csi300指数

型 号参 数型 号2SC1000SI-N 55V 0.1A 0.2W 80MHz2SC9822SC1008SI-N 80V 0.7A 0.8W 75MHz2SC1012A 2SC1014SI-N 50V 1.5A 7W2SC1017 2SC1030SI-N 150V 6A 50W2SC1046 2SC1047SI-N 30V 20mA 0.4W 650MHz2SC1050 2SC1051SI-N 150V 7A 60W 8MHz2SC1061 2SC1070SI-N 30V 20mA 900MHz2SC1080 2SC109SI-N 50V 0.6A 0.6W2SC1096 2SC1106SI-N 350V 2A 80W2SC1114 2SC1115SI-N 140V 10A 100W 10MHz2SC1116 2SC1161SI-P 160V 12A 120W2SC1162 2SC1172SI-N 1500V 5A 50W2SC1195 2SC1213C SI-N 50V 0.5A 0.4W UNI2SC1214 2SC1215SI-N 30V 50mA 0.4W 1.2GHZ2SC1216 2SC1226SI-N 40/50V 2A 10W 150MHz2SC1238 2SC1247A SI-N 50V 0.5A 0.4W 60MHz2SC1308 2SC1312SI-N 35V 0.1A 0.15W 100MHz2SC1318 2SC1343SI-N 150V 10A 100W 14MHz2SC1345 2SC1359SI-N 30V 30mA 0.4W 250MHz2SC1360 2SC1362SI-N 50V 0.2A 0.25W 140MHz2SC1368 2SC1382SI-N 80V 0.75A 5W 100MHz2SC1384 2SC1393SI-N 30V 20mA 250 mW 700MHz2SC1398 2SC1413A SI-N 1200V 5A 50W2SC1419 2SC1426SI-N 35V 0.2A 2.7GHz2SC1431 2SC1432N-DARL 30V 0.3A 0.3W B=402SC1439 2SC1445SI-N 100V 6A 40W 10MHz2SC1446 2SC1447SI-N 300V 0.15A 20W 80MHz2SC1448 2SC1449SI-N 40V 2A 5W 60MHz2SC1450 2SC1454SI-N 300V 4A 50W 10MHz2SC1474-4 2SC1501SI-N 300V 0.1A 10W 55MHz2SC1505 2SC1507SI-N 300V 0.2A 15W 80MHz2SC1509 2SC1515SI-N 200V 0.05A 0.2W 110MHz2SC1520 2SC1545N-DARL 40V 0.3A 0.3W B=1K2SC1567 2SC1570SI-N 55V 0.1A 0.2W 100MHz2SC1571 2SC1573SI-N 200V 0.1A 1W 80MHz2SC1577 2SC1583SI-N 50V 0.1A 0.4W 100MHz2SC1619 2SC1623SI-N 60V 0.1A 0.2W 250MHz2SC1624 2SC1627SI-N 80V 0.4A 0.8W 100MHz2SC1674 2SC1675SI-N 50V .03A 0.25W2SC1678 2SC1685SI-N 60V 0.1A 150MC UNI2SC1688 2SC1708A SI-N 120V 50mA 0.2W 150MHz2SC1729 2SC1730SI-N 30V 0.05A 1.1GHz UHF2SC1740 2SC1741SI-N 40V 0.5A 0.3W 250MHz2SC1756 2SC1760SI-N 100V 1A 7.9W 80MHz2SC1775A 2SC1781SI-N 50V 0.5A 0.35W2SC1815 2SC1815BL SI-N 60V 0.15A 0.4W B>3502SC1815GR2SC1815Y SI-N 60V 0.15A 0.4W B>1202SC1827 2SC1832N-DARL 500V 15A 150W B>102SC1841 2SC1844SI-N 60V 0.1A 0.5W 100MHz2SC1845 2SC1846SI-N 120V 0.05A 0.5W2SC1847 2SC1855SI-N 20V 20mA 0.25W 550MHz2SC1871 2SC1879N-DARL+D 120V 2A 0.8W B>12SC1890 2SC1895SI-N 1500V 6A 50W 2MHz2SC1906 2SC1907SI-N 30V 0.05A 1100MHz2SC1913 2SC1914SI-N 90V 50mA 0.2W 150MHz2SC1921 2SC1922SI-N 1500V 2.5A 50W2SC1923 2SC1929SI-N 300V 0.4A 25W 80MHz2SC1941 2SC1944SI-N 80V 6A PQ=16W2SC1945 2SC1946A SI-N 35V 7A 50W2SC1947 2SC1953SI-N 150V 0.05A 1.2W 70MHz2SC1957 2SC1959SI-N 30V 0.5A 0.5W 200MHz2SC1967 2SC1968SI-N 35V 5A 3W 470MHz2SC1969 2SC1970SI-N 40V 0.6A 5W2SC1971 2SC1972SI-N 35V 3.5A 25W2SC1975 2SC1980SI-N 120V 20mA 0.25W 200MHz2SC1984 2SC1985SI-N 80V 6A 40W 10MHz2SC2023 2SC2026SI-N 30V 0.05A 0.25W2SC2027 2SC2036SI-N 80V 1A PQ=1..4W2SC2053 2SC2055SI-N 18V 0,3A 0,5W2SC2058 2SC2060SI-N 40V 0.7A 0.75W 150MHz2SC2061 2SC2068SI-N 300V 0.05A 95MHz2SC2073 2SC2078SI-N 80V 3A 10W 150MHz2SC2086 2SC2092SI-N 75V 3A 5W 27MHz2SC2094 2SC2097SI-N 50V 15A PQ=85W2SC2120 2SC2122SI-N 800V 10A 50W2SC2166 2SC2168SI-N 200V 2A 30W 10MHz2SC2200 2SC2209SI-N 50V 1.5A 10W 150MHz2SC2216 2SC2228SI-N 160V 0.05A 0.75W >502SC2229 2SC2230SI-N 200V 0.1A 0.8W 50MHz2SC2233 2SC2235SI-N 120V 0.8A 0.9W 120MHz2SC2236 2SC2237SI-N 35V 2A PQ>7.5W 175MHz2SC2238 2SC2240SI-N 120V 50mA .3W 100MHz2SC2261 2SC2267SI-N 400/360V 0.1A 0.4W2SC2270 2SC2271SI-N 300V 0.1A 0.9W 50MHz2SC2275 2SC2283SI-N 38V 0.75A 2.8W(500MHz2SC2287 2SC2295SI-N 30V 0.03A 0.2W 250MHz2SC2307 2SC2308SI-N 55V 0.1A 0.2W 230MHz2SC2310 2SC2312SI-N 60V 6A 18.5W/27MHz2SC2314 2SC2320SI-N 50V 0,2A 0,3W2SC2329 2SC2331SI-N 150V 2A 15W POWER2SC2333 2SC2334SI-N 150V 7A 40W POWER2SC2335 2SC2336B SI-N 250V 1.5A 25W 95MHz2SC2344 2SC2347SI-N 15V 50mA 250mW 650MHz2SC23622SC2363SI-N 120V 50mA 0.5W 130MHz2SC2365 2SC2369SI-N 25V 70mA 0.25W 4.5GHz2SC2383 2SC2389SI-N 120V 50mA 0.3W 140MHz2SC2407 2SC2412SI-N 50V 0.1A 180MHz2SC2433 2SC2440SI-N 450V 5A 40W2SC2458 2SC2466SI-N 30V 0.05A 2.2GHz2SC2482 2SC2485SI-N 100V 6A 70W 15MHz2SC2486 2SC2491SI-N 100V 6A 40W 15MHz2SC2497 2SC2498SI-N 30V 0.05A 0.3W 3.5GHz2SC2508 2SC2510SI-N 55V 20A 250W(28MHz)2SC2512 2SC2516SI-N 150V 5A 30W <0.5/2us2SC2517 2SC2538SI-N 40V 0.4A 0.7W2SC2539 2SC2542SI-N 450V 5A 40W2SC2547 2SC2551SI-N 300V 0.1A 0.4W 80MHz2SC2552 2SC2553SI-N 500V 5A 40W 1us2SC2562 2SC2563SI-N 120V 8A 80W 90MHz2SC2570A 2SC2579SI-N 160V 8A 80W 20MHz2SC2581 2SC2590SI-N 120V 0.5A 5W 250MHz2SC2592 2SC2603SI-N 50V 0.2A 0.3W2SC2610 2SC2611SI-N 300V 0.1A 0.8W 80MHz2SC2621E 2SC2625SI-N 450V 10A 80W2SC2630 2SC2631SI-N 150V 50mA 0,75W 160MHz2SC2632 2SC2634SI-N 60V 0.1A 0.4W 200MHz2SC2653 2SC2654SI-N 40V 7A 40W2SC2655 2SC2656SI-N 450V 7A 80W <1.5/4.52SC2660 2SC2668SI-N 30V 20mA 0.1W 550MHz2SC2671 2SC2682SI-N 180V 0.1A 8W 180MHz2SC2690 2SC2694SI-N 35V 20A 140W2SC2705 2SC2706SI-N 140V 10A 100W 90MHz2SC2712 2SC2714SI-N 30V 20mA 0.1W 550MHz2SC2717 2SC2724SI-N 30V 30mA 200MHz2SC2749 2SC2750SI-N 150V 15A 100W POWER2SC2751 2SC2752SI-N 500V 0.5A 10W <1/3.52SC2753 2SC2759SI-N 30V 50mA 0.2W 2.3GHz2SC2786 2SC2787SI-N 50V 30mA 0.3W 250MHz2SC2791 2SC2792SI-N 850V 2A 80W2SC2793 2SC2802SI-N 300V 0.2A 10W 80MHz2SC2808 2SC2810SI-N 500V 7A 50W 18MHz2SC2812 2SC2814SI-N 30V 0.03A 320MHz F2SC2825 2SC2837SI-N 150V 10A 100W 70MHz2SC2839 2SC2851SI-N 36V 0.3A 1W 1.5GHz2SC2873 2SC2878SI-N 20V 0.3A 0.4W 30MHz2SC2879 2SC2882SI-N 90V 0.4A 0.5W 100MHz2SC288A 2SC2898SI-N 500V 8A 50W2SC2901 2SC2908SI-N 200V 5A 50W 50MHz2SC2910 2SC2911SI-N 180V 140mA 10W 150MHz2SC2912 2SC2922SI-N 180V 17A 200W 50MHz2SC29232SC2928SI-N 1500V 5A 50W2SC2939 2SC2958SI-N 160V 0.5A 1W2SC2979 2SC2987SI-N 140V 12A 120W 60MHz2SC2988 2SC2999SI-N 20V 30mA 750MHz2SC3001 2SC3019SI-N 35V 0.4A 0.6W 520MHz2SC3020 2SC3022SI-N 35V 7A 50W2SC3026 2SC3030N-DARL 900V 7A 80W2SC3039 2SC3042SI-N 500/400V 12A 100W2SC3052F 2SC3063SI-N 300V 0.1A 1.2W 140MHz2SC3067 2SC3068SI-N 30V 0.3A Ueb=15V B>82SC3071 2SC3073SI-N 30V 3A 15W 100MHz2SC3074 2SC3075SI-N 500V 0.8A 10W 1/1.5us2SC3089 2SC3101SI-N 250V 30A 200W 25MHz2SC3102 2SC3112SI-N 50V 0.15A 0.4W 100MHz2SC3116 2SC3117SI-N 180V 1.5A 10W 120MHz2SC3133 2SC3148SI-N 900V 3A 40W 1us2SC3150 2SC3153SI-N 900V 6A 100W2SC3157 2SC3158SI-N 500V 7A 60W2SC3164 2SC3169SI-N 500V 2A 25W >8MHz2SC3175 2SC3178SI-N 1200V 2A 60W2SC3179 2SC3180N SI-N 80V 6A 60W 30MHz2SC3181N 2SC3182N SI-N 140V 10A 100W 30MHz2SC3195 2SC3199SI-N 60V 0.15A 0.2W 130MHz2SC3200 2SC3202SI-N 35V 0.5A 0.5W 300MHz2SC3203 2SC3205SI-N 30V 2A 1W 120MHz2SC3206 2SC3210SI-N 500V 10A 100W 1us2SC3211 2SC3212SI-N 800V 7A 3W 3.5MHz2SC3225 2SC3231SI-N 200V 4A 40W 8MHz2SC3240 2SC3242SI-N 20V 2A 0.9W 80MHz2SC3244E 2SC3245A SI-N 150V 0.1A 0.9W 200MHz2SC3246 2SC3247SI-N 50V 1A .9W 130MHz B>2SC3257 2SC3258SI-N 100V 5A 30W 120MHz2SC3260 2SC3262N-DARL 800V 10A 100W2SC3263 2SC3264SI-N 230V 17A 200W 60MHz2SC3271 2SC3277SI-N 500V 10A 90W 20MHz2SC3279 2SC3280SI-N 160V 12A 120W 30MHz2SC3281 2SC3284SI-N 150V 14A 125W 60MHz2SC3293 2SC3297SI-N 30V 3A 15W 100MHz2SC3299 2SC3300SI-N 100V 15A 100W2SC3303 2SC3306SI-N 500V 10A 100W 1us2SC3307 2SC3309SI-N 500V 2A 20W 1us2SC3310 2SC3311SI-N 60V 0.1A 0.3W 150MHz2SC3320 2SC3326SI-N 20V 0.3A 0.15W 30MHz2SC3327 2SC3328SI-N 80V 2A 0.9W 100MHz2SC3330 2SC3331SI-N 60V 0.2A 0.5W 200MHz2SC3332 2SC3334SI-N 250V 50mA 0.9W 100MHz2SC3345 2SC3346SI-N 80V 12A 40W 0.2us2SC33552SC3356SI-N 20V 0.1A 0.2W 7GHz2SC3377 2SC3378SI-N 120V 0.1A 0.2W 100MHz2SC3379 2SC33812xSI-N 80V 0.1A 0.4W 170MHz2SC3383 2SC3397SI-N 50V 0.1A 250MHz 46K/2SC3399 2SC3400SI-N 50V 0.1A 250MHz 22K/2SC3401 2SC3402SI-N 50V 0.1A 250MHz 10K/2SC3405 2SC3409SI-N 900V 2A 80W .8uS2SC3416 2SC3419SI-N 40V 0.8A 5W 100MHz2SC3420 2SC3421O SI-N 120V 1A 1.5W BJT O-G2SC3421Y 2SC3422Y SI-N 40V 3A 10W 100MHz2SC3423 2SC3425SI-N 500V 0.8A 10W2SC3446 2SC3447SI-N 800V 5A 50W 18MHz2SC3456 2SC3457SI-N 1100V 3A 50W2SC3460 2SC3461SI-N 1100/800V 8A 120W2SC3466 2SC3467SI-N 200V 0.1A 1W 150MHz2SC3468 2SC3486SI-N 1500V 6A 120W2SC3502 2SC3503SI-N 300V 0.1A 7W 150MHz2SC3504 2SC3505SI-N 900V 6A 80W2SC3507 2SC3509N-DARL+D 900V 10A 100W 0.2SC3514 2SC3518SI-N 60V 5A 10W2SC3520 2SC3526SI-N 110V 0.15A 7A 30W 1us2SC3528 2SC3549SI-N 900V 3A 40W2SC3552 2SC3568SI-N 150V 10A 30W2SC3571 2SC3577SI-N 850V 5A 80W 6MHz2SC3581 2SC3591SI-N 400V 7A 50W2SC3595 2SC3596SI-N 80V 0.3A 8W 700MHz2SC3597 2SC3599SI-N 120V 0.3A 8W 500MHz2SC3600 2SC3601SI-N 200V 0.15A 7W 400MHz2SC3608 2SC3611SI-N 50V 0.15A 4W 300MHz2SC3616 2SC3621SI-N 150V 1.5A 10W 100MHz2SC3623 2SC3632SI-N 600V 1A 10W 30MHz2SC3636 2SC3642SI-N 1200V 6A 100W 200ns2SC3655 2SC3656SI-N 50V 0.1A 0.4W 10K/102SC3659 2SC3668SI-N 50V 2A 1W 100MHz2SC3669 2SC3675SI-N 1500/900V 0.1A 10W2SC3678 2SC3679SI-N 900/800V 5A 100W2SC3680 2SC3684SI-N+D 1500V 10A 150W2SC3688 2SC3692SI-N 100V 7A 30W <300/1802SC373 2SC3746SI-N 80V 5A 20W 100MHz2SC3748 2SC3752SI-N 1100/800V 3A 30W2SC3781 2SC3782SI-N 200V 0.2A 15W 400MHz2SC3783 2SC3787SI-N 180V 0.14A 10W 150MHz2SC3788 2SC3789SI-N 300V 0.1A 7W 70MHz2SC3790 2SC3792SI-N 50V 0.5A 0.5W 250MHz2SC3795A 2SC3807SI-N 30V 2A 15W 260MHz2SC3808 2SC380TM SI-N 30V 50mA 0.3W 100MHz2SC3811 2SC3831SI-N 500V 10A 100W2SC38332SC3851SI-N 80V 4A 25W 15MHz2SC3852 2SC3855SI-N 200V 10A 100W 20MHz2SC3857 2SC3858SI-N 200V 17A 200W 20MHz2SC3866 2SC3868SI-N 500V 1.5A 25W 0.7us2SC3883 2SC3884A SI-N 1500V 6A 50W2SC3886A 2SC388A SI-N 25V 50mA 0.3W 300MHz2SC3890 2SC3892A SI-N+D 1500V 7A 50W 0.4us2SC3893A 2SC3895SI-N 1500/800V 8A 70W2SC3896 2SC3897SI-N 1500V 10A 70W2SC3902 2SC3907SI-N 180V 12A 130W 30MHz2SC3927 2SC394SI-N 25V 0.1A 200MC RF2SC3940 2SC3943SI-N 110V 0.15A 2W 300MHz2SC3944 2SC3948SI-N 850V 10A 75W 20MHz2SC3950 2SC3952SI-N 80V 0.5A 10W 700MHz2SC3953 2SC3954SI-N 120V 0.3A 8W 400MHz2SC3955 2SC3956SI-N 200V 0.2A 7W 70MHz2SC3964 2SC3972SI-N 800/500V 5A 40W2SC3973A 2SC3979A SI-N 800V 3A 2W 10MHz2SC3987 2SC3996SI-N 1500/800V 15A 180W2SC3998 2SC3999SI-N 300V 0.1A 0.75W 300MHz2SC4004 2SC4020SI-N 900V 3A 50W 1us2SC4024 2SC4029SI-N 230V 