126
As figure 8.4 shows, specific spaces such as DRAM space and address/data multiplexed I/O space
are allocated to the 8 areas. Each of the spaces is equipped with the necessary interfaces. The
control signals needed by DRAM and peripheral chips will be output by the chip to devices
connected to an area allocated to the appropriate type of space.
8.3.2
Bus Width
The primary bus width selection for this chip is made by switching between 8 bits and 16 bits
using the A27 bit. When A27 is 0, the bus width is 8 bits and data is input/output through the
AD7–AD0 pins; when A27 is 1, the size is 16 bits and data is input/output through the AD15–
AD0 pins for word accesses. For byte access, the upper byte is input/output through AD15–AD8
and the lower byte through AD7–AD0. When the bus width is 8 bits or byte access is being
performed with a 16-bit bus width, the status of the eight AD pins that are not inputting/outputting
data is as shown in appendix B, Pin States.
Bus widths are also determined by conditions other than the A27 bit for specific areas:
•
Area 0 is an 8-bit external memory space when the MD2–MD0 pins are 000, a 16-bit external
memory space when these bits are 001, and a 32-bit on-chip ROM space when they are 010
(the on-chip ROM is available only in the SH7034).
•
Area 5 is an 8-bit on-chip supporting module space when the A27 bit and A8 bit are both 0 and
a 16-bit on-chip supporting module space when the A27 bit is 0 and the A8 bit is 1. When the
A27 bit is 1, it is a 16-bit external memory space.
•
Area 6 has an 8-bit bus width when the A27 bit and A14 bit are both 0 and a 16-bit bus width
when the A27 bit is 0 and the A14 bit is 1. When the A27 bit is 1, it is a 16-bit space.
•
Area 7 is a 32-bit on-chip RAM space when the A27 bit is 1 and an 8-bit external memory
space when the A27 bit is 0.
Word (16-bit) data accessed from 8-bit bus areas and longword (32-bit) data accessed from 16-bit
bus areas require two consecutive accesses. Longword (32-bit) data accessed from 8-bit bus areas
requires four consecutive accesses.
8.3.3
Chip Select Signals (
CS0
–
CS7
)
When the A26–A24 bits of the address are decoded, they become chip select signals (
CS0
–
CS7
)
for areas 0–7. When an area is accessed, the corresponding chip select pin is driven low. Table 8.8
shows the relationship between the A26–A24 bits and the chip select signals.
Summary of Contents for HD6417032
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Page 525: ...490 CK RAS CAS TRp TRc TRcc tRASD1 tRASD2 tCASD3 tCASD2 TRr tCSR Figure 20 18 Self Refresh ...
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