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| SH7712 Datasheet, PDF (34/978 Pages) Renesas Technology Corp – Renesas 32-Bit RISC Microcomputer SuperHTM RISC engine Family / SH7700 Series | |||
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Figure 24.8 Oscillation Settling Time at Standby Return
(Return by IRQ5 to IRQ0 and IRL3 to IRL0)......................................................... 863
Figure 24.9 PLL Synchronization Settling Time by Reset or NMI ............................................ 863
Figure 24.10 PLL Synchronization Settling Time by IRQ/IRL Interrupts ................................. 864
Figure 24.11 PLL Synchronization Settling Time when Frequency Multiplication
Ratio Modified...................................................................................................... 864
Figure 24.12 Reset Input Timing................................................................................................ 866
Figure 24.13 Interrupt Signal Input Timing................................................................................ 866
Figure 24.14 Bus Release Timing .............................................................................................. 866
Figure 24.15 Pin Drive Timing at Standby................................................................................. 867
Figure 24.16 IRQOUT Output Delay Time................................................................................ 867
Figure 24.17 Basic Bus Cycle (No Wait) ................................................................................... 870
Figure 24.18 Basic Bus Cycle (One Software Wait) .................................................................. 871
Figure 24.19 Basic Bus Cycle (One External Wait) ................................................................... 872
Figure 24.20 Basic Bus Cycle (One Software Wait, External Wait Enabled (WM bit = 0),
No Idle Cycle Setting) .......................................................................................... 873
Figure 24.21 Burst ROM Read Cycle (One Access Wait, One External Wait,
One Burst Wait, Two Bursts)................................................................................ 874
Figure 24.22 Synchronous DRAM Single Read Bus Cycle (Auto Precharge,
CAS Latency = 2, TRCD = 1 Cycle, TRP = 1 Cycle)........................................... 875
Figure 24.23 Synchronous DRAM Single Read Bus Cycle (Auto Precharge,
CAS Latency = 2, TRCD = 2 Cycle, TRP = 2 Cycle)........................................... 876
Figure 24.24 Synchronous DRAM Burst Read Bus Cycle (Single Read à 4),
(Auto Precharge, CAS Latency = 2, TRCD = 1 Cycle, TRP = 2 Cycle)............... 877
Figure 24.25 Synchronous DRAM Burst Read Bus Cycle (Single Read à 4),
(Auto Precharge, CAS Latency = 2, TRCD = 2 Cycle, TRP = 1 Cycle)............... 878
Figure 24.26 Synchronous DRAM Single Write Bus Cycle
(Auto Precharge, TRWL = 2 Cycle) ..................................................................... 879
Figure 24.27 Synchronous DRAM Single Write Bus Cycle
(Auto Precharge, TRCD = 3 Cycle, TRWL = 2 Cycle) ........................................ 880
Figure 24.28 Synchronous DRAM Burst Write Bus Cycle (Single Write à 4),
(Auto Precharge, TRCD = 1 Cycle, TRWL = 2 Cycle) ........................................ 881
Figure 24.29 Synchronous DRAM Burst Write Bus Cycle (Single Write à 4),
(Auto Precharge, TRCD = 2 Cycle, TRWL = 2 Cycle) ........................................ 882
Figure 24.30 Synchronous DRAM Burst Read Bus Cycle (Single Read à 4)
(Bank Active Mode, ACTV + READ Commands, CAS Latency = 2,
TRCD = 1 Cycle) .................................................................................................. 883
Figure 24.31 Synchronous DRAM Burst Read Bus Cycle (Single Read à 4)
(Bank Active Mode, READ Command, Same Row Address,
CAS Latency = 2, TRCD = 1 Cycle) .................................................................... 884
Rev. 1.00 Dec. 27, 2005 Page xxxiv of xlii
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