15A 150W 30MHz2SC4043 2SC4046SI-N 120V 0.2A 8W 350MHz2SC4052 2SC4056SI-N 600V 8A 45W2SC4059 2SC4064SI-N 50V 12A 35W 40MHz2SC4107 2SC4119N-DARL+D 1500V 15A 250W B2SC4123 2SC4125SI-N+D 1500/800V 10A 70W2SC4131 2SC4135SI-N 120V 2A 15W 200MHz2SC4137 2SC4138SI-N 500V 10A 80W <1/3.5us2SC4153 2SC4157SI-N 600V 10A 100W2SC4159 2SC4161SI-N 500V 7A 30W2SC4169 2SC4199SI-N 1400V 10A 100W2SC4200 2SC4204SI-N 30V 0.7A 0.6W2SC4231 2SC4235SI-N 1200/800V 3A 80W2SC4236 2SC4237SI-N 1200/800V 10A 150W2SC4242 2SC4256SI-N 1500V 10A 175W 6MHz2SC4278 2SC4288A SI-N1600/600V 12A 200W2SC4289A 2SC4290A SI-N 1500V 20A 200W2SC4297 2SC4298SI-N 500V 15A 80W 10MHz2SC4300 2SC4304SI-N 800V 3A 35W2SC4308 2SC4313SI-N 900V 10A 100W 0.5us2SC4381 2SC4382SI-N 200V 2A 25W 15MHz2SC4386 2SC4387SI-N 200V 10A 80W 20MHz2SC4388 2SC4408SI-N 80V 2A 0.9W 100/600ns2SC4429 2SC4430SI-N 1100V 12A 65W 15MHz2SC4431 2SC4439SI-N 180V 0.3A 8W 400MHz2SC44672SC4488SI-N 120V 1A 1W 120MHz2SC4511 2SC4512SI-N 120V 6A 50W 20MHz2SC4517 2SC4517A SI-N 1000V 3A 30W 0.5us2SC4531 2SC4532SI-N 1700V 10A 200W 2uS2SC4538 2SC454SI-N 30V 0.1A 230MHz2SC4542 2SC4547N-DARL+D 85V 3A 30W B>2K2SC4557 2SC4560SI-N 1500V 10A 80W2SC458 2SC4582SI-N 600V 100A 65W 20MHz2SC460 2SC461SI-N 30V 0.1A 0.2W 230MHz2SC4744 2SC4745SI-N 1500V 6A2SC4747 2SC4758SI-N 1500V 8A 50W HI-RES2SC4769 2SC4770SI-N 1500/800V 7A 60W2SC4793 2SC4804SI-N 900V 3A 30W 0.3us2SC4820 2SC4826SI-N 200V 3A 1.3W 300MHz2SC4834 2SC4883A SI-N 180V 2A 20W 120MHz2SC4891 2SC4908SI-N 900V 3A 35W 1us2SC4924 2SC4977SI-N 450V 7A 40W2SC5002 2SC5003SI-N+D 1500V 7A 80W2SC5027 2SC5030SI-N 50V 5A 1.3W 150MHz2SC5045 2SC5047SI-N 1600V 25A 250W2SC5048 2SC5070SI-N 30V 2A 1.5W B>8002SC5086 2SC509SI-N 35V 0.5A 0.6W 60MHz2SC5144 2SC5148SI-N 1500V 8A 50W 0.2us2SC5149 2SC5150SI-N 1700V 10A 50W 03us2SC5171 2SC5198SI-N 140V 10A 100W 30MHz2SC5207 2SC5242SI-N 230V 15A 130W 30MHz2SC5244A 2SC5296SI-N+D 1500V 8A 60W2SC5297 2SC5299SI-N 1500V 10A 70W 0.2US2SC535 2SC536SI-N 40V 0.1A 180MC UNI2SC620 2SC643SI-N 1100V 2.5A 50W2SC644 2SC645SI-N 30V 30mA 0.14W 200MHz2SC710 2SC711SI-N 30V 0.05A 150MHz2SC712 2SC717SI-N 30V 50mA 0.2W 600MHz2SC730 2SC732SI-N 50V 0.15A 0.4W 150MHz2SC735 2SC752SI-N 15V 100mA 0.1W2SC756 2SC784SI-N 40V 0.02A 500MC RF2SC815 2SC828SI-N 30V 0.05A 0.25W UNI2SC829 2SC839SI-N 50V 0.03A 250MHz2SC867 2SC869SI-N 160V 30mA 0.2W 150MHz2SC898A 2SC900SI-N 30V 0.03A 100MHz2SC930 2SC936SI-N 1000V 1A 22W POWER2SC941 2SC943SI-N 60V 0.2A 0.3W 220MHz2SC945参 数N-DARL 40V 0.3A 0.4WSI-N 250V 60mA 0.75W >80MHz SI-N 75V 1A 60mW 120MHzSI-N 1000V 3A 25WSI-N 300V 1A 40WSI-N 50V 3A 25W 8MHz=H106 SI-N 110V 12A 100W 4MHzSI-N 40V 3A 10W 60MHzSI-N 300V 4A 100W 10MHzSI-N 180V 10A 100W 10MHzSI-N 35V 1.5A 10W 180MHzSI-N 200V 2.5A 100WSI-N 50V 0.5A 0.6W 50MHzSI-N 40V 0.2A 0.3W <20/40 SI-N 35V 0.15A 5W 1.7GHzSI-N 1500V 7A 50WSI-N 60V 0.5A 0.6W 200MHz SI-N 55V 0.1A 0.1W 230MHz SI-N 50V 0.05A 1W >300MHz SI-N 25V 1.5A 8W 180MHzSI-N 60V 1A 1W 200MHzSI-N 70V 2A 15WSI-N 50V 2A 20W 5MHzSI-N 110V 2A 23W 80MHzSI-N 150V 50mA 0.5W 130MHz SI-N 300V 0.1A 10W 55MHzSI-N 150V 1.5A 25W 3MHzSI-N 150V 0.4A 20WSI-N 20V 2A 0.75W 80MHzSI-N 300V 0.2A 15WSI-N 80V 0.5A 1W 120MHzSI-N 300V 0.2A 12,5WSI-N 100V 0.5A 5W 120MHzSI-N 40V 0.1A 0.2W 100MHz SI-N 500V 8A 80W 7MHzSI-N 100V 6A 50W 10MHzSI-N 120V 1A 15W 30MHzSI-N 30V .02A 600MC RF/IF SI-N 65V 3A 3WSI-N 50V 30mA 0.4W 550MHz SI-N 35V 3.5A 16W 500MHzSI-N 40V 100mA 0.3WSI-N 300V 0.2A >50MHzSI-N 120V 0.05A 0.2W UNISI-N 50V 0.15A 0.4W 80MHz SI-N 60V 0.15A 0.4W B>200SI-N 120V 0.05A 0.5WSI-N 120V 0.05A 0.5WSI-N 50V 1.5A 1.2WSI-N 450V 15A 150W <1/3us SI-N 90V 0.05A 0.3W 200MHz SI-N 19V 0.05A 0.3WSI-N 150V 1A 15W 120MHzSI-N 250V 0.05A 0.6WSI-N 30V 20mA 10mW 550MHz SI-N 160V 50mA 0.8WSI-N 80V 6A 20WSI-N 35V 1A 4W/175MHzSI-N 40V 1A 1.8W/27MHzSI-N 35V 2A 8W 470MHzSI-N 60V 6A 20WSI-N 35V 2A 12.5WSI-N 120V 2A 3.8W 50MHzSI-N 100V 3A 30W B=700SI-N 300V 2A 40W 10MHzSI-N 1500/800V 5A 50WSI-N 40V 0.3A 0.6W 500MHz SI-N 40V 0.05A 0.25WSI-N 80V 1A 0.75W 120MHzSI-N 150V 1.5A 25W 4MHzSI-N 75V 1A 0.45W/27MHzSI-N 40V 3.5A PQ>15W 175MHz SI-N 30V 0.8A 0.6W 120MHz SI-N 75V 4A 12.5W RFPOWER SI-N 500V 7A 40W 1USSI-N 45V 50mA 0.3W 300MHz SI-N 200V 50mA 0.8W 120MHz SI-N 200V 4A 40W 8MHzSI-N 30V 1.5A 0.9W 120MHz SI-N 160V 1.5A 25W 100MHz SI-N 180V 8A 80W 15MHzSI-N 50V 5A 10W 100MHzSI-N 120V 1.5A 25W 200MHz SI-N 38V 1.5A 7.1W 175MHz SI-N 500V 12A 100W 18MHzSI-N 55V 0.1A 0.2W 230MHz SI-N 45V 1A 5WSI-N 38V 0.75A 2W 175MHzSI-N 500/400V 2A 40WSI-N 500V 7A 40W POWERSI-N 180V 1.5A 25W 120MHz SI-N 120V 50mA 0.4W 130MHzSI-N 160V 1A 0.9W 100MHzSI-N 35V 0.15A 0.16W 500MHz SI-N 120V 30A 150W 80MHzSI-N 50V 0.15A 0.2W 80MHz SI-N 300V 0.1A 0.9W 50MHz SI-N 120V 7A 80W 15MHzSI-N 70V 1.5A 5W 150MHzSI-N 40V 6A 50W 175MHzSI-N 30V 50mA 900MHz TUNE SI-N 150V 5A 30W <0.5/2us SI-N 35V 4A 17W 175MHzSI-N 120V 0.1A 0.4WSI-N 500V 2A 20WSI-N 60V 5A 25W 0.1usSI-N 25V 70mA 0.6WSI-N 200V 10A 100WSI-N 180V 1A 20W 250MHzSI-N 300V 0.1A 0.8W 80MHz SI-N 300V 0.2A 10W >50MHz SI-N 35V 14A 100WSI-N 150V 50mA 1W 160MHzSI-N 350V 0.2A 15W >50MHz SI-N 50V 2A 0.9W 0.1usSI-N 200V 2A 30W 30MHzSI-N 15V 80mA 0.6W 5.5GHz SI-N 120V 1.2A 20W 160MHz SI-N 150V 50mA 0.8W 200MHz SI-N 50V 0.15A 0.15W 80MHz SI-N 30V 50mA 0.3W 300MHz SI-N 500V 10A 100W 50MHzSI-N 500V 15A 120W 50MHzSI-N 17V 0.07A 0.3W 5GHzSI-N 20V 20mA 600MHzSI-N 900V 5A 100WSI-N 900V 5A 100WSI-N 100V 50mA 0.5W 140MHz SI-N 55V 0.15A 0.2W 100MHz SI-N 80V 6A 70W B>500SI-N 20V 30mA 0.15W 320MHz SI-N 50V 2A 0.5W 120MHzSI-N 45V 25A PEP=100W 28MHz SI-N 35V 20mA 0.15WSI-N 40V 0.2A 0.6W <12/18 SI-N 160V 70mA 0.9W 150MHz SI-N 200V 140mA 10W 150MHz SI-N 300V 0.1A 140MHzSI-N 500V 10A 100W 2.5us SI-N 800V 3A 40WSI-N 36V 0.5A 175MHzSI-N 20V 3A PQ=7W(175MHz) SI-N 35V 1A 10WSI-N 1700V 5A 50W POWERSI-N 500V 7A 52WSI-N 50V 0.2A 0.15W 200MHz 2xSI-N 130V 50mA 0.5W 160 SI-N 120V 0.2A Ueb=15V B> SI-N 60V 5A 20W 120MHzSI-N 800V 7A 80WSI-N 35V 18A 170W 520MHz SI-N 180V 0.7A 10W 120MHz SI-N 60V 6A 1.5W 27MHzSI-N 900V 3A 50W 15MHzSI-N 150V 10A 60WSI-N 500V 10A 100WSI-N 400V 7A 50W 40MHzSI-N 60V 4A 30W 15MHzSI-N 120V 8A 80W 30MHzSI-N 30V 20mA 0.1W 550MHz SI-N 120V 0.1A 0.3W 100MHz SI-N 35V 0.8A 0.6W 120MHz SI-N 150V 0.5A 0.8W 120MHz SI-N 800V 5A 70W >3MHzSI-N 40V 2A 0.9W 1usSI-N 50V 25A 110W 30MHzSI-N 100V 0.5A 0.9W 130MHz SI-N 30V 1.5A 0.9W 130MHz SI-N 250V 10A 40W 1/3.5us N-DARL 800V 3A 50W B>10SI-N 230V 15A 130WSI-N 300V 1A 5W 80MHzSI-N 10V 2A 0.75W 150MHz SI-N 200V 15A 150W 30MHz N-DARL+D 50V 1.2A 20W 180 SI-N 60V 5A 20W 0.1usSI-N 100V 5A 20W 0.2usSI-N 900V 10A 150W 1usSI-N 500V 5A 30W 1usSI-N 500V 15A 80WSI-N 50V 0.3A 0.2W 30MHz SI-N 60V 0.2A 0.3W 200MHz SI-N 180V 0.7A 0.7W 120MHz SI-N 60V 12A 40W 90MHzSI-N 20V 0.1A 0.6W 6.5GHzSI-N 20V 1.5A PQ=3WSI-N 60V 0.2A 0.5W 250MHz SI-N 50V 0.1A 250MHzSI-N 50V .1A 46K/23KOHMSI-N 900V 0.8A 20W 1usSI-N 200V 0.1A 5W 70MHzSI-N 50V 5A 10W 100MHzSI-N 120V 1A 10W 120MHzSI-N 150V 50mA 5W 200MHz SI-N 800V 7A 40W 18MHzSI-N 1100/800V 1.5A 40WSI-N 1100V 6A 100WSI-N 1200/650V 8A 120WSI-N 300V 0.1A 1W 150MHz SI-N 200V 0.1A 1.2WSI-N 70V 0.05A 0.9W 500MHz SI-N 1000/800V 5A 80WSI-N 180V 0.1A 10W 200MHz SI-N 500V 18A 130W 18MHz SI-N 500V 20A 125WSI-N 1100V 12A 150W 15MHz SI-N 500V 7A 30WSI-N 55V 0.4A 0.9W 150MHz SI-N 30V 0.5A 5W 2GHzSI-N 80V 0.5A 10W 800MHz SI-N 200V 0.1A 7W 400MHz SI-N 20V 0.08A 6.5GHzSI-N 25V 0.7A 250MHzSI-N 60V 0.15A 0.25W B=1K SI-N 900/500V 7A 80WSI-N 50V 0.1A 0.4W 46/23K SI-N+D 1700/800V 5A 50WSI-N 80V 2A 1W 0.2usSI-N 900V 3A 80WSI-N 900/800V 7A 120W 6MHz SI-N 1500V 10A 150W 0.2us SI-N 35V 0.1A 0.2W B>200 SI-N 80V 10A 30W 100/600ns SI-N 120V 0.4A 15W 500MHz SI-N 800V 5A 100WSI-N 200V 0.1A 5W 150MHz SI-N 300V 0.1A 7W 150MHz SI-N 900V 5A 40WN-DARL 80V 2A 170MHz B>80 SI-N 40V 0.1A 0.4W 450MHz SI-N 500/400V 12A 100WSI-N 80V 3A 25W 15MHzSI-N 200V 15A 150W 20MHz SI-N 900V 3A 40WSI-N+D 1500V 6A 50WSI-N 1500V 8A 50W 0.1usSI-N 500V 7A 30W 500NSSI-N+D 1500V 8A 50WSI-N 1500V 8A 70WSI-N 180V 1.5A 10W 120MHz SI-N 900V 10A 120WSI-N 30V 1A 1W 200MHzSI-N 150V 1A 40W 300MHzSI-N 30V 0.5A 5WSI-N 120V 0.2A 8W 400MHz SI-N 200V 0.1A 7W 300MHz SI-N 40V 2A 1.5W 1usSI-N 900V 7A 45WN-DARL+D 50V 3A 15WSI-N 1500V 25A 250W POWER SI-N 900/800V 1A 30W <1/4 SI-N 100V 10A 35W B>300SI-N 20V 50mA 0.15W 3.2GHz SI-N 600V 3A 40W 20MHzSI-N 600/450V 15A 130WSI-N 500/400V 10A 60WSI-N+D 1500V 7A 60WSI-N 100V 15A 60W 18MHzSI-N 25V 0.1A 300MHzSI-N 200V 7A 30W 0.5usSI-N 180V 1.5A 15W 100MHz N-DARL+D 50V 1.2A 1W B=4K SI-N 20V 0.6A 5W 2.5GHzSI-N 1200/800V 2A 30WSI-N 1200/800V 6A 100WSI-N 450/400V 7A 40WSI-N 150V 10A 100W 30MHz SI-N 1500V 16A 200WSI-N 500V 12A 75W 10MHzSI-N 900V 5A 75W 1/6usSI-N 30V 0.3A 0.6W 2.5GHz SI-N 150V 2A 25W 15MHzSI-N 160/120V 8A 75W 20MHz SI-N 200V 15A 85W 20MHzSI-N 1100/800V 8A 60WSI-N 120V 1.5A 20W 150MHz SI-N 160/120V 8A 80W 20MHzSI-N 120V 6A 30W 20MHzSI-N 900V 3A 30W 6MHzSI-N+D 1500V 10A 50WSI-N 900V 5A 80WSI-N 1500V 10A 50WSI-N 900V 10A 80W <1/5.5us SI-N 30V 0.1A 230MC UNISI-N 30V 0.1A 0.2W 230MHz SI-N 1500V 6A POWERSI-N 1500V 10A 50W 0.3us SI-N+D 1500V 7A 60WSI-N 230V 1A 2W 100MHzSI-N 450V 6A 30W 12MHzSI-N 500V 8A 45W <0.3/1.4 SI-N 1500V 15A 75WSI-N 800V 10A 70WSI-N 1500V 7A 80WSI-N 1100V 3A 50W 0.3usSI-N 1600V 15A 75WSI-N 1500V 12A 50W 0.3us SI-N 20V 80MA 7GHZSI-N 1700V 20A 200WSI-N+D 1500V 8A 50W 0.2us SI-N 180V 2A 20W 200MHzSI-N 1500V 10A 50W 0.4us SI-N 1600V 30A 200WSI-N 1500V 8A 60WSI-N 20V 20mA 0.1W 0.700M SI-N 50V 0.2A 0.25W UNISI-N 30V 50mA 0.25WSI-N 30V 0.03A 200MHzSI-N 30V 0.5A 150MHzSI-N 40V 0.4A PQ=1.5WSI-N 35V 0.4A 0.3W UNISI-N 40V 4A 10W 65MHzSI-N 60V 0.2A 0.25W 200MHz SI-N 30V 30mA 0.4W 230MHz SI-N 400V 1A 23W 8MHzSI-N 150V 7A 80W 15MHzSI-N 15V 0.03A 300MC RFSI-N 35V 20mA 0.2W 120MHz SI-N 50V 0.1A 250MC UNI。

