SPRSP69B July 2023 – November 2023 TMS320F28P650DK , TMS320F28P659DK-Q1
PRODMIX
请参考 PDF 数据表获取器件具体的封装图。
NO. | PARAMETER(1)(2)(3) | MIN | MAX | UNIT | |
---|---|---|---|---|---|
1 | td(TURNAROUND) | Turn around time TA=0 | (TA)*E–3 | (TA)*E+2 | ns |
Reads | |||||
3 | tc(EMRCYCLE) | EMIF read cycle time (EW = 0) | (RS+RST+RH)*E–3 | (RS+RST+RH)*E+2 | ns |
3 | tc(EMRCYCLE) | EMIF read cycle time (EW = 1) | (RS+RST+RH+ (EWC*16))*E–3 |
(RS+RST+RH+ (EWC*16))*E+2 |
ns |
4 | tsu(EMCEL-EMOEL) | Output setup time, EMxCS[y:2] low to EMxOE low (SS = 0) RS=0 | (RS)*E–3 | (RS)*E+2 | ns |
4 | tsu(EMCEL-EMOEL) | Output setup time, EMxCS[y:2] low to EMxOE low (SS = 1) | –3 | 2 | ns |
5 | th(EMOEH-EMCEH) | Output hold time, EMxOE high to EMxCS[y:2] high (SS = 0) | (RH)*E–3 | (RH)*E | ns |
5 | th(EMOEH-EMCEH) | Output hold time, EMxOE high to EMxCS[y:2] high (SS = 1) | –3 | 0 | ns |
6 | tsu(EMBAV-EMOEL) | Output setup time, EMxBA[y:0] valid to EMxOE low | (RS)*E–3 | (RS)*E+2 | ns |
7 | th(EMOEH-EMBAIV) | Output hold time, EMxOE high to EMxBA[y:0] invalid | (RH)*E–3 | (RH)*E | ns |
8 | tsu(EMAV-EMOEL) | Output setup time, EMxA[y:0] valid to EMxOE low | (RS)*E–3 | (RS)*E+2 | ns |
9 | th(EMOEH-EMAIV) | Output hold time, EMxOE high to EMxA[y:0] invalid | (RH)*E–3 | (RH)*E | ns |
10 | tw(EMOEL) | EMxOE active low width (EW = 0) | (RST)*E–1 | (RST)*E+1 | ns |
10 | tw(EMOEL) | EMxOE active low width (EW = 1) | (RST+(EWC*16))*E–1 | (RST+(EWC*16))*E+1 | ns |
11 | td(EMWAITH-EMOEH) | Delay time from EMxWAIT deasserted to EMxOE high | 4*E+10 | 5*E+15 | ns |
29 | tsu(EMDQMV-EMOEL) | Output setup time, EMxDQM[y:0] valid to EMxOE low | (RS)*E–3 | (RS)*E+2 | ns |
30 | th(EMOEH-EMDQMIV) | Output hold time, EMxOE high to EMxDQM[y:0] invalid | (RH)*E–3 | (RH)*E | ns |
Writes | |||||
15 | tc(EMWCYCLE) | EMIF write cycle time (EW = 0) | (WS+WST+WH)*E–3 | (WS+WST+WH)*E+2 | ns |
15 | tc(EMWCYCLE) | EMIF write cycle time (EW = 1) | (WS+WST+WH+ (EWC*16))*E–3 |
(WS+WST+WH+ (EWC*16))*E+2 |
ns |
16 | tsu(EMCEL-EMWEL) | Output setup time, EMxCS[y:2] low to EMxWE low (SS = 0) | (WS)*E–3 | (WS)*E+2 | ns |
16 | tsu(EMCEL-EMWEL) | Output setup time, EMxCS[y:2] low to EMxWE low (SS = 1) | –3 | 2 | ns |
17 | th(EMWEH-EMCEH) | Output hold time, EMxWE high to EMxCS[y:2] high (SS = 0) | (WH)*E–3 | (WH)*E | ns |
17 | th(EMWEH-EMCEH) | Output hold time, EMxWE high to EMxCS[y:2] high (SS = 1) | –3 | 0 | ns |
18 | tsu(EMDQMV-EMWEL) | Output setup time, EMxDQM[y:0] valid to EMxWE low | (WS)*E–3 | (WS)*E+2 | ns |
19 | th(EMWEH-EMDQMIV) | Output hold time, EMxWE high to EMxDQM[y:0] invalid | (WH)*E–3 | (WH)*E | ns |
20 | tsu(EMBAV-EMWEL) | Output setup time, EMxBA[y:0] valid to EMxWE low | (WS)*E–3 | (WS)*E+2 | ns |
21 | th(EMWEH-EMBAIV) | Output hold time, EMxWE high to EMxBA[y:0] invalid | (WH)*E–3 | (WH)*E | ns |
22 | tsu(EMAV-EMWEL) | Output setup time, EMxA[y:0] valid to EMxWE low | (WS)*E–3 | (WS)*E+2 | ns |
23 | th(EMWEH-EMAIV) | Output hold time, EMxWE high to EMxA[y:0] invalid | (WH)*E–3 | (WH)*E | ns |
24 | tw(EMWEL) | EMxWE
active low width (EW = 0) |
(WST)*E–1 | (WST)*E+1 | ns |
24 | tw(EMWEL) | EMxWE
active low width (EW = 1) |
(WST+(EWC*16))*E–1 | (WST+(EWC*16))*E+1 | ns |
25 | td(EMWAITH-EMWEH) | Delay time from EMxWAIT deasserted to EMxWE high | 4*E+10 | 5*E+15 | ns |
26 | tsu(EMDV-EMWEL) | Output setup time, EMxD[y:0] valid to EMxWE low | (WS)*E–3 | (WS)*E+2 | ns |
27 | th(EMWEH-EMDIV) | Output hold time, EMxWE high to EMxD[y:0] invalid | (WH)*E–3 | (WH)*E | ns |