SC1050中文资料
CTM1050datasheet
CTM1050广州致远电子有限公司 工业通讯网络事业部———————————————概述CTM1050是一款带隔离的高速CAN 收发器芯片,该芯片内部集成了所有必需的CAN 隔离及CAN 收、发器件,这些都被集成在不到3平方厘米的芯片上。
芯片的主要功能是将CAN 控制器的逻辑电平转换为CAN 总线的差分电平并且具有DC 2500V 的隔离功能及ESD 保护作用。
和TJA1050一样,该芯片符合ISO 11898标准,因此,它可以和其他遵从ISO 11898标准的CAN 收发器产品互操作。
——————————————产品特性 具有隔离、ESD 保护功能;完全符合ISO11898标准的CAN 收发器; 通讯速率最高达1Mbps; 隔离电压:DC 2500V; 电磁辐射EME 极低; 电磁抗干扰EMI 性极高; 无需外加元件可直接使用; 至少可连接110个节点;高低温特性好,能满足工业级产品技术要求。
注:CTM1050T 除具有以上特性外,还具有TVS 管 防总线过压。
————————————产品应用 ◆ 汽车电子 ◆ 仪器、仪表 ◆ 石油化工 ◆ 电力监控 ◆ ……—————————————订购信息型号温度范围 封装CTM1050 -40℃—+85℃ DIP-8Pin CTM1050T-40℃—+85℃DIP-8Pin————————————————————————————————典型应用图 1 CTM1050应用示例如图1所示为CTM1050的应用示例,该芯片可以连接任何一款CAN 协议控制器,实现CAN 节点的收发与隔离功能。
在以往的设计方案中需要光耦、DC/DC 隔离、CAN 收发器等其他元器件才能实现带隔离的CAN 收发电路,但现在您只需利用一片CTM1050接口芯片就可以实现带隔离的CAN 收发电路,隔离电压可以达到DC 2500V ,其接口简单,使用方便,是嵌入式系统的理想选择!共享修订历史版本日期原因Rev X1 2006/6/8 内部制定初稿Rev 1.0 2006/6/16 第一次发布Rev 1.1 2006/11/11 数据手册升级共享目录销售信息 (2)技术支持 (2)1. 功能简介 (3)2. 引脚信息 (4)2.1 CTM1050引脚信息 (4)3. CTM1050特性参数 (5)3.1 参数列表 (5)3.2 电气特性 (5)3.3 绝缘特性 (6)4. 机械尺寸 (7)4.1 CTM1050机械尺寸 (7)5. 电路连接 (8)5.1 CTM1050电路连接 (8)6. 声明 (9)共享销售信息如果需要购买本产品,请在办公时间(星期一至五上午8:30~11:50;下午1:30~5:30;星期六上午8:30~11:50)拨打电话咨询广州致远电子有限公司。
STA1050中文资料
Digital Servo
■ Automatic fine gain/balance/offset adjustment for tracking and focus
■ Embedded 16bit servo DSP (33.8688MHz) with programmable sampling rate
2
Pin function description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
3
System description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
fade/
mute/ deemph
+
3/11
A
B
C
D
I/V OFFSET GAIN ADC
E
F
DAC ANALOG PLL filter
1.7Kx32 PRAM DSP
A+C B+D E F 256x16 XRAM
A+C
DECIM. TrackCount 256x16 YRAM
B+D
+ JumpSpeed
2/11
元器件交易网
STA1050
1
Block diagram
Figure 1. Block diagram
master clock
德钢1050自动模切机说明书
德钢1050自动模切机说明书德钢1050自动模切机是一种高效、稳定的模切设备,能够广泛应用于纸箱、塑料片、纸盒、泡沫板等材料的模切加工。
本说明书介绍了该设备的使用方法、操作注意事项和维护保养等内容,以帮助用户正确、安全地操作和维护设备。
一、安全操作说明:1.请将设备放置在坚固、稳定的地面上,并确保周围没有杂物。
2.使用前请认真阅读并理解本说明书,按照要求正确操作设备。
3.在使用过程中请注意个人安全,避免手部接触到刀模等尖锐物品,注意机器旋转部件的安全。
4.如果需要对设备进行维修或调试,请务必关闭电源,并等待设备停止旋转后,再进行操作。
二、设备操作方法:1.打开电源开关,启动设备。
设备启动后,切模架会自动上升到适当的高度。
2.将待加工的材料放置在工作台上,并使用气动固定装置将其固定住。
3.调整模切压力和模切速度。
根据材料的硬度和厚度,可适当调整模切压力和模切速度,以确保模切效果和工作效率。
4.手动将模切刀具下压到材料上,然后按下模切按钮,设备将开始自动模切加工。
5.加工完成后,松开模切按钮,待设备停止旋转后,将加工好的材料取出。
三、操作注意事项:1.在使用过程中,请勿将手指或其他物体放入设备内部,以免发生意外。
2.加工过程中,请勿离开设备,以免发生意外。
3.如需对切模进行调整,请先关闭电源,并等待设备停止旋转后,再进行操作。