沪深300指数是什么意思沪深300指数是中国证券市场的一项重要指数，也是中国境内衡量A股市场整体走势的关键指标之一。

该指数的编制由上海证券交易所和深圳证券交易所联合编制，于2005年4月开始计算，目的是为了更好地反映中国A股市场的整体表现，并作为投资者参考的重要依据。

沪深300指数是基于沪深两市的300只股票组成的股票指数，其中包含了主板和中小板的股票。

指数成分股的选择是根据公司的市值、流动性和其他因素进行的复杂筛选，以保证代表性和市场涵盖性。

指数以2014年底的1000点作为基准点，根据股票的价格和数量的变化进行计算。

沪深300指数的涨跌代表了A股市场的整体走势。

当沪深300指数上涨时，意味着市场整体表现良好，股市行情较为乐观；而当指数下跌时，可能预示着市场出现调整或下行趋势。

因此，沪深300指数是投资者判断市场走势和决策的重要参考指标之一。

沪深300指数的发布和公布是经过严格的规定和程序的。

相关证券交易所每天进行开盘和收盘后，都会对沪深300指数进行计算和公布。

市场参与者可以通过各大证券交易所的官方网站、媒体、证券公司的研究报告等渠道获取沪深300指数的最新信息。

沪深300指数的重要性不仅在于它是中国A股市场的重要指标，更在于它对投资者的参考和指导作用。

指数的走势不仅反映了市场整体的表现，更提供了参与者对个股的分析和判断的重要线索。

投资者可以通过跟踪沪深300指数，了解市场的整体趋势，从而作出相应的投资策略。

在判断市场将出现上涨或下跌趋势时，可以根据指数的变化来调整投资组合，减少风险或寻找投资机会。

此外，在沪深300指数的基础上，还发展出了一系列衍生产品，如指数基金、指数期货等，为投资者提供了更多的投资选择。

指数基金是根据沪深300指数的成分股进行投资和收益的基金产品，可以在市场上买卖。

指数期货则是投资者通过买卖合约来获利或避险的工具，其价格与沪深300指数的变化密切相关。

总之，沪深300指数作为中国证券市场的重要指标之一，对于投资者来说具有重要意义。

文件编号DocumentNumber Date R/E/S Date Language 1ACI 1041971.01.01(R 1997) English2ACI 1172010.06.01(R 2015) English3ACI 117.1R2014.08.01English4ACI 117M ERTA2011.09.23English5ACI 117M2010.07.01(R 2015) English6ACI 121R2008.07.01English7ACI 122R2014.12.01English8ACI 131.1R2015.01.01English9ACI 132R2014.12.01English10ACI 201.1R2008.07.01English11ACI 201.2R2008.06.01English12ACI 207.1R2005.01.01(R 2012) English13ACI 207.2R2007.09.01English14ACI 207.3R1994.01.01(R 2008) English15ACI 207.4R2005.01.01(R 2012) English16ACI 207.5R2011.07.01English17ACI 209.1R2005.01.01English18ACI 209.2R ERTA2008.05.01English19ACI 209.2R ERTA2008.05.28English20ACI 209.2R2008.05.01English21ACI 209R1992.01.01(R 2008) English22ACI 210R1993.01.01(R 2008) English23ACI 211.11991.01.01(R 2009) English24ACI 211.21998.01.01(R 2004) English25ACI 211.3R2002.01.01(R 2009) English26ACI 211.4R2008.12.01English27ACI 211.5R2014.04.01English28ACI 211.6T2014.12.01English29ACI 211.7R2015.05.01English30ACI 211.8R2015.06.01English31ACI 212.3R2010.11.01English32ACI 213R2014.06.01English33ACI 214.4R2010.06.01English 34ACI 214R2011.04.01English 35ACI 215R1992.01.01(R 1997) English36ACI 216.12014.11.01English37ACI 216.1M2007.01.01English 38ACI 221.1R1998.01.01(R 2008) English 39ACI 221R1996.01.01(R 2001) English 40ACI 222.2R2014.10.01English 41ACI 222.3R2011.04.01English 42ACI 222R2001.01.01(R 2010) English 43ACI 223R2010.12.01English 44ACI 224.1R2007.03.01English 45ACI 224.2R1992.01.01(R 2004) English 46ACI 224.3R ERTA2008.01.31English 47ACI 224.3R1995.01.01(R 2013) English 48ACI 224.4R2013.12.01English 49ACI 224R ERTA2008.03.24English 50ACI 224R2001.01.01English 51ACI 225R1999.01.01(R 2009) English 52ACI 228.1R2003.11.01English 53ACI 228.2R2013.06.01English 54ACI 229R2013.06.01English 55ACI 230.1R2009.07.01English 56ACI 231R2010.01.01English57ACI 232.1R2012.07.01English 58ACI 232.2R2003.01.01English 59ACI 232.3R2014.10.01English 60ACI 233R2003.01.01(R 2011) English 61ACI 234R2006.01.01English 62ACI 237R2007.04.01English 63ACI 238.1R2008.02.01English 64ACI 238.2T2014.06.01English 65ACI 3012010.01.01English 66ACI 301 SPANISH2010.01.01Spanish 67ACI 301M2010.01.01English 68ACI 302.1R2015.06.01English 69ACI 302.2R2006.01.01English 70ACI 303.11997.01.01English71ACI 303R2012.06.01English 72ACI 304.2R1996.01.01(R 2008) English 73ACI 304.3R1996.01.01(R 2004) English 74ACI 304.4R1995.01.01(R 2008) English 75ACI 304.6R2009.03.01English76ACI 304R2000.01.01(R 2009) English 77ACI 305.12014.08.01English 78ACI 305R2010.10.01English 79ACI 306.11990.01.01(R 2002) English 80ACI 306R2010.10.01English81ACI 307 ERTA2013.01.21English 82ACI 307 ERTA2010.06.04English 83ACI 3072008.11.01English 84ACI 308.12011.07.01English 85ACI 308.1M2011.07.01English 86ACI 308-213R2013.06.01English 87ACI 308R2001.01.01(R 2008) English 88ACI 309.1R2008.08.01English 89ACI 309.2R2015.02.01English 90ACI 309.5R2000.01.01(R 2006) English 91ACI 309R2005.01.01English 92ACI 310R2013.12.01English 93ACI 311.4R2005.01.01English 94ACI 311.52004.01.01English 95ACI 311.62009.11.01English 96ACI 311.6M2009.12.01English 97ACI 311.72014.06.01English98ACI 3131997.01.07English 99ACI 314R2011.01.01English 100ACI 3182014.09.01English 101ACI 318 CD2011.01.01English 102ACI 318M2014.01.01English103ACI 318SUS2014.01.01Spanish 104ACI 325.9R2015.08.01English 105ACI 325.11R2001.01.01English 106ACI 325.12R2002.01.01(R 2013) English107ACI 325.13R2006.01.01English 108ACI 327R2014.01.01English 109ACI 329R2014.12.01English 110ACI 330.12014.11.01English111ACI 330.1M2014.01.01English112ACI 330R2008.06.01English113ACI 3322014.02.01English 114ACI 332.1R ERTA2006.12.19English 115ACI 332.1R2006.12.01English 116ACI 332M2010.08.01English 117ACI 334.1R1992.01.01(R 2002) English 118ACI 334.3R2005.01.01English 119ACI 336.12001.01.01English 120ACI 336.2R1988.01.01(R 2002) English 121ACI 336.3R2014.08.01English 122ACI 341.2R2014.06.01English123ACI 341.3R2007.03.01English124ACI 343.1R2012.11.01English125ACI 343R1995.01.01(R 2004) English 126ACI 345.1R2006.01.01English 127ACI 345.2R2013.07.01English 128ACI 345R2011.09.01English 129ACI 3462009.08.01English 130ACI 346M2009.08.01English131ACI 347.2R2005.01.01English 132ACI 347.3R2013.01.01English 133ACI 347R2014.07.01English134ACI 3492013.01.01English 135ACI 349.1R2007.06.01English 136ACI 349.2R ERTA2007.11.12English 137ACI 349.2R2007.11.01(R 2014) English 138ACI 349.3R2002.01.01(R 2010) English 139ACI 349M2013.02.27English 140ACI 3502006.01.01English141ACI 350.12010.01.01English 142ACI 350.1M2010.01.01English 143ACI 350.2R ERTA2009.07.23English 144ACI 350.2R2004.01.01English 145ACI 350.3 ERTA2008.11.10English 146ACI 350.32006.01.01English 147ACI 350.4R2004.01.01English 148ACI 350.52012.01.01English 149ACI 350.5M2012.01.01English 150ACI 350M2006.01.01English 151ACI 351.1R2012.03.01English 152ACI 351.2R2010.04.01English 153ACI 351.3R2004.01.01(R 2011) English 154ACI 351.42014.01.01English 155ACI 351.52015.05.01English 156ACI 351.5M2015.09.01English 157ACI 352.1R2011.01.01English 158ACI 352R2002.01.01(R 2010) English 159ACI 352RS2002.01.01Spanish 160ACI 355.22007.06.01English 161ACI 355.3R2011.05.01English 162ACI 355.42011.08.01English 163ACI 355.4M2011.09.01English 164ACI 357.2R2010.07.01English 165ACI 357.3R2014.10.01English 166ACI 357R1984.01.01(R 1997) English 167ACI 360R2010.04.01English 168ACI 362.1R2012.09.01English 169ACI 362.2R2000.06.01(R 2013) English 170ACI 363.2R2011.07.01English171ACI 363R2010.03.01English 172ACI 364.1R2007.05.01English 173ACI 364.3R2009.04.01English 174ACI 364.2T2008.01.01English 175ACI 364.3T2015.01.01English 176ACI 364.4T2010.01.01English 177ACI 364.5T2010.01.01English 178ACI 364.6T2002.07.01(R 2011) English 179ACI 364.7T2002.04.01(R 2011) English 180ACI 364.8T2002.05.01(R 2011) English 181ACI 364.9T2003.07.01(R 2011) English 182ACI 364.10T2014.07.01English 183ACI 364.11T2015.08.01English 184ACI 364.12T2015.10.01English 185ACI 364.13T2015.10.01English 186ACI 365.1R2000.01.01English 187ACI 369R2011.02.01English 188ACI 370R2014.07.01English 189ACI 371R2008.08.01English 190ACI 372R2013.12.01English 191ACI 374.12005.01.01(R 2014) English 192ACI 374.2R2013.08.01English 193ACI 3762011.01.01English194ACI 376M2011.01.01English 195ACI 408.2R2012.09.01English 196ACI 408.3R2009.10.01English 197ACI 408R2003.11.01English 198ACI 421.1R2008.06.01English199ACI 421.2R2010.04.01English 200ACI 421.3R2015.10.01English 201ACI 423.3R2005.01.01English 202ACI 423.4R2014.11.01English 203ACI 423.72014.11.01English 204ACI 423.8R2010.10.01English205ACI 423.9M2010.06.01English206ACI 435.8R1985.01.01(R 1997) English207ACI 435R1995.01.01(R 2000) English208ACI 4372012.08.01English209ACI 437.1R2007.03.01English210ACI 437.22013.01.01English211ACI 437.2M2013.01.01English 212ACI 437R2003.01.01English 213ACI 439.3R2007.03.01English 214ACI 439.4R2009.10.01English215ACI 440.1R2015.03.01English 216ACI 440.2R2008.07.01English 217ACI 440.3R2012.08.01English218ACI 440.4R2004.12.01(R 2011) English 219ACI 440.52008.07.01English 220ACI 440.5M2008.07.01English 221ACI 440.62008.07.01English 222ACI 440.6M2008.07.01English 223ACI 440.7R2010.04.01English 224ACI 440.82013.01.01English 225ACI 440.8M2013.01.01English226ACI 440.9R2015.05.01English227ACI 440R2007.09.01English 228ACI 441R1996.01.01English 229ACI 445.1R2012.01.01English 230ACI 445R1999.01.01(R 2009) English 231ACI 446.1R1991.01.01(R 1999) English232ACI 446.3R1997.01.01English 233ACI 446.4R2004.01.01English 234ACI 503.2-503.4English 235ACI 503.32010.10.01English 236ACI 503.3M2010.10.01English 237ACI 503.5R1992.01.01(R 1997) (R 2003) English 238ACI 503.72007.09.01English 239ACI 506.1R2008.11.01English 240ACI 506.22013.01.01English 241ACI 506.2M2013.01.01English 242ACI 506.4R1994.01.01(R 2004) English 243ACI 506.5R2009.08.01English 244ACI 506R2005.01.01English 245ACI 515.2R2013.07.01English 246ACI 522.12013.06.01English 247ACI 522.1M2013.10.01English 248ACI 522R2010.03.01English 249ACI 523.1R2006.01.01English 250ACI 523.2R1996.01.01English 251ACI 523.3R2014.04.01English 252ACI 523.4R2009.06.01English 253ACI 524R2008.08.01English 254ACI 530/530.12013.09.13English255ACI 533.1R2002.09.01English 256ACI 533R2011.01.01English 257ACI 543R2012.03.01English 258ACI 544.1R1996.01.01(R 2009) English 259ACI 544.2R1989.01.01(R 2009) English 260ACI 544.3R2008.11.01English 261ACI 544.4R1988.01.01(R 2009) English 262ACI 544.5R2010.03.01English 263ACI 544.6R2015.09.01English264ACI 546.2R2010.06.01English265ACI 546.3R2014.06.01English266ACI 546R2014.09.01English 267ACI 548.1R2009.03.01English 268ACI 548.3R2009.04.01English 269ACI 548.42011.01.01English 270ACI 548.4M2011.01.01English 271ACI 548.5R1994.01.01(R 1998) English272ACI 548.6R1996.01.01English 273ACI 548.82007.10.01English 274ACI 548.8M2007.10.01English 275ACI 548.92008.08.01English 276ACI 548.9M2008.08.01English 277ACI 548.102010.08.01English 278ACI 548.10M2010.09.01English 279ACI 548.11R2012.09.01English 280ACI 548.122012.01.01English 281ACI 548.132014.10.01English 282ACI 548.142014.01.01English 283ACI 548.14M2014.01.01English 284ACI 549.1R1993.01.01(R 2009) English 285ACI 549.2R2004.05.01(R 2013) English 286ACI 549.3R2009.12.01English 287ACI 549.4R2013.12.01English 288ACI 549R1997.01.24(R 2009) English 289ACI 550.1R2009.02.01English 290ACI 550.2R2013.04.01English 291ACI 550.32013.11.01English292ACI 550.3M2013.01.01English 293ACI 551.1R2014.11.01English 294ACI 551.2R2015.08.01English 295ACI 555R2001.01.01English296ACI 5622013.03.01English297ACI 562M2013.05.01English 298ACI ASCC-12005.01.01English 299ACI ASCC-1 SPANISH2005.01.01Spanish 300ACI C-071986.01.01English 301ACI C-081987.01.01English 302ACI CCS-01993.11.01English 303ACI CCS-12010.01.01English 304ACI CCS-31989.01.01English 305ACI CCS-42008.01.01English 306ACI CFPR1998.01.01English 307ACI CP-602009.01.01English308ACI CR MANUAL2013.01.01English 309ACI CT01 CD1998.01.01English 310ACI DCCM2011.01.01English 311ACI E12007.01.01English 312ACI E22000.01.01English 313ACI E42012.01.01English 314ACI EB0711991.01.01English 315ACI IJBRC2006.01.01English 316ACI IPS-12002.01.01English317ACI ITG-32004.01.01English 318ACI ITG-4.12007.03.01English 319ACI ITG-4.2R2006.10.01English 320ACI ITG-4.3R2007.09.01English321ACI ITG-5.12007.01.01English 322ACI ITG-5.1M2007.01.01English 323ACI ITG-5.22009.08.01English324ACI ITG-6R2010.08.01English 325ACI ITG-72009.11.01English 326ACI ITG-7M2009.11.01English 327ACI ITG-8R2010.12.01English 328ACI LICC2004.01.01English329ACI MCP-12014.01.01English330ACI MCP-22014.01.01English331ACI MCP-32014.01.01English332ACI MCP-42014.01.01English333ACI MCP-52014.01.01English334ACI MCP-62014.01.01English335ACI MCP-72014.01.01English 336ACI MCP COMBO2014.01.01English 337ACI MCP SET2015.01.01English 338ACI MCP SET CD2014.01.01English 339ACI MDG2013.01.01English 340ACI MSP2009.01.01English 341ACI NGBSPACK2008.01.01English 342ACI PCP2004.01.01English 343ACI PRCD.EM2014.01.01English 344ACI PTM2006.01.01English 345ACI RPMN13PACK2013.01.01English346ACI SCG12010.01.01EnglishTitle StatusPreparation of Notation for Concrete Active Specification for Tolerances for Concrete Construction andActive Materials (ACI 117-10) and Commentary (ACI 117R-10)Guide for Tolerance Compatibility in Concrete Construction ActiveSpecification for Tolerances for Concrete Construction andActive Materials (ACI 117M-10) and CommentarySpecification for Tolerances for Concrete Construction andActive Materials (ACI 117M-10) and Commentary (ACI 117RM-10)Guide for Concrete Construction Quality Systems inActive Conformance with ISO 9001Guide to Thermal Properties of Concrete and MasonryActive SystemsInformation Delivery Manual (IDM) for Cast-in-PlaceActive ConcreteGuide for Responsibility in Concrete Construction ActiveGuide for Conducting a Visual Inspection of Concrete inActive ServiceGuide to Durable Concrete Active Guide to Mass Concrete ActiveReport on Thermal and Volume Change Effects on Cracking ofActive Mass ConcretePractices for Evaluation of Concrete in Existing MassiveActive Structures for Service ConditionsCooling and Insulating Systems for Mass Concrete Active Report on Roller-Compacted Mass Concrete ActiveReport on Factors Affecting Shrinkage and Creep ofActive Hardened ConcreteGuide for Modeling and Calculating Shrinkage and Creep inActive Hardened ConcreteGuide for Modeling and Calculating Shrinkage and Creep inActive Hardened ConcreteGuide for Modeling and Calculating Shrinkage and Creep inActive Hardened ConcretePrediction of Creep, Shrinkage, and Temperature Effects inActive Concrete StructuresErosion of Concrete in Hydraulic Structures ActiveStandard Practice for Selecting Proportions for Normal,Active Heavyweight, and Mass ConcreteStandard Practice for Selecting Proportions for StructuralActive Lightweight ConcreteGuide for Selecting Proportions for No-Slump Concrete ActiveGuide for Selecting Proportions for High-Strength ConcreteActive Using Portland Cement and Other Cementitious MaterialsGuide for Submittal of Concrete Proportions Active Aggregate Suspension Mixture Proportioning Method ActiveGuide for Proportioning Concrete Mixtures with GroundActive Limestone and Other Mineral FillersGuide to Troubleshooting Concrete Mixture Issues asActive Influenced by Constitutive Materials, Jobsite Conditions,or Testing PracticesReport on Chemical Admixtures for Concrete Active Guide for Structural Lightweight-Aggregate Concrete ActiveGuide for Obtaining Cores and Interpreting CompressiveActive Strength ResultsGuide to Evaluation of Strength Test Results