SR445Am
IBM小型机配件
X3755 CPU 内存板 42D3093 44R5988 42D3097 40K7532 42D3108 P6 550 CPU 内存板
42R6609 44V3841 模块 44V6625 97P5095
IBM P570 7782 cpu 内存板 实物拍摄
? IBM X366 X260 X3800 CPU 板
42D3097
X365 散热片 FRU: 90P5046
3850M2 散热片
? COMPAQ PL3000 风扇 PL5000 风扇 Nhomakorabea
3650T 风扇 扇组
风
X340 风扇 X342 风扇 00N7248 20L1399 5000 风 扇
59P2572 风扇 X255 风扇
06p3609 百兆网卡
13N2195 6I 阵列卡
59p2952 X360 远程卡
39R8852 sas 卡 IBM 服务器 X250 X350 7600 CPU 终结板 10L6936 73p9246 IBM 远程控制卡
09N7292 IBM 光纤网卡
?
IBM P550 5264 CPU 内存板
07P6825
07P6793 46K8035 P6 550 CPU 内存板
42D3107 IBM X3755 CPU 内存板
P550 IBM 5264 CPU 内存板 1.5G 2-WAY
P6 570 CPU 内存板
46K6860 42R5983 42R5967 散热片
电子元件参数大全1
电子元件参数大全电子元件参数大全型号参数用途12N20N沟200V 12A通用型场效应管 1DI2002N-140硅NPN 1200V 200A 1400W普通用途1DI3002N-120硅NPN 1000V 300A 2000W普通用途 2N100锗NPN 25V 5mA 音频放大\普通射频2N1000锗NPN 40V >7MHz低频开关管2N1003锗PNP 35V 普通射频2N1004锗PNP 35V 普通射频2N1005硅NPN 15V 25mA β=10-25普通用途2N1006硅NPN 15V 25mA β=25-150普通用途2N1007锗PNP 40V 3A 35W音频功率放大2N1008锗PNP 20V 低频开关管2N1008A锗PNP 40V 低频开关管2N1008B锗PNP 60V 低频开关管2N1009锗PNP 35V 低频开关管2N101(/13)锗PNP 25V 1W *K音频放大2N1010锗NPN 10V 2mA 2MHz普通射频2N1011锗PNP 80V 5A 90W音频放大\开关及功率放大 2N1012锗NPN 40V >3MHz开关管2N1013锗PNP 60V功率放大\开关管2N1014锗PNP 100V 5A 50W音频放大\开关及功率放大 2N1015硅NPN 30V 150W音频放大\开关及功率放大 2N1015A硅NPN 60V 150W音频放大\开关及功率放大 2N1015B硅NPN 100V 150W音频放大\开关及功率放大 2N1015C硅NPN 150V 150W音频放大\开关及功率放大 2N1015D硅NPN 200V 150W音频放大\开关及功率放大 2N1015E硅NPN 250V 150W音频放大\开关及功率放大2N1015F硅NPN 300V 150W音频放大\开关及功率放大2N1016硅NPN 30V 150W音频放大\开关及功率放大2N1016A硅NPN 60V 150W音频放大\开关及功率放大2N1016B硅NPN 100V 150W音频放大\开关及功率放大2N1016C硅NPN 150V 150W音频放大\开关及功率放大2N1016D硅NPN 200V 150W音频放大\开关及功率放大2N1016E硅NPN 250V 150W音频放大\开关及功率放大2N1016F硅NPN 300V 150W音频放大\开关及功率放大2N1017锗PNP 30V 1A 音频放大2N1018锗PNP 30V 1A 音频放大2N102锗NPN 25V 1.5A 1W *K音频放大2N102/13锗NPN 25V 1.5A 1W *K音频放大2N10202N1021锗PNP 100V 7A 150W功率放大\开关管2N1021A锗PNP 100V 7A 150W功率放大\开关管2N1022锗PNP 120V 7A 150W功率放大\开关管2N1022A锗PNP 120V 7A 150W音频放大\开关及功率放大2N1023锗PNP 40V 10mA 120MHz普通射频2N1024硅PNP 18V 0.1A β>9普通用途2N1025硅PNP 40V 0.1A β>9普通用途2N1026硅PNP 40V 0.1A β=18-44普通用途2N1027硅PNP 18V 0.1A β>18普通用途2N1028硅PNP 12V 0.1A β>9普通用途2N1029锗PNP 50V 25A 90W音频放大\开关及功率放大2N1029A锗PNP 60V 25A 90W音频放大\开关及功率放大2N1029B锗PNP 90V 25A 90W音频放大\开关及功率放大2N1029C锗PNP 100V 25A 90W音频放大\开关及功率放大2N103锗NPN 35V 10mA 音频放大2N1030锗PNP 50V 25A 90W音频放大\开关及功率放大2N1030A锗PNP 60V 25A 90W音频放大\开关及功率放大2N1030B锗PNP 90V 25A 90W音频放大\开关及功率放大 2N1030C锗PNP 100V 25A 90W音频放大\开关及功率放大 2N1031锗PNP 50V 25A 90W音频放大\开关及功率放大 2N1031A锗PNP 60V 25A 90W音频放大\开关及功率放大 2N1031B锗PNP 90V 25A 90W音频放大\开关及功率放大 2N1031C锗PNP 100V 25A 90W音频放大\开关及功率放大 2N1032锗PNP 50V 25A 90W音频放大\开关及功率放大 2N1032A锗PNP 60V 25A 90W音频放大\开关及功率放大 2N1032B锗PNP 90V 25A 90W音频放大\开关及功率放大 2N1032C锗PNP 100V 25A 90W音频放大\开关及功率放大 2N1034硅PNP 50V 0.05A β=15音频放大2N1035硅PNP 50V 0.05A β=30音频放大2N1036硅PNP 50V 0.05A β=60音频放大2N1037硅PNP 50V 0.05A β=30音频放大2N1038锗PNP 40V 3A 20W音频放大\开关及功率放大 2N1038-1锗PNP 40V 3A 20W音频放大\开关及功率放大 2N1038-2锗PNP 40V 3A 20W音频放大\开关及功率放大 2N1039锗PNP 60V 3A 20W音频放大\开关及功率放大 2N1039-1锗PNP 60V 3A 20W音频放大\开关及功率放大 2N1039-2锗PNP 60V 3A 20W音频放大\开关及功率放大 2N104锗PNP 30V 50mA 音频放大2N1040锗PNP 80V 3A 20W音频放大\开关及功率放大 2N1040-1锗PNP 80V 3A 20W音频放大\开关及功率放大 2N1040-2锗PNP 80V 3A 20W音频放大\开关及功率放大 2N1041锗PNP 100V 3A 20W音频放大\开关及功率放大 2N1041-1锗PNP 100V 3A 20W音频放大\开关及功率放大 2N1041-2锗PNP 100V 3A 20W音频放大\开关及功率放大 2N1042锗PNP 40V 3.5A 20W音频放大\开关及功率放大 2N1042-1锗PNP 40V 3.5A 20W音频放大\开关及功率放大 2N1042-2锗PNP 40V 3.5A 20W音频放大\开关及功率放大2N1042-2A锗PNP 40V 3A 20W 普通用途2N1042-2ψ锗PNP 40V 3A 1W 普通用途2N1043锗PNP 60V 3.5A 20W音频放大\开关及功率放大 2N1043-1锗PNP 60V 3.5A 20W音频放大\开关及功率放大 2N1043-2锗PNP 60V 3.5A 20W音频放大\开关及功率放大 2N1043-2ψ锗PNP 60V 3A 1W 普通用途2N1044锗PNP 80V 3.5A 20W音频放大\开关及功率放大 2N1044-1锗PNP 80V 3.5A 20W音频放大\开关及功率放大 2N1044-2锗PNP 80V 3.5A 20W音频放大\开关及功率放大 2N1044-2ψ锗PNP 80V 3A 1W 普通用途2N1045锗PNP 100V 3.5A 20W音频放大\开关及功率放大 2N1045-1锗PNP 100V 3.5A 20W音频放大\开关及功率放大 2N1045-2锗PNP 100V 3.5A 20W音频放大\开关及功率放大 2N1045-2ψ锗PNP 100V 3A 1W 普通用途2N1046锗PNP 100V 10A 50W音频放大\开关及功率放大 2N1046A/B锗PNP 130V 15A 50W音频放大\开关及功率放大2N1047锗NPN 80V 8A 40W音频放大\开关及功率放大 2N1047A硅NPN 80V 8A 40W音频放大\开关及功率放大 2N1047B硅NPN 80V 8A 40W音频放大\开关及功率放大 2N1047C硅NPN 80V 8A 40W音频放大\开关及功率放大 2N1048硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1048A硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1048B硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1048C硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1049硅NPN 80V 8A 40W音频放大\开关及功率放大 2N1049A硅NPN 80V 8A 40W音频放大\开关及功率放大 2N1049B硅NPN 80V 8A 40W音频放大\开关及功率放大 2N1049C硅NPN 80V 8A 40W音频放大\开关及功率放大 2N105锗PNP 35V 15mA 音频放大2N1050A硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1050B硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1050C硅NPN 120V 8A 40W音频放大\开关及功率放大 2N1051硅NPN 40V 0.3A 音频放大2N1052硅NPN 200V 0.2A 开关管2N1053硅NPN 180V 0.2A 开关管2N1054硅NPN 125V 0.2A 开关管2N1055硅NPN 100V 0.2A 开关管2N1056锗PNP 70V 0.3A 低频开关管2N1057锗PNP 45V 0.3A 低频开关管2N1058锗NPN 20V 0.1A 低频开关管2N1059锗NPN 40V 0.1A 低频开关管2N106锗PNP 15V 10mA 音频放大2N1060硅NPN 40V 0.2A <50ns开关管2N1065锗PNP 40V 10MHz普通射频\开关管2N1066锗PNP 40V 10mA 120MHz普通射频2N1067硅NPN 60V 0.5A 5W音频放大\开关及功率放大 2N1068硅NPN 60V 1.5A 10W音频放大\开关及功率放大 2N1069硅NPN 60V 4A 50W音频放大\开关及功率放大 2N107锗PNP 12V 10mA 音频放大2N1070硅NPN 60V 4A 50W音频放大\开关及功率放大 2N1072硅NPN 75V 2A 2W低频开关管2N1073锗PNP 40V 10A 85W音频放大\开关及功率放大 2N1073A锗PNP 80V 10A 85W音频放大\开关及功率放大 2N1073B锗PNP 120V 10A 85W音频放大\开关及功率放大 2N1074硅NPN 50V 0.1A β=14音频放大2N1075硅NPN 50V 0.1A β=25音频放大2N1076硅NPN 50V 0.1A β=50音频放大2N1077硅NPN 50V 0.1A β=18音频放大2N1079硅NPN 60V 3A 60W音频放大\开关及功率放大2N1108锗PNP 16V 5mA 35MHz普通射频2N1109锗PNP 16V 5mA 35MHz普通射频2N111锗PNP 30V 0.2A 3MHz普通射频2N1110锗PNP 16V 5mA 35MHz普通射频2N1111锗PNP 20V 5mA 35MHz普通射频2N1111A锗PNP 20V 5mA 35MHz普通射频2N1111B锗PNP 20V 5mA 35MHz普通射频2N1114锗NPN 25V 0.2A >7MHz低频开关管2N1115锗PNP 20V 0.125A 低频开关管2N1115A锗PNP 20V 0.125A 低频开关管2N1116硅NPN 60V 0.8A 低频开关管2N1117硅NPN 60V 0.8A 低频开关管2N1118硅PNP 25V 0.05A 普通用途2N1118A硅PNP 25V 0.05A 普通用途2N1119硅PNP 10V 0.05A 普通用途2N111A锗PNP 30V 0.2A 3MHz普通射频2N112锗PNP 30V 0.2A 5MHz普通射频2N1120锗PNP 80V 15A 90W音频放大\开关及功率放大 2N1121锗NPN 15V 20mA 8MHz普通射频2N1122锗PNP 12V 0.05A >40MHz普通射频\开关管 2N1122A锗PNP 15V 0.05A >40MHz普通射频\开关管 2N1123锗PNP 46V 0.4A 低频开关管2N1124锗PNP 40V 0.5A β>40低频开关管2N1125锗PNP 40V 0.5A β=50-150低频开关管2N1126锗PNP 40V 0.5A β>40低频开关管2N1127锗PNP 40V 0.5A β=50-150低频开关管2N1128锗PNP 25V 0.5A 音频放大2N1129锗PNP 25V 0.5A 音频放大2N112A锗PNP 30V 0.2A 5MHz普通射频2N113锗PNP 30V 0.2A 10MHz普通射频2N1130锗PNP 30V 0.5A 音频放大2N1131硅PNP 60V 0.6A 低频开关管2N1131A硅PNP 60V 0.6A 低频开关管2N1132硅PNP 50V 0.6A 低频开关管2N1132A硅PNP 60V 0.6A 低频开关管2N1132B硅PNP 70V 0.6A 低频开关管 2N1132B46硅PNP 70V 0.6A 96MHz普通用途2N1135硅PNP 12V 0.05A 普通用途2N1135A硅PNP 12V 0.05A 普通用途2N1136锗PNP 60V 6A 60W音频放大\开关及功率放大 2N1136A锗PNP 90V 6A 60W音频放大\开关及功率放大 2N1136B锗PNP 100V 6A 60W音频放大\开关及功率放大2N1137锗PNP 60V 6A 60W音频放大\开关及功率放大 2N1137A锗PNP 90V 6A 60W音频放大\开关及功率放大 2N1137B锗PNP 100V 6A 60W音频放大\开关及功率放大2N1138锗PNP 60V 6A 60W音频放大\开关及功率放大 2N1138A锗PNP 90V 6A 60W音频放大\开关及功率放大 2N1138B锗PNP 100V 6A 60W音频放大\开关及功率放大2N1139硅NPN 15V 0.1A >100MHz开关管2N114锗PNP 30V 0.2A 20MHz普通射频2N1140硅NPN 40V >60MHz开关管2N1141锗PNP 35V 0.1A >750MHz用于VHF频段及射频2N1141A锗PNP 35V 0.1A >750MHz用于VHF频段及射频2N1142锗PNP 30V 0.1A >600MHz用于VHF频段及射频2N1142A锗PNP 30V 0.1A >600MHz用于VHF频段及射频2N1143锗PNP 25V 0.1A >480MHz用于VHF频段及射频2N1143A锗PNP 25V 0.1A >480MHz用于VHF频段及射频2N1144锗PNP 16V 0.2A β=34-90音频放大2N1145锗PNP 16V 0.2A β=25-90音频放大2N1146锗PNP 40V 15A 69W音频放大\开关及功率放大 2N1146A锗PNP 60V 15A 69W音频放大\开关及功率放大2N1146B锗PNP 80V 15A 69W音频放大\开关及功率放大2N1146C锗PNP 100V 15A 69W音频放大\开关及功率放大2N1147锗PNP 40V 15A 87W音频放大\开关及功率放大 2N1147A锗PNP 60V 15A 87W音频放大\开关及功率放大2N1147B锗PNP 80V 15A 87W音频放大\开关及功率放大2N1147C锗PNP 100V 15A 87W音频放大\开关及功率放大2N1149硅NPN 45V 25mA B=9-20普通用途2N115锗PNP 32V 3A 50W音频放大\开关及功率放大 2N1150硅NPN 45V 25mA β=18-40普通用途2N1151硅NPN 45V 25mA β=18-90普通用途2N1152硅NPN 45V 25mA β=36-90普通用途2N1153硅NPN 45V 25mA β=76-333普通用途2N1154硅NPN 50V 0.06A 普通用途及驱动2N1155硅NPN 80V 0.05A 普通用途及驱动2N1156硅NPN 120V 0.04A 普通用途及驱动2N1157锗PNP 60V 25A 187W功率放大\开关管2N1157A锗PNP 80V 25A 187W功率放大\开关管2N1158锗PNP 20V 0.1A >200MHz普通射频2N1158A锗PNP 20V 0.1A >200MHz普通射频2N1159锗PNP 80V 5A 90W音频放大\开关及功率放大2N116锗PNP2N1160锗PNP 80V 7A 90W音频放大\开关及功率放大 2N1162锗PNP 50V 25A 106W音频放大\开关及功率放大 2N1162A锗PNP 50V 25A 106W音频放大\开关及功率放大2N1163锗PNP 50V 25A 106W音频放大\开关及功率放大 2N1163A锗PNP 50V 25A 106W音频放大\开关及功率放大2N1164锗PNP 80V 25A 106W音频放大\开关及功率放大 2N1164A锗PNP 80V 25A 106W音频放大\开关及功率放大2N1165锗PNP 80V 25A 106W音频放大\开关及功率放大 2N1165A锗PNP 80V 25A 106W音频放大\开关及功率放大2N1166锗PNP 100V 25A 106W音频放大\开关及功率放大2N1166A锗PNP 100V 25A 106W音频放大\开关及功率放大2N1167锗PNP 100V 25A 106W音频放大\开关及功率放大2N1167A锗PNP 100V 25A 106W音频放大\开关及功率放大2N1168锗PNP 50V 5A 45W音频放大\开关及功率放大 2N1169锗NPN 40V 0.4A 低频开关管2N117硅NPN 45V 25mA 4MHz低频开关管2N1170锗PNP 40V 0.4A 低频开关管2N1171锗PNP 30V 1A 低频开关管2N1172锗PNP 40V 1.5A 低频开关管2N1173锗NPN 35V 0.2A 低频开关管2N1174锗PNP 35V 0.2A 低频开关管2N1175锗PNP 35V 0.5A 低频开关管2N1175A锗PNP 35V 0.5A 低频开关管2N1176锗PNP 15V 0.3A 音频放大2N1176A锗PNP 40V 0.3A 音频放大2N1176B锗PNP 60V 0.3A 音频放大2N1177锗PNP 30V 10mA 140MHz普通射频2N1178锗PNP 30V 10mA 140MHz普通射频2N1179锗PNP 30V 10mA 140MHz普通射频2N118硅NPN 45V 25mA 5MHz低频开关管2N1180锗PNP 30V 10mA 100MHz普通射频2N1182锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1183锗PNP 45V 3A 音频放大\开关及功率放大 2N1183A锗PNP 60V 3A 音频放大\开关及功率放大 2N1183B锗PNP 80V 3A 音频放大\开关及功率放大 2N1184锗PNP 45V 3A 音频放大\开关及功率放大 2N1184A锗PNP 60V 3A 音频放大\开关及功率放大 2N1184B锗PNP 80V 3A 音频放大\开关及功率放大2N1185锗PNP 45V 0.5A β=190-400低频开关管2N1186锗PNP 60V 0.5A β=30-70低频开关管2N1187锗PNP 60V 0.5A β=50-120低频开关管2N1188锗PNP 60V 0.5A β=100-225低频开关管2N1189锗PNP 45V 0.5A β=115音频放大及驱动?2N118A硅NPN 45V 25mA 5MHz低频开关管2N119硅NPN 45V 25mA 6MHz低频开关管2N1190锗PNP 45V 0.5A β=170音频放大及驱动?2N1191锗PNP 40V 0.2A β=30-70低频开关管2N1192锗PNP 40V 0.2A β=50-125低频开关管2N1193锗PNP 40V 0.2A β=100-250低频开关管2N1194锗PNP 40V 0.2A β=190-500低频开关管2N1195锗PNP 30V 40mA 1GHz用于UHF频段及射频2N1196硅PNP 70V 0.1A 普通用途2N1197硅PNP 70V 0.1A 普通用途2N1198锗NPN 25V 75mA 9MHz低频开关管2N1199硅NPN 20V 0.1A 125MHz普通射频\开关管2N1199A硅NPN 20V 0.1A 125MHz普通射频\开关管2N1200硅NPN 20V 0.1A 普通射频2N1201硅NPN 20V 0.1A 普通射频2N1202锗PNP 80V 3.5A 34W功率放大\开关管2N1203锗PNP 120V 3.5A 34W功率放大\开关管2N1204锗PNP 20V 0.5A 开关管2N1204A锗PNP 20V 0.5A 开关管2N1205硅NPN 20V 25MHz普通用途2N1206硅NPN 60V 0.15A 3W低频开关管2N1207硅NPN 125V 0.15A 3W低频开关管2N1208硅NPN 60V 5A 45W功率放大\开关管2N1208/1硅NPN 60V 5A 45W功率放大\开关管2N1209硅NPN 45V 5A 45W功率放大\开关管2N1209/1硅NPN 45V 5A 45W功率放大\开关管2N1210硅NPN 60V 5A 30W功率放大\开关管2N1210/1硅NPN 60V 5A 30W功率放大\开关管2N1211硅NPN 80V 5A 30W功率放大\开关管2N1211/1硅NPN 80V 5A 30W功率放大\开关管2N1212硅NPN 60V 5A 45W功率放大\开关管2N1212/1硅NPN 60V 5A 45W功率放大\开关管2N1217锗NPN 20V 25mA 9MHz低频开关管2N1218锗NPN 45V 3A 20W音频放大\开关及功率放大 2N1219硅PNP 30V 0.1A β>18普通用途2N122硅NPN 120V 0.14A 9W低频开关管2N1220硅PNP 30V 0.1A β>9普通用途2N1221硅PNP 30V 0.1A β>18普通用途2N1222硅PNP 30V 0.1A β>9普通用途2N1223硅PNP 30V 0.1A β>6普通用途2N1224锗PNP 40V 10mA 30MHz普通射频2N1225锗PNP 40V 10mA 70MHz普通射频2N1226锗PNP 60V 10mA 30MHz普通射频2N1227锗PNP 35V 3A 50W音频放大\开关及功率放大 2N1228硅PNP 15V 0.1A β=14-32普通用途2N1229硅PNP 15V 0.1A β=28-65普通用途2N123锗PNP 20V 0.5A 开关管2N123/5锗PNP 20V 0.5A 开关管2N1230硅PNP 35V 0.1A β=14-32普通用途2N1231硅PNP 35V 0.1A β=28-65普通用途2N1232硅PNP 60V 0.1A β=14-32普通用途2N1232A硅PNP 60V 0.1A β=14-32普通用途2N1233硅PNP 60V 0.1A β=28-65普通用途2N1234硅PNP 110V 0.1A β=14-32普通用途2N1235硅NPN 120V 5A 85W功率放大\开关管2N1238硅PNP 15V 0.1A β=14-32普通用途2N1239硅PNP 15V 0.1A β=28-65普通用途2N124锗NPN 10V 8mA β=12-24开关管2N1240硅PNP 35V 0.1A β=14-32普通用途2N1241硅PNP 35V 0.1A β=28-65普通用途2N1242硅PNP 60V 0.1A β=14-32普通用途2N1243硅PNP 60V 0.1A β=28-65普通用途2N1244硅PNP 110V 0.1A β=14-32普通用途2N1245锗PNP 30V 4A 20W音频功率放大2N1246锗PNP 30V 4A 20W音频功率放大2N1247硅NPN 6V 5mA β>15普通用途2N1248硅NPN 6V 5mA β>15普通用途2N1249硅NPN 6V 5mA β>15普通用途2N125锗NPN 10V 8mA β=24-48开关管2N1250硅NPN 50V 5A 85W音频放大\开关及功率放大 2N1250/1硅NPN 50V 5A 85W音频放大\开关及功率放大 2N1251锗NPN 20V 0.1A 低频开关管2N1252硅NPN 30V 1A β=15-45低频开关管2N1252A硅NPN 30V 1A β=15-45低频开关管2N1253硅NPN 30V 1A β=30-90低频开关管2N1253A硅NPN 30V 1A β=30-90低频开关管2N1254硅PNP 30V 0.1A β=25-50普通用途2N1255硅PNP 30V 0.1A β=40-80普通用途2N1256硅PNP 40V 0.1A β=25-50普通用途2N1257硅PNP 40V 0.1A β=40-80普通用途2N1258硅PNP 50V 0.1A β=75-150普通用途2N1259硅PNP 50V 0.1A β=25-100普通用途2N126锗NPN 10V 8mA β=48-100开关管 2N1260硅NPN 120V 2A 85W功率放大\开关管2N1261锗PNP 80V 3.5A 34W功率放大\开关管2N1261A锗PNP 80V 3.5A 34W功率放大\开关管2N1262锗PNP 80V 3.5A 34W功率放大\开关管2N1262A锗PNP 80V 3.5A 34W功率放大\开关管2N1263锗PNP 80V 3.5A 34W功率放大\开关管 2N1263A锗PNP 80V 3.5A 34W功率放大\开关管 2N1264锗PNP 20V 10mA 3MHz普通射频2N1264/13锗PNP 20V 10mA 3MHz普通射频 2N1265锗PNP 20V 0.1A 音频放大2N1265/5锗PNP 20V 0.1A 音频放大2N1266锗PNP 10V 音频放大2N1267硅NPN 20V 0.1A β=4-16普通用途2N1268硅NPN 20V 0.1A β=7-30普通用途2N1269硅NPN 20V 0.1A β=20-80普通用途2N127锗NPN 10V 8mA β=100-200开关管2N1270硅NPN 20V 0.1A β=4-16普通用途2N1271硅NPN 20V 0.1A β=7-30普通用途2N1272硅NPN 20V 0.1A β=20-80普通用途 2N1273锗PNP 15V 0.2A 低频开关管2N1274锗PNP 25V 0.2A 低频开关管2N1275硅PNP 100V 0.1A 普通驱动管2N1276硅NP N 40V 25mA β=9-22普通用途 2N1277硅NPN 40V 25mA β=18-44普通用途 2N1278硅NPN 40V 25mA β=37-90普通用途 2N1279硅NPN 40V 25mA β=76-330普通用途2N128锗PNP 10V 5mA 28MHz普通射频2N1280锗PNP 16V 0.4A >5MHz低频开关管 2N1281锗PNP 16V 0.4A >7MHz低频开关管 2N1282锗PNP 16V 0.4A >10MHz低频开关管 2N1283锗PNP 20V 0.4A >5MHz低频开关管 2N1285锗PNP 40V 10mA 100MHz普通射频2N1287锗PNP 20V 50mA2N1287A锗PNP 20V 50mA2N1288锗NPN 15V 0.05A 60MHz开关管2N1289锗NPN 20V 0.05A 60MHz开关管2N129锗PNP 10V 5mA 30MHz普通射频2N1291锗PNP 35V 3A 20W音频放大\开关及功率放大 2N1292锗NPN 35V 3A 25W音频放大\开关及功率放大 2N1293锗PNP 60V 3A 20W音频放大\开关及功率放大 2N1294锗NPN 60V 3A 25W音频放大\开关及功率放大 2N1295锗PNP 80V 3A 20W音频放大\开关及功率放大 2N1296锗NPN 80V 3A 25W音频放大\开关及功率放大 2N1297锗PNP 100V 3A 20W音频放大\开关及功率放大 2N1298锗NPN 100V 3A 25W音频放大\开关及功率放大 2N1299锗NPN 40V 0.2A >4MHz低频开关管2N130锗PNP 25V 10mA 音频放大2N1300锗PNP 13V 0.1A 40MHz普通射频\开关管2N1301锗PNP 13V 0.1A 60MHz普通射频\开关管 2N1302锗NPN 25V 0.3A 5MHz低频开关管2N1303锗PNP 30V 0.3A 5MHz低频开关管2N1304锗NPN 25V 0.3A 10MHz低频开关管2N1305锗PNP 30V 0.3A 10MHz低频开关管2N1306锗NPN 25V 0.3A 15MHz低频开关管2N1307锗PNP 30V 0.3A 15MHz低频开关管2N1308锗NPN 25V 0.3A 25MHz低频开关管2N1309锗PNP 30V 0.3A 20MHz低频开关管2N130A锗PNP 45V 0.1A 音频放大2N131锗PNP 25V 10mA 音频放大2N1310锗NPN 90V 普通驱动管2N1311锗NPN 75V 普通驱动管2N1312锗NPN 50V 普通驱动管2N1313锗PNP 30V 0.4A 12MHz低频开关管2N1314锗PNP 40V 3.5A 125W音频放大\开关及功率放大 2N1315锗PNP 32V 3.5A 125W音频放大\开关及功率放大2N1316锗PNP 30V 0.4A >10MHz低频开关管2N1317锗PNP 20V 0.4A >10MHz低频开关管2N1318锗PNP 10V 0.4A >10MHz低频开关管2N1319锗PNP 20V 0.4A >3MHz低频开关管2N131A锗PNP 45V 0.1A 音频放大2N132锗PNP 25V 