4.加工过程中若发现异常情况,请立即停止设备,并及时进行检查和维修。
四、维护保养:1.每天使用结束后,请对设备进行彻底清洁,除去切割废料、灰尘等杂物。
2.定期检查设备的电源线、气管等部件是否存在老化、断裂等情况,并及时更换。
3.定期对设备进行润滑维护,保持设备的正常运行。
4.如需长时间停用设备,请关闭电源,并采取遮挡措施,防止灰尘积累。
总结:。
SC200中文手册
技术指标产品技术指标如有变化,恕不另行通知。
尺寸½ DIN—144 x 144 x 180.9 mm (5.7 x 5.7 x 7.12 英寸)重量1.7 kg (3.75 lb)合规信息通过 CE 认证(所有传感器类型)。
获得 ETL 根据UL 和 CSA 安全标准认证,可用于一般场合(所有传感器类型)。
数字通信数据传输的可选 Modbus RS485/RS232 或 Profibus DPV1 网络连接数据记录安全数码卡或特殊 RS232 电缆连接器,用于数据记录及进行软件更新保修1 年;2 年 (EU)基本信息对于因本手册中的任何不足或遗漏造成的直接、间接、特别、附带或结果性损失,制造商概不负责。
制造商保留随时更改本手册和手册中描述的产品的权利,如有更改恕不另行通知或承担有关责任。
修订版可在制造商的网站上找到。
扩展手册版本有关更多详情,请参阅本手册扩展版本的光盘。
安全信息在开箱、安装和操作此设备之前,请完整地阅读本手册。
特别要注意所有的危险、警告和注意事项。
否则,可能会对操作者造成严重的人身伤害,或者对设备造成损坏。
要确保本设备所提供的防护措施不受破坏,请不要使用本手册规定之外的方法来使用或者安装本设备。
危险信息使用警告标签请阅读贴在仪器上的所有标签和标记。
如未遵照这些安全标签的指示操作,则可能造成人身伤害或仪器损坏。
Hach 合规认证加拿大有干扰设备管理规范,IECS-003,A 类:制造商支持测试记录留存。
此 A 类数字设备符合加拿大有干扰设备管理规范的所有要求。
Cet appareil numèrique de la classe A respecte toutes les exigences du Rëglement sur le matÈriel brouilleur du Canada.FCC 第 15 部分,“A”类限制制造商支持测试记录留存。
1050中文操作说明书
布局预览...................................................................................................................................37
用户手册
1050 1200
INFORMATION FOR
INFORMATION FOR
用户手册 — 1050/1200
安全说明..................................................................................................................................... 3
简介............................................................................................................................................. 3 重要特征.....................................................................................................................................3 动态数据.....................................................................................................................................4 条码.............................................................................................................................................4 InfiniteDPI...................................................................................................................................4 用户安全及报告........................................................................................................................5 高级文本选项............................................................................................................................5 文本格式灵活....................................................................................................................5 支持国际字符....................................................................................................................5