of Concrete ActiveConsiderations for Design of Concrete Structures SubjectedActive to Fatigue LoadingCode Requirements for Determining Fire Resistance ofActive Concrete and Masonry Construction AssembliesCode Requirements for Determining Fire Resistance ofActive Concrete and Masonry Construction AssembliesReport on Alkali-Aggregate Reactivity ActiveGuide for Use of Normal Weight and Heavyweight AggregatesActive in ConcreteReport on Corrosion of Prestressing Steels ActiveGuide to Design and Construction Practices to MitigateActive Corrosion of Reinforcement in Concrete StructuresProtection of Metals in Concrete Against Corrosion Active Guide for the Use of Shrinkage-Compensating Concrete ActiveCauses, Evaluation, and Repair of Cracks in ConcreteActive StructuresCracking of Concrete Members in Direct Tension Active Joints in Concrete Construction Active Joints in Concrete Construction Active Guide to Design Detailing to Mitigate Cracking Active Control of Cracking in Concrete Structures Active Control of Cracking in Concrete Structures Active Guide to the Selection and Use of Hydraulic Cements Active In-Place Methods to Estimate Concrete Strength ActiveReport on Nondestructive Test Methods for Evaluation ofActive Concrete in StructuresReport on Controlled Low-Strength Materials Active Report on Soil Cement ActiveReport on Early-Age Cracking: Causes, Measurement, andActive MitigationReport on the Use of Raw or Processed Natural Pozzolans inActive ConcreteUse of Fly Ash in Concrete ActiveReport on High-Volume Fly Ash Concrete for StructuralActive ApplicationsSlag Cement in Concrete and Mortar Active Guide for the Use of Silica Fume in Concrete Active Self-Consolidating Concrete ActiveReport on Measurements of Workability and Rheology ofActive Fresh ConcreteConcrete Thixotropy ActiveSpecifications for Structural Concrete - IncorporatingActive Errata: 23, February 2015Especificaciones para Concreto Estructural ActiveSpecifications for Structural Concrete - IncorporatingActive Errata: 23, February 2015Guide to Concrete Floor and Slab Construction ActiveGuide for Concrete Slabs that Receive Moisture-SensitiveActive Flooring MaterialsStandard Specification for Cast-In-Place ArchitecturalActive ConcreteGuide to Cast-in-Place Architectural Concrete Practice ActivePlacing Concrete by Pumping Methods Active Heavyweight Concrete: Measuring, Mixing, Transporting, andActive PlacingPlacing Concrete with Belt Conveyors ActiveGuide for Use of Volumetric-Measuring and Continuous-Active Mixing Concrete EquipmentGuide for Measuring, Mixing, Transporting, and PlacingActive ConcreteSpecification for Hot Weather Concreting Active Guide to Hot Weather Concreting Active Standard Specification for Cold Weather Concreting Active Guide to Cold Weather Concreting ActiveCode Requirements for Reinforced Concrete Chimneys (ACIActive 307-08) and CommentaryCode Requirements for Reinforced Concrete Chimneys andActive CommentaryCode Requirements for Reinforced Concrete Chimneys (ACIActive 307-08) and CommentarySpecification for Curing Concrete Active Specification for Curing Concrete ActiveReport on Internally Cured Concrete Using PrewettedActive Absorptive Lightweight AggregateGuide to Curing Concrete Active Report on Behavior of Fresh Concrete During Vibration ActiveGuide to Identification and Control of Visible SurfaceActive Effects of Consolidation on Formed Concrete SurfacesCompaction of Roller-Compacted Concrete Active Guide for Consolidation of Concrete Active Guide to Decorative Concrete Active Guide for Concrete Inspection ActiveGuide for Concrete Plant Inspection and Testing of Ready-Active Mixed ConcreteSpecification for Ready Mixed Concrete Testing Services Active Specification for Ready Mixed Concrete Testing Services ActiveInspection Services Specification for Cast-in-PlaceActive Concrete ConstructionStandard Practice for Design and Construction of ConcreteActive Silos and Stacking Tubes for Storing Granular MaterialsGuide to Simplified Design for Reinforced ConcreteActive BuildingsBuilding Code Requirements for Structural Concrete andActive Commentary - Incorporated Errata: October 9, 2015Building Code Requirements for Structural Concrete andActive Commentary - CD ROM: To Purchase Call 1-800-854-7179USA/Canada or 303-397-7956 WorldwideBuilding Code Requirements for Structural Concrete (ACIActive 318M-14) and Commentary (ACI 318RM-14)Building Code Requirements for Structural Concrete andActive Commentary-Spanish Inch-PoundGuide for Construction of Concrete Pavements Active Accelerated Techniques for Concrete Paving ActiveGuide for Design of Jointed Concrete Pavements for StreetsActive and Local RoadsConcrete Overlays for Pavement Rehabilitation ActiveGuide to Roller- Compacted Concrete Pavements Active Report on Performance-Based Requirements for Concrete Active Specification for Unreinforced Concrete Parking Lots andActive Site PavingSpecification for Unreinforced Concrete Parking Lots andActive Site PavingGuide for the Design and Construction of Concrete ParkingActive LotsResidential Code Requirements for Structural Concrete (ACIActive 332-10) and CommentaryGuide to Residential Concrete Construction Active Guide to Residential Concrete Construction ActiveResidential Code Requirements for Structural Concrete (ACIActive 332M-10) and CommentaryConcrete Shell Structures Practice and Commentary Active Construction of Concrete Shells Using Inflated Forms Active Specification for the Construction of Drilled Piers ActiveSuggested Analysis and Design Procedures for CombinedActive Footings and MatsReport on Design and Construction of Drilled Piers ActiveReport on Analysis and Design of Seismic-ResistantActive Concrete Bridge SystemsSeismic Evaluation and Retrofit Techniques for ConcreteActive BridgesGuide for the Analysis and Design of Reinforced andActive Prestressed Concrete Guideway StructuresAnalysis and Design of Reinforced Concrete BridgeActive StructuresGuide for Maintenance of Concrete Bridge Members Active Guide for Widening Highway Bridges Active Guide for Concrete Highway Bridge Deck Construction Active Specification for Cast-in-Place Concrete Pipe Active Specification for Cast-in-Place Concrete Pipe ActiveGuide for Shoring/Reshoring of Concrete MultisoryActive BuildingsGuide to Formed Concrete Surfaces Active Guide to Formwork for Concrete Active Code Requirements for Nuclear Safety-Related ConcreteActive Structures (ACI 349-13) and Commentary - IncorporatingErrata: 23, February 2015Reinforced Concrete Design for Thermal Effects on NuclearActive Power Plant StructuresConcrete Capacity Design (CCD) Method-Embedment DesignActive ExamplesGuide to the Concrete Capacity Design (CCD) Method -Active Embedment Design ExamplesEvaluation of Existing Nuclear Safety-Related ConcreteActive StructuresCode Requirements for Nuclear Safety-Related ConcreteActive Structures (ACI 349M-06) and Commentary - IncorporatesErrata: 2/24/2015Code Requirements for Environmental Engineering ConcreteActive Structures and Commentary - Incorporates Errata: 10/09/15Specification for Tightness Testing of EnvironmentalActive Engineering Concrete Containment Structures (ACI 350.1-10)and CommentarySpecification for Tightness Testing of EnvironmentalEngineering Concrete Containment Structures (ACI 350.1M-Active 10) and CommentaryConcrete Structures for Containment of Hazardous Materials Active Concrete Structures for Containment of Hazardous Materials ActiveSeismic Design of Liquid-Containing Concrete StructuresActive and CommentarySeismic Design of Liquid-Containing Concrete StructuresActive and CommentaryDesign Considerations for Environmental EngineeringActive Concrete StructuresSpecifications for Environmental Concrete Structures Active Specifications for Environmental Concrete Structures Active CODE REQUIREMENTS FOR ENVIRONMENTAL ENGINEERING CONCRETE STRUCTURES (ACI 350M-06) AND COMMENTARY - IncorporatingActive Errata: 4/29/2015Report on Grouting between Foundations and Bases forActive Support of Equipment and MachineryReport on Foundations for Static Equipment Active Foundations for Dynamic Equipment ActiveSpecification for Installation of Cementitious GroutingActive between Foundations and Equipment BasesSpecification for Installation of Epoxy Grout betweenActive Foundations and Equipment BasesSpecification for Installation of Epoxy Grout betweenActive Foundations and Equipment BasesGuide for Design of Slab-Column Connections in MonolithicActive Concrete StructuresRecommendations for Design of Beam-Column Connections inActive Monolithic Reinforced Concrete StructuresRecomendaciones para el Dise?o de Conexiones Viga-ColumnaActive en Estructuras Monolíticas de Concreto ReforzadoQualification of Post-Installed Mechanical Anchors inActive Concrete and CommentaryGuide for Design of Anchorage to Concrete: Examples UsingActive ACI 318 Appendix DQualification of Post-Installed Adhesive Anchors inActive Concrete (ACI 355.4) and CommentaryQualification of Post-Installed Adhesive Anchors inActive Concrete (ACI 355.4M-11) and CommentaryReport on Barge-Like Concrete Structures ActiveGuide for Design and Construction of Waterfront andActive Coastal Concrete Marine StructuresGuide for the Design and Construction of Fixed OffshoreActive Concrete StructuresGuide to Design of Slabs-on-Ground ActiveGuide for the Design and Construction of Durable ConcreteActive Parking StructuresGuide for Structural Maintenance of Parking Structures ActiveGuide to Quality Control and Assurance of High-StrengthActive ConcreteReport on High-Strength Concrete ActiveGuide for Evaluation of Concrete Structures Prior toActive RehabilitationGuide for Cementitious Repair Material Data Sheet ActiveIncreasing Shear Capacity Within Existing ReinforcedActive Concrete StructuresTreatment of Exposed Epoxy-Coated Reinforcement in Repair ActiveDetermining the Load Capacity of a Structure When As-BuiltActive Drawings are UnavailableImportance of Modulus of Elasticity in Surface RepairActive MaterialsConcrete Removal in Repairs Involving Corroded ReinforcingActive SteelEvaluation and Minimization of Bruising (Microcracking) inActive Concrete RepairUse of Hydrodemolition for Concrete Removal in UnbondedActive Post-Tensioned SystemsCracks in a Repair ActiveRehabilitation of Structure with Reinforcement SectionActive LossManaging Alkali-Aggregate Reaction Expansion in MassActive ConcreteRepair of Leaking Cracks in Walls of Liquid ContainmentActive StructuresRepairs for Reinforcement with Shallow Cover Active Service-Life Prediction - State-of-the-Art Report ActiveGuide for Seismic Rehabilitation of Existing ConcreteActive Frame Buildings and CommentaryReport for the Design of Concrete Structures for BlastActive EffectsGuide for the Analysis, Design, and Construction ofElevated Concrete and Composite Steel-Concrete WaterActive Storage TanksGuide to Design and Construction of Circular Wire- andActive Strand-Wrapped Prestressed Concrete StructuresAcceptance Criteria for Moment Frames Based on StructuralActive Testing and CommentaryGuide for Testing Reinforced Concrete Structural ElementsActive under Slowly Applied Simulated Seismic LoadsCode Requirements for Design and Construction of ConcreteActive Structures for the Containment of Refrigerated LiquefiedGases and CommentaryCode Requirements for Design and Construction of ConcreteActive Structures for the Containment of Refrigerated LiquefiedGases and CommentaryReport on Bond of Steel Reinforcing Bars Under CyclicActive LoadsGuide for Lap Splice and Development Length of HighActive Relative Rib Area Reinforcing Bars in Tension andCommentaryBond and Development of Straight Reinforcing Bars inActive TensionGuide to Shear Reinforcement for Slabs - IncorporatingActive Errata : 02/23/2015Guide to Seismic Design of Punching Shear Reinforcement inActive Flat PlatesGuide to Design of Reinforced Two-Way Slab Systems ActiveRecommendations for Concrete Members Prestressed withActive Unbonded TendonsCorrosion and Repair of Unbonded Single Strand Tendons Active Specification for Unbonded Single-Strand Tendon Materials ActiveReport on Corrosion and Repair of Grouted Multistrand andActive Bar Tendon SystemsTest Method for Bleed Stability of Cementitious Post-Active Tensioning Tendon GroutObserved Deflections of Reinforced Concrete Slab Systems,Active and Causes of Large DeflectionsControl of Deflection in Concrete Structures -Active incorporates Appendix B: 2003Code Requirements For Load Testing Of Existing ConcreteActive Structures And CommentaryLoad Tests of Concrete Structures: Methods, Magnitude,Active Protocols, and Acceptance CriteriaCode Requirements for Load Testing of Existing ConcreteActive Structures (ACI 437.2-13) and CommentaryCode Requirements for Load Testing of Existing ConcreteActive Structures (ACI 437.2M-13) and CommentaryStrength Evaluation of Existing Concrete Buildings Active Types of Mechanical Splices for Reinforcing Bars ActiveReport on Steel Reinforcement-Material Properties and U.S.Active AvailabilityGuide for the Design and Construction of StructuralActive Concrete Reinforced with Fiber-Reinforced Polymer (FRP)BarsGuide for the Design and Construction of Externally BondedFRP Systems for Strengthening Concrete Structures -Active Incorporating Errata : 02/27/2015Guide Test Methods for Fiber-Reinforced Polymer (FRP) Composites for Reinforcing or Strengthening Concrete andActive Masonry StructuresPrestressing Concrete Structures with FRP Tendons ActiveSpecification for Construction with Fiber-ReinforcedActive Polymer Reinforcing BarsSpecification for Construction with Fiber-ReinforcedActive Polymer Reinforcing BarsSpecification for Carbon and Glass Fiber-ReinforcedActive Polymer Bar Materials for Concrete ReinforcementSpecification for Carbon and Glass Fiber-ReinforcedActive Polymer Bar Materials for Concrete ReinforcementGuide for the Design and Construction of Externally BondedActive Fiber-Reinforced Polymer Systems for StrengtheningUnreinforced Masonry StructuresSpecification for Carbon and Glass Fiber-ReinforcedActive Polymer (FRP) Materials Made by Wet Layup for External Strengthening of Concrete and Masonry StructuresSpecification for Carbon and Glass Fiber-ReinforcedPolymer (FRP) Materials Made by Wet Layup for ExternalActive Strengthening of Concrete and Masonry Structures。

