JAJSDV4J June 2009 – January 2017 OMAP-L138
PRODUCTION DATA.
デバイスごとのパッケージ図は、PDF版データシートをご参照ください。
NO. | 1.3V, 1.2V | 1.1V | 1.0V | UNIT | |||||
---|---|---|---|---|---|---|---|---|---|
MIN | MAX | MIN | MAX | MIN | MAX | ||||
READS and WRITES | |||||||||
E | tc(CLK) | Cycle time, EMIFA module clock | 6.75 | 13.33 | 20 | ns | |||
2 | tw(EM_WAIT) | Pulse duration, EM_WAIT assertion and deassertion | 2E | 2E | 2E | ns | |||
READS | |||||||||
12 | tsu(EMDV-EMOEH) | Setup time, EM_D[15:0] valid before EM_OE high | 3 | 5 | 7 | ns | |||
13 | th(EMOEH-EMDIV) | Hold time, EM_D[15:0] valid after EM_OE high | 0 | 0 | 0 | ns | |||
14 | tsu(EMOEL-EMWAIT) | Setup Time, EM_WAIT asserted before end of Strobe Phase(2) | 4E+3 | 4E+3 | 4E+3 | ns | |||
WRITES | |||||||||
28 | tsu(EMWEL-EMWAIT) | Setup Time, EM_WAIT asserted before end of Strobe Phase(2) | 4E+3 | 4E+3 | 4E+3 | ns |
NO. | PARAMETER | 1.3V, 1.2V, 1.1V, 1.0V | UNIT | |||
---|---|---|---|---|---|---|
MIN | Nom | MAX | ||||
READS and WRITES | ||||||
1 | td(TURNAROUND) | Turn around time | (TA)*E - 3 | (TA)*E | (TA)*E + 3 | ns |
READS | ||||||
3 | tc(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 | tsu(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 | th(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 | tsu(EMBAV-EMOEL) | Output setup time, EMA_BA[1:0] valid to EMA_OE low | (RS)*E-3 | (RS)*E | (RS)*E+3 | ns |
7 | th(EMOEH-EMBAIV) | Output hold time, EMA_OE high to EMA_BA[1:0] invalid | (RH)*E-3 | (RH)*E | (RH)*E+3 | ns |
8 | tsu(EMBAV-EMOEL) | Output setup time, EMA_A[13:0] valid to EMA_OE low | (RS)*E-3 | (RS)*E | (RS)*E+3 | ns |
9 | th(EMOEH-EMAIV) | Output hold time, EMA_OE high to EMA_A[13:0] invalid | (RH)*E-3 | (RH)*E | (RH)*E+3 | ns |
10 | tw(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 | td(EMWAITH-EMOEH) | Delay time from EMA_WAIT deasserted to EMA_OE high | 3E-3 | 4E | 4E+3 | ns |
28 | tsu(EMARW-EMOEL) | Output setup time, EMA_A_RW valid to EMA_OE low | (RS)*E-3 | (RS)*E | (RS)*E+3 | ns |
29 | th(EMOEH-EMARW) | Output hold time, EMA_OE high to EMA_A_RW invalid | (RH)*E-3 | (RH)*E | (RH)*E+3 | ns |
WRITES | ||||||
15 | tc(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 | tsu(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 | th(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 | tsu(EMDQMV-EMWEL) | Output setup time, EMA_BA[1:0] valid to EMA_WE low | (WS)*E-3 | (WS)*E | (WS)*E+3 | ns |
19 | th(EMWEH-EMDQMIV) | Output hold time, EMA_WE high to EMA_BA[1:0] invalid | (WH)*E-3 | (WH)*E | (WH)*E+3 | ns |
20 | tsu(EMBAV-EMWEL) | Output setup time, EMA_BA[1:0] valid to EMA_WE low | (WS)*E-3 | (WS)*E | (WS)*E+3 | ns |
21 | th(EMWEH-EMBAIV) | Output hold time, EMA_WE high to EMA_BA[1:0] invalid | (WH)*E-3 | (WH)*E | (WH)*E+3 | ns |
22 | tsu(EMAV-EMWEL) | Output setup time, EMA_A[13:0] valid to EMA_WE low | (WS)*E-3 | (WS)*E | (WS)*E+3 | ns |
23 | th(EMWEH-EMAIV) | Output hold time, EMA_WE high to EMA_A[13:0] invalid | (WH)*E-3 | (WH)*E | (WH)*E+3 | ns |
24 | tw(EMWEL) | EMA_WE active low width (EW = 0) | (WST)*E-3 | (WST)*E | (WST)*E+3 | ns |
EMA_WE active low width (EW = 1) | (WST+EWC)*E-3 | (WST+EWC)*E | (WST+EWC)*E+3 | ns | ||
25 | td(EMWAITH-EMWEH) | Delay time from EMA_WAIT deasserted to EMA_WE high | 3E-3 | 4E | 4E+3 | ns |
26 | tsu(EMDV-EMWEL) | Output setup time, EMA_D[15:0] valid to EMA_WE low | (WS)*E-3 | (WS)*E | (WS)*E+3 | ns |
27 | th(EMWEH-EMDIV) | Output hold time, EMA_WE high to EMA_D[15:0] invalid | (WH)*E-3 | (WH)*E | (WH)*E+3 | ns |
30 | tsu(EMARW-EMWEL) | Output setup time, EMA_A_RW valid to EMA_WE low | (WS)*E-3 | (WS)*E | (WS)*E+3 | ns |
31 | th(EMWEH-EMARW) | Output hold time, EMA_WE high to EMA_A_RW invalid | (WH)*E-3 | (WH)*E | (WH)*E+3 | ns |