10mA 音频放大2N1320锗PNP 35V 3A 20W音频放大\开关及功率放大 2N1321锗NPN 35V 3A 25W音频放大\开关及功率放大 2N1322锗PNP 60V 3A 20W音频放大\开关及功率放大 2N1323锗NPN 60V 3A 25W音频放大\开关及功率放大 2N1324锗PNP 80V 3A 20W音频放大\开关及功率放大 2N1325锗NPN 80V 3A 25W音频放大\开关及功率放大 2N1326锗PNP 100V 3A 20W音频放大\开关及功率放大 2N1327锗NPN 100V 3A 25W音频放大\开关及功率放大 2N1328锗PNP 35V 3A 20W音频放大\开关及功率放大 2N1329锗NPN 35V 3A 25W音频放大\开关及功率放大 2N132A锗PNP 35V 0.1A 音频放大2N133锗PNP 25V 10mA 音频放大2N1330锗NPN 60V 3A 25W音频放大\开关及功率放大 2N1331锗PNP 80V 3A 20W音频放大\开关及功率放大 2N1332锗NPN 80V 3A 25W音频放大\开关及功率放大 2N1333锗PNP 100V 3A 20W音频放大\开关及功率放大 2N1334锗NPN 100V 3A 25W音频放大\开关及功率放大 2N1335硅NPN 120V 0.3A >70MHz普通射频或驱动 2N1336硅NPN 120V 0.3A >70MHz普通射频或驱动 2N1337硅NPN 120V 0.3A >70MHz普通射频或驱动 2N1338硅NPN 80V 0.3A >70MHz普通射频或驱动 2N1339硅NPN 120V 0.3A >70MHz普通射频或驱动 2N133A锗PNP 35V 0.1A 音频放大2N1340硅NPN 150V 0.3A >70MHz普通射频或驱动2N1341硅NPN 120V 0.3A >70MHz普通射频或驱动 2N1342硅NPN 150V 0.3A >70MHz普通射频或驱动 2N1343锗PNP 20V 0.4A >4MHz低频开关管2N1344锗PNP 15V 0.4A >7MHz低频开关管2N1345锗PNP 10V 0.4A >10MHz低频开关管2N1346锗PNP 12V 0.4A >10MHz低频开关管2N1347锗PNP 20V 0.2A >5MHz低频开关管2N1348锗PNP 40V 0.4A >5MHz低频开关管2N1349锗PNP 40V 0.4A >10MHz低频开关管2N135锗PNP 20V 50mA 普通射频2N1350锗PNP 50V 0.4A >8MHz低频开关管2N1351锗PNP 50V 0.4A >8MHz低频开关管2N1352锗PNP 30V 0.2A >低频开关管2N1353锗PNP 15V 0.2A >低频开关管2N1354锗PNP 15V 0.2A >3MHz低频开关管2N1355锗PNP 15V 0.2A >5MHz低频开关管2N1356锗PNP 15V 0.2A >5MHz低频开关管2N1357锗PNP 15V 0.2A >10MHz低频开关管2N1358锗PNP 80V 15A 70W音频放大\开关及功率放大 2N1358A锗PNP 80V 15A 70W音频放大\开关及功率放大 2N1358M锗PNP 80V 15A 70W音频放大\开关及功率放大 2N1359锗PNP 50V 10A 106W音频放大\开关及功率放大 2N136锗PNP 20V 50mA 普通射频2N1360锗PNP 50V 10A 106W音频放大\开关及功率放大 2N1361锗PNP 25V 0.2A 4MHz低频开关管2N1361A锗PNP 25V 0.2A 4MHz低频开关管2N1362锗PNP 100V 10A 106W音频放大\开关及功率放大 2N1363锗PNP 100V 10A 106W音频放大\开关及功率放大 2N1364锗PNP 120V 10A 106W音频放大\开关及功率放大 2N1365锗PNP 120V 10A 106W音频放大\开关及功率放大2N1366锗NPN 18V 25mA >5MHz低频开关管 2N1367锗NPN 18V 25mA >低频开关管2N137锗PNP 10V 50mA 10MHz普通射频2N1370锗PNP 25V 0.2A β=45-165低频开关管2N1371锗PNP 45V 0.2A β=45-165低频开关管2N1372锗PNP 25V 0.2A β=25-105低频开关管2N1373锗PNP 45V 0.2A β=25-105低频开关管2N1374锗PNP 25V 0.2A β=50-165低频开关管2N1375锗PNP 45V 0.2A β=50-165低频开关管2N1376锗PNP 25V 0.2A β=67-165低频开关管2N1377锗PNP 45V 0.2A β=67-165低频开关管2N1378锗PNP 12V 0.2A β=85-330低频开关管2N1379锗PNP 25V 0.2A β=85-330低频开关管 2N138锗PNP 24V 0.15A 低频开关管 2N1380锗PNP 12V 0.2A β=27-330低频开关管2N1381锗PNP 25V 0.2A β=27-330低频开关管2N1382锗PNP 25V 0.2A β=50-150低频开关管2N1383锗PNP 25V 0.2A β=30-150低频开关管2N1384锗PNP 30V 0.5A 35MHz低频开关管2N1385锗PNP 25V 0.1A >250MHz普通射频\开关管 2N1386硅NPN 25V 0.05A 60MHz普通用途2N1387硅NPN 30V 0.05A 50MHz普通用途2N1388硅NPN 45V 0.05A >50MHz普通用途2N1389硅NPN 50V 0.05A >25MHz普通用途 2N138A/B锗PNP 45V 0.1A 低频开关管2N139锗PNP 16V 15mA 普通射频 2N1390硅NPN 20V 0.05A >20MHz普通用途2N1391锗NPN 25V >3MHz低频开关管2N1395锗PNP 40V 10mA 30MHz普通射频2N1396锗PNP 40V 10mA 100MHz普通射频2N1397锗PNP 40V 10mA 120MHz普通射频2N1398锗PNP 30V 10mA >140MHz普通射频2N1399锗PNP 30V 10mA >140MHz普通射频2N140锗PNP 16V 15mA 普通射频2N1400锗PNP 30V 10mA >100MHz普通射频2N1401锗PNP 30V 10mA >120MHz普通射频2N1401A锗PNP 30V 10mA >120MHz普通射频2N1402锗PNP 30V 10mA >100MHz普通射频2N1403锗PNP 15V 0.1A >200MHz普通射频2N1404锗PNP 25V 0.3A 普通射频\开关管2N1404A锗PNP 25V 0.3A 普通射频\开关管2N1405锗PNP 30V 0.05A >250MHz普通射频2N1406锗PNP 30V 0.05A >250MHz普通射频2N1407锗PNP 30V 0.05A >200MHz普通射频2N1408锗PNP 50V 0.2A 低频开关管2N1409硅NPN 30V 0.5A β=15-45低频开关管2N1409A硅NPN 30V 0.5A β=15-45低频开关管2N141锗PNP 60V 0.8A *K音频放大及驱动?2N141/13锗PNP 60V 0.8A 音频放大及驱动?2N1410硅NPN 30V 0.5A β=30-90低频开关管2N1410A硅NPN 30V 0.5A β=30-90低频开关管2N1411锗PNP 5V 0.05A 开关管2N1412锗PNP 100V 15A 150W音频放大\开关及功率放大 2N1412A锗PNP 100V 15A 150W音频放大\开关及功率放大 2N1413锗PNP 35V 0.5A β=25-42低频开关管2N1414锗PNP 35V 0.5A β=34-65低频开关管2N1415锗PNP 35V 0.5A β=53-90低频开关管2N14162N1418硅NPN 30V 0.05A 普通射频\开关管2N1419锗PNP 80V 25A 87W音频放大\开关及功率放大2N142锗NPN 60V 0.8A *K音频放大及驱动?2N142/13锗NPN 60V 0.8A *K音频放大及驱动?2N1420硅NPN 60V 1A 低频开关管2N1420A硅NPN 60V 1A 低频开关管2N1421硅NPN 60V 3A 30W功率放大\开关管2N1422硅NPN 60V 3A 30W功率放大\开关管2N1423硅NPN 60V 3A 60W功率放大\开关管2N1424硅NPN 60V 3A 60W功率放大\开关管2N1425锗PNP 24V 10mA 33MHz普通射频2N1426锗PNP 24V 10mA 33MHz普通射频2N1427锗PNP 6V 0.05A 普通射频\开关管2N1428硅PNP 6V 0.05A 低频开关管2N1429硅PNP 6V 0.05A 低频开关管2N143锗PNP 60V 0.8A 1W *K音频放大及驱动?2N143/13锗PNP 60V 0.8A 1W *K音频放大及驱动?2N1430锗PNP 120V 10A 70W功率放大\开关管2N1431锗NPN 20V 0.1A 低频开关管2N1432锗PNP 45V 10mA 普通射频2N1433锗PNP 80V 3.5A β=20-50音频放大\开关及功率放大 2N1434锗PNP 80V 3.5A β=45-115音频放大\开关及功率放大 2N1435锗PNP 80V 3.5A β=30-75音频放大\开关及功率放大 2N1436锗PNP 15V 0.05A 开关管2N1437锗PNP 100V 3A 23W功率放大\开关管2N1438锗PNP 100V 3A 23W功率放大\开关管2N1439硅PNP 50V 0.1A β=5-12普通用途2N144锗NPN 60V 0.8A 1W *K音频放大及驱动?2N144/13锗NPN 60V 0.8A 1W *K音频放大及驱动?2N1440硅PNP 50V 0.1A β=9-22普通用途2N1441硅PNP 50V 0.1A β=18-36普通用途2N1442硅PNP 50V 0.1A β=30-65普通用途2N1443硅PNP 50V 0.1A β>50普通用途2N1444硅NPN 60V 0.5A 低频开关管2N1445硅NPN 120V 0.75A 低频开关管2N1446锗PNP 45V 0.4A β=16-45低频开关管2N1447锗PNP 45V 0.4A β=36-65低频开关管2N1448锗PNP 45V 0.4A β=50-90低频开关管2N1449锗PNP 45V 0.4A β=70-125低频开关管2N145锗NPN 20V 5mA >普通射频2N1450锗PNP 30V 0.1A 开关管2N1451锗PNP 45V 0.4A β=20-65音频放大2N1452锗PNP 45V 0.4A β=30-90音频放大2N1453锗PNP 30V 5A 43W音频放大\开关及功率放大 2N1454锗PNP 30V 5A 43W音频放大\开关及功率放大 2N1455锗PNP 60V 5A 43W音频放大\开关及功率放大 2N1456锗PNP 60V 5A 43W音频放大\开关及功率放大 2N1457锗PNP 80V 5A 43W音频放大\开关及功率放大 2N1458锗PNP 80V 5A 43W音频放大\开关及功率放大 2N146锗NPN 20V 5mA >普通射频2N1461锗PNP 30V 5A 43W音频放大\开关及功率放大 2N1462锗PNP 30V 5A 43W音频放大\开关及功率放大 2N1463锗PNP 60V 5A 43W音频放大\开关及功率放大 2N1464锗PNP 60V 5A 43W音频放大\开关及功率放大 2N1465锗PNP 120V 3A 20W音频放大\开关及功率放大 2N1466锗PNP 120V 3A 20W音频放大\开关及功率放大2N1468硅NPN2N1469硅PNP 40V 0.1A 普通用途2N147锗NPN 20V 5mA >普通射频2N1470硅NPN 60V 3A 55W音频放大\开关及功率放大 2N1471锗PNP 12V 0.2A 普通用途2N1472硅NPN 25V 0.1A 140MHz开关管2N1473锗NPN 40V 0.4A >4MHz低频开关管2N1474硅PNP 60V 0.1A 普通用途2N1474A硅PNP 60V 0.1A 普通用途2N1475硅PNP 60V 0.1A β=36-88普通用途2N1476硅PNP 100V 0.1A β=12-36普通用途2N1477硅PNP 100V 0.1A β=30-66普通用途2N1478锗PNP 30V 0.5A 低频开关管2N1479硅NPN 60V 1.5A 5W低频开关管2N148锗NPN 16V 5mA >普通射频2N1480硅NPN 100V 1.5A 5W低频开关管2N1481硅NPN 60V 1.5A 5W低频开关管2N1482硅NPN 100V 1.5A 5W低频开关管2N1483硅NPN 60V 3A 25W音频放大\开关及功率放大 2N1484硅NPN 100V 3A 25W音频放大\开关及功率放大 2N1485硅NPN 60V 3A 25W音频放大\开关及功率放大 2N1486硅NPN 100V 3A 25W音频放大\开关及功率放大 2N1487硅NPN 50V 6A 75W音频放大\开关及功率放大 2N1488硅NPN 100V 6A 75W音频放大\开关及功率放大 2N1489硅NPN 60V 6A 75W音频放大\开关及功率放大 2N148A锗NPN 32V 5mA >普通射频2N149锗NPN 16V 5mA >普通射频2N1490硅NPN 100V 6A 75W音频放大\开关及功率放大 2N1491硅NPN 30V 0.1A 250MHzVHF驱动2N1492硅NPN 60V 0.1A 275MHzVHF驱动2N1493硅NPN 100V 0.1A 300MHzVHF驱动2N1494锗PNP 20V 0.5A <35ns开关管2N1494A锗PNP 20V 0.5A <35ns开关管2N1495锗PNP 40V 0.5A <55ns开关管2N1495A锗PNP 40V 0.5A <55ns开关管2N1496锗PNP 40V 0.5A <55ns开关管2N1499锗PNP 20V 0.1A 开关管2N1499A锗PNP 20V 0.1A 开关管2N1499B锗PNP 30V 开关管2N149A锗NPN 32V 5mA >普通射频2N150锗NPN 16V 5mA >普通射频2N1500锗PNP 15V 0.05A 开关管2N1500/18锗PNP 15V 0.05A 开关管 2N1501锗PNP 60V 3.5A 34W功率放大\开关管2N1502锗PNP 40V 3.5A 34W功率放大\开关管2N1504锗PNP 80V 3A 25W功率放大\开关管2N1504/10锗PNP 80V 3A 25W功率放大\开关管 2N1505硅NPN 50V 0.5A 普通射频或驱动2N1506硅NPN 60V 0.5A 普通射频或驱动2N1506A硅NPN 60V 0.5A 普通射频或驱动2N1507硅NPN 60V 1A 低频开关管2N1508硅NPN 100V 1A 1W低频开关管2N1509硅NPN 60V 1A 1W低频开关管2N150A锗NPN 32V 5mA >普通射频2N151锗PNP2N1510锗NPN 75V 0.02A 低频开关管 2N1511硅NPN 60V 6A 75W功率放大\开关管2N1512硅NPN 100V 6A 75W功率放大\开关管2N1513硅NPN 60V 6A 75W功率放大\开关管2N1514硅NPN 100V 6A 75W功率放大\开关管2N1515锗PNP 20V 10mA 70MHz普通射频2N1516锗PNP 20V 10mA 70MHz普通射频2N1517锗PNP 20V 10mA 70MHz普通射频2N1517A锗PNP 40V 10mA 70MHz普通射频2N1518锗PNP 50V 25A 70W音频放大\开关及功率放大 2N1519锗PNP 80V 25A 70W音频放大\开关及功率放大2N152锗PNP2N1520锗PNP 50V 35A 70W音频放大\开关及功率放大2N1521锗PNP 80V 35A 70W音频放大\开关及功率放大2N1522锗PNP 50V 50A 70W音频放大\开关及功率放大2N1523锗PNP 80V 50A 70W音频放大\开关及功率放大2N1524锗PNP 24V 10mA 33MHz普通射频2N1525锗PNP 24V 10mA 33MHz普通射频2N1526锗PNP 24V 10mA 33MHz普通射频2N1527锗PNP 24V 10mA 33MHz普通射频2N1528硅NPN 25V 20mA 20MHz普通射频\开关管2N1529锗PNP 40V 5A 106W音频放大\开关及功率放大2N1529A锗PNP 40V 5A 106W音频放大\开关及功率放大2N153锗PNP2N1418硅NPN 30V 0.05A 普通射频\开关管2N1419锗PNP 80V 25A 87W音频放大\开关及功率放大2N142锗NPN 60V 0.8A *K音频放大及驱动?2N142/13锗NPN 60V 0.8A *K音频放大及驱动?2N1420硅NPN 60V 1A 低频开关管2N1420A硅NPN 60V 1A 低频开关管2N1421硅NPN 60V 3A 30W功率放大\开关管2N1422硅NPN 60V 3A 30W功率放大\开关管2N1423硅NPN 60V 3A 60W功率放大\开关管2N1424硅NPN 60V 3A 60W功率放大\开关管2N1425锗PNP 24V 10mA 33MHz普通射频2N1426锗PNP 24V 10mA 33MHz普通射频2N1427锗PNP 6V 0.05A 普通射频\开关管2N1428硅PNP 6V 0.05A 低频开关管2N1429硅PNP 6V 0.05A 低频开关管2N143锗PNP 60V 0.8A 1W *K音频放大及驱动?2N143/13锗PNP 60V 0.8A 1W *K音频放大及驱动?2N1430锗PNP 120V 10A 70W功率放大\开关管2N1431锗NPN 20V 0.1A 低频开关管2N1432锗PNP 45V 10mA 普通射频2N1433锗PNP 80V 3.5A β=20-50音频放大\开关及功率放大 2N1434锗PNP 80V 3.5A β=45-115音频放大\开关及功率放大 2N1435锗P NP 80V 3.5A β=30-75音频放大\开关及功率放大 2N1436锗PNP 15V 0.05A 开关管2N1437锗PNP 100V 3A 23W功率放大\开关管2N1438锗PNP 100V 3A 23W功率放大\开关管2N1439硅PNP 50V 0.1A β=5-12普通用途2N144锗NPN 60V 0.8A 1W *K音频放大及驱动?2N144/13锗NPN 60V 0.8A 1W *K音频放大及驱动?2N1440硅PNP 50V 0.1A β=9-22普通用途2N1441硅PNP 50V 0.1A β=18-36普通用途2N1442硅PNP 50V 0.1A β=30-65普通用途2N1443硅PNP 50V 0.1A β>50普通用途2N1444硅NPN 60V 0.5A 低频开关管2N1445硅NPN 120V 0.75A 低频开关管2N1446锗PNP 45V 0.4A β=16-45低频开关管2N1447锗PNP 45V 0.4A β=36-65低频开关管2N1448锗PNP 45V 0.4A β=50-90低频开关管2N1449锗PNP 45V 0.4A β=70-125低频开关管2N145锗NPN 20V 5mA >普通射频2N1450锗PNP 30V 0.1A 开关管2N1451锗PNP 45V 0.4A β=20-65音频放大2N1452锗PNP 45V 0.4A β=30-90音频放大2N1453锗PNP 30V 5A 43W音频放大\开关及功率放大2N1454锗PNP 30V 5A 43W音频放大\开关及功率放大2N1455锗PNP 60V 5A 43W音频放大\开关及功率放大2N1456锗PNP 60V 5A 43W音频放大\开关及功率放大2N1458锗PNP 80V 5A 43W音频放大\开关及功率放大 2N146锗NPN 20V 5mA >普通射频2N1461锗PNP 30V 5A 43W音频放大\开关及功率放大 2N1462锗PNP 30V 5A 43W音频放大\开关及功率放大 2N1463锗PNP 60V 5A 43W音频放大\开关及功率放大 2N1464锗PNP 60V 5A 43W音频放大\开关及功率放大 2N1465锗PNP 120V 3A 20W音频放大\开关及功率放大 2N1466锗PNP 120V 3A 20W音频放大\开关及功率放大 2N1468硅NPN2N1469硅PNP 40V 0.1A 普通用途2N147锗NPN 20V 5mA >普通射频2N1470硅NPN 60V 3A 55W音频放大\开关及功率放大 2N1471锗PNP 12V 0.2A 普通用途2N1472硅NPN 25V 0.1A 140MHz开关管2N1473锗NPN 40V 0.4A >4MHz低频开关管2N1474硅PNP 60V 0.1A 普通用途2N1474A硅PNP 60V 0.1A 普通用途2N1475硅PNP 60V 0.1A β=36-88普通用途2N1476硅PNP 100V 0.1A β=12-36普通用途2N1477硅PNP 100V 0.1A β=30-66普通用途2N1478锗PNP 30V 0.5A 低频开关管2N1479硅NPN 60V 1.5A 5W低频开关管2N148锗NPN 16V 5mA >普通射频2N1480硅NPN 100V 1.5A 5W低频开关管2N1481硅NPN 60V 1.5A 5W低频开关管2N1482硅NPN 100V 1.5A 5W低频开关管2N1483硅NPN 60V 3A 25W音频放大\开关及功率放大 2N1484硅NPN 100V 3A 25W音频放大\开关及功率放大 2N1485硅NPN 60V 3A 25W音频放大\开关及功率放大2N1487硅NPN 50V 6A 75W音频放大\开关及功率放大 2N1488硅NPN 100V 6A 75W音频放大\开关及功率放大 2N1489硅NPN 60V 6A 75W音频放大\开关及功率放大 2N148A锗NPN 32V 5mA >普通射频2N149锗NPN 16V 5mA >普通射频2N1490硅NPN 100V 6A 75W音频放大\开关及功率放大 2N1491硅NPN 30V 0.1A 250MHzVHF驱动2N1492硅NPN 60V 0.1A 275MHzVHF驱动2N1493硅NPN 100V 0.1A 300MHzVHF驱动2N1494锗PNP 20V 0.5A <35ns开关管2N1494A锗PNP 20V 0.5A <35ns开关管2N1495锗PNP 40V 0.5A <55ns开关管2N1495A锗PNP 40V 0.5A <55ns开关管2N1496锗PNP 40V 0.5A <55ns开关管2N1499锗PNP 20V 0.1A 开关管2N1499A锗PNP 20V 0.1A 开关管2N1499B锗PNP 30V 开关管2N149A锗NPN 32V 5mA >普通射频2N150锗NPN 16V 5mA >普通射频2N1500锗PNP 15V 0.05A 开关管2N1500/18锗PNP 15V 0.05A 开关管2N1501锗PNP 60V 3.5A 34W功率放大\开关管2N1502锗PNP 40V 3.5A 34W功率放大\开关管2N1504锗PNP 80V 3A 25W功率放大\开关管2N1504/10锗PNP 80V 3A 25W功率放大\开关管2N1505硅NPN 50V 0.5A 普通射频或驱动2N1506硅NPN 60V 0.5A 普通射频或驱动2N1506A硅NPN 60V 0.5A 普通射频或驱动2N1507硅NPN 60V 1A 低频开关管2N1508硅NPN 100V 1A 1W低频开关管2N1509硅NPN 60V 1A 1W低频开关管2N150A锗NPN 32V 5mA >普通射频2N151锗PNP2N1510锗NPN 75V 0.02A 低频开关管2N1511硅NPN 60V 6A 75W功率放大\开关管2N1512硅NPN 100V 6A 75W功率放大\开关管2N1513硅NPN 60V 6A 75W功率放大\开关管2N1514硅NPN 100V 6A 75W功率放大\开关管2N1515锗PNP 20V 10mA 70MHz普通射频2N1516锗PNP 20V 10mA 70MHz普通射频2N1517锗PNP 20V 10mA 70MHz普通射频2N1517A锗PNP 40V 10mA 70MHz普通射频2N1518锗PNP 50V 25A 70W音频放大\开关及功率放大 2N1519锗PNP 80V 25A 70W音频放大\开关及功率放大 2N152锗PNP2N1520锗PNP 50V 35A 70W音频放大\开关及功率放大 2N1521锗PNP 80V 35A 70W音频放大\开关及功率放大 2N1522锗PNP 50V 50A 70W音频放大\开关及功率放大 2N1523锗PNP 80V 50A 70W音频放大\开关及功率放大 2N1524锗PNP 24V 10mA 33MHz普通射频2N1525锗PNP 24V 10mA 33MHz普通射频2N1526锗PNP 24V 10mA 33MHz普通射频2N1527锗PNP 24V 10mA 33MHz普通射频2N1528硅NPN 25V 20mA 20MHz普通射频\开关管2N1529锗PNP 40V 5A 106W音频放大\开关及功率放大 2N1529A锗PNP 40V 5A 106W音频放大\开关及功率放大 2N153锗PNP2N1531A锗PNP 80V 5A 106W音频放大\开关及功率放大 2N1532锗PNP 100V 5A 106W音频放大\开关及功率放大2N1533锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1533A锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1534锗PNP 40V 5A 106W音频放大\开关及功率放大 2N1534A锗PNP 40V 5A 106W音频放大\开关及功率放大 2N1535锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1535A锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1536锗PNP 80V 5A 106W音频放大\开关及功率放大 2N1536A锗PNP 80V 5A 106W音频放大\开关及功率放大 2N1537锗PNP 100V 5A 106W音频放大\开关及功率放大 2N1537A锗PNP 100V 5A 106W音频放大\开关及功率放大 2N1538锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1538A锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1539锗PNP 40V 5A 106W音频放大\开关及功率放大 2N1539A锗PNP 40V 5A 106W音频放大\开关及功率放大 2N154锗PNP2N1540锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1540A锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1541锗PNP 80V 5A 106W音频放大\开关及功率放大 2N1541A锗PNP 80V 5A 106W音频放大\开关及功率放大 2N1542锗PNP 100V 5A 106W音频放大\开关及功率放大 2N1542A锗PNP 100V 5A 106W音频放大\开关及功率放大 2N1543锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1543A锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1544锗PNP 40V 5A 106W音频放大\开关及功率放大 2N1544A锗PNP 40V 5A 106W音频放大\开关及功率放大 2N1545锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1545A锗PNP 60V 5A 106W音频放大\开关及功率放大 2N1546锗PNP 80V 5A 106W音频放大\开关及功率放大 2N1546A锗PNP 80V 5A 106W音频放大\开关及功率放大2N1547A锗PNP 100V 5A 106W音频放大\开关及功率放大 2N1548锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1548A锗PNP 120V 5A 106W音频放大\开关及功率放大 2N1549锗PNP 40V 15A 106W音频放大\开关及功率放大 2N1549A锗PNP 40V 15A 106W音频放大\开关及功率放大 2N155锗PNP 30V 3A 20W音频放大\开关及功率放大2N1550锗PNP 60V 15A 106W音频放大\开关及功率放大 2N1550A锗PNP 60V 15A 106W音频放大\开关及功率放大 2N1551锗PNP 80V 15A 106W音频放大\开关及功率放大 2N1551A锗PNP 80V 15A 106W音频放大\开关及功率放大 2N1552锗PNP 100V 15A 106W音频放大\开关及功率放大 2N1552A锗PNP 100V 15A 106W音频放大\开关及功率放大 2N1553锗PNP 40V 15A 106W音频放大\开关及功率放大 2N1553A锗PNP 40V 15A 106W音频放大\开关及功率放大 2N1554锗PNP 60V 15A 106W音频放大\开关及功率放大 2N1554A锗PNP 60V 15A 106W音频放大\开关及功率放大 2N1555锗PNP 80V 15A 106W音频放大\开关及功率放大 2N1555A锗PNP 80V 15A 106W音频放大\开关及功率放大 2N1556锗PNP 100V 15A 106W音频放大\开关及功率放大 2N1556A锗PNP 100V 15A 106W音频放大\开关及功率放大 2N1557锗PNP 40V 15A 106W音频放大\开关及功率放大 2N1557A锗PNP 40V 15A 106W音频放大\开关及功率放大 2N1558锗PNP 60V 15A 106W音频放大\开关及功率放大 2N1558A锗PNP 60V 15A 106W音频放大\开关及功率放大 2N1559锗PNP 80V 15A 106W音频放大\开关及功率放大 2N1559A锗PNP 80V 15A 106W音频放大\开关及功率放大 2N156锗PNP 30V 3A 20W音频放大\开关及功率放大2N1560锗PNP 100V 15A 106W音频放大\开关及功率放大 2N1560A锗PNP 100V 15A 106W音频放大\开关及功率放大。
罗克韦尔自动化 - MSR45E 安全继电器扩展模块用户手册 - 说明书