GS864018/32/36T-300/250/200/1674M x 18, 2M x 32, 2M x 3672Mb Sync Burst SRAMs 300 MHz –167 MHz 2.5 V or 3.3 V V DD 2.5 V or 3.3 V I/O100-Pin TQFP Commercial Temp Industrial Temp Features• FT pin for user-configurable flow through or pipeline operation• Single Cycle Deselect (SCD) operation• 2.5 V or 3.3 V +10%/–10% core power supply • 2.5 V or 3.3 V I/O supply• LBO pin for Linear or Interleaved Burst mode• Internal input resistors on mode pins allow floating mode pins • Default to Interleaved Pipeline mode• Byte Write (BW) and/or Global Write (GW) operation • Internal self-timed write cycle• Automatic power-down for portable applications • JEDEC-standard 100-lead TQFP package • Pb-Free 100-lead TQFP package availableFunctional DescriptionApplicationsThe GS864018/32/36T is a 75,497,472-bit high performance synchronous SRAM with a 2-bit burst address counter. Although of a type originally developed for Level 2 Cache applications supporting high performance CPUs, the device now finds application in synchronous SRAM applications, ranging from DSP main store to networking chip set support. ControlsAddresses, data I/Os, chip enables (E1, E2, E3), address burst control inputs (ADSP, ADSC, ADV), and write control inputs (Bx, BW, GW) are synchronous and are controlled by a positive-edge-triggered clock input (CK). Output enable (G) and power down control (ZZ) are asynchronous inputs. Burstcycles can be initiated with either ADSP or ADSC inputs. In Burst mode, subsequent burst addresses are generated internally and are controlled by ADV. The burst address counter may be configured to count in either linear orinterleave order with the Linear Burst Order (LBO) input. The Burst function need not be used. New addresses can be loaded on every cycle with no degradation of chip performance.Flow Through/Pipeline ReadsThe function of the Data Output register can be controlled by the user via the FT mode pin (Pin 14). Holding the FT mode pin low places the RAM in Flow Through mode, causing output data to bypass the Data Output Register. Holding FT high places the RAM in Pipeline mode, activating the rising-edge-triggered Data Output Register.Byte Write and Global WriteByte write operation is performed by using Byte Write enable (BW) input combined with one or more individual byte write signals (Bx). In addition, Global Write (GW) is available for writing all bytes at one time, regardless of the Byte Write control inputs.Sleep ModeLow power (Sleep mode) is attained through the assertion (High) of the ZZ signal, or by stopping the clock (CK). Memory data is retained during Sleep mode.Core and Interface VoltagesThe GS864018/32/36T operates on a 2.5 V or 3.3 V power supply. All input are 3.3 V and 2.5 V compatible. Separate output power (V DDQ ) pins are used to decouple output noise from the internal circuits and are 3.3 V and 2.5 V compatible.Parameter Synopsis-300-250-200-167Unit Pipeline 3-1-1-1KQ tCycle 3.3 4.0 5.0 6.0ns (x18)Curr (x32/x36)480410350305mA Flow Through 2-1-1-1t KQ tCycle 5.55.5 6.56.57.57.58.08.0ns ns Curr (x18)Curr (x32/x36)285330245280220250210240mA mA807978777675747372717069686766656463626160595857565554535251123456789101112131415161718192021222324252627282930V DDQ V SS DQ B DQ B V SS V DDQ DQ B DQ B V DD NC V SS DQ B DQ B V DDQ V SS DQ B DQ B DQP BV SS V DDQ V DDQ V SS DQ A DQ A V SS V DDQ DQ A DQ A V SS NC V DD ZZ DQ A DQ A V DDQ V SS DQ A DQ A V SS V DDQ L B O A A A A A 1A 0A A V S SV D DA A A A A A A AA A E 1E 2 N C N C B BB AE 3C K G W B W VD DV S SG A D S C A D S P A D V A AA 4M x 18Top View DQP A A NC NC NC NC NC NC NC NCNC NC NC NC NC NC NCNC NC 100999897969594939291908988878685848382813132333435363738394041424344454647484950FT GS864018/32/36T-300/250/200/167GS864018 100-Pin TQFP Pinout (Package T)807978777675747372717069686766656463626160595857565554535251123456789101112131415161718192021222324252627282930V DDQ V SS DQ C DQ C V SS V DDQ DQ C DQ C V DD NC V SS DQ D DQ D V DDQ V SS DQ D DQ D DQ D V SS V DDQ V DDQ V SS DQ B DQ B V SS V DDQ DQ B DQ B V SS NC V DD ZZ DQ A DQ A V DDQ V SS DQ A DQ A V SS V DDQ L B O A A A A A 1A 0A A V S SV D DA A A A A A A AA A E 1E 2 B DB CB BB AE 3C K G W B W VD DV S SG A D S C A D S P A D V A AA 2M x 32Top View DQB NC DQ B DQ B DQ B DQ A DQ A DQ A DQ A NCDQ C DQ C DQ C DQ D DQ D DQ D NCDQ C NC 100999897969594939291908988878685848382813132333435363738394041424344454647484950FT GS864018/32/36T-300/250/200/167GS864032 100-Pin TQFP Pinout (Package T)807978777675747372717069686766656463626160595857565554535251123456789101112131415161718192021222324252627282930V DDQ V SS DQ C DQ C3V SS V DDQ DQ C DQ C V DD NC V SS DQ D DQ D V DDQ V SS DQ D DQ D DQ D V SS V DDQ V DDQ V SS DQ B DQ B V SS V DDQ DQ B DQ B V SS NC V DD ZZ DQ A DQ A V DDQ V SS DQ A DQ A V SS V DDQ L B O A A A A A 1A 0A A V S SV D DA A A A A A A AA A E 1E 2 B DB CB BB AE 3C K G W B W VD DV S SG A D S C A D S P A D V A AA 2M x 36Top View DQB DQP B DQ B DQ B DQ B DQ A DQ A DQ A DQ A DQP ADQ C DQ C DQ C DQ D DQ D DQ D DQP DDQ C DQP C 100999897969594939291908988878685848382813132333435363738394041424344454647484950FT GS864018/32/36T-300/250/200/167GS864036 100-Pin TQFP Pinout (Package T)TQFP Pin DescriptionSymbolTypeDescriptionA 0, A 1I Address field LSBs and Address Counter preset InputsA I Address Inputs DQ A DQB DQC DQD I/OData Input and Output pinsNC No ConnectBW I Byte Write —Writes all enabled bytes; active low B A , B B I Byte Write Enable for DQ A , DQ B Data I/Os; active low B C , B D I Byte Write Enable for DQ C , DQ D Data I/Os; active lowCK I Clock Input Signal; active highGW I Global Write Enable —Writes all bytes; active lowE 1, E 3I Chip Enable; active low E 2I Chip Enable; active high G I Output Enable; active lowADV I Burst address counter advance enable; active low ADSP, ADSCI Address Strobe (Processor, Cache Controller); active lowZZ I Sleep Mode control; active high FT I Flow Through or Pipeline mode; active low LBO I Linear Burst Order mode; active lowV DD I Core power supply V SS I I/O and Core Ground V DDQIOutput driver power supplyGS864018/32/36T-300/250/200/167GS864018/32/36T-300/250/200/167A1A0A0A1D0D1Q1Q0Counter LoadD QDQRegisterRegisterDQRegisterDQRegisterDQRegisterD QRegisterD QRegisterD QRegisterDQR e g i s t e rDQRegisterA0–AnLBO ADV CK ADSC ADSP GW BW E 1GZZPower Down ControlMemory Array36364AQDE 2E 3DQx1–DQx9Note: Only x36 version shown for simplicity.B AB BB CB DFT GS864018/32/36 Block DiagramMode Pin FunctionsMode NamePin NameStateFunctionBurst Order Control LBO L Linear Burst H Interleaved Burst Output Register Control FT L Flow Through H or NC Pipeline Power Down Control ZZ L or NC Active H Standby, I DD = I SB Single/Dual Cycle Deselect Control SCD L Dual Cycle Deselect H or NC Single Cycle Deselect FLXDrive Output Impedance ControlZQ L High Drive (Low Impedance)H or NC Low Drive (High Impedance)9th Bit EnablePEL or NC Activate DQPx I/Os (x18/x3672 mode)HDeactivate DQPx I/Os (x16/x3272 mode)GS864018/32/36T-300/250/200/167Note:There is a are pull-up devices on the ZQ, SCD, and FT pins and a pull-down device on the ZZ pin, so thosethis input pins can be unconnected and the chip will operate in the default states as specified in the above tables.Note:The burst counter wraps to initial state on the 5th clock.Note:The burst counter wraps to initial state on the 5th clock.Linear Burst SequenceA[1:0]A[1:0]A[1:0]A[1:0]1st address 000110112nd address 011011003rd address 101100014th address11000110Interleaved Burst SequenceA[1:0]A[1:0]A[1:0]A[1:0]1st address 000110112nd address 010011103rd address 101100014th address11100100Burst Counter SequencesBPR 1999.05.18GS864018/32/36T-300/250/200/167Byte Write Truth TableFunctionGWBWB AB BB CB DNotesRead H H X X X X 1Read H L H H H H 1Write byte a H L L H H H 2, 3Write byte b H L H L H H 2, 3Write byte c H L H H L H 2, 3, 4Write byte d H L H H H L 2, 3, 4Write all bytesHLLLLL2, 3, 4Write all bytes L X X X X X1.All byte outputs are active in read cycles regardless of the state of Byte Write Enable inputs.2.Byte Write Enable inputs B A , B B , B C and/or B D may be used in any combination with BW to write single or multiple bytes.3.All byte I/Os remain High-Z during all write operations regardless of the state of Byte Write Enable inputs.4.Bytes “C ” and “D ” are only available on the x32 and x36 versions.Synchronous Truth TableOperationAddress UsedState Diagram Key 5E 1E 2ADSP ADSCADVW 3DQ 4Deselect Cycle, Power Down None X H X X L X X High-Z Deselect Cycle, Power Down None X L F L X X X High-Z Deselect Cycle, Power Down None X L F H L X X High-Z Read Cycle, Begin Burst External R L T L X X X Q Read Cycle, Begin Burst External R L T H L X F Q Write Cycle, Begin Burst External W L T H L X T D Read Cycle, Continue Burst Next CR X X H H L F Q Read Cycle, Continue Burst Next CR H X X H L F Q Write Cycle, Continue Burst Next CW X X H H L T D Write Cycle, Continue Burst Next CWH X X H L T D Read Cycle, Suspend Burst Current X X H H H F Q Read Cycle, Suspend Burst Current H X X H H F Q Write Cycle, Suspend BurstCurrentXXHHHTDWrite Cycle, Suspend Burst Current H X X H H T D 1.X = Don’t Care, H = High, L = Low2. E = T (True) if E 2 = 1 and E 3 = 0; E = F (False) if E 2 = 0 or E 3 = 13.W = T (True) and F (False) is defined in the Byte Write Truth Table preceding.4.G is an asynchronous input. G can be driven high at any time to disable active output drivers. G low can only enable active drivers (shownas “Q” in the Truth Table above).5.All input combinations shown above are tested and supported. Input combinations shown in gray boxes need not be used to accomplishbasic synchronous or synchronous burst operations and may be avoided for simplicity.6.Tying ADSP high and ADSC low allows simple non-burst synchronous operations. See BOLD items above.7.Tying ADSP high and ADV low while using ADSC to load new addresses allows simple burst operations. See ITALIC items above.GS864018/32/36T-300/250/200/167First WriteFirst ReadBurst WriteBurst ReadDeselect R WCRCWXXWRRWRXXX S i m p l e S y n c h r o n o u s O p e r a t i o nS i m p l e B u r s t S y n c h r o n o u s O p e r a t i o nCR RCWCRCRNotes:1.The diagram shows only supported (tested) synchronous state transitions. The diagram presumes G is tied low.2.The upper portion of the diagram assumes active use of only the Enable (E1) and Write (B A , B B , B C , B D , BW, and GW) control inputs, andthat ADSP is tied high and ADSC is tied low.3.The upper and lower portions of the diagram together assume active use of only the Enable, Write, and ADSC control inputs, andassumes ADSP is tied high and ADV is tied low.GS864018/32/36T-300/250/200/167Simplified State DiagramFirst WriteFirst ReadBurst WriteBurst ReadDeselectR WCRCWXXWRRWRXXX CRR CW CRCRW CWW CWNotes:1.The diagram shows supported (tested) synchronous state transitions plus supported transitions that depend upon the use of G.e of “Dummy Reads” (Read Cycles with G High) may be used to make the transition from Read cycles to Write cycles without passingthrough a Deselect cycle. Dummy Read cycles increment the address counter just like normal read cycles.3.Transitions shown in gray tone assume G has been pulsed high long enough to turn the RAM’s drivers off and for incoming data to meetData Input Set Up Time.GS864018/32/36T-300/250/200/167Simplified State Diagram with GGS864018/32/36T-300/250/200/167Absolute Maximum Ratings(All voltages reference to V SS )SymbolDescriptionValueUnitV DD Voltage on V DD Pins –0.5 to 4.6V V DDQ Voltage in V DDQ Pins –0.5 to 4.6V V I/O Voltage on I/O Pins –0.5 to V DDQ +0.5 (≤ 4.6 V max.)V V IN Voltage on Other Input Pins –0.5 to V DD +0.5 (≤ 4.6 V max.)V I IN Input Current on Any Pin +/–20mA I OUT Output Current on Any I/O Pin +/–20mA P D Package Power Dissipation 1.5WT STG Storage Temperature –55 to 125o C T BIASTemperature Under Bias–55 to 125oCNote:Permanent damage to the device may occur if the Absolute Maximum Ratings are exceeded. Operation should be restricted to Recommended Operating Conditions. Exposure to conditions exceeding the Absolute Maximum Ratings, for an extended period of time, may affect reliability of this component. Power Supply Voltage RangesParameterSymbolMin.Typ.Max.UnitNotes3.3 V Supply Voltage V DD3 3.0 3.3 3.6V 2.5 V Supply Voltage V DD2 2.3 2.5 2.7V 3.3 V V DDQ I/O Supply Voltage V DDQ3 3.0 3.3 3.6V 2.5 V V DDQ I/O Supply VoltageV DDQ22.32.52.7VNotes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.GS864018/32/36T-300/250/200/167V DDQ3 Range Logic LevelsParameterSymbolMin.Typ.Max.UnitNotesV DD Input High Voltage V IH 2.0—V DD + 0.3V 1V DD Input Low Voltage V IL –0.3—0.8V 1V DDQ I/O Input High Voltage V IHQ 2.0—V DDQ + 0.3V 1,3V DDQ I/O Input Low VoltageV ILQ–0.3—0.8V1,3Notes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.3.V IHQ (max) is voltage on V DDQ pins plus 0.3 V.V DDQ2 Range Logic LevelsParameterSymbolMin.Typ.Max.UnitNotesV DD Input High Voltage V IH 0.6*V DD —V DD + 0.3V 1V DD Input Low Voltage V IL –0.3—0.3*V DD V 1V DDQ I/O Input High Voltage V IHQ 0.6*V DD —V DDQ + 0.3V 1,3V DDQ I/O Input Low VoltageV ILQ–0.3—0.3*V DDV1,3Notes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.3.V IHQ (max) is voltage on V DDQ pins plus 0.3 V.Recommended Operating TemperaturesParameterSymbolMin.Typ.Max.UnitNotesAmbient Temperature (Commercial Range Versions)T A 02570°C 2Ambient Temperature (Industrial Range Versions)T A–402585°C2Notes:1.The part numbers of Industrial Temperature Range versions end the character “I”. Unless otherwise noted, all performance specifica-tions quoted are evaluated for worst case in the temperature range marked on the device.2.Input Under/overshoot voltage must be –2 V > Vi < V DDn +2 V not to exceed 4.6 V maximum, with a pulse width not to exceed 20% tKC.GS864018/32/36T-300/250/200/16720% tKCV SS – 2.0 V50%V SS V IHUndershoot Measurement and TimingOvershoot Measurement and Timing20% tKCV DD + 2.0 V50%V DDV ILCapacitanceo C, f = 1 MH Z , V DD ParameterSymbolTest conditionsTyp.Max.UnitInput Capacitance C IN V IN = 0 V 45pF Input/Output Capacitance C I/OV OUT = 0 V67pFNote:These parameters are sample tested.AC Test ConditionsParameterConditionsInput high level V DD – 0.2 V Input low level 0.2 V Input slew rate 1 V/ns Input reference level V DDQ /2Output reference levelV DDQ /2Output loadFig. 1Notes:1.Include scope and jig capacitance.2.Test conditions as specified with output loading as shown in Fig. 1unless otherwise noted.3.Device is deselected as defined by the Truth Table.DQV DDQ/250Ω30pF *Output Load 1* Distributed Test Jig Capacitance(T A = 25= 2.5 V)DC Electrical CharacteristicsParameterSymbolTest ConditionsMinMaxInput Leakage Current (except mode pins)I IL V IN = 0 to V DD –2 uA 2 uA ZZInput Current I IN1V DD ≥ V IN ≥ V IH 0 V ≤ V IN ≤ V IH –1 uA –1 uA 1 uA 100 uA FTInput CurrentI IN2V DD ≥ V IN ≥ V IL 0 V ≤ V IN ≤ V IL–100 uA –1 uA 1 uA 1 uA Output Leakage Current (x36/x72)I OL Output Disable, V OUT = 0 to V DD –1 uA 1 uA Output Leakage Current (x18)I OL Output Disable, V OUT = 0 to V DD –1 uA 1 uA Output High Voltage V OH2I OH = –8 mA, V DDQ = 2.375 V 1.7 V —Output High Voltage V OH3I OH = –8 mA, V DDQ = 3.135 V2.4 V —Output Low VoltageV OLI OL = 8 mA—0.4 VGS864018/32/36T-300/250/200/167Operating CurrentsParameterTest ConditionsModeSymbol-300-250-200-167Unit0to 70°C –40 to 85°C 0to 70°C –40 to 85°C 0to 70°C –40to 85°C 0 to 70°C –40to 85°C Operating CurrentDevice Selected; All other inputs ≥V IH o r ≤ V IL Output open(x32/x36)Pipeline I DD I DDQ 4206044060360503805031040330402703529035mA Flow Through I DD I DDQ 3003032030255252752523020250202202024020mA (x18)PipelineI DD I DDQ 3703039030315253352527020290202402026020mA Flow Through I DD I DDQ 2701529015230152501520515225151951521515mA Standby Current ZZ ≥ V DD – 0.2 V —PipelineI SB 100120100120100120100120mA Flow Through I SB 100120100120100120100120mA Deselect CurrentDevice Deselected; All other inputs ≥ V IH or ≤ V IL—Pipeline I DD 150165140155130146125140mA Flow ThroughI DD135150125140120135120135mAGS864018/32/36T-300/250/200/167Notes:1.I DD and I DDQ apply to any combination of V DD3, V DD2, V DDQ3, and V DDQ2 operation.2.All parameters listed are worst case scenario.AC Electrical CharacteristicsParameter Symbol -300-250-200-167Unit Min Max MinMax MinMax MinMax PipelineClock Cycle Time tKC 3.3— 4.0— 5.0— 6.0—ns Clock to Output ValidtKQ — 2.3— 2.5— 3.0— 3.5ns Clock to Output Invalid tKQX 1.5— 1.5— 1.5— 1.5—ns Clock to Output in Low-ZtLZ 1 1.5— 1.5— 1.5— 1.5—ns Setup time tS 1.1— 1.2— 1.4— 1.5—ns Hold time tH 0.1—0.2—0.4—0.5—ns Flow ThroughClock Cycle Time tKC 5.5— 6.5—7.5—8.0—ns Clock to Output ValidtKQ — 5.5— 6.5—7.5—8.0ns Clock to Output Invalid tKQX 3.0— 3.0— 3.0— 3.0—ns Clock to Output in Low-ZtLZ 1 3.0— 3.0— 3.0— 3.0—ns Setup time tS 1.5— 1.5— 1.5— 1.5—ns Hold time tH 0.5—0.5—0.5—0.5—ns Clock HIGH Time tKH 1.0— 1.3— 1.3— 1.3—ns Clock LOW Time tKL 1.2— 1.5— 1.5— 1.5—ns Clock to Output inHigh-Z tHZ 1 1.5 2.3 1.5 2.5 1.5 3.0 1.5 3.0ns G to Output Valid tOE — 2.3— 2.5— 3.0— 3.5ns G to output in Low-Z tOLZ 10—0—0—0—ns G to output in High-Z tOHZ 1— 2.3— 2.5— 3.0— 3.0ns ZZ setup time tZZS 25—5—5—5—ns ZZ hold time tZZH 21—1—1—1—ns ZZ recoverytZZR20—20—20—20—nsGS864018/32/36T-300/250/200/167Notes:1.These parameters are sampled and are not 100% tested.2.ZZ is an asynchronous signal. However, in order to be recognized on any given clock cycle, ZZ must meet the specified setup and holdtimes as specified above.GS864018/32/36T-300/250/200/167Pipeline Mode Timing (SCD)Begin Read A Cont Cont Deselect Write B Read C Read C+1Read C+2Read C+3ContDeselecttHZtKQX tKQtLZtHtStOHZtOEtHtStHtStHtStHtStHtStStHtStHtStHtSBurst ReadtKCtKL tKH Single Write Single ReadQ(A)D(B)Q(C)Q(C+1)Q(C+2)Q(C+3)ABCDeselected with E1E1 masks ADSPE2 and E3 only sampled with ADSP and ADSCADSC initiated readCK ADSPADSCADVA0–AnGWBWBa–BdE1E2E3GDQa–DQdGS864018/32/36T-300/250/200/167Flow Through Mode Timing (SCD)Begin Read A ContCont Write B Read C Read C+1Read C+2Read C+3Read C Cont DeselecttHZtKQXtKQ tLZtH tStOHZtOEtHtS tHtS tHtStHtS tHtS tHtStHtS tHtS tH tS tHtS tKCtKL tKHABCQ(A)D(B)Q(C)Q(C+1)Q(C+2)Q(C+3)Q(C)E2 and E3 only sampled with ADSCADSC initiated readDeselected with E1Fixed HighCK ADSPADSCADVA0–AnGWBWBa–BdE1E2E3GDQa–DQdGS864018/32/36T-300/250/200/167Sleep ModeDuring normal operation, ZZ must be pulled low, either by the user or by its internal pull down resistor. When ZZ is pulled high, the SRAM will enter a Power Sleep mode after 2 cycles. At this time, internal state of the SRAM is preserved. When ZZ returns to low, the SRAM operates normally after 2 cycles of wake up time.Sleep mode is a low current, power-down mode in which the device is deselected and current is reduced to I SB 2. The duration of Sleep mode is dictated by the length of time the ZZ is in a High state. After entering Sleep mode, all inputs except ZZ become disabled and all outputs go to High-Z The ZZ pin is an asynchronous, active high input that causes the device to enter Sleep mode. When the ZZ pin is driven high, I SB 2 is guaranteed after the time tZZI is met. Because ZZ is an asynchronous input, pending operations or operations in progress may not be properly completed if ZZ is asserted. Therefore, Sleep mode must not be initiated until valid pending operations are completed. Similarly, when exiting Sleep mode during tZZR, only a Deselect or Read commands may be applied while the SRAM is recovering from Sleep mode.Sleep Mode Timing DiagramtZZRtZZHtZZSHoldSetup tKLtKHtKCCKADSP ADSCZZGS864018/32/36T-300/250/200/167TQFP Package Drawing (Package T) D1D E1EPin 1be cLL1A2A1YθNotes:1.All dimensions are in millimeters (mm).2.Package width and length do not include mold protrusion.SymbolDescriptionMin.Nom.MaxA1Standoff 0.050.100.15A2Body Thickness 1.35 1.40 1.45b Lead Width 0.200.300.40c Lead Thickness 0.09—0.20D Terminal Dimension 21.922.022.1D1Package Body 19.920.020.1E Terminal Dimension 15.916.016.1E1Package Body 13.914.014.1e Lead Pitch —0.65—L Foot Length 0.450.600.75L1Lead Length —1.00—Y Coplanarity 0.10θLead Angle0°—7°GS864018/32/36T-300/250/200/167Ordering Information for GSI Synchronous Burst RAMs OrgPart Number1TypePackageSpeed 2(MHz/ns)T A 3Status4M x 18GS864018T-300Pipeline/Flow Through TQFP 300/5.5C 4M x 18GS864018T-250Pipeline/Flow Through TQFP 250/6.5C 4M x 18GS864018T-200Pipeline/Flow Through TQFP 200/7.5C 4M x 18GS864018T-167Pipeline/Flow Through TQFP 167/8C 2M x 32GS864032T-300Pipeline/Flow Through TQFP 300/5.5C 2M x 32GS864032T-250Pipeline/Flow Through TQFP 250/6.5C 2M x 32GS864032T-200Pipeline/Flow Through TQFP 200/7.5C 2M x 32GS864032T-167Pipeline/Flow Through TQFP 167/8C 2M x 36GS864036T-300Pipeline/Flow Through TQFP 300/5.5C 2M x 36GS864036T-250Pipeline/Flow Through TQFP 250/6.5C 2M x 36GS864036T-200Pipeline/Flow Through TQFP 200/7.5C 2M x 36GS864036T-167Pipeline/Flow Through TQFP 167/8C 4M x 18GS864018T-300I Pipeline/Flow Through TQFP 300/5.5I 4M x 18GS864018T-250I Pipeline/Flow Through TQFP 250/6.5I 4M x 18GS864018T-200I Pipeline/Flow Through TQFP 200/7.5I 4M x 18GS864018T-167I Pipeline/Flow Through TQFP 167/8I 2M x 32GS864032T-300I Pipeline/Flow Through TQFP 300/5.5I 2M x 32GS864032T-250I Pipeline/Flow Through TQFP 250/6.5I 2M x 32GS864032T-200I Pipeline/Flow Through TQFP 200/7.5I 2M x 32GS864032T-167I Pipeline/Flow Through TQFP 167/8I 2M x 36GS864036T-300I Pipeline/Flow Through TQFP 300/5.5I 2M x 36GS864036T-250I Pipeline/Flow Through TQFP 250/6.5I 2M x 36GS864036T-200I Pipeline/Flow Through TQFP 200/7.5I 2M x 36GS864036T-167I Pipeline/Flow Through TQFP 167/8I 4M x 18GS864018GT-250Pipeline/Flow Through Pb-Free TQFP 250/6.5C 4M x 18GS864018GT-200Pipeline/Flow Through Pb-Free TQFP 200/7.5C 4M x 18GS864018GT-167Pipeline/Flow Through Pb-Free TQFP 167/8C 2M x 32GS864032GT-300Pipeline/Flow ThroughPb-Free TQFP300/5.5C2M x 32GS864032GT-250Pipeline/Flow Through Pb-Free TQFP 250/6.5C Notes:1.Customers requiring delivery in Tape and Reel should add the character “T” to the end of the part number. Example: GS864018T-300IT.2.The speed column indicates the cycle frequency (MHz) of the device in Pipeline mode and the latency (ns) in Flow Through mode. Eachdevice is Pipeline/Flow Through mode-selectable by the user.3.T A = C = Commercial Temperature Range. T A = I = Industrial Temperature Range.4. GSI offers other versions this type of device in many different configurations and with a variety of different features, only some of which arecovered in this data sheet. See the GSI Technology web site () for a complete listing of current offerings.GS864018/32/36T-300/250/200/1672M x 32GS864032GT-200Pipeline/Flow Through Pb-Free TQFP 200/7.5C 2M x 32GS864032GT-167Pipeline/Flow Through Pb-Free TQFP 167/8C 2M x 36GS864036GT-250Pipeline/Flow Through Pb-Free TQFP 250/6.5C 2M x 36GS864036GT-200Pipeline/Flow Through Pb-Free TQFP 200/7.5C 2M x 36GS864036GT-167Pipeline/Flow Through Pb-Free TQFP 167/8C 4M x 18GS864018GT-300I Pipeline/Flow Through Pb-Free TQFP 300/5.5I 4M x 18GS864018GT-250I Pipeline/Flow Through Pb-Free TQFP 250/6.5I 4M x 18GS864018GT-200I Pipeline/Flow Through Pb-Free TQFP 200/7.5I 4M x 18GS864018GT-167I Pipeline/Flow Through Pb-Free TQFP 167/8I 2M x 32GS864032GT-300I Pipeline/Flow Through Pb-Free TQFP 300/5.5I 2M x 32GS864032GT-250I Pipeline/Flow Through Pb-Free TQFP 250/6.5I 2M x 32GS864032GT-200I Pipeline/Flow Through Pb-Free TQFP 200/7.5I 2M x 32GS864032GT-167I Pipeline/Flow Through Pb-Free TQFP 167/8I 2M x 36GS864036GT-300I Pipeline/Flow Through Pb-Free TQFP 300/5.5I 2M x 36GS864036GT-250I Pipeline/Flow Through Pb-Free TQFP 250/6.5I 2M x 36GS864036GT-200IPipeline/Flow ThroughPb-Free TQFP200/7.5I2M x 36GS864036GT-167I Pipeline/Flow Through Pb-Free TQFP 167/8I Ordering Information for GSI Synchronous Burst RAMs (Continued)OrgPart Number1TypePackageSpeed 2(MHz/ns)T A 3StatusNotes:1.Customers requiring delivery in Tape and Reel should add the character “T” to the end of the part number. Example: GS864018T-300IT.2.The speed column indicates the cycle frequency (MHz) of the device in Pipeline mode and the latency (ns) in Flow Through mode. Eachdevice is Pipeline/Flow Through mode-selectable by the user.3.T A = C = Commercial Temperature Range. T A = I = Industrial Temperature Range.4. GSI offers other versions this type of device in many different configurations and with a variety of different features, only some of which arecovered in this data sheet. See the GSI Technology web site () for a complete listing of current offerings.。