SCB变压器与SC变压器的区别
SCB变压器与SC变压器的区别一、线圈绕制方面:SCB型产品低压线圈采用箔绕:(1)绕组结构:采用铜箔单层缠绕,层间材料用含有潜伏性固化剂的环氧树脂及F级复合箔。
(2)绕组材料:采用导电率极佳的无氧铜,含铜量99.99%。
SC型产品低压线圈采用线绕:(1)绕组结构:圆筒式线圈(2)多根普通玻璃丝包扁铜线。
二、抗突发短路事故方面:(1)SCB型产品低压采用铜箔式结构,电抗高度即为绕组高度,与高压线圈等同,从而在变压器产生突发短路条件下,产生较小的轴向短路力。
另外,由于整个绕组采用一张宽而薄的箔材,抗轴向拉断能力较强。
(2)SC型产品由于采用多根并绕,端部螺旋角极大,产生很强的端部漏磁场,在变压器遭受突发短路状态下,产生极大的短路力,如果结构方面没有充分加强,则很容易造成轴向损坏。
三、在变压器低压温升方面由于低压绕组靠近铁芯散热较困难,SCB型产品采用箔式低压绕组结构,可以方便的设置散热面,加大通风量,从而保证线圈产生的热量及时散发。
而SC型产品采用线绕式低压绕组,达到上述目的较为困难。
变压器的低压温升,箔绕结构要比线绕结构平均下降5—7K。
可提高变压器的过负载能力和使用寿命。
四、在变压器的负载损耗方面由于SCB型产品低压箔式结构采用无氧铜箔,同电压等级,同规格的变压器,SCB型产品比SC型产品,由于集肤效应造成的,附加损耗平均降低5%。
(5)绝缘性能方面SCB型产品低压箔式结构采用低压箔式结构,低压绕组内各层间的电压梯度很低,SCB型产品与SC型产品相比具有更高的绝缘强度。
由于其匝间电容较大,从而提高产品抗过电压及雷电冲击强度。
SCB9-3150/35±2x2.5%/0.4kV,Uk%=8 Y,d11请问这个变压器参数具体都是什么意思?这是环氧树脂干式变压器:其意义如下:S-三相;C-环氧树脂浇注型B-为铜箔线圈9-设计序号9型代表损耗标准(这是目前比较差的)3150kVA-是变压器的额定容量35kV-是变压器的输入额定电压(高压)+-2*2.5%-是高压的分接调压范围:高压有36750、35875、35000、34125、33250V五档电压可以调节。
2SC5010中文资料(nec)中文数据手册「EasyDatasheet - 矽搜」
µA V = 5 V, I = 0
0.1
µA V = 1 V, I = 0
75
150
V = 3 V, I = 10 mA* 1
f C |S |2
12.0
0.4
7.0
8.5
GHz V = 3 V, I = 10毫安,F = 2千兆赫
0.7
pF V = 3 V, I = 0,F = 1兆赫* 2
dB V = 3 V, I = 10毫安,F = 2千兆赫
S
MAG
ANG
100.00
.855
–14.2
200.00
.787
–28.4
300.00
.715
–41.9
400.00
.631
–54.9
500.00
.561
–66.5
600.00
.495
–77.0
700.00
.434
–86.4
800.00
.387
–95.8
900.00
.346
–104.1
1000.00
特征
•使用低电压.
•高氟 T :12.0 GHzTYP. (用V CE = 3 V, I C = 10毫安,F = 2千兆赫)
•低C re :0.4 pF典型值. (用V CE = 3 V, I E = 0,F = 1兆赫)
•低NF •高| S
1.5 dB典型值. (用V CE = 3 V, I C = 3毫安,F = 2千兆赫) 21e|2 8.5 dB典型值. (用V CE = 3 V, I C = 10毫安,F = 2千兆赫)
0
0.5
1.0
V - 基地发射极电压 - V
SC系列三极管参数
2SC系列三极管参数2SC1000 SI-N 55V 80MHz2SC1008 SI-N 80V 75MHz2SC1012A SI-N 250V 60mA >80MHz2SC1014 SI-N 50V 7W2SC1017 SI-N 75V 1A 60mW 120MHz2SC1030 SI-N 150V 6A 50W | 2SC1046 SI-N 1000V 3A 25W2SC1047 SI-N 30V 20mA 650MHz |2SC1050 SI-N 300V 1A 40W2SC1051 SI-N 150V 7A 60W 8MHz |2SC1061 SI-N 50V 3A 25W 8MHz=H1062SC1070 SI-N 30V 20mA 900MHz |2SC1080 SI-N 110V 12A 100W 4MHz2SC109 SI-N 50V |2SC1096 SI-N 40V 3A 10W 60MHz2SC1106 SI-N 350V 2A 80W | 2SC1114 SI-N 300V 4A 100W 10MHz2SC1115 SI-N 140V 10A 100W 10MHz |2SC1116 SI-N 180V 10A 100W 10MHz2SC1161 SI-P 160V 12A 120W | 2SC1162 