2.5.2.1 Timing Characteristics

Table 2-81. A2F500 Global Resource Worst Military-Case Conditions: TJ = 125 °C, VCC = 1.425V
Parameter Description –1 Std. Units
Min.1 Max.2 Min.1 Max.2
tRCKLInput Low Delay for Global Clock1.611.811.932.17ns
tRCKHInput High Delay for Global Clock1.601.851.922.21ns
tRCKMPWHMinimum Pulse Width High for Global Clock0.951.12ns
tRCKMPWLMinimum Pulse Width Low for Global Clock0.931.09ns
tRCKSWMaximum Skew for Global Clock0.250.30ns
Note:
  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 for derating values.
Table 2-82. A2F0604 Global Resource Worst Military-Case Conditions: TJ = 125 °C, VCC = 1.425V
Parameter Description –1 Std. Units
Min.1 Max.2 Min.1 Max.2
tRCKLInput Low Delay for Global Clock0.781.010.941.21ns
tRCKHInput High Delay for Global Clock0.751.030.901.23ns
tRCKMPWHMinimum Pulse Width High for Global Clock0.951.12ns
tRCKMPWLMinimum Pulse Width Low for Global Clock0.931.09ns
tRCKSWMaximum Skew for Global Clock0.270.33ns
Note:
  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 for derating values.
  4. Device A2F060 is discontinued.