沪深300指数是国内第一只股指期货标的指数,也是目前中国内地证券市场中跟踪资产最多、使用广泛度最高的指数。

随着指数化投资理念逐渐被投资者所认可,沪深300指数受到市场越来越多的关注,其良好的市场表现也使得以其为投资标的的指数基金获得越来越多投资者的青睐。

沪深300指数沪深300指数于2005年4月8日正式发布,是沪深交易所联合发布的第一只跨市场指数。

2005年9月中证指数公司成立后,沪深300指数移交中证指数公司进行管理运行。

沪深300指数由沪深A股中规模大、流动性好、最具代表性的300只股票组成,以综合反映沪深A股市场整体表现。

沪深300指数是内地首只股指期货的标的指数,被境内外多家机构开发为指数基金和ETF产品,跟踪资产在A股股票指数中高居首位。

沪深300指数的可投资性在确定沪深300指数样本空间时,剔除了ST、*ST股票,股价波动异常或被市场操纵、有重大违法违规的股票,较高程度地保证了样本公司的质量。

在选样时,沪深300指数选择成交金额位于前50％的上市公司中总市值排名前300名的股票组成样本股。

因此沪深300指数的样本股代表了沪深两市A股市场的核心优质资产,成长性强,估值水平低,其在整体经营业绩和估值水平方面对投资者具有很强的吸引力。

沪深300指数以自由流通股本分级靠档后的调整股本作为权重。

分级靠档技术的采用确保样本公司的股本发生微小变动时用于指数计算的股本数相对稳定,以有效降低股本频繁变动带来的跟踪成本。

以调整后的自由流通股本而非全部股本为权重,沪深300指数更能真实反映市场中实际可供交易股份的股价变动情况,从而有效避免通过操纵大盘股来操纵指数的情况发生。

为提高指数的代表性和可投资性,沪深300指数还启用大市值股票快速进入指数规则。

该规则自2006年7月启动至今,先后有中国银行、大秦铁路、工商银行、中国人寿、兴业银行、中国平安、交通银行、中信银行和中国神华、中国石油等上市公司符合大市值IPO快速进入指数规则的条件,在上市第10个交易日结束后成为沪深300指数样本股。

