Asynchronous Memory Interface
18-20
ADSP-BF535 Blackfin Processor Hardware Reference
The second asynchronous write bus cycle proceeds as:
• At the start of the setup period,
AMS[x]
, the address bus, data buses,
and
ABE[3:0]
become valid.
• At the beginning of the write access period,
AWE
asserts.
• At the beginning of the hold period,
AWE
deasserts.
• After the hold period,
AMS[x]
deasserts.
Figure 18-8. High Speed Core-Initiated Asynchronous Write Bus Cycles
Setup
2 cycles
Write
Access
1 cycle
SCLK[1]/
CLKOUT
AMS[x ]
ABE[3:0]
ADDR [25:2]
DATA [31:0]
AOE
AWE
Setup
2 cycles
Write
Access
1 cycle
Summary of Contents for ADSP-BF535 Blackfin
Page 80: ...Development Tools 1 26 ADSP BF535 Blackfin Processor Hardware Reference...
Page 312: ...Working With Memory 6 86 ADSP BF535 Blackfin Processor Hardware Reference...
Page 332: ...System Interfaces 7 20 ADSP BF535 Blackfin Processor Hardware Reference...
Page 360: ...Dynamic Power Management Controller 8 28 ADSP BF535 Blackfin Processor Hardware Reference...
Page 446: ...Beginning and Ending an SPI Transfer 10 40 ADSP BF535 Blackfin Processor Hardware Reference...
Page 522: ...Timing Examples 11 76 ADSP BF535 Blackfin Processor Hardware Reference...
Page 562: ...IrDA Support 12 40 ADSP BF535 Blackfin Processor Hardware Reference...
Page 608: ...PCI I O Issues 13 46 ADSP BF535 Blackfin Processor Hardware Reference...
Page 672: ...References 14 64 ADSP BF535 Blackfin Processor Hardware Reference...
Page 810: ...SDRAM Controller SDC 18 86 ADSP BF535 Blackfin Processor Hardware Reference...
Page 811: ...ADSP BF535 Blackfin Processor Hardware Reference 18 87 External Bus Interface Unit...
Page 812: ...SDRAM Controller SDC 18 88 ADSP BF535 Blackfin Processor Hardware Reference...
Page 860: ...DMA Bus Debug Registers 20 30 ADSP BF535 Blackfin Processor Hardware Reference...