UltraScale and UltraScale+ devices are designed to work over a wide temperature range, and the temperature of the device and package is directly related to the amount of current draw. This is especially relevant on the VCCINT power rail, which is the rail that would typically require the most power and thus current draw of all the power rails in the device. For large Virtex UltraScale+ FPGA designs in very high-speed applications, it might be possible to exceed the maximum current that the package is rated for due to the effect of electromigration.
The following tables are a guide to the maximum possible sustained current draw on the VCCINT rail for UltraScale+ devices to guarantee reliable operation for ten years at a constant 100°C junction temperature for commercial (XC) devices, and for three years at a constant 125°C junction temperature for automotive (XA) and defense (XQ) devices.
Table D-1: Maximum VCCINT Current for Artix UltraScale+ FPGAs
Device
|
Maximum Possible VCCINT Current (A)
(100°C, 10 Years)
|
XCAU7P-FCVA289
|
5.48
|
XCAU10P-UBVA368
|
4.4
|
XCAU10P-SBVB484
|
15
|
XAAU10P-SBVB484
|
10
|
XCAU10P-FFVB676
|
33
|
XAAU10P-FFVB676
|
23
|
XCAU15P-UBVA368
|
6.4
|
XCAU15P-SBVB484
|
15
|
XAAU15P-SBVB484
|
10
|
XCAU15P-FFVB676
|
33
|
XAAU15P-FFVB676
|
23
|
XCAU20P-FFVB676
|
52
|
XCAU20P-SFVB784
|
57
|
XCAU25P-FFVB676
|
52
|
XCAU25P-SFVB784
|
57
|
Table D-2: Maximum VCCINT Current for Kintex UltraScale+ FPGAs
Device
|
Maximum Possible VCCINT Current (A)
(100°C, 10 Years)
|
XCKU3P-FFVA676
|
43
|
XCKU3P-FFVB676
|
52
|
XCKU3P-SFVB784
|
57
|
XCKU3P-FFVD900
|
107
|
XCKU5P-FFVA676
|
43
|
XCKU5P-FFVB676
|
52
|
XQKU5P-FFRB676
|
43
|
XCKU5P-SFVB784
|
57
|
XQKU5P-SFRB784
|
57
|
XCKU5P-FFVD900
|
107
|
XCKU9P-FFVE900
|
114
|
XCKU11P-FFVD900
|
64
|
XCKU11P-FFVA1156
|
41
|
XCKU11P-FFVE1517
|
60
|
XCKU13P-FFVE900
|
115
|
XCKU15P-FFVA1156
|
50
|
XQKU15P-FFRA1156
|
50
|
XCKU15P-FFVE1517
|
73
|
XQKU15P-FFRE1517
|
73
|
XCKU15P-FFVA1760
|
77
|
XCKU15P-FFVE1760
|
76
|
XCKU19P-FSVJ1760
|
250
|
XCKU19P-FFVJ1760
|
250
|
XCKU19P-FFVB2104
|
86
|
Table D-3: Maximum VCCINT Current for Virtex UltraScale+ FPGAs
Device
|
Maximum Possible VCCINT Current (A)
(100°C, 10 Years)
|
XCVU3P-FFVC1517
|
40
|
XQVU3P-FFRC1517
|
40
|
XCVU5P-FLVA2104
|
120
|
XCVU5P-FLVB2104
|
93
|
XCVU5P-FLVC2104
|
126
|
XCVU7P-FLVA2104
|
120
|
XQVU7P-FLRA2104
|
120
|
XCVU7P-FLVB2104
|
93
|
XQVU7P-FLRB2104
|
93
|
XCVU7P-FLVC2104
|
126
|
XCVU9P-FLGA2104
|
99
|
XCVU9P-FLGB2104
|
93
|
XQVU9P-FLQA2104
|
75
|
XCVU9P-FLGC2104
|
137
|
XCVU9P-FSGD2104
|
217
|
XQVU9P-FLQB2104
|
54
|