SI-N 35V 10W 180MHz2SC1172 SI-N 1500V 5A 50W | 2SC1195 SI-N 200V 100W2SC1213C SI-N 50V UNI |2SC1214 SI-N 50V 50MHz2SC1215 SI-N 30V 50mA |2SC1216 SI-N 40V <20/402SC1226 SI-N 40/50V 2A 10W 150MHz |2SC1238 SI-N 35V 5W2SC1247A SI-N 50V 60MHz |2SC1308 SI-N 1500V 7A 50W2SC1312 SI-N 35V 100MHz |2SC1318 SI-N 60V 200MHz2SC1343 SI-N 150V 10A 100W 14MHz |2SC1345 SI-N 55V 230MHz2SC1359 SI-N 30V 30mA 250MHz |2SC1360 SI-N 50V 1W >300MHz2SC1362 SI-N 50V 140MHz |2SC1368 SI-N 25V 8W 180MHz2SC1382 SI-N 80V 5W 100MHz |2SC1384 SI-N 60V 1A 1W 200MHz2SC1393 SI-N 30V 20mA 250 mW 700MHz |2SC1398 SI-N 70V 2A 15W2SC1413A SI-N 1200V 5A 50W | 2SC1419 SI-N 50V 2A 20W 5MHz2SC1426 SI-N 35V |2SC1431 SI-N 110V 2A 23W 80MHz2SC1432 N-DARL 30V B=40 |2SC1439 SI-N 150V 50mA 130MHz2SC1445 SI-N 100V 6A 40W 10MHz |2SC1446 SI-N 300V 10W 55MHz2SC1447 SI-N 300V 20W 80MHz |2SC1448 SI-N 150V 25W 3MHz2SC1449 SI-N 40V 2A 5W 60MHz | 2SC1450 SI-N 150V 20W2SC1454 SI-N 300V 4A 50W 10MHz | 2SC1474-4 SI-N 20V 2A 80MHz2SC1501 SI-N 300V 10W 55MHz |2SC1505 SI-N 300V 15W2SC1507 SI-N 300V 15W 80MHz |2SC1509 SI-N 80V 1W 120MHz2SC1515 SI-N 200V 110MHz |2SC1520 SI-N 300V 12,5W2SC1545 N-DARL 40V B=1K |2SC1567 SI-N 100V 5W 120MHz2SC1570 SI-N 55V 100MHz |2SC1571 SI-N 40V 100MHz2SC1573 SI-N 200V 1W 80MHz |2SC1577 SI-N 500V 8A 80W 7MHz2SC1583 SI-N 50V 100MHz |2SC1619 SI-N 100V 6A 50W 10MHz2SC1623 SI-N 60V 250MHz |2SC1624 SI-N 120V 1A 15W 30MHz2SC1627 SI-N 80V 100MHz |2SC1674 SI-N 30V .02A 600MC RF/IF2SC1675 SI-N 50V .03A |2SC1678 SI-N 65V 3A 3W2SC1685 SI-N 60V 150MC UNI | 2SC1688 SI-N 50V 30mA 550MHz2SC1708A SI-N 120V 50mA 150MHz |2SC1729 SI-N 35V 16W 500MHz2SC1730 SI-N 30V UHF |2SC1740 SI-N 40V 100mA2SC1741 SI-N 40V 250MHz |2SC1756 SI-N 300V >50MHz2SC1760 SI-N 100V 1A 80MHz | 2SC1775A SI-N 120V UNI2SC1781 SI-N 50V |2SC1815 SI-N 50V 80MHz2SC1815BL SI-N 60V B>350 |2SC1815GR SI-N 60V B>2002SC1815Y SI-N 60V B>120 |2SC1827 SI-N 100V 4A 30W 10MHz2SC1832 N-DARL 500V 15A 150W B>10 | 2SC1841 SI-N 120V2SC1844 SI-N 60V 100MHz |2SC1845 SI-N 120V2SC1846 SI-N 120V |2SC1847 SI-N 50V2SC1855 SI-N 20V 20mA 550MHz |2SC1871 SI-N 450V 15A 150W <1/3us2SC1879 N-DARL+D 120V 2A B>1 |2SC1890 SI-N 90V 200MHz2SC1906 SI-N 19V2SC1907 SI-N 30V 1100MHz |2SC1913 SI-N 150V 1A 15W 120MHz2SC1914 SI-N 90V 50mA 150MHz |2SC1921 SI-N 250V2SC1922 SI-N 1500V 50W |2SC1923 SI-N 30V 20mA 10mW 550MHz2SC1929 SI-N 300V 25W 80MHz |2SC1941 