MOTOROLA
Chapter 8. System Control Module (SCM)
8-5
Register Descriptions
The physical base address programmed in both copies of the RAMBAR is typically the
same value; however, they can be programmed to different values. By definition, the base
address must be a 0-modulo-size value.
The SRAM modules are configured through the RAMBAR shown in Figure 8-2.
• RAMBAR specifies the base address of the SRAM.
• All undefined bits are reserved. These bits are ignored during writes to the
RAMBAR and return zeros when read.
• The back door enable bit, RAMBAR[BDE], is cleared at reset, disabling the module
access to the SRAM.
NOTE
The RAMBAR default value of 0x0000_0000 is invalid. The
RAMBAR located in the processor’s CPU space must be
initialized with the valid bit set before the CPU (or modules)
can access the on-chip SRAM (see Chapter 5, “Static RAM
(SRAM)” for more information.
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
Field BA31 BA30 BA29 BA28 BA27 BA26 BA25 BA24 BA23 BA22 BA21 BA20 BA19 BA18 BA17 BA16
Reset
0000_0000_0000_0000
R/W
R/W
15
10
9
8
0
Field
—
BDE
—
Reset
0000_0000_0000_0000
R/W
R/W
Address
0x008
Figure 8-2. Memory Base Address Register (RAMBAR)
Table 8-3. RAMBAR Field Description
Bits
Name
Description
31–16
BA
Base address. Defines the memory module's base address on a 64-Kbyte boundary corresponding
to the physical array location within the 4 Gbyte address space supported by ColdFire.
15–10
—
Reserved, should be cleared.
9
BDE Back door enable. Qualifies the module accesses to the memory.
0 Disables module accesses to the module.
1 Enables module accesses to the module.
NOTE: The SPV bit in the CPU’s RAMBAR must also be set to allow dual port access to the SRAM.
For more information, see Section 5.3.1, “SRAM Base Address Register (RAMBAR).”
8–0
—
Reserved, should be cleared.
Содержание ColdFire MCF5281
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