Since individual family members are produced at different times, the migration from one category to another depends completely on the status of the fabrication process for each device. Table 1 correlates the current status of the Zynq UltraScale+ RFSoC on a per speed grade basis. See Table 1 for operating voltages listed by speed grade.
Device | Speed Grade, Temperature Ranges, and VCCINT Operating Voltages | ||
---|---|---|---|
Advance | Preliminary | Production | |
XCZU21DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -2LE (VCCINT = 0.85V)
1
, -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -2LE (VCCINT = 0.72V) 2 , -2LI (VCCINT = 0.72V) 2 , -1LI (VCCINT = 0.72V) 2 |
||
XCZU25DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -2LE (VCCINT = 0.85V)
1
, -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -2LE (VCCINT = 0.72V) 2 , -2LI (VCCINT = 0.72V) 2 , -1LI (VCCINT = 0.72V) 2 |
||
XCZU27DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -2LE (VCCINT = 0.85V)
1
, -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -2LE (VCCINT = 0.72V) 2 , -2LI (VCCINT = 0.72V) 2 , -1LI (VCCINT = 0.72V) 2 |
||
XCZU28DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -2LE (VCCINT = 0.85V)
1
, -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -2LE (VCCINT = 0.72V) 2 , -2LI (VCCINT = 0.72V) 2 , -1LI (VCCINT = 0.72V) 2 |
||
XCZU29DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -2LE (VCCINT = 0.85V)
1
, -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -2LE (VCCINT = 0.72V) 2 , -2LI (VCCINT = 0.72V) 2 , -1LI (VCCINT = 0.72V) 2 |
||
XCZU39DR |
-2I (VCCINT = 0.85V) -2LI (VCCINT = 0.72V) 2 |
||
XCZU42DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU43DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU46DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU47DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU48DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU49DR | -2E (VCCINT = 0.85V), -2I (VCCINT = 0.85V), -1E (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU63DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU64DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU65DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XCZU67DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), |
||
XQZU21DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -1M (VCCINT = 0.85V), -1LI (VCCINT = 0.72V) 2 |
||
XQZU28DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -1M (VCCINT = 0.85V), -1LI (VCCINT = 0.72V) 2 |
||
XQZU29DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1LI (VCCINT = 0.85V) 1 , -1M (VCCINT = 0.85V), -1LI (VCCINT = 0.72V) 2 |
||
XQZU48DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1M (VCCINT = 0.85V), |
||
XQZU49DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1M (VCCINT = 0.85V), |
||
XQZU65DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1M (VCCINT = 0.85V), |
||
XQZU67DR | -2I (VCCINT = 0.85V), -1I (VCCINT = 0.85V), -1M (VCCINT = 0.85V), |
||
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