MSR45E 安全继电器扩展模块用户手册用户重要须知本出版物中所述产品的使用方式各不相同,因此负责应用和操作相应控制设备的相关人员必须确保采取一切必要措施,以确保每次应用和操作都符合所有的性能和安全规定,包括任何适用的法律、法规、规范和标准。
本指南中所示图解、图表、示例程序和设计示例仅供参考。
由于特定的安装情况会存在许多可变因素和要求,因此,若用户在实际使用产品时参照本手册中所述示例,罗克韦尔自动化不承担任何责任 (包括知识产权法律责任)。
Safety Guidelines for the Application, Installation and Maintenance of Solid-State Control (固态控制设备的应用、安装与维护安全指南,出版号:SGI-1.1,可向您当地的罗克韦尔自动化销售处索取) 描述了固态设备和机电设备之间的一些重要差异。
在应用本出版物中描述的产品时,应考虑这些差异。
没有罗克韦尔自动化的书面授权许可,禁止全部或部分复制此具有版权资料的内容。
在整本手册中,我们在必要的地方做出了说明,以告知您安全注意事项。
标识在危险环境下可能导致爆炸,进而导致人员伤亡、物品损坏或经济损失的操作或情况。
标识对成功应用和了解本产品有重要作用的信息。
标识可能导致人员伤亡、物品损坏或经济损失的操作或情况。
注意符号可帮助您识别危险情况,避免发生危险并了解可能的后果。
位于设备 (例如,驱动器或电机) 表面或内部的标签,提醒人们可能存在危险电压。
位于设备 (例如,驱动器或电机) 表面或内部的标签,提醒人们表面可能存在高温危险。
建议您保存本用户手册,以备将来使用。
1MSR45E 安全继电器扩展模块用户手册中文版说明书目录认证和符合性. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1简介 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1特性. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2应用 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2典型应用. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2应用限制. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2尺寸 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2端子配置. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2连接硬件. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2LED 指示灯元件. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2MSR45E 扩展模块 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2选型表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3附件/组件 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3检查和保养. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3检查. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3撤拆. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3产品标签. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3技术数据. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4限弧图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5附录 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6EC 符合性声明. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7认证和符合性 上列出了由 TÜV Rheinland 执行的安全认证。
常用三极管参数大全
玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理。
IR公司_大功率MOS管选型
I DContinuous Drain Current(A)70°Micro3Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPartNumberPD Max.PowerDissipation (W)N-ChannelLogic LevelIRLML2402*912570.54200.25 1.20.95230H1IRLML2803912580.54300.251.20.93230P-ChannelLogic LevelIRLML6302*912590.54-200.6-0.62-4.8230H1IRLML5103912600.54-300.6-0.61-4.8230* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°Micro6Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPartNumberPD Max.PowerDissipation (W)N-ChannelLogic LevelIRLMS1902915401.7200.10 3.2 2.675H2IRLMS1503915081.7300.103.22.675P-ChannelLogic LevelIRLMS6702*914141.7-200.20-2.3-1.975H2IRLMS5703914131.7-300.20-2.3-1.975* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°Micro8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRF7601* 912611.820 0.035 5.7 4.6 70 H3IRF7603 912621.830 0.035 5.6 4.5 70Dual N-Channel Logic LevelIRF7501* 912651.220 0.135 2.4 1.9 100 H3IRF7503 912661.2530 0.135 2.4 1.9 100P-Channel Logic LevelIRF7604* 912631.8-20 0.09 -3.6 -2.9 70 H3IRF7606 912641.8-30 0.09 -3.6 -2.9 70Dual P-Channel Logic LevelIRF7504* 912671.25-20 0.27 -1.7 -1.4 100 H3IRF7506 912681.25-30 0.27 -1.7 -1.4 100Dual N- and P-Channel Logic LevelIRF7507* 912691.2520 0.1352.4 1.9 100 H3-20 0.27 -1.7 -1.4IRF7509 912701.2530 0.135 2.4 1.9 100-30 0.27 -1.7 -1.4* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRF7413913302.5300.011139.250H4IRF7413A 916132.5300.0135128.450IRF9410915622.5300.0375.850Dual N-ChannelIRF7311914352.0200.029 6.6 5.362.5H4IRF7313914802.0300.029 6.5 5.262.5IRF7333917002.0300.10 3.5 2.862.5917002.0300.050 4.9 3.962.5IRF9956915592.0300.103.52.862.5Dual P-ChannelIRF7314914352.0-200.058-5.3-4.362.5H4IRF7316915052.0-300.058-4.9-3.962.5IRF9953915602.0-300.25-2.3-1.862.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)RΘMax.ThermalResistance(°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)Dual N- and P-ChannelIRF7317 915682.020 0.029 6.6 5.3 62.5 H42.0-20 0.058 -5.3 -4.3 62.5IRF9952 915622.030 0.103.5 2.8 62.5915622.0-30 0.25 -2.3 -1.8 62.5IRF7319 916062.030 0.029 6.5 5.2 62.52.0-30 0.058 -4.9 -3.9 62.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRF7401912442.5200.0228.77.050H4IRF7201911002.5300.0307.0 5.650IRF7403912452.5300.0228.55.450Dual N-ChannelLogic LevelIRF7101908712.0200.10 3.5 2.362.5H4IRF7301912382.0200.050 5.2 4.162.5IRF7303912392.0300.050 4.9 3.962.5IRF7103910952.0500.1303.02.362.5P-ChannelLogic LevelIRF7204911032.5-200.060-5.3-4.250H4IRF7404912462.5-200.040-6.7-5.450IRF7205911042.5-300.070-4.6-3.750IRF7406912472.5-300.045-5.8-3.750IRF7416913562.5-300.02-10-7.150* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SO-8Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)Dual P-ChannelLogic LevelIRF7104910962.0-200.250-2.3-1.862.5H4IRF7304912402.0-200.090-4.3-3.462.5IRF7306912412.0-300.10-3.6-2.962.5Dual N- and P-Channe Logic LevelIRF7307912421.4200.050 4.3 3.490H4-200.090-3.6-2.9IRF7105910972.0250.1093.5 2.862.52-250.25-2.3-1.862IRF7309912432.0300.050 4.9 3.962.5-300.10-3.6-2.9* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)70°SOT-223Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFL4105913812.1550.045 3.7 3.060H6IRFL110908612.01000.54 1.50.9660IRFL4310913682.11000.20 1.6 1.360IRFL21090868 2.02001.50.960.660IRFL214908622.02502.00.790.560P-ChannelIRFL9110908642.0-1001.2-1.1-0.6960H6N-ChannelLogic LevelIRLL3303913792.1300.031 4.6 3.760H6IRLL014N 914992.1550.14 2.0 1.660IRLL2705913802.1550.043.83.060* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFR33039164257300.0313321 2.2H7IRFR024N9133638550.0751610 3.3IRFR41059130248550.0452516 2.7IRFR12059131869550.0273723 1.8IRFR11090524251000.54 4.3 2.75IRFR120N 91365391000.219.1 5.8 3.2IRFR391091364521000.11159.5 2.4IRFR2109052625200 1.5 2.6 1.75IRFR22090525422000.8 4.833IRFR21490703252502 2.2 1.45IRFR2249060042250 1.1 3.8 2.43IRFR3109059725400 3.6 1.7 1.15IRFR3209059842400 1.8 3.123IRFR42090599425003 2.4 1.53IRFRC2090637426004.421.33* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)P-ChannelIRFR55059161057-550.11-18-11 2.2H7IRFR53059140289-550.065-28-18 1.4IRFR90149065425-600.5-5.1-3.25IRFR90249065542-600.28-8.8-5.63IRFR91109051925-100 1.2-3.1-25IRFR91209052042-1000.6-5.6-3.63IRFR9120N 9150739-1000.48-6.5-4.1 3.2IRFR92109052125-2003-1.9-1.25IRFR92209052242-200 1.5-3.6-2.33IRFR92149165850-250 3.0-2.7-1.7 2.5IRFR93109166350-4007.0-1.8-1.12.5* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D-PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRLR27039133538300.0452214 3.3H7IRLR33039131657300.0313321 2.2IRLR31039133369300.0194629 1.8IRLR024N 9136338550.0651711 3.3IRLR27059131746550.042415 2.7IRLR29059133469550.0273623 1.8IRLR120N 91541391000.18511 6.9 3.2IRLR341091607521000.10159.52.4* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-ChannelIRFZ24NS 913554555 0.07 17 12 3.3 H10IRFZ34NS 913116855 0.04 29 20 2.2IRFZ44NS 9131511055 0.022 49 35 1.4IRFZ46NS 9130512055 0.020 53 37 1.3IRFZ48NS 9140814055 0.016 64 45 1.1IRF1010NS 913723.855 0.011 84 60 40IRF3205S 9130420055 0.008 110 80 0.75IRFZ44ES 9171411060 0.023 48 34 1.4IRF1010ES 9172017060 0.012 83 59 0.90IRF2807S 9151815075 0.013 71 50 1.0IRF520NS 9134047100 0.2 9.5 6.7 3.2IRF530NS 9135263100 0.11 15 11 2.4IRF540NS 91342110100 0.052 27 19 1.6IRF1310NS 91514120100 0.036 36 25 1.3IRF3710S 91310150100 0.028 46 33 1.0IRF3315S 9161794150 0.082 21 15 1.6IRF3415S 91509150150 0.042 37 26 1.0IRFBC20S 9.101450600 4.4 2.2 1.4 2.5IRFBC30S 9101574600 2.2 3.6 2.3 1.7IRFBC40S 91016130600 1.2 6.2 3.9 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemandNumberCase Outline KeyPart NumberP D Max.PowerDissipation (W)IRFBF20S 9166554900 8.0 1.7 1.1 2.3 H10P-ChannelIRF5305S 91386110-55 0.06 -31 -22 1.4 H10IRF4905S 914783.8-55 0.02 -74 -52 40IRF9520NS 9152247-100 0.48 -6.7 -4.8 3.2IRF9530NS 9152375-100 0.20 -14 -9.9 2.0IRF9540NS 9148394-100 0.117 -19 -13 1.6IRF5210S 91405150-100 0.06 -35 -25 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°D 2PakSurface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRL3302S 916925720 0.020 39 25 2.2 H10IRL3202S916756920 0.016 48 30 1.8IRL3102S 916918920 0.013 61 39 1.4IRL3402S 9169311020 0.01 85 54 1.1IRL3502S 9167614020 0.007 110 67 0.89IRL2703S 913604530 0.04 24 17 3.3IRL3303S 913236830 0.026 38 27 2.2IRL3103S 9133811030 0.014 64 45 1.4IRL2203NS 9136717030 0.007 116 82 0.90IRL3803S 9131920030 0.006 140 98 0.75IRLZ24NS 913584555 0.06 18 13 3.3IRLZ34NS 913086855 0.035 30 21 2.2IRLZ44NS 9134711055 0.022 47 33 1.4IRL3705NS 9150217055 0.01 89 63 0.90IRL2505S 9132620055 0.008 104 74 0.75IRLZ44S 9090615060 0.028 50 36 1.0IRL530NS 9134963100 0.1 15 11 2.4IRL2910S 91376150100 0.026 48 34 1.0* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-Pak D -PakSOT-227Micro6SOT-223Micro8 2 Illustrations not to scaleI DContinuous Drain Current(A)100°SOT-227Surface Mount PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous DrainCurrent 25°C(A)RΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelFully Isolated Low ChargeFA38SA50LC 916155005000.1338240.25H21FA57SA50LC916506255000.0857360.20* Indicates low VGS(th), which can operate at VGS = 2.7VMeasured at ambient for Micro3, Micro6, Micro8, SO-8, and SOT-223 package styles. All others measured at case.1Micro3SO-8D-PakD -PakSOT-227Micro6SOT-223Micro82 Illustrations not to scaleI DContinuous Drain Current(A)100°I-PakThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFU33039164257300.0313321 2.2H8IRFU024N 9133638550.0751610 3.3IRFU41059130248550.0452519 2.7IRFU12059131869550.0273723 1.8IRFU11090524251000.54 4.3 2.7 5.0IRFU120N 91365391000.219.1 5.8 3.2IRFU391091364521000.11159.5 2.4IRFU2109052625200 1.5 2.6 1.7 5.0IRFU22090525422000.80 4.8 3.0 3.0IRFU2149070325250 2.0 2.2 1.4 5.0IRFU2249060042250 1.1 3.8 2.4 3.0IRFU3109059725400 3.6 1.7 1.1 5.0IRFU3209059842400 1.8 3.1 2.0 3.0IRFU4209059942500 3.0 2.4 1.5 3.0IRFUC2090637426004.42.01.33.0I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°I-PakThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)P-ChannelIRFU55059161057-550.11-18-11 2.2H8IRFU53059140289-550.065-28-18 1.4IRFU90149065425-600.50-5.1-3.2 5.0IRFU90249065542-600.28-8.8-5.6 3.0IRFU91109051925-100 1.2-3.1-2.0 5.0IRFU91209052042-1000.60-5.6-3.6 3.0IRFU9120N 9150739-1000.48-6.5-4.1 3.2IRFU92109052125-200 3.0-1.9-1.2 5.0IRFU92209052242-200 1.5-3.6-2.3 3.0IRFU92149165850-2503.0-2.7-1.7 2.5IRFU93109166350-4007.0-1.8-1.12.5N-ChannelLogic LevelIRLU27039133538300.0452214 3.3H8IRLU33039131657300.0313321 2.2IRLU31039133369300.0194629 1.8IRLU024N 9136338550.0651711 3.3IRLU27059131746550.04241715IRLU29059133469550.0273623 1.8IRLU120N 91541391000.18511 6.9 3.2IRLU341091607521000.10159.52.4I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°HEXDIPThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFD014907001.3600.2 1.7 1.2120H9IRFD024906991.3600.1 2.5 1.8120IRFD110903281.31000.54 1.00.71120IRFD120903851.31000.27 1.30.94120IRFD210903861.3200 1.50.60.38120IRFD220904171.32000.80.80.50120IRFD214912711.3250 2.00.570.32120IRFD224912721.3250 1.10.760.43120IRFD310912251.3400 3.60.420.23120IRFD320912261.3400 1.80.600.33120IRFD420912271.3500 3.00.460.26120IRFDC20912281.36004.40.320.21120I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-220Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C (A)R ΘMax.Thermal Resistance(°C/W)1Faxon Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)N-ChannelLow ChargeIRF737LC91314743000.75 6.1** 1.7 3.9H11IRF740LC 910681254000.5510** 1.039IRF840LC 910691255000.858.0** 1.039IRFBC40LC910701256001.26.2**1.039I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFZ24N 9135445550.071712 3.3H12IRFZ34N9127656550.042618 2.7IRFZ44N 9130383550.0244129 1.8IRFZ46N 9127788550.024633 1.7IRFZ48N 9140694550.0165337 1.6IRF1010N 91278130550.0127251 1.2IRF320591279150550.0089869 1.0IRFZ34E 9167268600.0422820 2.2IRFZ44E 91671110600.0234834 1.4IRF1010E 91670170600.01281570.90IRF280791517150750.0137150 1.0IRF520N 91339471000.209.5 6.79.5IRF530N 91351601000.111511 2.4IRF540N 91341941000.0522719 1.6IRF1310N 916111201000.0363625 1.3IRF3710913091501000.0284633 1.0IRF331591623941500.0822115 1.6IRF3415914771501500.0423726 1.0IRFBC209062350600 4.4 2.2 1.4 2.5IRFBC309048274600 2.2 3.6 2.3 1.7IRFBC4090506125600 1.2 6.2 3.9 1.0IRFBE2090610548006.51.81.22.3I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)IRFBE3090613125800 3.0 4.1 2.6 2.0H12IRFBF3090616125900 3.7 3.6 2.3 1.0IRFBG209060454100011 1.40.86 2.3IRFBG309062012510005.03.12.01.0P-ChannelIRF9Z24N 9148445-550.175-12-8.53.3H12IRF9Z34N 9148556-550.10-17-12 2.7IRF530591385110-550.06-31-22 1.4IRF490591280150-550.02-64-45 1.0IRF9530N 9148275-1000.20-13-9.2 2.0IRF9540N 9143794-1000.117-19-13 1.6IRF521091434150-1000.06-35-25 1.0IRF62159147983-1500.29-11-7.81.8I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220ABThrough-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart NumberP D Max.PowerDissipation (W)N-Channel Logic LevelIRL3302 916965720 0.020 39 25 2.2 H12IRL3202 916956920 0.016 48 30 1.8IRL3102 916948920 0.013 61 39 1.4IRL3402 9169711020 0.01 85 54 1.1IRL3502 9169814020 0.007 110 67 0.89IRL2703 913594530 0.04 24 17 3.3IRL3303 913225630 0.026 34 24 2.7IRL3103 913378330 0.014 56 40 1.8IRL2203N 9136613030 0.007 100 71 1.230 0.007 61 43 3.2IRL3803 9130115030 0.006 120 83 1.0IRLZ24N 913574555 0.06 18 13 3.3IRLZ34N 913075655 0.035 27 19 2.7IRLZ44N 913468355 0.022 41 29 1.8IRL3705N 9137013055 0.01 77 54 1.2IRL2505 9132520055 0.008 104 74 0.75IRL520N 9149447100 0.18 10 7.1 3.2IRL530N 9134863100 0.10 15 11 2.4IRL540N 9149594100 0.044 30 21 1.6IRL2910 91375150100 0.026 48 34 1.0I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-220 FullPak (Fully Isolated)Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous DrainCurrent 25°C(A)R ΘMax.Thermal Resistance (°C/W)1Fax on Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)N-ChannelLow ChargeIRFI740GLC91209404000.55 6.0** 3.139H13IRFI840GLC 91208405000.85 4.8** 3.139IRFIBC40GLC91211406001.24.0**3.139I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelIRFIZ24N 9150126550.07139.2 5.8H14IRFIZ34N9148931550.041913 4.8IRFIZ44N 9140338550.02428200.024IRFIZ46N 9130640550.023122 3.8IRFIZ48N 9140742550.0163625 3.6IRFI1010N 9137347550.0124431 3.2IRFI32059137448550.0085640 3.1IRFIZ24E 9167329600.071149.6 5.2IRFIZ34E 9167437600.0422115 4.1IRFI510G 90829271000.54 4.5 3.2 5.5IRFI520N 91362271000.207.2 5.1 5.5IRFI530N 91353331000.11117.8 4.5IRFI540N 91361421000.0521813 3.6IRFI1310N 91611451000.0362216 3.3IRFI371091387481000.0252820 3.1IRFI620G 90832302000.8 4.1 2.6 4.1IRFI630G 90652322000.4 5.9 3.7 3.6IRFI640G 90649402000.189.8 6.2 3.1IRFI614G 9083123250 2.0 2.1 1.3 5.5IRFI624G 9083330250 1.1 3.4 2.2 4.1IRFI634G 90738322500.45 5.6 3.5 3.6IRFI644G 90739402500.287.953.1I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)IRFI720G 9083430400 1.8 2.6 1.7 4.1H14IRFI730G 9065032400 1.0 3.7 2.3 3.6IRFI740G 90651404000.55 5.4 3.4 3.1IRFI734G 9100135450 1.2 3.4 2.1 3.6IRFI744G 91002404500.63 4.9 3.1 3.1IRFI820G 9064130500 3.0 2.1 1.3 4.1IRFI830G 9064632500 1.5 3.12 3.6IRFI840G 90642405000.85 4.6 2.9 3.1IRFIBC20G 90850306004.41.71.1 4.1IRFIBC30G 90851356002.2 2.5 1.63.6IRFIBC40G 9085240600 1.2 3.5 2.2 3.1IRFIBE20G 9085330800 6.5 1.4.86 4.1IRFIBE30G 9085435800 3.0 2.1 1.4 3.6IRFIBF20G 90855309008.0 1.2.79 4.1IRFIBF30G90856359003.71.91.23.6P-ChannelIRFI9Z24N 9152929-550.175-9.5-6.7 5.2H14IRFI9Z34N 9153037-550.10-14-10 4.1IRFI49059152663-550.02-41-29 2.4IRFI9540G 9083742-1000.117-13-9.2 3.6IRFI9540N 9148742-1000.117-13-9.2 3.6IRFI52109140448-1000.06-20-14 3.1IRFI9634G 9148835-2501.0-4.1-2.63.6I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI DContinuous Drain Current(A)100°TO-220 FullPak (Fully Isolated)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C(A)R ΘMax.Thermal Resistance (°C/W)1FaxonDemand Number Case Outline KeyPart Number P D Max.PowerDissipation (W)N-ChannelLogic LevelIRLI2203N 9137847300.0076143 3.2H14IRLI38039132048300.0066747 3.1IRLIZ24N 9134426550.06149.9 5.8IRLIZ34N 9132931550.0352014 4.8IRLIZ44N 9149838550.0222820 4.0IRLI3705N 9136947550.014733 3.2IRLI25059132763550.00858412.4IRLI520N 91496271000.187.7 5.4 5.5IRLI530N 91350331000.10117.8 4.5IRLI540N 91497421000.04420143.6IRLI291091384481000.02627193.1P-ChannelLogic LevelIRFI9520G 9083537-1000.6-5.2-3.6 4.1H14IRFI9530G 9083638-1000.03-7.7-5.4 3.6IRFI9620G 9087430-200 1.5-3.0-1.9 4.1IRFI9630G 9083840-2000.8-4.3-2.7 3.6IRFI9640G9083940-2000.5-6.1-3.93.1I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not ratedI D Continuous Drain Current (A)100°TO-247Qg TotalGate Charge(nC)Through-Hole PackagesV (BR)DSSDrain-to-Source Breakdown Voltage (V)R DS(on)On-State Resistance ()ΩI D Continuous Drain Current 25°C (A)R ΘMax.Thermal Resistance (°C/W)1Fax on Demand Number Case OutlineKeyPart Number P D Max.Power Dissipation (W)1N-ChannelLow ChargeIRFP350LC912291904000.3018**0.6570H16IRFP360LC 912302804000.2023**0.4598IRFP450LC 912311905000.4016**0.6570IRFP460LC 912322805000.2720**0.4598IRFPC50LC 912331906000.6013**0.6570IRFPC60LC912342806000.4016**0.4598I-PakTO-220 FullPakTO-262TO-247HEXDIPTO-220AB Illustrations not to scale** Not rated。
科尔摩根AKM 同步伺服电机 选型指南说明书
K O L L M O R G E N | A K o l l m o r g e n C O M PA N Y欢迎来到科尔摩根官方微信科尔摩根3目录u AKM ™ 同步伺服电机4u AKD ™ 伺服驱动器8u AKM ™ 各种选件12u AKM ™ 防水型和食品级防水型电机13u AKM ™ 系统综述14u AKM ™ 图纸和性能数据AKM1x 16AKM2x 20AKM3x24AKM4x 28AKM5x 34AKM6x 40AKM7x 44AKM8x48u L 10 轴承疲劳寿命和轴负载53u 反馈选件56u 抱闸选件60u 伺服电机连接器选件61u 型号命名67u MOTIONEERING ® Online71科尔摩根A K M 同步伺服电机选型指南克服设计、采购和时间障碍科尔摩根明白:帮助原始设备制造商的工程师克服障碍,可以显著提高其工作成效。
因而,我们主要通过如下三种方式来提供帮助:集成标准和定制产品在很多情况下,理想方案都不是一成不变的。
我们拥有专业应用知识,可以根据全面的产品组合来修改标准产品或开发全定制解决方案,从而为设计奠定良好的基础。
提供运动控制解决方案而不仅仅是部件在各公司减少供应商数量和工程人力的过程中,他们需要一家能够提供多种集成解决方案的全系统供应商。
科尔摩根就采用了全面响应模式,为客户提供全套解决方案,这些方案将编程软件、工程服务以及同类优秀的运动控制部件结合起来。
覆盖全球我们在美洲、欧洲、中东和亚洲拥有众多直销、工程支持单位、生产工厂以及分销商,临近全球各地的原始设备制造商。
这种便利优势可以加速我们的供货过程,根据客户需要随时随地供货。
财务和运营稳定性科尔摩根隶属于Fortive 公司。
Fortive 业务系统是推动Fortive 各部门发展的一个关键力量。
该系统采用“不断改善”(Kaizen )原理。
由高素质人才构成的多学科团队使用世界级的工具对过程进行评估,并制定相关计划以达到卓越的性能。
赛米控丹佛斯电子 SEMiX703GB12M7p 数据表
Rev. 3.0–23.09.20211SEMiX ®3pGBTrench IGBT ModulesSEMiX703GB12M7p Features*•Homogeneous Si•Trench = Trenchgate technology •V CE(sat) with positive temperature coefficient•High overload capability •Low loss high density IGBTs•Press-fit pins as auxiliary contacts •UL recognized, file no. E63532Typical Applications•AC inverter drives •UPS•Renewable energy systemsRemarks•Product reliability results are valid for T j =150°C (recommended T j,op =-40...+150°C)•V isol between temperature sensor and power section is only 2500V•For storage and case temperature with TIM see document “TP(*) SEMiX 3p”Absolute Maximum Ratings SymbolConditions Values UnitIGBT V CES T j =25°C 1200V I C T j =175°CT c =25°C 863A T c =80°C656A I Cnom 700A I CRM1400A V GES -20 (20)V t psc V CC =800V V GE ≤ 15V V CES ≤ 1200 VT j =150°C8µs T j -40...175°C Inverse diodeV RRM T j =25°C 1200V I F T j =175°CT c =25°C 796A T c =80°C593A I FRM 1400A I FSM t p =10ms, sin 180°, T j =25°C3456A T j -40...175°C Module I t(RMS)600A T stg module without TIM -40...125°C V isolAC sinus 50Hz, t =1min4000VCharacteristics SymbolConditionsmin.typ.max.UnitIGBT V CE(sat)I C =700A V GE =15V chiplevel T j =25°C 1.55 1.94V T j =150°C 1.81V V CE0chiplevel T j =25°C 0.860.96V T j =150°C 0.75V r CE V GE =15V chiplevelT j =25°C 0.99 1.41m ΩT j =150°C1.51m ΩV GE(th)V CE = 10 V, I C =69mA5.466.6V I CES V GE =0V,V CE =1200V, T j =25°C 5mA C ies V CE =10V V GE =0Vf =1MHz 132.0nF C oes f =1MHz 4.14nF C res f =1MHz1.62nF Q G V GE =-8V ... + 15V 6150nC R Gint T j =25°C 0.7Ωt d(on)V CC =600V I C =700AV GE =+15/-15V R G on =1.5ΩR G off =1.5Ωdi/dt on =5850A/µs di/dt off =5450A/µs dv/dt =5400V/µs L s =25nH T j =150°C 390ns t r T j =150°C 130ns E on T j =150°C 83mJ t d(off)T j =150°C 530ns t f T j =150°C 110ns E off T j =150°C 77mJR th(j-c)per IGBT0.058K/W R th(c-s)per IGBT (λgrease =0.81 W/(m*K))0.035K/W R th(c-s)per IGBT, pre-applied phase change material0.025K/W2Rev. 3.0–23.09.2021© by SEMIKRONSEMiX ®3pGBTrench IGBT ModulesSEMiX703GB12M7p Features*•Homogeneous Si•Trench = Trenchgate technology •V CE(sat) with positive temperature coefficient•High overload capability •Low loss high density IGBTs•Press-fit pins as auxiliary contacts •UL recognized, file no. E63532Typical Applications•AC inverter drives •UPS•Renewable energy systemsRemarks•Product reliability results are valid for T j =150°C (recommended T j,op =-40...+150°C)•V isol between temperature sensor and power section is only 2500V•For storage and case temperature with TIM see document “TP(*) SEMiX 3p”Characteristics SymbolConditionsmin.typ.max.UnitInverse diodeV F = V EC I F =700AV GE =0V chiplevelT j =25°C 2.20 2.59V T j =150°C 2.25 2.53V V F0chiplevel T j =25°C 1.39 1.59V T j =150°C 1.08 1.18V r FchiplevelT j =25°C 1.16 1.42m ΩT j =150°C1.67 1.93m ΩI RRM I F =700A di/dt off =6300A/µs V GE =-15VV CC =600VT j =150°C 510A Q rr T j=150°C110µC E rr T j =150°C 50mJR th(j-c)per diode0.073K/W R th(c-s)per diode (λgrease =0.81 W/(m*K))0.039K/W R th(c-s)per diode, pre-applied phase change material0.031K/W Module L CE 20nH R CC'+EE'measured per switchT C =25°C 0.8m ΩT C =125°C1.1m ΩR th(c-s)1calculated without thermal coupling 0.009K/W R th(c-s)2including thermal coupling,T s underneath module (λgrease =0.81 W/(m*K))0.014K/W R th(c-s)2including thermal coupling,T s underneath module, pre-applied phase change material 0.011K/WM s to heat sink (M5)36Nm M t to terminals (M6)36Nm Nm w350g Temperature Sensor R 100T c =100°C (R 25=5 k Ω)493 ± 5%ΩB 100/125R (T)=R 100exp[B 100/125(1/T-1/T 100)]; T[K];3550 ±2%K© by SEMIKRON Rev. 3.0–23.09.202134Rev. 3.0–23.09.2021© by SEMIKRONThis is an electrostatic discharge sensitive device (ESDS) due to international standard IEC 61340.*IMPORTANT INFORMATION AND WARNINGSThe specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics ("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected in typical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes.6。
400g sr4指标
400g SR4指标1. 什么是400g SR4?400g SR4是指一种光纤传输标准,用于高速数据中心和云计算网络中的光纤通信。
它是一种四通道并行传输的光纤标准,每个通道的速率为100Gbps,因此总的传输速率为400Gbps。
2. 400g SR4的指标2.1 传输速率400g SR4的传输速率为400Gbps,这意味着它可以在短距离内以非常高的速度传输数据。
这对于需要大量数据传输的应用程序非常重要,例如高性能计算、大数据分析和人工智能。
2.2 传输距离400g SR4的传输距离受到光纤的类型和质量的限制,一般来说,它的传输距离在100米左右。
这意味着它适用于数据中心内部的短距离通信,但对于长距离通信来说并不适用。
2.3 光纤类型400g SR4使用多模光纤进行传输,这种光纤可以传输多个光束,每个光束被称为一个通道。
在400g SR4中,有四个通道,每个通道的速率为100Gbps。
2.4 光纤接口400g SR4使用MPO接口进行连接,MPO是一种多光束光纤连接器,可以同时连接多个光纤。
这种接口可以提供高速、高密度的光纤连接,非常适合于数据中心和云计算网络中的高密度光纤布线。
2.5 光纤编码400g SR4使用64B/66B编码来实现数据的传输,这种编码可以提高数据传输的可靠性和效率。
它将每个64位的数据块编码为66位的数据块,并在接收端进行解码。
3. 400g SR4的应用400g SR4广泛应用于数据中心和云计算网络中的高速数据传输。
它可以用于连接服务器、存储设备、交换机等网络设备,实现高速、可靠的数据通信。
3.1 数据中心在大型数据中心中,需要快速传输大量的数据,以支持各种应用程序的运行。
400g SR4可以提供高达400Gbps的传输速率,满足数据中心对高速数据传输的需求。
它可以用于连接服务器、存储设备和网络设备,实现数据中心内部的快速数据交换。
3.2 云计算网络在云计算网络中,需要高速数据传输来支持虚拟机的迁移、数据备份和恢复等操作。
国内外常用钢钢号对照表
国内外常用钢钢号对照表钢号中国前苏联美国英国日本法国德国GBГОСТASTM BS JIS NF DIN08F08КП1006040A04S09CK C10优08081008045M10S9CK C10 10F1010040A10XC1010101010,1012045M10S10C XC10C10,CK10质151********M15S15C XC12C15,CK15 20201020050A20S20C XC18C22,CK22 25251025S25C CK25碳30301030060A30S30C XC3235351035060A35S35C XC38TS C35,CK35 40401040080A40S40C XC38H1素45451045080M46S45C XC45C45,CK45 50501050060A52S50C XC48TS CK53结55551055070M55S55C XC5560601060080A62S58C XC55C60,CK60 15Mn15Г1016,1115080A17SB46XC1214Mn4构20Mn20Г1021,1022080A20XC1830Mn30Г1030,1033080A32S30C XC3240Mn40Г1036,1040080A40S40C40M540Mn4钢45Mn45Г1043,1045080A47S45C50Mn50Г1050,1052030A52S53C XC48080M5020Mn220Г21320,1321150M19SMn42020Mn5 30Mn230Г21330150M28SMn433H32M530Mn5合35Mn235Г21335150M36SMn438(H)35M536Mn5 40Mn240Г21340SMn44340M545Mn245Г21345SMn44346Mn7金50Mn250Г2~55M520MnV20MnV6 35SiMn35CГEn4637MnSi5结42SiMn35CГEn4646MnSi4 40B TS14B3545B50B46H构40MnB50B4045MnB50B4415Cr15X5115523M15SCr415(H)12C315Cr3钢20Cr20X5120527A19SCr420H18C320Cr4 30Cr30X5130530A30SCr43028Cr435Cr35X5132530A36SCr430(H)32C434Cr4 40Cr40X5140520M40SCr44042C441Cr4 45Cr45X5145,5147534A99SCr44545C438CrSi38XC12CrMo12XM620C R.B12CD413CrMo44 15CrMo15XM A-387Cr .B1653STC4212CD416CrMo44STT42STB42合20CrMo20XM4119,4118CDS12SCT4218CD420CrMo44CDS110STT42STB42金25CrMo4125En20A25CD425CrMo4 30CrMo30XM41301717COS110SCM42030CD442CrMo4140708A4242CD442CrMo4结708M4035CrMo35XM4135708A37SCM335CD434CrMo4 12CrMoV12XMΦ构12Cr1MoV12X1MΦ13CrMoV42 25Cr2Mo1VA25X2M1ΦA20CrV20XΦ612022CrV4钢40CrV40XΦA614042CrV6 50CrVA50XΦA6150735A30SUP1050CV450CrV4 15CrMn15XГ,18XГ20CrMn20XГCA5152527A60SUP930CrMnSiA30XГCA40CrNi40XH3140H640M40SNC23640NiCr6 20CrNi3A20XH3A331620NC1120NiCr14 30CrNi3A30XH3A3325653M31SNC631H28NiCr103330SNC63120MnMoB80B2038CrMoAlA38XMIOA905M39SACM64540CAD6.1241CrAlMo07 40CrNiMoA40XHMA4340871M40SNCM43940NiCrMo22弹60601060080A62S58C XC55C60 8585C1085080A86SUP31084簧65Mn65Г156655Si2Mn55C2Г9255250A53SUP655S655Si7 60Si2MnA60C2ГA9260250A61SUP761S765Si7钢9260H50CrVA50XΦA6150735A50SUP1050CV450CrV4滚GCr9ШX9E51100SUJ1100C5105Cr4动51100轴GCr9SiMn SUJ3承GCr15ШX15E52100534A99SUJ2100C6100Cr6钢52100GCr15SiMnШX15CГ100CrMn6易Y12A12C1109SUM12切Y15B1113220M07SUM2210S20削Y20A20C1120SUM3220F222S20钢Y30A30C1130SUM4235S20 Y40Mn A40ГC1144225M3645MF240S20耐磨钢ZGMn13116Г13ЮSCMnH11Z120M12X120Mn12T7y7W1-7SK7,SK6C70W1碳T8y8SK6,SK5素T8A y8A W1-0.8C1104Y175C80W1工T8Mn y8ГSK5具T10y10W1-1.0C D1SK3钢T12y12W1-1.2C D1SK2Y2 120C125W T12A y12A W1-1.2C XC 120C125W2T13y13SK1Y2 140C135W8MnSi C75W39SiCr9XC BH2190CrSi5Cr2X L3100Cr6合Cr0613X W5SKS8140Cr3 9Cr29X L 100Cr6金金W B1F1BF1SK21120W4 Cr12X12D3BD3SKD1Z200C12X210Cr12工Cr12MoV X12M D2BD2SKD11Z200C12X165CrMoV46 9Mn2V9Г2Φ0280M8090MnV8具9CrWMn9XBГ01SKS380M8CrWMn XBГ07SKS31105WC13105WCr6钢3Cr2W8V3X2B8ΦH21BH21SKD5X30WC9V X30WCrV93 5CrMnMo5XГMSKT540CrMnMo7 5CrNiMo5XHM L6SKT455NCDV755NiCrMoV6 4Cr5MoSiV4X5MΦCH11BH11SKD61Z38CDV5X38CrMoV51 4CrW2Si4XB2C SKS4140WCDS35-1235WCrV7 5CrW2Si5XB2C S1BSi45WCrV7W18Cr4V P18T1BT1SKH2Z80WCV S18-0-1高18-04-01速W6Mo5Cr4V2P6M3N2BM2SKH9Z85WDCV S6-5-2工06-05-04-02具W18Cr4VCo5P18K5Φ2T4BT4SKH3Z80WKCV S18-1-2-5钢18-05-04-01 W2Mo9Cr4VCo8M42BM42Z110DKCWV S2-10-1-809-08-04-02-011Cr18Ni912X18H9302302S25SUS302Z10CN18.09X12CrNi188S30200Y1Cr18Ni9303303S21SUS303Z10CNF18.09X12CrNiS188S30300不0Cr19Ni908X18H10304304S15SUS304Z6CN18.09X5CrNi189S3040000Cr19Ni1103X18H11304L304S12SUS304L Z2CN18.09X2CrNi189S304030Cr18Ni11Ti08X18H10T321321S12SUS321Z6CNT18.10X10CrNiTi189锈S3*******S200Cr13Al405405S17SUS405Z6CA13X7CrAl13S405001Cr1712X17430430S15SUS430Z8C17X8Cr17钢S430001Cr1312X13410410S21SUS410Z12C13X10Cr13S410002Cr1320X13420420S37SUS420J1Z20C13X20Cr13S420003Cr1330X13420S45SUS420J27Cr17440A SUS440AS440020Cr17Ni7Al09X17H7Ю631SUS631Z8CNA17.7X7CrNiAl177S177002Cr23Ni1320X23H12309309S24SUH309Z15CN24.13S309002Cr25Ni2120X25H20C2310310S24SUH310Z12CN25.20CrNi2520耐S310000Cr25Ni20310S SUS310SS31008热0Cr17Ni12Mo208X17H13M2T316316S16SUS316Z6CND17.12X5CrNiMo1810S316000Cr18Ni11Nb08X18H12E347347S17SUS347Z6CNNb18.10X10CrNiNb189钢S347001Cr13Mo SUS410J11Cr17Ni214X17H2431431S29SUS431Z15CN16-02X22CrNi17S431000Cr17Ni7Al09X17H7Ю631SUS631Z8CNA17.7X7CrNiAl177S17700BY:李军辉录入并校对Mar.16,2000国内外常用铝及铝合金牌号对照表国内外常用铝及铝合金牌号对照表类中国美国英国日本法国德国前苏联别GB ASTM BS JIS NF DINГОСТ工1A991199A199.99R A99业1A97A199.98R A97纯1A95A95铝1A801080(1A)10801080A A199.90A81A5010501050(1B)10501050A A199.50A5防5A025052NS450525052A1Mg2.5Amg锈5A03NS5AMg3铝5A055056NB65056A1Mg5AMg5V5A305456NG61555659572A01203621172117AlCu2.5Mg0.5D18硬2A11HF1520172017S AlCuMg1D1铝2A12212420242024AlCuMg2D16AVTV2B162319锻2A802N01AK42A9022182018AK2铝2A14201420142014AlCuSiMn AK8超硬铝7A09717570757075AlZnMgCu1.5V95PZAlSi7Mn356.2LM25AC4C G-AlSi7Mg铸ZAlSi12413.2LM6AC3A A-S12-Y4G-Al12AL2造ZAlSi5Cu1Mg355.2AL5铝ZAlSi2Cu2Mg1413.0AC8A G-Al12(Cu)合ZAlCu5Mn AL19金ZAlCu5MnCdV A201.0ZAlMg10520.2LM10AG11G-AlMg10AL8 ZAlMg5Si G-AlMg5Si AL13By:Jeffrey Lee Mar.16,2000UDDEHOLMASSA B W.nr AISI JIS出厂硬度主要成分特性淬硬温度℃回火后硬度用途UHBASDELIVEREDC Cr Ni W Mo V Co CHARACTERISTICSAUSTENITIZINGTEMP。
