Table 9-12 – Freescale Semiconductor MPC5200B User Manual

Programmer’s Model

MPC5200B Users Guide, Rev. 1

Freescale Semiconductor

9-21

9.7.1.6

Chip Select Deadcycle Control Register—MBAR + 0x032C

28

CW0

Chip Select 0 Cache Wrap capable, set if peripheral burst can perform PPC cache wrap. This
bit setting only applies in Large Flash or MOST Graphics Mode.

29

SLB0

Chip Select 0 Short/Long Burst, 0 for Short Burst only, 1 for Long Burst capable. Short burst
is 8-bytes, used for Instruction fetches, and CDWF cache line bursts on XLB if cache wrap
not capable. Long Burst capable means that peripheral can do 32-byte burst which hardware
will generate for cache line aligned XLB bursts (and CDWF if peripheral tagged as cache
wrap capable also).

This bit setting only applies in Large Flash or MOST Graphics Mode.

30

—

Reserved

31

BRE0

Chip Select 0 Burst Read Enable, 1 to enable peripheral bursting for given chip select. Must
be set to enable any Bursting reads.

This bit setting only applies in Large Flash or MOST Graphics Mode.

Note:

1.

CDWF is defined as "critical doubleword word first".

2.

The bits for Chip Select 0 (CS0) control CS Boot too.

3.

With a clock ratio 1:1:1 (66:66:66 MHz) it is not possible to burst in Large Flash mode.

Table 9-12. Chip Select Deadcycle Control Register

msb 0

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

R

Reserved

DC7

Reserved

DC6

Reserved

DC5

Reserved

DC4

W

RESET:

0

0

1

1

0

0

1

1

0

0

1

1

0

0

1

1

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31 lsb

R

Reserved

DC3

Reserved

DC2

Reserved

DC1

Reserved

DC0

W

RESET:

0

0

1

1

0

0

1

1

0

0

1

1

0

0

1

1

Bits

Name

Description

0:1

—

Reserved

2:3

DC7

Deadcycles can be specified as 0 to 3. Dead cycles will be added to the end of Chip Select
7 read access and will occur in addition to any cycles which may already exist. These cycles
are to provide peripheral additional time to tri-state it's bus after a read operation. This is for
all access types.

4:5

—

Reserved

6:7

DC6

Deadcycles can be specified as 0 to 3. Dead cycles will be added to the end of Chip Select
6 read access and will occur in addition to any cycles which may already exist. These cycles
are to provide peripheral additional time to tri-state it's bus after a read operation. This is for
all access types.

8:9

—

Reserved

10:11

DC5

Deadcycles can be specified as 0 to 3. Dead cycles will be added to the end of Chip Select
5 read access and will occur in addition to any cycles which may already exist. These cycles
are to provide peripheral additional time to tri-state it's bus after a read operation. This is for
all access types.

Bits

Name

Description