XQVU9P-FSQD2104
|
124
|
XCVU9P-FLGA2577
|
174
|
XCVU11P-FLGF1924
|
102
|
XCVU11P-FLGB2104
|
118
|
XCVU11P-FLGC2104
|
141
|
XQVU11P-FLRC2104
|
141
|
XCVU11P-FSGD2104
|
200
|
XCVU11P-FLGA2577
|
163
|
XCVU13P-FHGA2104
|
94
|
XCVU13P-FHGB2104
|
114
|
XCVU13P-FHGC2104
|
129
|
XQVU13P-FHQA2104
|
53
|
XQVU13P-FHQB2104
|
81
|
XCVU13P-FIGD2104
|
200
|
XQVU13P-FIQD2104
|
110
|
XCVU13P-FLGA2577
|
162
|
XCVU13P-FSGA2577
|
158
|
XCVU15P-FSVA3824
|
275
|
XCVU15P-FSVB3824
|
314
|
XCVU19P-FSVA3824
|
275
|
XCVU19P-FSVB3824
|
314
|
58G PAM4 Devices
|
XCVU23P-VSVA1365
|
130
|
XCVU23P-FSVJ1760
|
250
|
XCVU27P-FIGD2104
|
192
|
XCVU27P-FSGA2577
|
158
|
XCVU29P-FIGD2104
|
192
|
XCVU29P-FSGA2577
|
158
|
HBM (4 GB) Devices
|
XCVU31P-FSVH1924
|
68
|
HBM (8 GB) Devices
|
XCVU33P-FSVH2104
|
68
|
XCVU35P-FSVH2104
|
135
|
XCVU35P-FSVH2892
|
135
|
XCVU37P-FSVH2892
|
200
|
XQVU37P-FSQH2892
|
116
|
HBM (16 GB) Devices
|
XCVU45P-FSVH2104
|
135
|
XCVU45P-FSVH2892
|
135
|
XCVU47P-FSVH2892
|
200
|
XCVU57P-FSVK2892
|
218
|
Table D-4: Maximum VCCINT Current for Zynq UltraScale+ MPSoCs
Device
|
Maximum Possible VCCINT Current (A)
(100°C, 10 Years)
|
CG Devices
|
XCZU1CG-SBVA484
|
7
|
XCZU1CG-UBVA494
|
3.16
|
XCZU1CG-SFVA625
|
11
|
XCZU1CG-SFVC784
|
7
|
XCZU2CG-SBVA484
|
9
|
XCZU2CG-UBVA530
|
6
|
XCZU2CG-SFVA625
|
10
|
XCZU2CG-SFVC784
|
7
|
XCZU3CG-SBVA484
|
9
|
XCZU3CG-UBVA530
|
6
|
XCZU3CG-SFVA625
|
10
|
XCZU3CG-SFVC784
|
7
|
XCZU3TCG-SFVC784
|
14
|
XCZU3TCG-SFVD784
|
23
|
XCZU4CG-SFVC784
|
11
|
XCZU4CG-FBVB900
|
52
|
XCZU5CG-SFVC784
|
14
|
XCZU5CG-FBVB900
|
52
|
XCZU6CG-FFVC900
|
49
|
XCZU6CG-FFVB1156
|
62
|
XCZU7CG-FBVB900
|
43
|
XCZU7CG-FFVC1156
|
36
|
XCZU7CG-FFVF1517
|
73
|
XCZU9CG-FFVC900
|
49
|
XCZU9CG-FBVB1156
|
62
|
EG Devices
|
XCZU1EG-SBVA484
|
7
|
XAZU1EG-SBVA484
|
7
|
XCZU1EG-UBVA494
|
3.16
|
XCZU1EG-SFVA625
|
11
|
XAZU1EG-SFVA625
|
11
|
XCZU1EG-SFVC784
|
7
|
XAZU1EG-SFVC784
|
7
|
XCZU2EG-SBVA484
|
9
|
XAZU2EG-SBVA484
|
9
|
XCZU2EG-UBVA530
|
6
|
XCZU2EG-SFVA625
|
10
|
XAZU2EG-SFVA625
|
10
|
XCZU2EG-SFVC784
|
7
|
XAZU2EG-SFVC784
|
7
|
XCZU3EG-SBVA484
|
9
|
XAZU3EG-SBVA484
|
9
|
XQZU3EG-SFRA484
|
9
|
XCZU3EG-UBVA530
|
6
|
XCZU3EG-SFVA625
|
10
|
XAZU3EG-SFVA625
|
10
|
XCZU3EG-SFVC784
|
7
|
XAZU3EG-SFVC784
|
7
|
XQZU3EG-SFRC784
|
7
|
XCZU3TEG-SFVC784
|
14
|
XAZU3TEG-SFVC784
|
10
|
XCZU3TEG-SFVD784
|
23
|
XAZU3TEG-SFVD784
|
16
|
XCZU4EG-SFVC784
|
11
|
XCZU4EG-FBVB900
|
52
|
XQZU4EG-SFRC784
|
11
|
XCZU5EG-SFVC784
|
14
|
XCZU5EG-FBVB900
|
52
|
XCZU6EG-FFVC900
|
49
|
XCZU6EG-FFVB1156
|
62
|
XCZU7EG-FBVB900
|
43
|
XCZU7EG-FFVC1156
|
36
|
XCZU7EG-FFVF1517
|
73
|
