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Peripheral Information and Electrical Specifications
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SPRS590G – JUNE 2009 – REVISED JANUARY 2017
(1)
TA = Turn around, RS = Read setup, RST = Read strobe, RH = Read hold, WS = Write setup, WST = Write strobe, WH = Write hold, MEWC = Maximum external wait cycles. These
parameters are programmed via the Asynchronous Bank and Asynchronous Wait Cycle Configuration Registers. These support the following range of values: TA[4-1], RS[16-1], RST[64-
1], RH[8-1], WS[16-1], WST[64-1], WH[8-1], and MEW[1-256].
(2)
E = EMA_CLK period or in ns. EMA_CLK is selected either as SYSCLK3 or the PLL0 output clock divided by 4.5. As an example, when SYSCLK3 is selected and set to 100MHz,
E=10ns.
(3)
EWC = external wait cycles determined by EMA_WAIT input signal. EWC supports the following range of values EWC[256-1]. Note that the maximum wait time before timeout is specified
by bit field MEWC in the Asynchronous Wait Cycle Configuration Register.
Table 6-22. Switching Characteristics for EMIFA Asynchronous Memory Interface
(1) (2) (3)
NO.
PARAMETER
1.3V, 1.2V, 1.1V, 1.0V
UNIT
MIN
Nom
MAX
READS and WRITES
1
t
d(TURNAROUND)
Turn around time
(TA)*E - 3
(TA)*E
(TA)*E + 3
ns
READS
3
t
c(EMRCYCLE)
EMIF read cycle time (EW = 0)
(RS+RST+RH)*E - 3
(RS+RST+RH)*E
(RS+RST+RH)*E + 3
ns
EMIF read cycle time (EW = 1)
(RS+RST+RH+EWC)*E - 3
(RS+RST+RH+EWC)*E
(RS+RST+RH+EWC)*E + 3
ns
4
t
su(EMCEL-EMOEL)
Output setup time, EMA_CE[5:2] low to EMA_OE low (SS = 0)
(RS)*E-3
(RS)*E
(RS)*E+3
ns
Output setup time, EMA_CE[5:2] low to EMA_OE low (SS = 1)
-3
0
+3
ns
5
t
h(EMOEH-EMCEH)
Output hold time, EMA_OE high to EMA_CE[5:2] high (SS = 0)
(RH)*E - 3
(RH)*E
(RH)*E + 3
ns
Output hold time, EMA_OE high to EMA_CE[5:2] high (SS = 1)
-3
0
+3
ns
6
t
su(EMBAV-EMOEL)
Output setup time, EMA_BA[1:0] valid to EMA_OE low
(RS)*E-3
(RS)*E
(RS)*E+3
ns
7
t
h(EMOEH-EMBAIV)
Output hold time, EMA_OE high to EMA_BA[1:0] invalid
(RH)*E-3
(RH)*E
(RH)*E+3
ns
8
t
su(EMBAV-EMOEL)
Output setup time, EMA_A[13:0] valid to EMA_OE low
(RS)*E-3
(RS)*E
(RS)*E+3
ns
9
t
h(EMOEH-EMAIV)
Output hold time, EMA_OE high to EMA_A[13:0] invalid
(RH)*E-3
(RH)*E
(RH)*E+3
ns
10
t
w(EMOEL)
EMA_OE active low width (EW = 0)
(RST)*E-3
(RST)*E
(RST)*E+3
ns
EMA_OE active low width (EW = 1)
(RST+EWC)*E-3
(RST+EWC)*E
(RST+EWC)*E+3
ns
11
t
d(EMWAITH-EMOEH)
Delay time from EMA_WAIT deasserted to EMA_OE high
3E-3
4E
4E+3
ns
28
t
su(EMARW-EMOEL)
Output setup time, EMA_A_RW valid to EMA_OE low
(RS)*E-3
(RS)*E
(RS)*E+3
ns
29
t
h(EMOEH-EMARW)
Output hold time, EMA_OE high to EMA_A_RW invalid
(RH)*E-3
(RH)*E
(RH)*E+3
ns
WRITES
15
t
c(EMWCYCLE)
EMIF write cycle time (EW = 0)
(WS+WST+WH)*E-3
(WS+WST+WH)*E
(WS+WST+WH)*E+3
ns
EMIF write cycle time (EW = 1)
(WS+WST+WH+EWC)*E - 3
(WS+WST+WH+EWC)*E
(WS+WST+WH+EWC)*E +
3
ns
16
t
su(EMCEL-EMWEL)
Output setup time, EMA_CE[5:2] low to EMA_WE low (SS = 0)
(WS)*E - 3
(WS)*E
(WS)*E + 3
ns
Output setup time, EMA_CE[5:2] low to EMA_WE low (SS = 1)
-3
0
+3
ns
17
t
h(EMWEH-EMCEH)
Output hold time, EMA_WE high to EMA_CE[5:2] high (SS = 0)
(WH)*E-3
(WH)*E
(WH)*E+3
ns
Output hold time, EMA_WE high to EMA_CE[5:2] high (SS = 1)
-3
0
+3
ns
18
t
su(EMDQMV-EMWEL)
Output setup time, EMA_BA[1:0] valid to EMA_WE low
(WS)*E-3
(WS)*E
(WS)*E+3
ns
19
t
h(EMWEH-EMDQMIV)
Output hold time, EMA_WE high to EMA_BA[1:0] invalid
(WH)*E-3
(WH)*E
(WH)*E+3
ns
20
t
su(EMBAV-EMWEL)
Output setup time, EMA_BA[1:0] valid to EMA_WE low
(WS)*E-3
(WS)*E
(WS)*E+3
ns
21
t
h(EMWEH-EMBAIV)
Output hold time, EMA_WE high to EMA_BA[1:0] invalid
(WH)*E-3
(WH)*E
(WH)*E+3
ns