汽车电脑板常用易损芯片
帕萨特/高端汽车电脑仪表通讯芯片 主营汽车电脑芯片 汽车电脑板易损芯片 贴片20脚
新宝来仪表芯片 贴片SOP16脚 汽车IC 汽车仪表芯片 液晶屏驱动芯片 贴片48脚
大众途观斯柯达明锐昊锐BCM汽车电脑板转向灯控制芯片 汽车电脑板芯片 新帕萨特BCM转向灯芯片 专业汽车IC 速腾途观斯柯达明锐昊锐BCM汽车电脑板转向灯控制芯 大众POLO/波罗电脑板BCM转向灯控制芯片 专业汽车IC 新帕萨特汽车电脑前小灯驱动芯片 贴片12脚 专业汽车IC
捷达西门子汽车电脑板喷油驱动芯片 汽车IC 汽车电脑板 喷油驱动芯片 贴片八脚 专业汽车芯片IC 大众/奥迪A6汽车发动机喷油驱动芯片 博世原装 车身电脑I 伊南特喷油驱动芯片 BOSCH汽车发动机电脑板驱动IC芯片 ME7.5 M382汽车电脑板 全新捷达5V喷油驱动芯片 BOSCH ic
福特福克斯发动机电脑喷油嘴驱动芯片 福特蒙迪欧汽车发动机电脑板喷油嘴驱动芯片 汽车发动机电脑板芯片 大众捷达喷油电路芯片 福特蒙迪欧汽车发动机车身电脑板喷油嘴芯片 ME7.5 M382汽车发动机电脑板喷油驱动芯片 贴片铁底20
转速 转速 转速
存储 存储 存储 存储 存储 存储 存储 存储 存储 存储 存储 存储 存储 存储 存储
驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动 驱动
MEGAMOS-RES
VPSA132A
EM4093 HT1621B
VND5E050AK VNQ5E050MK VND5E050MK
大众朗逸/迈腾汽车车身发动机电脑板 电源驱动模块IC芯片 雪铁龙标致凯璇 马瑞利汽车发动电脑板 电源管理启动芯片 华泰圣达菲汽车发动机车身电脑板 电源管理控制驱动IC芯片
赛欧发动机电脑板电源芯片 BOSCH全新 贴片铁底36脚 汽车发动机电脑板 行身电脑ECU 马瑞利电源驱动芯片
Festo电缸操作手册说明书
原版操作手册的译本© 2021 Festo SE & Co. KG 保留一切权利1适用文件有关产品的所有可用文件 è /sp。
遵守适用文件:–操作说明–电缸操作说明2安全2.1安全注意事项–仅允许将产品安装在处于安全状态的部件上。
–清洁轴。
夹紧轴套只有夹紧在干燥且无润滑脂的轴颈上才不会打滑。
–在每次松开或旋转电机后,进行轴的参照点运行。
–选择所需的紧固件。
该组件包括最大要求的紧固件。
–根据电缸选择螺钉 [7] 的正确旋入深度。
螺钉 [7] 带有相应标记。
–遵守拧紧扭矩。
如果没有特别说明,则公差为 ± 20 %。
在拆卸时,若超过了紧固扭矩,电缸的护盖螺丝会松开。
2.2按规定使用2.2.1用途并排连接电缸和电机。
2.2.2许用的电缸和电机过载将导致功能故障和财产损失。
电机的输出端变量不得超过所使用部件的许用数值。
许用数值 è /catalogue 。
•对电机输出端变量予以相应限制。
•由接口代码推导出轴和电机。
示例:EAMM-U-60-D40-55A D40:电缸接口 55A:电机接口 电缸接口电缸1)D19EGSL-35D32EGSL-45, ESBF-32D40EGSL-55, ESBF-40D50ESBF-50D60EGSL-75, ESBF-63D80ESBF-80D100ESBF-1001) 电缸 ESBF,小型滑台式电缸 EGSLTab. 1电机接口电机1)40A EMMS-AS-4040P EMMB-/EMME-AS-4040R 外厂电机42A EMCS-/EMMS-ST-42,外厂电机55A EMMS-AS-55,外厂电机57A EMCS-/EMMS-ST-57,外厂电机60P EMMB-/EMME-/EMMT-AS-60,外厂电机60R外厂电机电机接口电机1)67AEMCA-EC-6770A EMMS-AS-70,外厂电机80P EMMB-/EMME-/EMMT-AS-80,外厂电机87AEMMS-ST-8788A 外厂电机90R 外厂电机100A EMME-/EMMS-/EMMT-AS-100,外厂电机140AEMMS-AS-1401) 伺服电机 EMM...-AS/外厂电机,步进电机 EMM...-ST/外厂电机,一体式电机 EMC...Tab. 2用户应自行决定将外厂电机与合适的机械接口进行组合。
分享飞利浦电视产品型号对照表
分享飞利浦电视产品型号对照表本一览表最后更新于2005年9月12日PHILIPS电视类产品一览表(中国市场)34''&32"显象管电视(CRT)序号商务名称产业名称机芯维修手册12NC上市日期停产日期132EL16332PW8521/93REM1.1A312278513871July.2003Running232DL100L32PW9 556/69RMG2.1EAAN/A停产332DL100C32PW9566/69RMG2.1EAAN/A停产436RF10036PW9525/12RMG3.1EAAN/A停产534SGLX34PT2515/93RL01.1A312278513210N/ANov.2003634GM8834PT3224/93RL 04AAA312278514470July.2004停产734RL8834PT3225/93RL04AAA312278514470N/ARunning834EL19034PT3543/93RL 01.1A312278513210Jan.2004生产中934RF9934PT4323/93RL01.1A312278513210N/A停产1034RF88GM34PT4523/93RL01.1A312278513210Oct.2003停产1134EL9834PT4524/93RL04AAA312278514470Aug.2004停产1234H834PT5683/93SA8.0AAA9停产1334G834PT5693/93MD1.98停产1434G934PT5893/93RA8.0AAA9停产1534SG34PT5893/93SA8.0AAA9停产1634SGT34PT5893/93TA8.0AAA0停产1734SGTLX34PT6131/93RA10AAA0停产1834RF68GM34PT6231/93RA10A312278510581N/ASept.20031934RF9034PT6251/9 3RA10AAA0停产2034RF90LX34PT6251/93SA10A312278510581N/AAug.20032134AL18034PT7005/9 3L04AAB312278514771/312278514772Oct.2005N/A2234RL18034PT7015/93L04AAB312 278514771/312278514772Oct.2005N/A2334SL18034PT7025/93L04AAB31227851477 1/312278514772Oct.2005N/A2434EF199GM34PT7321/93GEM1.1A312278513870Oc t.2003停产2534EL12234PT7321/93REM1.1A312278513870July.2003停产2634RL18834PT7322/93RL04AAB312278514771/312278514772N/ARunning2734AL 18834PT7333/93RL04AAB312278514771/312278514772N/ARunning2834EF188GM34PT8 319/93GEM1A312278510850N/A停产2934EL12034PT8320/93SEM1A312278510850N/A停产3034EL16334PT8321/93REM1.1AAA312278513870N/A停产3134TA16534PT8322/93REM1.1AAA312278513870N/ARunning3234EF10034PT8419 /93REM1A312278510850N/A停产3334SL28034PT9025/93L05ADec.20053434TS20034PT9420/93REM5A31227851261 0N/A停产3734TS30034PT9421/93REM5.2AAA312278512610Aug.2004生产中29''显象管电视(CRT)序号商务名称产业名称机芯维修手册12NC上市日期停产日期129E1829PT2525/93RL01.1AAA312278513210N/A停产229F1829PT2535/93RL01.1AAA312278513210N/A停产329RF68FX29PT2565/93RL01.1AAA312278513210N/A停产429RF68GMFX29PT2565/93SL01.1AAA312278513210N/A停产526RF6829PT2566/93RL01.1AAA312278513210N/A停产629SL3329PT3123/93RL01.1AACN/A停产729C2829PT3143/93RTC3.2AAAN/ARunning829GM8829PT3224/93RL04AAA3122785 14470N/A停产929RL8829PT3225/93RL04AAA312278514470N/ARunning1029SN8829PT3324/93RL 04AAA312278514470N/A停产1129RF9929PT3523/93RL01.1AACN/A停产1229RF88GM29PT3533/93RL01.1AACN/A停产1329AL8829PT4324/93RL04AAA312278514470N/A停产1429RF9929PT4420/93RL01.1AAA312278513210N/A停产1529RF95LX29PT6211/93TA8.0ABA0停产1629RF9029PT6221/93SA8.0ABA9停产1729RF75GM29PT6221/93TA8.0ABA0停产1829AL18029PT7005/93L04AAB514772Oct.2005N/A1929RL18029PT7015/93L04AA B514772Oct.2005N/A2029SL13329PT7021/93REM1.1A312278513870Sept.2003停产2129SL18029PT7025/93L04AAB514772Oct.2005N/A2229EF199GM29PT7321/93GEM 1.2A312278513880Sept.2003停产2329EL12229PT7321/93REM1.1A312278513870N/A停产2429RL18829PT7322/93GEM1.1A312278513870N/ARunning2529AL18829PT7333/9 3RL04AAB312278514771/312278514772N/ARunning2629EF188GM29PT8319/93GEM1A31 2278510850N/A停产2729EF100LX29PT8319/93REM1A312278510850N/A停产2829EL12029PT8320/93SEM1A312278510850N/A停产2929EL16329PT8321/93REM1.1A312278513870N/A停产3029TA16529PT8322/93REM1.1A312278513870N/A停产3129TA28029PT9025/93L05ADec.20053229TS20029PT9220/93REM5A31227851261 0N/A停产3329TS30029PT9221/93REM5.2AAA312278512610Aug.2004生产中3429RF100HX29PT9418/93GMG3.1A312278510060Apr.2001停产3529RF10029PT9418/93TMG3.1A0停产3629RF100EX29PT9418/93XMG3.1A0停产3729V774KQ4303/93BMD1.97停产25''&21''显象管电视(CRT)序号商务名称产业名称机芯维修手册12NC上市日期停产日期21A921GX1563/93SAnubis-SAA5停产21B921GX1871/93*Anubis-SBB5停产21B921GX1876/93SAnubis-SBB5停产21D921GX3566/93SAnubis-SDD6停产21D821GX3888/93SAnubis-SDD6停产21RF6721PT1324/93RL01.1A312278513210Oct.2003停产21K821PT1381/93SL7.97停产821K8II21PT1582/93RL9.99停产921KG21PT1582/93RL9.99停产1021FC21PT2381/93SL7.98停产1121V721PT238A/93RPV4.97停产1221V821PT238A/93RPV4.96停产1321V8821PT240A/93RPV4.96停产1421V921PT240A/93RPV4.96停产1521S821PT2482/93L7.99停产1621V7II21PT2482/93L7.97停产1721KA21PT2501/93RL01.2AAA484078511160July.2001停产1821KC21PT2502/93RL01.2AAA484078511160N/A停产1921M1821PT2521/93RL01.2AAA484078511160June.2001停产2021RF5021PT2555/93RL01.2A312278512750N/ASept.20032121RF98LX21PT2565 /93RL01.2AAA484078511160July.2001停产2221E821PT3182/93RL9.99停产2321SE21PT3182/93RL9.99停产2421AL8821PT3224/93RL01.1AAC312278513210July.2004July.20052521FCII21 PT3382/93RL9.99停产2621长虹SF21PT3382/93RL9.99停产2721KB21PT3520/93RL9.99停产2821SEm21PT3532/93RL9.99停产2921SEM21PT3532/93RL9.2(2K)0停产3021S8II21PT3888/93RL9.99停产3121RF7021PT3932/93RL9.1(RF)0停产3221RF95LX21PT3932/93SL9.01停产3325B925GX1881/93*Anubis-SBB5停产3425B925GX1886/93SAnubis-SBB5停产3525A1825PT2511/93RL01.1AAA484078511121Sept.2001停产3625M1825PT2521/93RL01.1AAA484078511121July.2001停产3725RF5025PT2565/93RL01.1A312278513210N/ASept.20033825RF6725PT3523/9 3RL01.1A312278513210Sept.2003生产中3925SE25PT3532/93RL9.99停产4025E825PT4182/93RL9.99停产4125A6II25PT4324/93RL9.99停产4225SA25PT4324/93SL9.14840727100081999停产4325V725PT438A/93SPV4.96停产4425H8?25PT4428/93RL7.98停产4525S825PT448A/93L7.98停产4625V7II25PT448A/93L7.98停产4725V825PT448A/93RPV4.96停产4825V8825PT448A/93RPV4.96停产4925B825PT449A/93L7.98停产5025Al8825PT4524/93RL04AAA312278514470July.2004May.20055125A625PT452 8/93RL7.98停产5225H625PT4723/93RL9.99停产5325H8825PT4823/93RL9.99停产5425SHm25PT4823/93SL9.99停产5525S8II25PT4888/93RL9.99停产5625H825PT548A/93SPV4.96停产5721B854KQ4401/93BL7.99停产等离子电视及E-Box(FlatTV&E-Box)序号商务名称产业名称机芯维修手册12NC上市日期停产日期132FD10332FD9944/69SFM23312278512790N/ADec.20032FTV42FD9932/69S42FD9 932/69SFTV1.9AN/A停产342FD3042FD9935/93SFMSept.2003停产442FD10342FD9944/69SFM24312278512770N/ASept.2003542FD10342FD9944/93S FM24312278512770Sept.2003停产642FD5042FD9953/93SFMSept.2003停产730LE16030长虹PF9946/93家电维修家电维修论坛家电维修技术论坛。
摩乐斯电子技术有限公司 HDM 后平面模块极性引脚选项销售集装箱 型号:73644说明书
DOCUMENT STATUS P1RELEASE DATE 2022/09/1308:27:36 FUNCTIONAL SYMBOLS =0=0=0DIVISIONAL SYMBOLS THIS DRAWING CONTAINS INFORMATION THAT IS PROPRIETARY TO MOLEX ELECTRONIC TECHNOLOGIES, LLC AND SHOULD NOT BE USED WITHOUT WRITTEN PERMISSIONCURRENT REV DESC: SEE REVISION TABLE ON SHEET 3EC NO:719835DRWN:KRISHH12022/05/16CHK'D:JKACHLIC 2022/09/13APPR:JKACHLIC 2022/09/13INITIAL REVISION:DRWN:RFC_PLMIMP 2018/11/28APPR:SREED 2003/05/15THIRD ANGLE PROJECTION DRAWING SERIES B-SIZE 73644SALES ASSEMBLY , HDM BACKPLANE MODULE POLAR/GUIDE OPTION PRODUCT CUSTOMER DRAWING DOCUMENT NUMBER DOC TYPE DOC PART REVISION SDA-73644-XXXX PSD 001L MATERIAL NUMBER CUSTOMER SHEET NUMBER SEE TABLE GENERAL MARKET 1 OF 3DIMENSION UNITS SCALE mm 2:1GENERAL TOLERANCES (UNLESS SPECIFIED)ANGULAR TOL ±0.5 °4 PLACES ±3 PLACES ±2 PLACES ±0.051 PLACE ±0.10 PLACES ±DRAFT WHERE APPLICABLE MUST REMAINWITHIN DIMENSIONS NOTES:1. MATERIALS : HOUSING - LIQUID CRYSTAL POLYMER (LCP) GLASS-FILLED, UL 94V-0, COLOR: BLACK TERMINAL - PHOSPHOR BRONZE.2. FINISH: SELECTIVE GOLD (Au) IN CONTACT AREA, 0.76 MCROMETERS MINIMUM THICKNESS, NICKEL (Ni) AND GOLD FLASH OVERALL. SELECTIVE GOLD (Au) IN CONTACT AREA, 0.76 MICROMETERS MINIMUM THICKNESS, SELECTIVE MATTE TIN (Sn) ON IN TAIL AREA. NICKEL (Ni) OVERALL.3. THIS PART CONFORMS TO MOLEX PRODUCT SPECIFICATION PS-73670-9999.4. FOR MIXED CONTACT MATING LENGTHS, CONSULT FACTORY FOR AVAILABILITY.5. DIMENSIONS ARE IN MILLIMETERS.6. FOR SPECIFIC MATERIAL NUMBERS, SEE SHEET 2.7. PACKAGE PER PK-70873-0818.8. PARTS MARKED WITH PART NUMBER AND DATE CODE ON EITHER SIDE, APPROXIMATLELY WHERE SHOWN.9. POSITION TOLERANCE ARE INSPECTED BY GAUGE 737270006 OR 737270011.B2.00A ±0.1510.005X 2.0014.35±0.207.05±0.25 6.502.0M ±0.25�15.7��0.43�0.40±0.03�0.40�11.7+0.15-0.20�3.5��3.45� PCB LAYOUT : COMPONENT SIDE RECOMMENDED PCB THICKNESS: 2.50 MIN.10.005X 2.002.00BHOUSING OUTLINE0.80/0.65⌀0.838 DRILL PLATED THRU HOLE ⌀1.20 COPPER PAD⌖⌀0.15ⓂY Z⌀SEE NOTE 9ZY 73644-XXXX WW/YY SEE NOTE 8⌖⌀0.30ⓂY ZSEE NOTE 9⌖⌀0.15ⓂX Y ZSEE NOTE 9⌖⌀0.20X Y Z SEE NOTE 9ZY 1A A2BB 3CC 4DD 5E E6F F78910XFORMAT: master-tb-prod-BREVISION: J1DATE: 2021/05/01DOCUMENT STATUSP1RELEASE DATE 2022/09/1308:27:36 FUNCTIONAL SYMBOLS =0=0=0DIVISIONAL SYMBOLS DIMENSION UNITS SCALE mm 2:1GENERAL TOLERANCES (UNLESS SPECIFIED)ANGULAR TOL ±0.5 °4 PLACES ±3 PLACES ±2 PLACES ±0.051 PLACE ±0.10 PLACES ±DRAFT WHERE APPLICABLE MUST REMAIN WITHIN DIMENSIONS CURRENT REV DESC: SEE REVISION TABLE ON SHEET 3EC NO:719835DRWN:KRISHH12022/05/16CHK'D:JKACHLIC 2022/09/13APPR:JKACHLIC 2022/09/13INITIAL REVISION:DRWN:RFC_PLMIMP 2018/11/28APPR:SREED 2003/05/15THIRD ANGLE PROJECTION DRAWING SERIES B-SIZE 73644THIS DRAWING CONTAINS INFORMATION THAT IS PROPRIETARY TO MOLEX ELECTRONIC TECHNOLOGIES, LLC AND SHOULD NOT BE USED WITHOUT WRITTEN PERMISSION SALES ASSEMBLY , HDM BACKPLANE MODULE POLAR/GUIDE OPTION PRODUCT CUSTOMER DRAWING DOCUMENT NUMBER DOC TYPE DOC PART REVISION SDA-73644-XXXX PSD 001L MATERIAL NUMBER CUSTOMER SHEET NUMBER SEE TABLE GENERAL MARKET 2 OF 3MATERIALNUMBER NUMBER OF SIGNAL CONTACTS PLATING DIM "A"DIM "B"DIM "M"73644-00**72SELECTIVE GOLD/GOLD FLASH 31.6022.00 5.0073644-01**72SELECTIVE GOLD/GOLD FLASH 31.6022.00 5.5073644-02**72SELECTIVE GOLD/GOLD FLASH 31.6022.00 6.0073644-10**144SELECTIVE GOLD/GOLD FLASH 55.6046.00 5.0073644-11**144SELECTIVE GOLD/GOLD FLASH 55.6046.00 5.5073644-12**144SELECTIVE GOLD/GOLD FLASH 55.6046.00 6.0073644-20**72 SELECTIVE GOLD/SELECTIVE MATTE TIN 31.6022.00 5.0073644-21**72 SELECTIVE GOLD/SELECTIVE MATTE TIN 31.6022.00 5.5073644-22**72 SELECTIVE GOLD/SELECTIVE MATTE TIN 31.6022.00 6.0073644-30**144 SELECTIVE GOLD/SELECTIVE MATTE TIN 55.6046.00 5.0073644-31**144 SELECTIVE GOLD/SELECTIVE MATTE TIN 55.6046.00 5.5073644-32**144 SELECTIVE GOLD/SELECTIVE MATTE TIN 55.6046.00 6.001A A2BB 3C C 4D D5EE 6F F78910LOCATION ALOCATION B ROW F ROW ALOCATION BLOCATION AREF. MATERIAL NUMBER 73644-0008GUIDE PIN IS IN LOCATION BPOLARIZING KEY IS IN LOCATION A, POSITION E REF. MATERIAL NUMBER 73644-0009GUIDE PIN IS IN LOCATION A POLARIZING KEY IS IN LOCATION B, POSITION E MATERIAL NUMBER ASSIGNMENT 73644 - * * * *CIRCUIT SIZE0= 72 CIRCUIT, GOLD/GOLD FLASH1= 144 CIRCUIT, GOLD/GOLD FLASH2= 72 CIRCUIT, GOLD/MATTE TIN3= 144 CIRCUIT, GOLD/MATTE TIN* FORMERLY TIN/ LEAD 0= 5.00 MATING LENGTH1= 5.50 MATING LENGTH2= 6.00 MATING LENGTHNUMBER GUIDE POST LOCATION POLAR KEY POSITION 00B A 01A 02B B 03A 04B C 05A 06B D 07A 08B E 09A 10B F 11A 12B G 13A 14B H 15A 16B N/A17A 18N/ADOCUMENT STATUS P1RELEASE DATE 2022/09/1308:27:3632FUNCTIONAL SYMBOLS =0=0=0A 5B FDIVISIONAL SYMBOLS 91CDIMENSION UNITS SCALE mm 1:1GENERAL TOLERANCES (UNLESS SPECIFIED)ANGULAR TOL ±0.5 °4 PLACES ±3 PLACES ±2 PLACES ±0.051 PLACE ±0.10 PLACES ±DRAFT WHERE APPLICABLE MUST REMAINWITHIN DIMENSIONS SALES ASSEMBLY , HDM BACKPLANE MODULE POLAR/GUIDE OPTION PRODUCT CUSTOMER DRAWING DOCUMENT NUMBER DOC TYPE DOC PART REVISION SDA-73644-XXXX PSD 001L MATERIAL NUMBER CUSTOMER SHEET NUMBER SEE TABLE GENERAL MARKET 3 OF 3CURRENT REV DESC: SEE REVISION TABLE ON SHEET 3EC NO:719835DRWN:KRISHH12022/05/16CHK'D:JKACHLIC 2022/09/13APPR:JKACHLIC 2022/09/13INITIAL REVISION:DRWN:RFC_PLMIMP 2018/11/28APPR:SREED 2003/05/15THIRD ANGLE PROJECTION DRAWING SERIES B-SIZE 73644THIS DRAWING CONTAINS INFORMATION THAT IS PROPRIETARY TO MOLEX ELECTRONIC TECHNOLOGIES, LLC AND SHOULD NOT BE USED WITHOUT WRITTEN PERMISSIONE 6E 710F BA8D D C 4DATE REV DESCRIPTION05/19/2022L1. DRAWING MIGRATION.2. SHEET 1: E07:DIMENSION 0.92 REMOVED BECAUSE DIM 'A' AND DIM 'B' ARE WITH SAME CENTER LINE, SO DIM 0.92 IS NOT REQUIRED.3. SHEET 1: C09: DIM 0.42 CHANGED TO 0.40±0.03MM, TO FOLLOW ACTUAL COMPONENT DIMENSION.0.394. SHEET 1: D06: TOLERANCE OF DIM 'A' CHANGED TO ±0.15 FROM ±0.10, TO FOLLOW ACTUAL COMPONENT DIMENSION.5. SHEET 1: C10: DIM 2.00 CHANGED TO DIM 2.0 TO INCREASE THE TOLERANCE TO FOLLOW ACTUAL COMPONENT DIMENSION.6. SHEET 1: E04: ADDED NOTE 9 FOR POSITION TOLERANCE MEASUREMENT.7. SHEET 1: E08, E07, C04, B03 : REMOVED BRACKET FROM THE BASIC DIMENSION 10.00, B , 10.00, B RESPECTIVELY FOR TP CONTROL8. SHEET 1: B08, C10, C06, C01 : ADDED "SEE NOTE 8" FOR TP CONTROL9. SHEET 1: C08: DIM 7.05±0.20 AND 14.35±0.15 CHANGED TO 7.05±0.25 AND 14.35±0.15 RESPECTIVELY.。