基金代码基金简称期间涨幅2013年排行2012年排行2011年排行159915易方达创业板ET80.83%1#N/A68 590008中邮战略新兴产业80.21%2#N/A#N/A 161613融通创业板指数增78.09%3#N/A#N/A 80012长盛电子信息产业77.22%4#N/A#N/A 519679银河主题策略75.09%5135#N/A 260104景顺长城内需增长74.11%6#N/A123 110026易方达创业板联接73.52%7#N/A28 260109景顺长城内需增长72.48%8#N/A130 630011华商主题精选股票65.80%9#N/A#N/A 240017华宝新兴产业64.36%108#N/A 660012农银消费主题58.67%11#N/A#N/A 519670银河行业优选56.39%12#N/A152 159909招商深证TMT553.61%13#N/A#N/A 110029易方达科讯52.82%14#N/A#N/A 540010汇丰晋信科技先锋51.74%15#N/A44 377240上投新兴动力50.36%16443 217019招商深证TMT549.80%17#N/A#N/A 161616融通医疗保健行业47.69%18#N/A#N/A 377530上投行业轮动46.53%1946#N/A 40025华安科技动力46.39%20#N/A9 470006汇添富医药保健45.32%2133#N/A 660005农银中小盘44.16%2257164 163409兴全绿色投资43.72%23#N/A38 100060富国高新技术产业43.49%24#N/A#N/A 660001农银行业成长43.01%2536#N/A 540008汇丰晋信低碳先锋43.01%25#N/A#N/A 260101景顺长城优选42.94%2743149 159918嘉实中创400E42.00%28#N/A#N/A 660015农银汇理行业轮动41.79%29#N/A#N/A 470009汇添富民营活力41.67%3021163 257070国联安优选行业40.82%3110353 260115景顺长城中小盘40.81%32#N/A134 550009信诚中小盘40.59%33#N/A#N/A 370024上投核心优选股票40.57%34#N/A#N/A 240009华宝先进成长40.40%35#N/A#N/A 519668银河竞争优势成长40.33%3650126 20023国泰事件驱动40.21%3710421 519674银河创新成长40.10%381792 165512信诚新机遇40.06%3915842 70030嘉实中创400联39.71%40#N/A#N/A 233007大摩卓越成长39.24%41#N/A111 740001长安宏观策略38.26%42#N/A#N/A519033海富通国策导向37.80%43#N/A4 163412兴全轻资产投资股37.77%44#N/A#N/A 166011中欧盛世成长分级37.63%45#N/A#N/A 240020华宝医药生物优选37.32%46122#N/A 110023易方达医疗保健行37.06%477750 630010华商价值精选36.93%48#N/A54 700001平安大华行业先锋36.79%49#N/A37 519704交银先进制造36.77%50#N/A73 377020上投内需动力36.70%51136#N/A 90018大成新锐产业36.26%52#N/A#N/A 519672银河蓝筹精选36.20%53#N/A154 213008宝盈资源优选35.76%5413283 20015国泰区位优势35.71%55#N/A178 40035华安逆向策略股票35.69%56#N/A#N/A 50026博时医疗保健行业34.90%57#N/A#N/A 20010国泰金牛创新34.75%5810172 270021广发聚瑞34.27%5953127 162212泰达宏利红利先锋34.26%60#N/A78 100026富国天合稳健优选33.79%61180#N/A 519150新华优选消费股票33.77%62195#N/A 580008东吴新产业精选33.59%63#N/A25 163406兴全合润分级33.57%64#N/A187 180010银华优质增长33.53%65#N/A#N/A 270008广发核心精选33.20%667#N/A 519979长信内需成长32.64%671255 160211国泰中小盘32.27%68#N/A175 210007金鹰中证技术指数32.23%69#N/A#N/A 270050广发新经济股票32.00%70#N/A#N/A 162201泰达宏利成长31.92%71129#N/A 630002华商盛世成长31.67%72#N/A#N/A 100056富国低碳环保31.60%73#N/A46 31华夏复兴31.55%74#N/A#N/A 481015工银主题策略31.44%75#N/A19 110015易方达行业领先31.18%76#N/A#N/A 260110景顺长城精选蓝筹30.77%77#N/A184 162208泰达宏利首选企业30.73%78#N/A189 350008天治成长精选30.71%7918631 519185万家精选30.57%8015#N/A 376510上投大盘蓝筹30.09%81199#N/A 481004工银稳健成长29.66%82#N/A177 590005中邮核心主题29.57%83#N/A#N/A 550008信诚优胜精选29.49%84181#N/A 200010长城双动力29.27%85161#N/A233009大摩多因子策略29.07%86#N/A113 210004金鹰稳健成长28.88%87#N/A#N/A 165508信诚深度价值28.52%8829#N/A 163110申万量化小盘28.40%89#N/A160 519110浦银价值成长28.32%90#N/A#N/A 20026国泰成长优选28.23%91#N/A#N/A 159911鹏华深证民营ET28.09%92#N/A179 460007华泰柏瑞行业领先27.98%93188#N/A 398061中海消费精选27.97%9413011 70013嘉实研究精选27.67%9525122 70022嘉实领先成长26.98%96#N/A39 519034海富通中证内地低26.90%97#N/A#N/A 270028广发制造业精选26.82%98#N/A20 206009鹏华新兴产业26.72%99#N/A24 180031银华中小盘股票26.39%100#N/A#N/A 540002汇丰晋信龙腾26.15%101#N/A#N/A 206010鹏华深证民营联接25.80%102#N/A137 320016诺安多策略25.79%103#N/A125 420005天弘周期策略25.63%104#N/A#N/A 90015大成内需增长25.45%10514979 519692交银成长25.21%1064296 70019嘉实价值优势25.16%107#N/A183 159907广发中小板30024.54%108#N/A#N/A 162605景顺长城鼎益24.34%109192173 257040国联安德盛红利24.10%110118#N/A 350005天治创新先锋24.10%11092#N/A 20001国泰金鹰增长24.07%112#N/A#N/A 90007大成策略回报24.04%113#N/A#N/A 161818银华消费分级24.02%114#N/A32 260111景顺长城公司治理23.84%115#N/A#N/A 160314华夏行业精选23.75%116#N/A148 585001东吴中证新兴产业23.46%117#N/A#N/A 270041广发消费品精选股23.37%118#N/A#N/A 40020华安升级主题23.35%119#N/A109 70021嘉实主题新动力23.28%120#N/A#N/A 460005华泰柏瑞价值增长23.17%121#N/A#N/A 110013易方达科翔23.15%122#N/A191 270026广发中小板30022.91%123#N/A#N/A 163209诺安中证创业成长22.77%124#N/A#N/A 410003华富成长趋势22.56%125#N/A#N/A 519089新华优选成长22.55%126#N/A93 161609融通动力先锋22.27%127#N/A#N/A 320011诺安中小盘精选22.12%128#N/A#N/A162204泰达宏利精选21.96%129#N/A#N/A 519987长信恒利优势21.76%130#N/A#N/A 217013招商中小盘精选21.58%131#N/A#N/A 160212国泰估值21.57%132#N/A#N/A 270025广发行业领先21.51%13356#N/A 162510国联安中小板指分21.50%134#N/A#N/A 260116景顺长城核心竞争21.38%135#N/A7 166009中欧新动力21.37%1362088 519678银河消费驱动21.37%136#N/A29 165516信诚周期轮动股票21.37%136#N/A#N/A 240010华宝行业精选21.22%13959171 162209泰达宏利市值优选21.15%14091#N/A 260108景顺长城新兴成长21.07%141#N/A#N/A 161810银华内需精选20.92%142#N/A#N/A 519983长信量化先锋20.43%143#N/A#N/A 481010工银中小盘成长20.36%144#N/A#N/A 233006大摩领先优势20.05%145#N/A#N/A 519097新华中小市值优选20.00%14618598 162010长城久兆中小板319.94%147#N/A#N/A 630006华商产业升级19.91%148#N/A#N/A 340007兴全社会责任19.89%14972#N/A 510260诺安上证新兴ET19.82%150#N/A#N/A 160106南方高增长19.70%15158#N/A 257050国联安主题驱动19.70%15110089 159902华夏中小板ETF19.64%153#N/A#N/A 378010上投成长先锋19.55%15449#N/A 470098汇添富逆向投资19.49%155#N/A#N/A 340006兴全全球视野19.42%156#N/A66 160512博时卓越品牌19.36%1577652 460001华泰柏瑞盛世中国19.21%158#N/A#N/A 519068汇添富成长焦点19.15%159#N/A166 180013银华领先策略18.93%160#N/A#N/A 519993长信增利动态策略18.86%161#N/A#N/A 570006诺德中小盘18.85%16285#N/A 320014诺安上证新兴联接18.68%163#N/A#N/A 161910万家中创指数分级18.45%164#N/A#N/A 660004农银策略价值18.44%16554186 257020国联安德盛精选18.35%1669#N/A 160127南方新兴消费分级18.31%167#N/A#N/A 320012诺安主题精选18.18%168178158 110022易方达消费行业18.13%169#N/A58 410010华富中小板指数增18.06%170#N/A1 470028汇添富社会责任18.04%171#N/A63165511信诚中证500分17.87%172#N/A#N/A 671010纽银策略优选17.80%173#N/A#N/A 206002鹏华精选成长17.50%174120#N/A 519026海富通中小盘17.49%175#N/A#N/A 163503天治核心成长17.34%17673#N/A 377150上投健康品质生活17.20%177168#N/A 360007光大优势配置17.07%178#N/A165 290004泰信优质生活17.02%179#N/A#N/A 519099新华灵活主题17.02%17918110 160616鹏华中证50017.01%181#N/A#N/A 519039长盛同德主题增长17.01%181#N/A#N/A 161017富国中证50017.00%18315657 163111申万中小板16.99%184#N/A#N/A 40005华安宏利16.96%185#N/A185 70099嘉实优质企业16.84%18670151 257030国联安德盛优势16.76%187151176 288002华夏收入16.72%188#N/A48 202003南方绩优成长16.70%189172#N/A 160119南方中证500E16.65%190#N/A#N/A 161118易方达中小指数分16.41%191#N/A#N/A 162711广发中证500E16.39%192#N/A#N/A 660011农银中证50016.35%193#N/A16 17财通可持续发展主16.20%194#N/A#N/A 510070鹏华上证民企5016.10%195191#N/A 290008泰信发展主题16.01%196124#N/A 530001建信恒久价值15.95%197#N/A168 481001工银核心价值15.89%198#N/A#N/A 161213国投瑞银中证消费15.88%199#N/A#N/A 580007东吴新创业15.75%200#N/A1952010年排行2009年排行#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A5822 #N/A#N/A6510 #N/A#N/A181#N/A#N/A#N/A2168 #N/A#N/A#N/A151#N/A#N/A#N/A#N/A#N/A#N/A#N/A#N/A146#N/A#N/A#N/A151#N/A15#N/A#N/A#N/A#N/A#N/A2910316#N/A190143 #N/A#N/A#N/A#N/A38#N/A#N/A#N/A#N/A#N/A66#N/A#N/A#N/A#N/A547574 #N/A#N/A173#N/A#N/A#N/A#N/A#N/A63#N/A#N/A#N/A#N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A13578 #N/A#N/A132#N/A #N/A5844171 #N/A#N/A #N/A#N/A1501252189212008991 #N/A#N/A #N/A#N/A84#N/A96313337 #N/A#N/A #N/A188 #N/A#N/A #N/A#N/A1314214 #N/A#N/A326 #N/A#N/A56156 #N/A116 #N/A46 #N/A#N/A #N/A177163#N/A7212214#N/A102187 #N/A1635#N/A121#N/A #N/A#N/A144114 #N/A#N/A #N/A#N/A50#N/A #N/A#N/A7382 #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A9060 #N/A#N/A #N/A#N/A31#N/A #N/A#N/A1433330#N/A #N/A#N/A #N/A135 #N/A1298157109305114 #N/A#N/A40146 #N/A59 #N/A#N/A #N/A#N/A #N/A#N/A160#N/A128614188 #N/A#N/A #N/A#N/A831361273 #N/A1474#N/A4890 #N/A#N/A #N/A#N/A46#N/A177#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A #N/A449164187159104#N/A195#N/A88#N/A20181 #N/A#N/A #N/A#N/A74#N/A975 #N/A#N/A54139 #N/A1962211 #N/A144 #N/A#N/A12357 #N/A#N/A9313287108 #N/A8 #N/A15259#N/A #N/A#N/A #N/A#N/A36195 #N/A51 #N/A#N/A167#N/A200#N/A #N/A#N/A #N/A#N/A#N/A#N/A #N/A#N/A #N/A1996#N/A145145 #N/A#N/A #N/A55169117 #N/A#N/A136#N/A12097 #N/A#N/A #N/A#N/A174699140 #N/A133 #N/A4912812880174 #N/A#N/A #N/A#N/A #N/A#N/A #N/A#N/A77#N/A193#N/A8281105126178#N/A47#N/A。

弘历多空王指标弘历多空王指标（Hang Seng Multi-King Index）是一种基于沪深300指数的量化投资指标，由香港交易所推出，旨在帮助投资者更好地分析股票市场的行情，把握投资机会。

一、弘历多空王指标公式弘历多空王指标的公式是：HSMKI = (沪深300指数 - 前N日沪深300指数的移动平均线) / (沪深300指数 + 前N 日沪深300指数的移动平均线)其中，HSMKI是弘历多空王指标，N是投资者自定义的参数，一般取5、10、20、60日移动平均线。

二、弘历多空王指标的应用1. 分析股票市场行情弘历多空王指标可以帮助投资者分析股票市场的行情，比如当指标值大于0时，表明沪深300指数的股价高于前N日的移动平均线，表明市场行情处于多头行情，可以考虑买入股票；当指标值小于0时，表明沪深300指数的股价低于前N日的移动平均线，表明市场行情处于空头行情，可以考虑卖出股票。

2. 把握投资机会弘历多空王指标可以帮助投资者把握投资机会，比如当指标值从低位迅速攀升时，表明沪深300指数的股价正在迅速上涨，可以考虑买入股票；当指标值从高位迅速下跌时，表明沪深300指数的股价正在迅速下跌，可以考虑卖出股票。

三、实例分析下面我们以2018年6月14日的沪深300指数为例，来分析弘历多空王指标的应用。

根据弘历多空王指标的公式，我们可以计算出当日指标的值为0.0263，由此可以判断，当日沪深300指数的股价高于前N日的移动平均线，表明市场行情处于多头行情，投资者可以考虑买入股票。