XCZU9EG-FFVC900
|
49
|
XQZU9EG-FFRC900
|
49
|
XCZU9EG-FFVB1156
|
62
|
XQZU9EG-FFRB1156
|
62
|
XCZU11EG-FFVC1156
|
39
|
XQZU11EG-FFRC1156
|
39
|
XCZU11EG-FFVB1517
|
50
|
XCZU11EG-FFVF1517
|
55
|
XAZU11EG-FFVF1517
|
55
|
XCZU11EG-FFVC1760
|
70
|
XQZU11EG-FFRC1760
|
70
|
XCZU15EG-FFVC900
|
51
|
XQZU15EG-FFRC900
|
51
|
XCZU15EG-FFVB1156
|
63
|
XQZU15EG-FFRB1156
|
63
|
XCZU17EG-FFVB1517
|
62
|
XCZU17EG-FFVC1760
|
78
|
XCZU17EG-FFVD1760
|
79
|
XCZU17EG-FFVE1924
|
76
|
XCZU19EG-FFVB1517
|
62
|
XQZU19EG-FFRB1517
|
62
|
XCZU19EG-FFVC1760
|
78
|
XQZU19EG FFRC1760
|
78
|
XCZU19EG-FFVD1760
|
79
|
XCZU19EG-FFVE1924
|
76
|
EV Devices
|
XCZU4EV-SFVC784
|
11
|
XAZU4EV-SFVC784
|
11
|
XCZU4EV-FBVB900
|
52
|
XCZU5EV-SFVC784
|
14
|
XAZU5EV-SFVC784
|
14
|
XQZU5EV-SFRC784
|
14
|
XQZU5EV-FFRB900
|
52
|
XCZU5EV-FBVB900
|
52
|
XCZU7EV-FBVB900
|
43
|
XAZU7EV-FBVB900
|
43
|
XQZU7EV-FFRB900
|
43
|
XCZU7EV-FFVC1156
|
36
|
XQZU7EV-FFRC1156
|
36
|
XCZU7EV-FFVF1517
|
73
|
Table D-5: Maximum VCCINT Current for Zynq UltraScale+ RFSoCs
Device
|
Maximum Possible VCCINT Current (A)
(100°C, 10 Years)
|
Gen 1 Devices
|
XCZU21DR-FFVD1156
|
50
|
XQZU21DR-FFRD1156
|
50
|
XCZU25DR-FFVE1156
|
50
|
XCZU25DR-FSVE1156
|
50
|
XCZU25DR-FFVG1517
|
50
|
XCZU25DR-FSVG1517
|
50
|
XCZU27DR-FFVE1156
|
50
|
XCZU27DR-FSVE1156
|
50
|
XCZU27DR-FFVG1517
|
50
|
XCZU27DR-FSVG1517
|
50
|
XCZU28DR-FFVE1156
|
50
|
XQZU28DR-FFRE1156
|
50
|
XCZU28DR-FSVE1156
|
50
|
XCZU28DR-FFVG1517
|
50
|
XQZU28DR-FFRG1517
|
50
|
XCZU28DR-FSVG1517
|
50
|
XCZU29DR-FFVF1760
|
50
|
XQZU29DR-FFRF1760
|
50
|
XCZU29DR-FSVF1760
|
50
|
Gen 2 Devices
|
XCZU39DR-FFVF1760
|
50
|
XCZU39DR-FSVF1760
|
50
|
Gen 3 Devices
|
XCZU42DR-FSVE1156
|
64
|
XCZU42DR-FFVE1156
|
59
|
XCZU43DR-FSVE1156
|
50
|
XCZU43DR-FFVG1517
|
50
|
XCZU43DR-FSVG1517
|
50
|
XCZU43DR-FFVE1156
|
50
|
XCZU46DR-FFVH1760
|
50
|
XCZU46DR-FSVH1760
|
50
|
XCZU47DR-FFVE1156
|
50
|
XCZU47DR-FSVE1156
|
50
|
XCZU47DR-FFVG1517
|
50
|
XCZU47DR-FSVG1517
|
50
|
XCZU48DR-FFVE1156
|
50
|
XCZU48DR-FSVE1156
|
50
|
XQZU48DR-FFRE1156
|
50
|
XQZU48DR-FFQE1156
|
50
|
XQZU48DR-FSRE1156
|
50
|
XQZU48DR-FSQE1156
|
50
|
XCZU48DR-FFVG1517
|
50
|
XCZU48DR-FSVG1517
|
50
|
XQZU48DR-FFQG1517
|
50
|
XQZU48DR-FSRG1517
|
50
|
XQZU48DR-FSQG1517
|
50
|
XCZU49DR-FFVF1760
|
50
|
XCZU49DR-FSVF1760
|
50
|
XQZU49DR-FFQF1760
|
50
|
XQZU49DR-FSQF1760
|
50
|
XQZU49DR-FSRF1760
|
50
|
DFE Devices
|
XCZU63DR-FFVE1156
|
59
|
XCZU63DR-FSVE1156
|
59
|
XCZU64DR-FFVE1156
|
59
|
XCZU64DR-FSVE1156
|
59
|
XCZU65DR-FSVE1156
|
64
|
XCZU65DR-FFVE1156
|
59
|
XCZU67DR-FSVE1156
|
64
|
XCZU67DR-FFVE1156
|
59
|