罗克韦尔自动化 MSR42 安全继电器和 MSR45E 扩展模块安全功能应用说明书
3
简介
本安全功能应用说明阐述了如何对 MSR42 安全继电器以及带 GSR SI 安全继电器的 MSR45E 扩展模块进行接线、配置和集成,以监控 440L GuardShield™ 光幕,从而创建 一个具有附加急停功能的双传感器 L 型屏蔽 (单向屏蔽) 系统。如果有物体中断光幕 视野 (光幕未被屏蔽的情况下),或在监控电路中检测到故障,则 MSR42/MSR45E 将使 一对 100S 冗余接触器断电,以停止运动。每当按下急停按钮时,GSR SI 使接触器断电, 以停止运动。 当指定尺寸的物体按正确顺序通过屏蔽传感器时,光幕将被屏蔽。此时允许物体继续 通过光幕,而不会停止运动。一旦物体离开光幕视野,将立即终止屏蔽。 提供了屏蔽超控功能,以清除滞留在受监视区域的物体。 如果物体从“非屏蔽”方向中断光幕视野,或没有在配置的时间间隔内按正确顺序通 过屏蔽传感器,则 MSR42/MSR45E 将使接触器断电。
ਸ๔ǖޅ၃ೠࠚ (ISO 12100)
1
Ҿඇࠀీ๎՚
2
߳Ҿඇࠀీڦ༬Ⴀࡀ߭
3
ඓۨ߳ҾඇࠀీႴ ڦPL (PLr)
ຐǖํ၄ࢅ PL ೠࠚ
光幕屏蔽安全功能
本应用项目包括三个安全功能:
1. 由光幕启动的危险运动急停。 2. 光幕屏蔽。 3. 由急停按钮启动的危险运动急停。 该系统执行停止类别 0 停止。允许运动滑行停止。
只要进行正确屏蔽,即可中断光幕视野,而无需释放安全接触器。每当光幕被屏蔽时,屏蔽灯通电。
物料清单
目录号 440L-P4KL1280YD
889D-F8AB-2
440G-A27011
889D-F4AC-2 60-2649 92-89 440R-P226AGS-NNR 800FM-G611MX10
FS FORTH-SYSTEME GmbH Mod520C_2 产品说明书
Mod520C_2P.O. Box 11 03l D-79200 Breisach, Germany Kueferstrasse 8l D-79206 Breisach, Germany (+49 (7667) 908-0 l Fax +49 (7667) 908-200 l e-mail:****************Mod520C_2© Copyright 2004:FS FORTH-SYSTEME GmbHPostfach 1103, D-79200 Breisach a. Rh., GermanyRelease of Document:May 27, 2004Filename:Mod520C_2.docAuthor:Hans-Peter SchneiderAll rights reserved. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of FS FORTH-SYSTEME GmbH.2Mod520C_2 Table of Contents1.Introduction (4)2.Features (5)3.Functional Description (6)3.1.1.CPU AMD ÉlanSC520 (6)3.1.2.SDRAM stage (6)3.1.3.ROM stage (6)3.1.4.SRAM stage (6)3.1.5.32 I/O Ports (7)3.1.6.256 Byte EEPROM for BIOS and Applications on PIO30,31 (7)3.1.7.On-board Power Supply (7)3.1.8.Voltage Supervision, RESET Generation (7)3.1.9.Serial Ports (7)3.1.10.Fast Ethernet Controller Stage (8)3.1.11.Dual CAN Controller Stage (8)3.1.12.GP Bus used for ISA Bus (9)4.Connectors Of MOD520C (10)4.1.System Connector X2 (10)4.2.System Connector X4 (12)5.Application Notes (14)5.1.Power Supply (14)5.2.Important Signals (14)5.2.13.PCICLKRTN PCICLK PCICLKETHER (14)5.2.14.ISA-Bus Signals (14)5.2.15.CAN-Interrupt IRQ11 (15)6.Members of the MOD520C family (16)3Mod520C_21. IntroductionThe module MOD520C with its integrated and optional peripherals, based on the 32 Bit AMD ÉlanSC520 microcontroller, is designed for medium to high performance applications in telecommunication, data communication and information appliances on the general embedded market. It can easily be designed in customized boards.The AMD ÉlanSC520 microcontroller combines a low voltage 586 CPU running on 133 MHz, including FPU (Floating Point Unit) with a set of integrated peripherals: 32 Bit PCI controller, SDRAM controller for up to 256 MByte, GP (General Purpose) bus with programmable timing and ROM/Flash controller. Enhanced PC compatible peripherals like DMA controller, two UARTs and battery buffered RTC and CMOS, watchdog and software timers make this device a very fast system for both real time and PC/AT compatible applications. Insyde Software’s Mobile BIOS is available which offers serial and parallel remote features (video, keyboard, floppy). Furthermore FS FORTH-SYSTEME has adapted Datalight Sockets (TCP/IP Stack), ROM-DOS and the Flash File System FlashFX to this environment.The MOD520C offers the software engineer the possibility to reduce the time-to-market phase even more. FS FORTH-SYSTEME added several features on-board as SDRAM (up to 64 MByte), PCI Fast Ethernet controller to facilitate networking and remote control. A Strata-FLASH for booting and data is included on board. Two CAN Ports are additionally available for communication. 512 Kbyte SRAM is available for battery buffered data. The enhanced JTAG port for low-cost debugging is supported. This allows instruction tracing during execution. FS FORTH-SYSTEME has adapted Windows CE 3.0 to this platform and offers drivers and support. With Ethernet debugging the software designer has powerful means for fast debugging his applications.Due to the 16 MByte FLASH it is possible to build larger, complete systems on this module like Linux, QNX or VxWorks.4Mod520C_252. Features• 16 MByte STRATA-FLASH or 2 MByte AMD FLASH • 64 MByte or 16 MByte SDRAM • 512 KByte battery buffered SRAM• PCI Ethernet controller with EEPROM. Rx and Tx signals are providedon the System Connectors • Two CAN-Buses.• Enhanced JTAG port available on System Connector.• GP-Bus signals available on System Connector • PCI-Bus signals available on System Connector• BIOS for ÉlanSC520 by Insyde Software Inc. Including serial or parallelremote features (Video, Keyboard, Floppy).Mod520C_23. Functional Description3.1.1. CPU AMD ÉlanSC520The CPU AMD ÉlanSC520 is powered with 2.5V (core and analog path) and 3.3V (all other voltages) except VRTC, which is powered with about 3V either from battery or from on-board 3.3V. This voltage is limited to 3.3V, the other 3.3V power planes have a limit of 3.6V.The CPU is clocked with a 32.768 kHz quartz. An internal PLL derives from this frequency the RTC clock and DRAM refresh clock and the clocks for PC/AT compatible PIT (1.1882 MHz) and UARTs (18.432 MHz). All other stages (CPU, PCI, GP bus, GP DMA, ROM, SSI, timers) are fed from the second clock generator driven by a 33.33 MHz clock oscillator. SDRAM is clocked with 66.66 MHz.3.1.2. SDRAM stageThe SDRAM (up to 128 MByte on-board) has its own DRAM bus containing memory addresses MA0..12, memory data MD0..31 and control signals for up to four banks. Due to small load no buffering of clocks and signals is necessary.3.1.3. ROM stageROM or FLASH are driven by the general purpose address bus GPA0..25. It has three programmable chip selects with each up to 64 MByte range. The ROM Data bus is either the 32 bit general purpose bus GPD0..31 or the memory data bus MD0..31. Configuration pins decide, which bus at boot time is used. The bus size is selectable with 8, 16 or 32 bit. The MOD520C has a FLASH IC for up to 16 MByte 16 bit ROM or FLASH selected by BOOTCS# connected to MD0..15. 3.1.4. SRAM stageThe SRAM (512 KByte on-board) is buffered by VBAT. The Memory Location is defined in the System BIOS. ROMCS1# is used to access the SRAM.6Mod520C_23.1.5. 32 I/O PortsThe ÉlanSC520 CPU has 32 I/O ports. They have alternate functions. Most of them are control signals for GP bus (PIO0..26) used as ISA-bus. PIO27 (GPCS0#) is used as a programmable external chip select and PIO28,29 are not connected. PIO30,31 are used to drive a serial parameter EEPROM on-board. 3.1.6. 256 Byte EEPROM for BIOS and Applications on PIO30,31An on-board serial EEPROM with 256 byte and I2C bus is controlled by PIO30 (I2CDAT) and PIO31 (I2CCLK). 128 byte are used for non-volatile BIOS defaults, the remaining range may contain application specific data and parameters. The BIOS contains calls to read and write to this memory (see BIOS documentation).3.1.7. On-board Power SupplyThe 2.5V on-board voltage is generated from +5V.An external battery may be connected to the signal VBATIN. Battery status is controlled by BBATSEN, which sets a power fail bit in a status register for RTC, if BBATSEN is low at power-up.3.1.8. Voltage Supervision, RESET GenerationThree voltages are used on board: +2.5V, +3.3V and +5V. U2 controls +5V and U10 controls +3.3V. LBOUT or PWRGOOD will become low, if these voltages are out of tolerance. An external SRESET# is wired or-ed to U10. It can also be activated from extended JTAG signal SRESET# via X1. The wired OR of 1RESET# and 2RESET# control U10. Its output PWRGOOD is low (not active), if either the signals described above from U10 are low or +5V is out of tolerance. Typical length of PWRGOOD low is longer than 1 sec (minimum 790 msec).3.1.9. Serial PortsThe AMD ÉlanSC520 CPU has two internal asynchronous ports and one synchronous serial port. Both of this ports are available at the System Connectors.7Mod520C_23.1.10. Fast Ethernet Controller StageConnected to the PCI bus device 0 (REQ/GNT0#) of the Élan SC520 CPU, a Fast Ethernet Controller U7 supports 10/100Mbps transfer depending on driver software. X3 is a JST B5B-PH-SM3 5 pin connector. Parameters as physical address and power down modes are stored in a 64X16 bit Serial EEPROM controlled by U7. 2 status LEDs LE1, LE2 show the state of the Ethernet connection. For a more detailed hardware and software description see Intel 82559ER manual.3.1.11. Dual CAN Controller StageThe CAN Controller is selected via ROMCS1# and the Memory location is selectable in the BIOS Setup Screen. The CAN Interrupt provided by 82C900 is inverted by the onboard Lattice CPLD. Since the Interrupt asserted by the 82C900 is only a low active pulse of 0.2µs the CPLD holds the interrupt active until the software accesses the Memory at the location CAN-Base+1xxh. The BIOS routes this interrupt to IRQ11.8Mod520C_2 3.1.12. GP Bus used for ISA BusThe AMD ÉlanSC520 CPU contains an 8/16bit General Purpose Bus (GP bus) with 26 address lines (GPA0..25), 16 data lines (GPD0..15) and different control lines using PIO ports in their alternate GP bus function. Its timing is programmable for speeds up to 33MHz. This bus is to emulate a 16 bit ISA bus (PC/104) running with 8 MHz. ISA bus signal are connected without buffers directly to the lines of the CPU due to the 5V tolerance of the 3.3V signals.8 bit signals SMEMRD# and SMEMWR# (active only at addresses beyond 1 MByte) are not supported (GPMEM_RD# and GPMEM_WR# used).The AMD ÉlanSC520 CPU has only 4 DMA channels on GP bus. DMA channel 2 is used for Super-I/O (U2) on EVAMOD520. All four channels are connected to edge connector X2.Not supported ISA bus signals 0WS#, IOCHK#, IRQ15, REFRESH#, 8MHz and 14.318 MHz clocks, MASTER#.9Mod520C_24. Connectors Of MOD520C4.1. System Connector X2Pin Function I/O Pin Function I/O1+3.3V power2GND power 3+3.3V power4GND power 5GPD0I/O6TDP O7GPD1I/O8TDN O9GPD2I/O10not connected11GPD3I/O12RDP I13GPD4I/O14RDN I15GPD5I/O16not connected17GPD6I/O18DRQ0I19GPD7I/O20DRQ2I21GPD8I/O22DRQ5I23GPD9I/O24DRQ7I25GPD10I/O26DACK0#O27GPD11I/O28DACK2#O29GPD12I/O30DACK5#O31GPD13I/O32DACK7#O33GPD14I/O34GND power 35GPD15I/O36GPRESET O37GND power38GPIORD#O39GPA0O40GPIOWR#O41GPA1O42GPALE O43GPA2O44GPBHE#O45GPA3O46GPRDY I47GPA4O48GPAEN O49GPA5O50GPTC O51GPA6O52GPDBUFOE#O53GPA7O54GPIO_CS16#O55GPA8O56GPMEM_CS16#O57GPA9O58GPCS0#O59GPA10O60GPMEM_RD#O61GPA11O62GPMEM_WR#O63GPA12O64GND power 10Pin Function I/O Pin Function I/O65GPA13O66EXTRES#I67GPA14O68PWRGOOD O69BUFA15O70CLKTEST71BUFA16O72PRG_RESET73BUFA17O74GND power75BUFA18O76GPCS1#O77BUFA19O78GPCS2#O79BUFA20O80GPCS3#O81BUFA21O82GPCS4#O83BUFA22O84GPCS5#O85BUFA23O86GPCS6#O87BUFA24O88GPCS7#O89BUFA25O90VBATIN power91GND power92GND power93IRQ1I94RSTLD0I95IRQ3I96RSTLD1I97IRQ4I98RSTLD2I99IRQ5I100RSTLD3I101IRQ6I102RSTLD4I103IRQ7I104RSTLD5I105IRQ9I106RSTLD6I107IRQ10I108RSTLD7I109CANINT I110DBGDIS I111IRQ12I112INSTRC I113IRQ14I114DBGENTR I115SPEAKER O116not connected117+5V power118GND power119+5V power120GND power114.2. System Connector X4Pin Function I/O Pin Function I/O1PCICLKRTN I2GND power 3PCICLK O4PCICLKETHER I5AD0I/O6CBE0#I/O7AD1I/O8CBE1#I/O9AD2I/O10CBE2#I/O11AD3I/O12CBE3#I/O13AD4I/O14not connected15AD5I/O16not connected17AD6I/O18not connected19AD7I/O20not connected21AD8I/O22GND power 23AD9I/O24RXD1I25AD10I/O26TXD1O27AD11I/O28CTS1#I29AD12I/O30DCD1#I31AD13I/O32DSR1#I33AD14I/O34RIN1#I35AD15I/O36DTR1#O37AD16I/O38RTS1#O39AD17I/O40RXD2I41AD18I/O42TXD2O43AD19I/O44CTS2#I45AD20I/O46DCD2#I47AD21I/O48DSR2#I49AD22I/O50RIN2#I51AD23I/O52DTR2#O53AD24I/O54RTS2#O55AD25I/O56CANH1/TXD157AD26I/O58CANL1/RXD159AD27I/O60CANH2/TXD261AD28I/O62CANL2/RXD263AD29I/O64GND power 12Pin Function I/O Pin Function I/O65AD30I/O66SRESET#I67AD31I/O68GPRESET#O69GND power70TCK O71INTA#I72TMS73INTB#I74TDI I75INTC#I76TDO O77INTD#I78TRST#I79REQ0#I80CMDACK81REQ1#I82BR/TC83REQ2#I84GND Power85REQ3#I86STOP/TX87REQ4#I88TRIG/TRACE89GNT0#O90not connected91GNT1#O92ACTLED#O93GNT2#O94LILED#O95GNT3#O96SPEEDLED#O97GNT4#O98not connected99GND power100GND power101PAR I/O102SSI_CLK O103PERR#I/O104SSI_DO O105SERR#I106SSI_DI I107FRAME#I/O108not connected109TRDY#I/O110ISP_TDI I111IRDY#I/O112ISP_TDO O113STOP#I/O114ISP_TMS115DEVSEL#I/O116ISP_TCK I117RST#O118BSCAN#119GND power120GND power135. Application Notes5.1. Power SupplyThe MOD520C needs +3.3V and 5V power supply.3.3V worst case supply current is 1130 mA5V worst case supply current is 550 mABe sure to design your power supply for this current including large load transients.5.2. Important Signals5.2.13. PCICLKRTN PCICLK PCICLKETHERPCICLK is the clock source for the PCI-Bus. PCICLKETHER is the clock input for the Ethernet Controller. PCICLKRTN is the clock input of the AMD Élan Sc520. This pin is used to synchronize the CPU with the external PCI-Bus. Therefore it is important that all clock traces have the same length to provide each PCI-Target with the clock at the same time. Trace length of each of this clocks is 68mm on the module. If you do not plan to connect an additional PCI-Target on your board you just add a serial resistor 33R between PCICLK and PCICLKRTN and one between PCICLK and PCICLKETHER.5.2.14. ISA-Bus SignalsIf you use the ISA-Bus Signals you have to add some resistors to the following Signals:GPD0 – GPD15 4k7 pull upGPRDY1k pull downIRQ´s10k pull upDRQ´s10k pull down145.2.15. CAN-Interrupt IRQ11IRQ11 is used for the CAN-Controller 82C900 and is not sharable. Since the interrupt provided by 82C900 is a low active pulse with a length of 0.2µs the CPLD inverts this signal and holds it until the software acknowledges the interrupt. To acknowledge this interrupt the software has to access a memory location with the offset 1xxh to the CAN-Base. This memory access is just an access of the system memory, not an access of the CAN-Controller.156. Members of the MOD520C familyNumbe r Variant Flash SDRAM SRAM CAN CAN-DriverTemp.320MOD520C_0_V018M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519512k*8Yes Yes0..70°321MOD520C_0_V021M*16, AMD(=2 Mbyte)1*TM015202*4M*16(=16 Mbyte)2*TM01519512k*8Yes Yes0..70°322MOD520C_0_V038M*16, Strata(=16 Mbyte)1*TM014452*16M*16(=64 Mbyte)2*TM01249512k*8Yes Yes0..70°334MOD520C_1_V01MOD520C_2_V018M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519512k*8TM0Yes no0..70°335MOD520C_1_V02MOD520C_2_V021M*16, AMD(=2 Mbyte)1*TM015202*4M*16(=16 Mbyte)2*TM01519512k*8TM0Yes no0..70°336MOD520C_1_V03MOD520C_2_V038M*16, Strata(=16 Mbyte)1*TM014452*16M*16(=64 Mbyte)2*TM01249512k*8TM0Yes no0..70°184MOD520C_1_V048M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519No No No0..70°16。