四、结论弘历多空王指标是一种基于沪深300指数的量化投资指标，可以帮助投资者更好地分析股票市场的行情，把握投资机会。

投资者可以根据弘历多空王指标的值，判断市场行情处于多头行情还是空头行情，来决定是买入股票还是卖出股票。

矿产资源开发利用方案编写内容要求及审查大纲
矿产资源开发利用方案编写内容要求及《矿产资源开发利用方案》审查大纲一、概述
㈠矿区位置、隶属关系和企业性质。

如为改扩建矿山, 应说明矿山现状、
特点及存在的主要问题。

㈡编制依据
(1简述项目前期工作进展情况及与有关方面对项目的意向性协议情况。

(2 列出开发利用方案编制所依据的主要基础性资料的名称。

如经储量管理部门认定的矿区地质勘探报告、选矿试验报告、加工利用试验报告、工程地质初评资料、矿区水文资料和供水资料等。

对改、扩建矿山应有生产实际资料, 如矿山总平面现状图、矿床开拓系统图、采场现状图和主要采选设备清单等。

二、矿产品需求现状和预测
㈠该矿产在国内需求情况和市场供应情况
1、矿产品现状及加工利用趋向。

2、国内近、远期的需求量及主要销向预测。

㈡产品价格分析
1、国内矿产品价格现状。

2、矿产品价格稳定性及变化趋势。

三、矿产资源概况
㈠矿区总体概况
1、矿区总体规划情况。

2、矿区矿产资源概况。

3、该设计与矿区总体开发的关系。

㈡该设计项目的资源概况
1、矿床地质及构造特征。

2、矿床开采技术条件及水文地质条件。

1.4000 X6Cr131.4001 X7Cr141.4002 X6CrAl131.4003 X2Cr11/X2CrNi12 1.4005 X 12 CrS131.4006 X10Cr131.4008 G-X8CrNi131.4011 GX12Cr12-B1.4016 X6Cr171.4021 X20Cr131.4024 X15Cr131.4027 G-X20Cr141.4028 X 30 Cr 131.4034 X46Cr131.4057 X20CrNi1721.4059 G-X22CrNi171.4085 G-X70Cr291.4086 G-X120Cr291.4104 X12CrMoS171.4106 G-X10CrMo13 1.4112 X 90 CrMoV 18 1.4113 X6CrMo1711.4117 X38CrMoV151.4120 G-X20CrMo13 1.4122 G-X35CrMo17 1.4125 X 105 Cr Mo 17 1.4136 G-X70CrMo29-2 1.4138 G-X120CrMo29-2 1.4300 X12CrNi18-81.4301 X5CrNi18-101.4303 X 5 CrNi 18.12 1.4305 X10CrNiSi89 1.4306 G-X2CrNi19-11 1.4308 G-X6CrNi18-9 1.4308 GX5CrNi19-10 1.4309 GX2CrNi19-11 1.4310 X12CrNi1771.4311 X2CrNiNb1810 1.4312 G-X10CrNi18-8 1.4313 G-X5CrNi13-4 1.4317 GX4CrNi13-41.4335 X 1 CrNi 25.21 1.4336 G-X20CrNi248 1.4339 G-X30CrNi28 101.4340 G-X40CrNi27-41.4347 G-X8CrNi26-71.4347 GX6CrNiN27-61.4350 X5CrNi1891.4361 X 1 CrNiSi 18.151.4362 2 CrNiN 23.41.4401 X5CrNiMo17121.4404 G-X2CrNiMo18-101.4405 G-X5CrNiMo16-51.4406 GX4CrNiMo16-5-1 1.4407 G-X5CrNiMo13 41.4408 G-X6CrNiMo18-10 1.4408 GX7CrNiMo12-11.4408 GX5CrNiMo19-11-2 1.4409 GX2CrNiMo19-11-2 1.4410 G-X10CrNiMo18-9 1.4411 GX4CrNiMo16-5-2 1.4412 GX5CrNiMo19-11-3 1.4413 G-X3CrNiMo13 41.4414 G-X4CrNiMo13 41.4416 GX2NiCrMoN25-20-5 1.4417 GX2CrNiMoN25-7-3 1.4418 X4CrNiMo16-51.4429 X2CrNiMoN18121.4435 X2CrNiMo18 14 31.4436 X5CrNiMo17 13 31.4438 X2CrNiMo17-13-31.4439 G-X3CrNiMoN17-13-9 1.4446 G-X2CrNiMoN17-13-4 1.4446 GX2CrNiMoN17-13-4 1.4448 G-X6CrNiMo17-13 1.4449 X 5 CrNiMo 17.131.4458 GX2CrNiMo28-20-2 1.4460 X8CrNiMo27-51.4460 X 3 CrNiMoN 27.5.2 1.4462 X 2 CrNiMoN 22.5.31.4463 G-X6CrNiMo24-8-22.4464 G-X40CrNiMo27 5 1.4465 G-X2CrNiMoN25-25 1.4466 X2CrNiMoN25221.4468 GX2CrNiMoN22-6-3 1.4469 GX2CrNiMoN26-7-4 1.4470 GX2CrNiMoN22-5-3 1.4500 G-X7NiCrMoCuNb25201.4501 X 2 CrNiMoCuWN 25.7.4 1.4505 X 4 NiCrMoCuNb 20.18.2 1.4506 X2CrNiMoN17 13 31.4507 X 2 CrNiMoCuN 25.6.31.4510 X6CrTi171.4517 GX2CrNiMoCuN25-6-3-31.4525 GX5CrNiCu16-41.4527 GX4NiCrCuMo30-20-41.4531 G-X2NiCrMoCuN20-181.4536 G-X2NiCrMoCuN25-201.45391.4540 G-X4CrNiCuNb16-41.4541 X6CrNiTi18101.4542 X5 CrNiCuNb 16.41.4548 X5 CrNiCuNb 16.41.4550 X6CrNiNb18101.4552 G-X5CrNiNb18-91.4552 GX5CrNiNb19-111.45631.4565 X 2 CrNiMnMoNbN 25.18.5.41.4568 X 7 CrNiAl 17.71.4571 X6CrNiMoTi171221.4577 X 3 CrNiMoTi 25.251.4580 X6CrNiMoNb171221.4581 G-X5CrNiMoNb18-101.4581 GX5CrNiMoNb19-11-21.4582 X 10 CrNiMoNb 18.121.4583 G-X10CrNiMoNb18-121.4584 GX2NiCrMoCu25-20-51.4585 G-X7CrNiMoCuNb18-18 1.4587 GX2NiCrMoCuN29-25-5 1.4588 GX2NiCrMoCuN25-20-51.4593 GX2NiCrMoCuN20-18-6 1.4710 GX30CrSi61.4713 X 10 CrAl 71.4718 X45CrSi931.4724 X10CrAl131.4729 GX40CrSi131.4740 GX40CrSi171.4742 X10CrAl181.4745 GX40CrSi231.4749 X 18 CrN 281.4757 X80CrNiSi201.4762 X10CrAl241.4776 GX40CrSi291.4777 GX130CrSi291.4821 X 20 CrNiSi 25.41.4823 GX40CrNiSi27 4 1.4825 GX25CrNiSi18 91.4826 GX40CrNiSi22 91.4828 X15CrNiSi20121.4832 X25CrNiSi20141.4833 X 6 CrNi 22.131.4837 X40CrNiSi25121.4841 X 15 CrNiSi 25.201.4845 X12CrNi25211.4848 GX40CrNiSi25 20 1.4849 GX40CrNiSiNb38 18 1.4852 GX40CrNiSiNb35 25 1.4855 GX30CrNiSiNb24 24 1.4857 GX40CrNiSi35 251.4859 GX10NiCrNbSi32-20 1.4864 X12NiCrSi36161.4865 G-X40NiCrSi3818 1.4868 GX50CrNiSi30-30 1.4871 X53CrMnNiN219 1.4876 X 10 NiCrAlTi 32.20 1.4878 X12CrNiTi1891.4893 X 8 CrNiSiN 21.11 1.4919 X 6 CrNiMo 17.13 1.4948 X 6 CrNi 18.111.4958 X 5 NiCrAlTi 31.20 1.4959 X 8 NiCrAlTi 31.21 1.6900 X 12CrNi18 91.6902 G-X6CrNi18101.6905 X10CrNiNb18-102.0872 CuNi 10 Fe2.0882 CuNi 30 Fe2.4066 Ni 99,22.4068 LC - Ni 992.4360 NiCu 30 Fe2.4375 NiCu 30 AI2.4537 G-NiMo16CrW2.4602 NiCr 21 Mo 14 W 2.4603 NiCr 30 FeMo2.4603 NiCr 22 Fe 18 Mo2.4605 NiCr 23 Mo 16 Al2.4610 NiMo 16 Cr 16 Ti2.4617 NiMo 282.4618 NiCr 22 Mo 6 Cu2.4619 NiCr 22 Mo 7 Cu2.4630 NiCr 20 Ti2.4631 NiCr 20 TiAl2.4632 NiCr 20 Co 18 Ti2.4633 NiCr 25 FeAl2.4634 NiCo 20 Cr 15 Mo Al Ti 2.4642 NiCr 29 Fe2.4660 NiCr 20 CuMo2.4663 NiCr 23 Co 12 Mo2.4665 NiCr 22 Fe 18 Mo 2.4668 NiCr 19 NbMo2.4669 NiCr 15 Fe 7 TiAl 2.4778 G-CoCr 282.4810 G-NiMo302.4816 NiCr 15 Fe2.4819 NiMo 16 Cr 15 W2.4851 NiCr 23 Fe2.4856 NiCr 22 Mo 9 Nb2.4858 NiCr 21 Mo2.4879 G-NiCr28W2.4951 NiCr 20 Ti2.4952 NiCr 20 TiAl2.4969 NiCr 20 Co 18 Ti3.70253.70353.70553.70653.71643.71653.7225 Ti Pb3.7235 Ti II Pb0.6010 GG100.60120.6015 GG150.60170.6018 GG180.6020 GG200.6022 GG220.6025 GG250.60270.6030 GG300.60320.6035 GG350.60370.6652 GGL-NiMn13 7 0.6655 GGL-NiCuCr15 6 2 0.6656 GGL-NiCuCr15 6 3 0.6660 GGL-NiCr20 20.6661 GGL-NiCr20 30.6667 GGL-NiSiCr20 5 3 0.6676 GGL-NiCr30 30.6680 GGL-NiSiCr30 5 5 0.7033 GGG-35.30.7040 GGG-400.7042 GGG-420.7043 GGG-40.30.7050 GGG-500.7060 GGG-600.7070 GGG-700.7080 GGG-800.7652 GGG-NiMn13 7 0.7659 GGG-NiCrNb20 2 0.7660 GGG-NiCr20 20.7661 GGG-NiCr20 30.7665 GGG-NiSiCr20 5 2 0.7670 GGG-Ni220.7673 GGG-NiMn23 40.7676 GGG-NiCr30 30.7677 GGG-NiCr30 10.7679 GGG-NiSiCr30 5 2 0.7680 GGG-NiSiCr30 5 5 0.7683 GGG-Ni350.7685 GGG-NiCr35 30.7688 GGG-NiSiCr35 5 2 0.8035 GTW35-040.8040 GTW40-050.8038 GTW45-070.8040 GTW38-120.8135 GTS-35-100.8145 GTS-45-060.8155 GTS-55-040.8165 GTS-65-020.8170 GTS-70-020.9610 G-X300NiMo3Mg0.9620 G-X260NiCr420.9625 G-X330NiCr0.9630 G-X300CrNi9520.9635 G-X300CrMo1530.9640 G-X300CrMoNi1520 0.9645 G-X260CrMoNi20210.9650 G-X260Cr270.9655 G-X300CrMo2711.0420 GS-38.31.0443 GS-451.0446 GS-45.31.0552 GS-521.0558 GS-601.06191.1118 GS-24Mn61.1120 GS-8Mn7/GS-8MnMo7 4 1.1121 Ck101.1131 GS-16Mn5/GS-20Mn5 1.1136 GS-24Mn41.1138 GS-24Mn51.1141 Ck151.1142 Ck161.1151 Ck221.1155 Ck251.1156 Ck241.1157 40Mn41.1158 Ck251.1159 GS-46Mn41.1165 GS-30Mn51.1167 GS-36Mn51.1168 GS-40Mn51.1181 Ck351.1191 Ck451.1221 Ck601.2311 GS-48CrMnMo71.2323 GS-48CrMoV6 71.2590 GS-80CrVW4 31.2713 GS-55NiCrMoV61.2778 GS-20MoNi33 131.2887 GS-34CoCrMoV14 12 1.2888 GS-20CoCrWMo10 9 1.3401 G-X120Mn121.3402 G-X110Mn14 1.3802 G-X120Mn131.3940 G-X2CrNiN18 131.3952 G-X2CrNiMoN18 141.3955 G-X12CrNi18 111.3964 G-X2CrNiMnMoNb21 16 5 31.3966 G-X25MnCrNi8 8 61.5015 GS-13MnNi641.5120 GS-38MnSi41.5121 GS-46MnSi41.5122 GS-37MnSi51.5406 GS-20MnMo5 31.5418 GS-20MoV8 51.5430 GS-8MnMo7 41.5431 GS-12MnMo7 41.5475 GS-20MnNb51.5485 GS-20MnNiTi5 31.5621 GS-10Ni61.5633 GS-24Ni81.5638 GS-10Ni141.5681 GS-10Ni191.5919 GS-15CrNi61.6219 GS-22MnNi51.6221 GS-13MnNi641.6309 GS-20MnMoNi5 51.6511 GS-36CrNiMo41.6515 GS-25CrNiMo41.6552 GS-24CrNiMo3 2 51.6570 GS-30NiCrMo8 51.6582 GS-34CrNiMo61.6740 GS-33NiCrMo7 4 41.6741 GS-38NiCrMo8 4 41.6748 GS-40NiCrMo6 5 61.6750 GS-20NiMoCr3 71.6759 GS-18NiMoCr3 61.6760 GS-22NiMoCr5 61.6779 GS-14NiCrMo10 61.6781 GS-18NiCrMo12 61.6783 GS-19NiCrMo12 61.6916 GS-12MnCrNiMo5 31.7131 GS-16MnCr51.7147 GS-20MnCr51.7218 GS-25CrMo41.7219 GS-26CrMo41.7220 GS-34CrMo41.7225 GS-42CrMo41.7228 GS-50CrMo41.7341 GS-34CrMo4 41.7354 GS-22CrMo5 41.7355 GS-17CrMnMo5 51.7363 GS-12CrMo19 51.7377 GS-17CrMo9 101.7380 GS-12CrMo9 101.7382 GS-19CrMo9 101.7725 GS-30CrMoV6 41.7755 GS-35CrMoV10 41.7756 GS-36CrMoV10 41.7903 GS-18MnCrMo6 31.7906 GS-19MnCrMo6 31.7909 GS-20MnCrMo6 31.8159 GS-50CrV 4不绣耐蚀铸钢: 铁素体G-S8CrNi13 1.4008G-X20Cr14 1.4027 G-X22CrNi17 1.4059G-X5CrNi134 1.4313奥氏体:G-X6CrNi1891.4308 G-X5CrNiNb189 1.4552G-X6CrNiMo18-10 1.4408 G-X3CrNiMoN17-13-5 1.4439 医疗机械用不绣铸钢: X20Cr131.4021 X38CrMoV15 1.4117 G-X20CrMo131.4120 G-X35CrMo17 1.4122德国非标准不绣耐蚀铸钢: G-X70Cr29 1.4085 G-X120Cr29 1.4086G-10CrMo13 1.4106 G-X70CrMo292 1.4136G-X120CrMo292 1.4138 G-X2CrNi189 1.4306G-X10CrNi188 1.4312 G-X40CrNi274 1.4340G-X8CrNi267 1.4347 G-X2CrNiMo1810 1.4404G-X5CrNiMo165 1.4405 G-X10CrNiMo1891.4410 G-X6CrNiMo1812 1.4437G-X2CrNiMoN17134 1.4446 G-X6CrNiMo17131.4448 G-X6CrNiMo2482 1.4463G-X2CrNiMoN2525 1.4465G-X2NiCrMoCuN2518 1.4531G-X2NiCrMoCuN2520 1.4536 G-NiMo16CrW2.4537 G-X10CrNiMoNb1812 1.4583G-X7CrNiMoCuNb1818 1.4585 G-NiMo302.4810 耐热铸钢和热强铸钢: GX30CrSi6 1.4710GX40CrSi13 1.4729 GX40CrSi17 1.1740GX40CrSi23 1.4745 GX40CrSi29 1.4776GX130CrSi29 1.4777 GX40CrNiSi27-4 1.4823 GX25CrNiSi18-9 1.4825 GX40CrNiSi22-9 1.4826 GX25CrNiSi20-14 1.4832 GX40CrNiSi25-12 1.4837 GX40CrNiSi25-20 1.4848 GX40NiCrSi38-18 1.4865 GX40NiCrSi35-25 1.4857 GX30CrNiSiNb24-24 1.4855 GX-40NiCrSiNb35-25 1.4852 G-CoCr28 1.4778 G-NiCr28W 2.4879 铁素体热强铸钢: GS-C25 1.0619 GS-22Mo4 1.5419 GS-17CrMo55 1.7357 GS-18CrMo910 1.7379 GS-17CrMoV511 1.7706 G-X8CrNi12 1.4107 G-X22CrMoV121 1.4931 高锰钢和耐磨蚀:G-X120Mn12 13401 G-X110Mn14 13402 G-X120Mn13 13802 G-X25MnCrNi886 13966 G-X12CrNi1811 13955 G-X2CrNiN1813 13940 G-X2CrNiMoN1814 13952 G-X2CrNiMnMoNb21 G-X2CrNiMnMoNb16 G-X2CrNiMnMoNb5 G-X2CrNiMnMoNb3 13964 德国,灰铸铁:GG-10 0.6010 GG-15 0.6015 GG-20 0.6020 GG-25 0.6025 GG-30 0.6030 GG-35 0.6035。

大数据系列策略指数i300和i100发布及介绍【根据网上资料整理】【编制方案】大数据系列指数编制方案(2014年9月)为反映大数据选股策略的市场表现，向市场提供更丰富的指数化投资标的，编制大数据系列指数。

大数据系列指数包括纯价格指数和全收益指数，纯价格指数通过深交所行情系统发布实时行情数据，全收益指数通过巨潮指数网发布收盘行情数据。

一、指数代码与名称指数代码：399415指数简称：i100指数中文名称：大数据100指数指数英文名称：CNI BIG DATA 100 INDEX指数代码：399416指数简称：i300指数中文名称：大数据300指数指数英文名称：CNI BIG DATA 300 INDEX二、基日与基点大数据系列指数以2010年1月29日为基日，基日指数为1000。

三、选股原则大数据系列指数样本股分别由在深圳证券交易所[微博]、上海证券交易所[微博]上市的100只、300只A股组成，按照下列原则选取：1. 入围标准(1)非ST、*ST的A股；(2)有一定上市交易日期，一般为一年。

2. 选样方法对样本空间的股票，按照财务因子得分、市场驱动因子得分和大数据得分进行模型优化，然后将计算的综合得分从高到低排序，选取排名在前100名的股票构成大数据100指数初始样本股，选取排名在前300名的股票构成大数据300指数初始样本股。

在综合得分排名相似的情况下，综合考虑公司的行业代表性及所属行业的发展前景、公司盈利记录等，优先选取指标优良的上市公司股票作为样本股。

单个股票的综合评分如下：(1) 财务因子得分：计算最新市盈率PE、净资产收益率ROE、年度营业收入同比增长率、年度净利润同比增长率，剔除PE、ROE排名靠后的股票、剔除营业收入同比增长为负和年度净利润同比增长为负的股票；计算主营业收入和净利润同比和环比预测结果增长相对上期该指标的幅度变化作为业绩加速得分；通过因子模型计算上述得分作为财务因子总得分。