Revision 17 2-67 1.2 V DC Core Voltage Table 2-94 AGLN010 Global Resource Commerc" />
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RAM 浣嶇附瑷堬細 18432
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IGLOO nano Low Power Flash FPGAs
Revision 17
2-67
1.2 V DC Core Voltage
Table 2-94 AGLN010 Global Resource
Commercial-Case Conditions: TJ = 70掳C, VCC = 1.14 V
Parameter
Description
Std.
Units
Min.1
Max.2
tRCKL
Input Low Delay for Global Clock
1.71
2.09
ns
tRCKH
Input High Delay for Global Clock
1.78
2.31
ns
tRCKMPWH
Minimum Pulse Width High for Global Clock
1.40
ns
tRCKMPWL
Minimum Pulse Width Low for Global Clock
1.65
ns
tRCKSW
Maximum Skew for Global Clock
0.53
ns
Notes:
1. Value reflects minimum load. The delay is measured from the CCC output to the clock pin of a sequential element,
located in a lightly loaded row (single element is connected to the global net).
2. Value reflects maximum load. The delay is measured on the clock pin of the farthest sequential element, located in a fully
loaded row (all available flip-flops are connected to the global net in the row).
3. For specific junction temperature and voltage supply levels, refer to Table 2-7 on page 2-7 for derating values.
Table 2-95 AGLN015 Global Resource
Commercial-Case Conditions: TJ = 70掳C, VCC = 1.14 V
Parameter
Description
Std.
Units
Min.1
Max.2
tRCKL
Input Low Delay for Global Clock
1.81
2.26
ns
tRCKH
Input High Delay for Global Clock
1.90
2.51
ns
tRCKMPWH
Minimum Pulse Width High for Global Clock
1.40
ns
tRCKMPWL
Minimum Pulse Width Low for Global Clock
1.65
ns
tRCKSW
Maximum Skew for Global Clock
0.61
ns
Notes:
1. Value reflects minimum load. The delay is measured from the CCC output to the clock pin of a sequential element,
located in a lightly loaded row (single element is connected to the global net).
2. Value reflects maximum load. The delay is measured on the clock pin of the farthest sequential element, located in a fully
loaded row (all available flip-flops are connected to the global net in the row).
3. For specific junction temperature and voltage supply levels, refer to Table 2-7 on page 2-7 for derating values.
鐩搁棞(gu膩n)PDF璩囨枡
PDF鎻忚堪
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