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MODEL SR445A 350 MHz PREAMPLIFIERMODEL SR445A 350 MHz PREAMPLIFIER1290-D Reamwood AvenueSunnyvale, California 94089Phone: (408) 744-9040 • Fax: (408) 744-9049email: info@ • Copyright © 2004 by SRS, Inc.All Rights Reserved.Revision 1.1 (03/2006)CertificationStanford Research Systems certifies that this product met its published specifications at the time of shipment.WarrantyThis Stanford Research Systems product is warranted against defects in materials and workmanship for a period of one (1) year from the date of shipment.ServiceFor warranty service or repair, this product must be returned to a Stanford Research Systems authorized service facility. Contact Stanford Research Systems or an authorized representative before returning this product for repair.Information in this document is subject to change without notice.Copyright © Stanford Research Systems, Inc., 2004. All rights reserved.Stanford Research Systems, Inc.1290-C Reamwood AvenueSunnyvale, California 94089Phone: (408) 744-9040 • Fax: (408) 744-9049 • e-mail: info@Printed in U.S.A.SR445A Quad Fast AmplifierDescriptionThe SR445A is a four-channel, 350MHz bandwidth, dc coupled, 50Ω amplifier with a gain of 5× (or +14dB) in a half-width 1U chassis. Two, three or four channels may be cascaded for gains of 25×, 125×, or 625×, (+28dB, +42dB, or +56dB.) The unit uses BNC connectors for inputs and outputs. The unit is powered from the ac mains by a universal input power supply.The full scale input is ±200mV. The input noise is typically 5.2nV/√Hz. The output is linear over ±1V and should be terminated into a 50Ω load. Output rise and fall times are 1.3ns. The output will recover from a 10× full scale overload in 3ns. The unit is protected from ±50V, 1µs input overloads.There are five LEDs on the front panel; one indicates that the unit is powered and “on” and four indicate when the output signal for the corresponding channel is outside its linear range, typically ±1.3Vdc. Brief overloads (<5ns) trigger a 10ms flash.OperationThe input impedance for each channel is 50Ω. (There is a front panel switch that allows the input resistance of Channel 1 to be set to either 500Ω or 50Ω. The 500Ω setting provides high transimpedance gain for current source—such as photomultiplier tubes—that may be useful when the amplifier is located close to the signal source.) The dc input voltage must be limited to ±4V to avoid damaging the amplifier front-end. The amplifier is internally protected from 50V transients of 1µS duration. The 50Ω input impedance is intended to terminate 50Ω coaxial cable such as RG-58.The amplifiers perform well when cascaded due to their high input return loss and flat frequency response characteristics. Referenced to the input, the broadband noise (1Hz to 300MHz) is 80µV rms. Peak-to-peak noise is typically 5× the RMS value and so one would expect to see about 10mV pp at the output of two cascaded amplifiers, 50mV pp at the output of three cascaded amplifiers, and 250mV pp at the output of four cascaded amplifiers.SR445A SpecificationsMaxUnitsTypSpecification MinInputs (driven by 50Ω source)Input signal level -200 +200 mVImpedance 49.5 50 50.5 ΩReturn loss 32 dBOffset -500 0 +500 µVOffset drift -10 +10 µV/°CBias current (note 1) 3 10 µAProtection (dc) -4 +4 VdcProtection (1µS transient) -50 +50 VRecovery time (10×FS overload) 3 nSNoise (10Hz) 22 nV/√HzNoise (100Hz) 8.6 nV/√HzNoise (> 1kHz) 5.2 nV/√HzNoise (1Hz to 300MHz BW) 80 µVrmsCrosstalk (CH1 out to CH2 in) -61 dBCrosstalk (CH2 out to CH1 in) -82 dBAmplifierGain (note 2) 4.95 5.00 5.05 V/VBandwidth (-3dB) 350 MHzRise/fall time 1.3 nSPropagation delay 2.7 nSOutputs (driving 50Ω)Source impedance (note 3) 49.5 50 50.5 ΩLinear operation -1.0 +1.0 VOverload level -1.3 +1.3 VLimit level -1.6 +1.6 VGeneralNumber of Channels 4Operating temperature 0 40 ºCMains voltage 90-132 175-264 VacMains power 15 WattsMains frequency 47 63 HzDimensions 8.35” 1.70” 8.10” W×H×DNotes:1.The input bias current flows out of the unit, creating a positive offset of about 150µV on the 50Ωinput termination. This offset will be affected by the dc impedance of the source that is connectedto the input.2.Amplifier gain is calibrated by applying a known current to the input and measuring the voltageinto a high impedance load. The gain is adjusted so that a 1mA source applied to the inputproduces a 500mV voltage at the unloaded output.3.Channel 1 may be set to either 500Ω or 50.5Ω via a front panel switch.CalibrationThe purpose of the calibration is to verify operation of the unit and:1.Adjust the high frequency compensation for best pulse response.2.Adjust the offset to null the dc voltage at the output with no input.3.Adjust the gain to 10× for an unloaded output so that the nominal gain for anamplifier driving a 50Ω load will be 5× (or +14dB.)Since the adjustments are interdependent, it is important that the adjustments be done in the prescribed order, and that all of the adjustments be done. For example, adjusting the high frequency compensation will affect the output offset. Calibration pots are accessible from the underside of the unit.Required equipment:1.Pulse generator, splitter and attenuator to produce two ±100mV square waveswith a rise time of less than 1nS. (ECL reference output from SR620 TimeInterval Counter into an unmatched tee driving two 50Ω cables with a 20dBattenuator on the one that goes to the SR445A.)2.Digital voltmeter with 4-wire ohm measurement capability (Agilent 34401)3.Digital oscilloscope with at least 300MHz bandwidth.High Frequency CompensationThe SR445A uses an AD8009 current feedback amplifier in the output stage. The gain of the amplifier is controlled by the ratio of resistors in the feedback network and the bandwidth is controlled by the Thevenin equivalent source impedance of the feedback network. The ratio is fixed (by R115 & R116, R215 & R216, R315 & R316, R415 &R416) to provide a gain of 5× and the source impedance may be adjusted (by P102, P202, P302 and P402.)The bandwidth is set to optimize the pulse response of the amplifier. This is done by applying a fast pulse at the input and adjusting P102 (or P202, P302 or P402 for channels 2, 3 & 4) so that the output rise time and overshoot most closely match the rise time and overshoot of the fast input pulse as observed on a 300MHz oscilloscope with 50Ω input impedance.Note that adjusting P102 will affect the offset for channel 1, as there is a large input bias current (150µA, max) to the inverting input of the AD8009. The offset will need to be adjusted after the HF compensation is adjusted.1.Split the ECL reference output from SR620 with a coax tee. Take one cable fromthe tee to channel 1 of the oscilloscope (set to 50Ω input termination) and theother to the top channel of the SR445A via a 20dB coaxial attenuator.2.Adjust P102 (Channel 1 HF compensation pot) to match the output rise time andovershoot to the input rise time and overshoot.3.Repeat for the remaining three channels, adjusting the pulse response with P202,P302 or P402.Offset CalibrationThe output offset is affected by the HF compensation and so the offset should be nulled after the HF compensation is adjusted. The offset may also be affected by the amplifier gain adjustment if there is a large input offset voltage.1.Leave the inputs unconnected.2.Connect the output (without a 50Ω load) to the DVM on the mV dc range.3.Adjust the offset pot (P101 for channel 1) to null the output voltage.4.Verify that the output voltage shifts down by less than 2.5mV when a 50Ωterminator is placed on the input. (The voltage shift will be 10×[the input biascurrent]×[the change of input resistance=25Ω] hence this measurement confirms that the input bias current is less than 10µA.)5.Repeat the procedure to null the output of channels 2, 3 and 4 by adjusting P201,P301 and P401.Gain CalibrationThe overall gain of the amplifier is 5× when driving a 50Ω load and 10× when driving a high impedance load. The input source to the amplifier is typically a current source (such as the output from a photomultiplier) and so the magnitude of the input resistance is included in the gain calibration by calibrating the amplifier’s transconductance. (Calibration is done with a current source as an input while measuring the voltage at the output.)A DVM used in the 4-wire resistance mode is convenient for performing the calibration. Typically a DVM will measure small resistances by measuring the voltage across the resistor while passing a 1mA dc current through the resistor. We measure the gain of the amplifier by measuring the voltage at the output while applying test current to input. When the gain is properly adjusted, 1mA applied to the 50Ω input generates 50mV at the input and 500mV at the (unterminated) output causing the DVM to indicate a “resistance” of 500Ω. (To avoid auto ranging “confusion” by the DVM, a 453Ω resistor is placed in series with the current source.)Since the DVM uses a dc current as the test source, it is important that the amplifier offset be nulled prior to performing the dc gain adjustment.1.Setup the DVM in the 4-wire resistance measurement mode.2.Apply the current output to the amplifier input via a 453Ω in-line resistor.3.Apply the unterminated amplifier output to the DVM’s 4-wire sense input.4.Adjust the gain pot (P100 for channel 1, P200 for channel 2, P300 for channel 3,and P400 for channel 4) so that the DVM indicates a “resistance” of 500Ω.5.Verify that the offset was nulled by connecting the current source from the DVMto the input of the other channel and measuring a resistance of less than 1Ω.6.Repeat the gain adjustment for the second channel.Circuit Description(The four amplifier channels are identical. This description uses reference designators for the top channel.)The input is terminated into 50Ω by the parallel combination of R100 & R101. The input signal is coupled via a 47Ω resistor to the high speed “clamp-amp”, U100. U100 is configured as a non-inverting gain of 2× amplifier. Pins 8 & 5 on U100 define input clamping thresholds of ±0.31Vdc. If the input signal exceeds these thresholds then U100 will use the clamping thresholds as inputs thereby limiting its output to ±0.62Vdc. This prevents the output of U100 from overdriving the next gain stage.Input signals in excess of ±1.4Vdc are shunted to ground via the input protection diodes D100 & D101. Normally both the diodes in D100 are reversed biased and so they do not interfere with the signal. The diodes in D101 are forward biased by R103 & R104. When the input signal exceeds ±1.4Vdc (7× the full scale input), one of the diodes in D100 will turn “on” thereby limiting the input to U100 to a safe level.The gain of U100 can be adjusted by ±10% by P100, which is calibrated at the factory to set the overall gain of the channel to 5× when terminated into a 50Ω load. The output of U100 is passed to the next gain stage via R112, a 47Ω resistor.The next stage has a fixed gain of 5× with an adjustable offset and adjustable high frequency response. The gain of U101 is set by R115 & R116. The offset, adjusted byP101 and injected by R117, is nulled during calibration. The high frequency response of U101 is affected by the source impedance of its input signal and its feedback network. Turning P102 clockwise decreases the source impedance of the feedback signal and increases the high frequency response of the gain stage. P102 is adjusted during calibration for an optimum pulse response providing a typical -3dB bandwidth of350MHz.The output from U101 is passed to the front panel output BNC via the parallel resistors R118 & R119, providing a 50Ω output impedance. These resistors, in combination with the 50Ω load resistor (provided by the user), attenuate the signal by 2× so that the overall gain is 5×.Overloads are detected at the output of the second gain stage, U101. A positive overload is rectified by D102 and charges C107. A negative overload is rectified by D102 and discharges C106. One of the comparators in U102 will be driven low when the voltage on C106 or C107 exceeds ±1.7V. The driven comparator discharges C108 from +5V to -5V. C108 will be slowly recharged to +5V by R128, a 1MΩ resistor, thereby stretching the overload signal to about 10ms. One of the comparators in U504 (sheet 3 of the schematics) drives the front panel overload LED until the voltage on C108 recharges above ground. This overload detection will detect overloads as short as 3ns.Power SuppliesThe unit operates from a universal input/single floating output power supply. The power supply can operate from AC mains with 90-132Vac or 175-264Vac between 47 & 63Hz and outputs 18Vdc. An “active ground” is generated by the op amp U501 together with Q500 & Q501 to generate ±9V. The op amp amplifies the midpoint voltage of the dc power supply, which is at its non-inverting input, and either sources current (via Q501) into the negative rail or draws current (via Q500) from the positive rail so that the midpoint is at ground.The ±9Vdc is regulated to ±5Vdc by U502 and U503. The ±5Vdc power supplies are passively filtered by capacitors on the outputs of the regulators and by L/C filters for each amplifier channel. Careful power supply filtering is important to reduce channel crosstalk. The crosstalk from the output of channel 1 to the input of channel 2 is less than -60dB (1:1000 of the amplitude) and peaks around 300MHz. The crosstalk from the output of channel 2 to the input of channel 1 is less than -80dB (1:10,000 of the amplitude) and occurs in a broad band between 180MHz and 360MHz.SR445A Component parts listREF. #SRS P/N VALUE DESCRIPTIONC 100 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 101 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 102 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 103 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 104 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 105 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 106 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 107 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 108 5-00298-568 .01U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 110 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 111 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 200 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 201 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 202 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 203 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 204 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 205 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 206 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 207 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 208 5-00298-568 .01U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 210 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 211 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 300 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 301 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 302 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 303 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 304 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 305 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 306 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 307 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 308 5-00298-568 .01U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 310 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 311 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 400 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 401 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 402 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 403 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 404 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 405 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 406 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 407 5-00375-552 100P Capacitor, Chip (SMT1206), 50V, 5%, NPO C 408 5-00298-568 .01U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 410 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 411 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 501 5-00516-526 330U HIGH RIPPL Capacitor, Electrolytic, 35V, 20%, RadC 502 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 503 5-00516-526 330U HIGH RIPPL Capacitor, Electrolytic, 35V, 20%, RadC 504 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 505 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 506 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 507 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 508 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 509 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 510 5-00299-568 .1U Cap, Ceramic 50V SMT (1206) +/-10% X7R C 511 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)C 512 5-00472-569 4.7U/T35 Cap, Tantalum, SMT (all case sizes)D 100 3-00896-301 BAV99 DiodeD 101 3-00896-301 BAV99 DiodeD 102 3-00896-301 BAV99 DiodeD 200 3-00896-301 BAV99 DiodeD 201 3-00896-301 BAV99 DiodeD 202 3-00896-301 BAV99 DiodeD 300 3-00896-301 BAV99 DiodeD 301 3-00896-301 BAV99 DiodeD 302 3-00896-301 BAV99 DiodeD 400 3-00896-301 BAV99 DiodeD 401 3-00896-301 BAV99 DiodeD 402 3-00896-301 BAV99 DiodeD 600 3-00010-303 GREEN LED, T1 PackageD 601 3-00011-303 RED LED, T1 PackageD 602 3-00011-303 RED LED, T1 PackageD 603 3-00011-303 RED LED, T1 PackageD 604 3-00011-303 RED LED, T1 PackageJ 100 1-00003-120 BNC Connector, BNCJ 101 1-00003-120 BNC Connector, BNCJ 200 1-00003-120 BNC Connector, BNCJ 201 1-00003-120 BNC Connector, BNCJ 300 1-00003-120 BNC Connector, BNCJ 301 1-00003-120 BNC Connector, BNCJ 400 1-00003-120 BNC Connector, BNCJ 401 1-00003-120 BNC Connector, BNCJ 506 1-01043-171 5POS .100 JMPR Cable Assembly, RibbonL 100 6-00236-631 FR47 Ferrite bead, SMTL 101 6-00236-631 FR47 Ferrite bead, SMTL 200 6-00236-631 FR47 Ferrite bead, SMTL 201 6-00236-631 FR47 Ferrite bead, SMTL 300 6-00236-631 FR47 Ferrite bead, SMTL 301 6-00236-631 FR47 Ferrite bead, SMTL 400 6-00236-631 FR47 Ferrite bead, SMTL 401 6-00236-631 FR47 Ferrite bead, SMTL 500 6-00174-630 6611 TYPE 43 Ferrite BeadsL 501 6-00174-630 6611 TYPE 43 Ferrite BeadsP 100 4-01614-441 10 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 101 4-00011-441 10K Pot, Multi-Turn Trim, 3/8" Square Top Ad P 102 4-00353-441 100 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 200 4-01614-441 10 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 201 4-00011-441 10K Pot, Multi-Turn Trim, 3/8" Square Top Ad P 202 4-00353-441 100 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 300 4-01614-441 10 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 301 4-00011-441 10K Pot, Multi-Turn Trim, 3/8" Square Top Ad P 302 4-00353-441 100 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 400 4-01614-441 10 Pot, Multi-Turn Trim, 3/8" Square Top Ad P 401 4-00011-441 10K Pot, Multi-Turn Trim, 3/8" Square Top Ad P 402 4-00353-441 100 Pot, Multi-Turn Trim, 3/8" Square Top Ad PC1 7-01479-701 SR240A/445A Printed Circuit BoardQ 500 3-01091-360 MJD44H11 Integrated Circuit (Surface Mount Pkg) Q 501 3-01100-360 MJD45H11 Integrated Circuit (Surface Mount Pkg) R 1 4-00997-462 56.2 Thin Film, 1%, 50 ppm, MELF Resistor R 100 4-01117-462 1.00K Thin Film, 1%, 50 ppm, MELF Resistor R 101 4-01117-462 1.00K Thin Film, 1%, 50 ppm, MELF Resistor R 102 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 103 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 104 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 105 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 106 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 107 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 108 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 109 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 110 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 112 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 115 4-01050-462 200 Thin Film, 1%, 50 ppm, MELF Resistor R 116 4-00992-462 49.9 Thin Film, 1%, 50 ppm, MELF Resistor R 117 4-01242-462 20.0K Thin Film, 1%, 50 ppm, MELF Resistor R 118 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 119 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 120 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 121 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 122 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 123 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 124 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 125 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 126 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 127 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 128 4-01551-461 1.0M Thick Film, 5%, 200 ppm, Chip Resistor R 200 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 201 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 202 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 203 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip ResistorR 204 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 205 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 206 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 207 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 208 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 209 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 210 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 212 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 215 4-01050-462 200 Thin Film, 1%, 50 ppm, MELF Resistor R 216 4-00992-462 49.9 Thin Film, 1%, 50 ppm, MELF Resistor R 217 4-01242-462 20.0K Thin Film, 1%, 50 ppm, MELF Resistor R 218 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 219 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 220 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 221 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 222 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 223 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 224 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 225 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 226 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 227 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 228 4-01551-461 1.0M Thick Film, 5%, 200 ppm, Chip Resistor R 300 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 301 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 302 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 303 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 304 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 305 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 306 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 307 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 308 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 309 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 310 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 312 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 315 4-01050-462 200 Thin Film, 1%, 50 ppm, MELF Resistor R 316 4-00992-462 49.9 Thin Film, 1%, 50 ppm, MELF Resistor R 317 4-01242-462 20.0K Thin Film, 1%, 50 ppm, MELF Resistor R 318 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 319 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 320 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 321 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 322 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 323 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 324 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 325 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 326 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 327 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF ResistorR 328 4-01551-461 1.0M Thick Film, 5%, 200 ppm, Chip Resistor R 400 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 401 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 402 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 403 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 404 4-01503-461 10K Thick Film, 5%, 200 ppm, Chip Resistor R 405 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 406 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 407 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 408 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 409 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 410 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 412 4-01447-461 47 Thick Film, 5%, 200 ppm, Chip Resistor R 415 4-01050-462 200 Thin Film, 1%, 50 ppm, MELF Resistor R 416 4-00992-462 49.9 Thin Film, 1%, 50 ppm, MELF Resistor R 417 4-01242-462 20.0K Thin Film, 1%, 50 ppm, MELF Resistor R 418 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 419 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 420 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 421 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 422 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 423 4-01134-462 1.50K Thin Film, 1%, 50 ppm, MELF Resistor R 424 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor R 425 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 426 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 427 4-01163-462 3.01K Thin Film, 1%, 50 ppm, MELF Resistor R 428 4-01551-461 1.0M Thick Film, 5%, 200 ppm, Chip Resistor R 500 4-01213-462 10.0K Thin Film, 1%, 50 ppm, MELF Resistor R 501 4-01213-462 10.0K Thin Film, 1%, 50 ppm, MELF Resistor R 502 4-01479-461 1.0K Thick Film, 5%, 200 ppm, Chip Resistor R 503 4-01021-462 100 Thin Film, 1%, 50 ppm, MELF Resistor R 504 4-00320-409 18 Resistor, Wire WoundR 505 4-01479-461 1.0K Thick Film, 5%, 200 ppm, Chip Resistor R 506 4-01479-461 1.0K Thick Film, 5%, 200 ppm, Chip Resistor R 507 4-01479-461 1.0K Thick Film, 5%, 200 ppm, Chip Resistor R 508 4-01479-461 1.0K Thick Film, 5%, 200 ppm, Chip Resistor R 509 4-01479-461 1.0K Thick Film, 5%, 200 ppm, Chip Resistor R 510 4-01527-461 100K Thick Film, 5%, 200 ppm, Chip Resistor SW100 2-00025-217 SPDT Switch, On-None-On, Toggle, Right Angle U 100 3-00897-360 AD8037 Integrated Circuit (Surface Mount Pkg)U 101 3-00898-360 AD8009 Integrated Circuit (Surface Mount Pkg)U 102 3-00728-360 LM393 Integrated Circuit (Surface Mount Pkg)U 200 3-00897-360 AD8037 Integrated Circuit (Surface Mount Pkg)U 201 3-00898-360 AD8009 Integrated Circuit (Surface Mount Pkg)U 202 3-00728-360 LM393 Integrated Circuit (Surface Mount Pkg)U 300 3-00897-360 AD8037 Integrated Circuit (Surface Mount Pkg)U 301 3-00898-360 AD8009 Integrated Circuit (Surface Mount Pkg)。