2 dram control register (dcr), Dram control register (dcr) -24, 2 dram control register (dcr) – Motorola DSP56301 User Manual

Page 98: And the refresh access generation, Before

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Bus Interface Unit (BIU) Registers

4

-24

DSP56301 User’s Manual

4.6.2

DRAM Control Register (DCR)

The DRAM controller is an efficient interface to dynamic RAM devices in both random
read/write cycles and Fast Access mode (Page mode). An on-chip DRAM controller controls
the page hit circuit, the address multiplexing (row address and column address), the control
signal generation (

CAS

and

RAS

) and the refresh access generation (

CAS

before

RAS

) for a

variety of DRAM module sizes and access times. The on-chip DRAM controller
configuration is determined by the DRAM Control Register (DCR). The DRAM Control
Register (DCR) is a 24-bit read/write register that controls and configures the external DRAM
accesses. The DCR bits are shown in Figure 4-7.

Note:

To prevent improper device operation, you must guarantee that all the DCR bits
except BSTR are not changed during a DRAM access.

Figure 4-7. DRAM Control Register (DCR)

4–0

BA0W[4–0]

11111

(31 wait

states)

Bus Area 0 Wait State Control
Defines the number of wait states (one through 31) inserted in each external
SRAM access to Area 0 (DRAM accesses are not affected by these bits). Area 0 is
the area defined by AAR0.

Note:

Do not program the value of these bits as zero, since SRAM memory
access requires at least one wait state.

When selecting four through seven wait states, one additional wait state is inserted
at the end of the access. When selecting eight or more wait states, two additional
wait states are inserted at the end of the access. These trailing wait states increase
the data hold time and the memory release time and do not increase the memory
access time.

Table 4-9. Bus Control Register (BCR) Bit Definitions (Continued)

Bit

Number

Bit Name

Reset Value

Description

23

22

21

20

19

18

17

16

15

14

13

12

BRP

BRF7

BRF6

BRF5

BRF4

BRF3

BRF2

BRF1

BRF0

BSTR

BREN

BME

11

10

9

8

7

6

5

4

3

2

1

0

BPLE

BPS1

BPS0

BRW1

BRW0

BCW1

BCW0

Reserved bit. Read as zero; write to zero for future compatibility

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