCP-A |
8 |
9.8 |
11 |
BLOCKING/ORING GATE DRIVER (BGATE) |
|
IBGATE_CHRG |
BGATE Pull up current |
VAC = 20mV, pulse |
|
30 |
|
mA |
VAC = 20mV, sustained |
0.2 |
0.3 |
0.4 |
mA |
IBGATEsustSink |
BGATE Sinking current |
Fast turnoff, VBGATE-A = 7V |
0.4 |
0.9 |
1.4 |
A |
Sustained, VBGATE-A = 2V to 11V |
19 |
35 |
65 |
mA |
BLOCKING/ORing ANODE (A) |
|
IA |
Input current(3) |
2.5 V ≤ VA ≤ 18V |
|
|
3 |
mA |
VA_UVLO |
Undervoltage lockout |
VA increasing and VVDD=VC=0.7V |
1.85 |
1.93 |
2.05 |
V |
VA_UVLO_hyst |
Undervoltage lockout hysteresis |
|
|
0.1 |
|
V |
BLOCKING/ORing CATHODE (C) |
IC |
Input current(3) |
2.5 V ≤ VC ≤ 18V |
|
|
3 |
mA |
VC_UVLO |
Undervoltage lockout |
VC increasing and VDD=VA=0.7V |
1.85 |
1.93 |
2.05 |
V |
VC_UVHyst |
Hysteresis |
|
|
100 |
|
mV |
VFWDTH |
Forward turn-on voltage |
Measure VAC when VBGATE ↑ |
7.5 |
10 |
12.5 |
mV |
POSITIVE INPUT OF REVERSE VOLTAGE COMPARATOR (RVSNP) |
|
|
|
|
IRVSNP |
RVSNP Input bias current |
VRVSNP = 12V, sinking current; 0.7V < VA, VRVSNM < 20V |
93 |
99 |
105 |
µA |
VRVTRIP1 |
Reverse Comparator Offset |
RRV=10Ω, Measure VRVSNP-RVSNM, when BGATE↓ |
-1 |
0 |
1 |
mV |
NEGATIVE INPUT OF REVERSE VOLTAGE COMPARATOR (RVSNM) |
|
|
IRVSNM |
Leakage current |
|
–2 |
|
2 |
µA |
FAULT INDICATOR (FLTb) |
|
VOL_FLTb |
Output low voltage |
Sinking 2 mA |
|
0.11 |
0.25 |
V |
IFLTb |
Input Leakage Current |
VFLTb = 0V, 30V |
–1 |
0 |
1 |
µA |
VHSFLT_IMON |
VIMON threshold to detect Hot Swap FET short |
VENHS = 0V, Measured VIMON ↑ to GND when FLTb ↓ |
88 |
101 |
115 |
mV |
VHSFL_hyst |
Hysteresis |
|
|
25 |
|
mV |
VBFET, OPEN, FLT |
A-C threshold to detect OPEN Blocking/ORing FET fault |
VENOR=3V, Measure VA-C to FLTb↓, VCP-A > 7V |
350 |
410 |
490 |
mV |
VCP_FLT |
CP fault threshold |
Measure VCP-A ↓ when FLTb↓, 4V ≤ VVDD < 18V |
5 |
5.5 |
6 |
V |
Measure VCP-A ↓ when FLTb↓, 2.5V < VVDD < 4V |
3.3 |
3.75 |
4.2 |
V |
VCP, FLT, hyst |
Hysteresis |
4V ≤ VVDD < 18V |
|
1.5 |
|
V |
2.5V < VVDD < 4V |
|
1.1 |
|
V |
HOT SWAP POWER GOOD OUTPUT (PGHS) |
|
|
|
|
VPGHSth |
PGHS Threshold |
Measure VSENM-OUTH ↓ when PGHS↑ |
170 |
270 |
375 |
mV |
VPGHShyst |
PGHS hysteresis |
VSENM-OUTH ↑ |
|
80 |
|
mV |
VOL_PGHS |
PGHS Output low voltage |
Sinking 2mA |
|
0.11 |
0.25 |
V |
IPGHS |
PHGS Input leakage current |
VPGHS=0V to 30V |
–1 |
0 |
1 |
µA |
STATUS INDICATOR (STAT) |
|
|
|
|
VSTATon |
Status ON threshold |
4V ≤ VVDD < 20V , Measure VBGATE – A ↑, when STAT↑ |
5 |
6 |
7 |
V |
2.5V < VVDD < 4V , Measure VBGATE – A ↑, when STAT↑ |
3.6 |
4 |
4.4 |
V |
VSTAToff |
Status OFF threshold |
4V < VVDD < 20V , Measure VBGATE – A ↓, when STAT↓ |
4 |
5 |
6 |
V |
2.5V <VVDD < 4V , Measure VBGATE – A ↑, when STAT↑ |
2 |
2.7 |
3.4 |
V |
VSTAT,LOWoff |
STAT Output low voltage |
Sinking 2 mA |
|
0.11 |
0.25 |
V |
ISTAT,LEAK |
STAT Input leakage current |
VSTAT = 0 V, 30 V |
–1 |
0 |
1 |
µA |
THERMAL SHUTDOWN (OTSD) |
|
|
|
|
TOTSD |
Thermal shutdown threshold |
Temperature rising |
|
140 |
|
°C |
TOTSD,HYST |
Hysteresis |
|
|
10 |
|
°C |