FUJITSU MHT2060AT User Manual
Page 207
5.6 Timing
C141-E192-01EN
5-133
5.6.3.2 Ultra DMA data burst timing requirements
Table 5.23 Ultra DMA data burst timing requirements (1 of 2)
NAME MODE 0
(in ns)
MODE 1
(in ns)
MODE 2
(in ns)
MODE 3
(in ns)
MODE 4
(in ns)
MODE 5
(in ns)
COMMENT
MIN MAX MIN MAX MIN MAX MIN MAX MIN MAX MIN MAX
t
2CYCTYP
240
160
120
90
60
40
Typical sustained average two
cycle time
t
CYC
112
73
54
39
25
16.8
Cycle time allowing for
asymmetry and clock variations
(from STROBE edge to STROBE
edge)
t
2CYC
230
153
115
86
57
38
Two cycle time allowing for
clock variations (from rising edge
to next rising edge or from falling
edge to next falling edge of
STROBE)
t
DS
15
10
7
7
5
4
Data setup time at recipient (from
data valid until STROBE edge)
(*2), (*5)
t
DH
5
5
5
5
5
4.6
Data hold time at recipient (from
STROBE edge until data may
become invalid) (*2), (*5)
t
DVS
70
48
31
20
6.7
4.8
Data valid setup time at sender
(from data valid until STROBE
edge) (*3)
t
DVH
6.2
6.2
6.2
6.2
6.2
4.8
Data valid hold time at sender
(from STROBE edge until data
may become invalid) (*3)
t
CS
15
10
7
7
5
5
CRC word setup time at device
(*2)
t
CH
5
5
5
5
5
5
CRC word hold time device (*2)
t
CVS
70
48
31
20
6.7
10
CRC word valid setup time at
host (from CRC valid until
DMACK-negation) (*3)
t
CVH
6.2
6.2
6.2
6.2
6.2
10
CRC word valid hold time at
sender (from DMACK-negation
until CRC may become invalid)
(*3)
t
ZFS
0
0
0
0
0
35
Time from STROBE output
released-to-driving until the first
transition of critical timing
t
DZFS
70
48
31
20
6.7
25
Time from data output released-
to-driving until the first transition
of critical timing
t
FS
230
200
170
130
120
90
First STROBE time (for device to
first negate DSTROBE from
STOP during a data in burst)