SI-N 160V 50mA2SC1944 SI-N 80V 6A PQ=16W | 2SC1945 SI-N 80V 6A 20W2SC1946A SI-N 35V 7A 50W | 2SC1947 SI-N 35V 1A 4W/175MHz2SC1953 SI-N 150V 70MHz |2SC1957 SI-N 40V 1A 27MHz2SC1959 SI-N 30V 200MHz |2SC1967 SI-N 35V 2A 8W 470MHz2SC1968 SI-N 35V 5A 3W 470MHz |2SC1969 SI-N 60V 6A 20W2SC1970 SI-N 40V 5W |2SC1971 SI-N 35V 2A2SC1972 SI-N 35V 25W |2SC1975 SI-N 120V 2A 50MHz2SC1980 SI-N 120V 20mA 200MHz |2SC1984 SI-N 100V 3A 30W B=7002SC2023 SI-N 300V 2A 40W 10MHz2SC2026 SI-N 30V |2SC2027 SI-N 1500/800V 5A 50W2SC2036 SI-N 80V 1A PQ=1..4W |2SC2053 SI-N 40V 500MHz2SC2055 SI-N 18V 0,3A 0,5W |2SC2058 SI-N 40V2SC2060 SI-N 40V 150MHz | 2SC2061 SI-N 80V 1A 120MHz2SC2068 SI-N 300V 95MHz |2SC2073 SI-N 150V 25W 4MHz2SC2078 SI-N 80V 3A 10W 150MHz |2SC2086 SI-N 75V 1A 27MHz2SC2092 SI-N 75V 3A 5W 27MHz |2SC2094 SI-N 40V PQ>15W 175MHz2SC2097 SI-N 50V 15A PQ=85W |2SC2120 SI-N 30V 120MHz2SC2122 SI-N 800V 10A 50W |2SC2166 SI-N 75V 4A RFPOWER2SC2168 SI-N 200V 2A 30W 10MHz |2SC2200 SI-N 500V 7A 40W 1US2SC2209 SI-N 50V 10W 150MHz |2SC2216 SI-N 45V 50mA 300MHz2SC2228 SI-N 160V >50 | 2SC2229 SI-N 200V 50mA 120MHz2SC2230 SI-N 200V 50MHz | 2SC2233 SI-N200V 4A 40W 8MHz2SC2235 SI-N 120V 120MHz | 2SC2236 SI-N 30V 120MHz2SC2237 SI-N 35V 2A PQ> 175MHz | 2SC2238 SI-N 160V 25W 100MHz2SC2240 SI-N 120V 50mA .3W 100MHz |2SC2261 SI-N 180V 8A 80W 15MHz2SC2267 SI-N 400/360V | 2SC2270 SI-N 50V 5A 10W 100MHz2SC2271 SI-N 300V 50MHz | 2SC2275 SI-N120V 25W 200MHz2SC2283 SI-N 38V (500MHz | 2SC2287 SI-N 38V 175MHz2SC2295 SI-N 30V 250MHz | 2SC2307 SI-N 500V 12A 100W 18MHz2SC2308 SI-N 55V 230MHz | 2SC2310 SI-N 55V 230MHz2SC2312 SI-N 60V 6A 27MHz | 2SC2314 SI-N 45V 1A 5W2SC2320 SI-N 50V 0,2A 0,3W |2SC2329 SI-N 38V 2W 175MHz2SC2331 SI-N 150V 2A 15W POWER |2SC2333 SI-N 500/400V 2A 40W2SC2334 SI-N 150V 7A 40W POWER |2SC2335 SI-N 500V 7A 40W POWER2SC2336B SI-N 250V 25W 95MHz | 2SC2344 SI-N 180V 25W 120MHz2SC2347 SI-N 15V 50mA 250mW 650MHz |2SC2362 SI-N 120V 50mA 130MHz2SC2363 SI-N 120V 50mA 130MHz | 2SC2365 SI-N 600V 6A 50W POWER2SC2369 SI-N 25V 70mA | 2SC2383 SI-N 160V 1A 100MHz2SC2389 SI-N 120V 50mA 140MHz | 2SC2407 SI-N 35V 500MHz2SC2412 SI-N 50V 180MHz |2SC2433 SI-N 120V 30A 150W 80MHz2SC2440 SI-N 450V 5A 40W |2SC2458 SI-N 50V 80MHz2SC2466 SI-N 30V | 2SC2482 SI-N 300V 50MHz2SC2485 SI-N 100V 6A 70W 15MHz |2SC2486 SI-N 120V 7A 80W 15MHz2SC2491 SI-N 100V 6A 40W 15MHz |2SC2497 SI-N 70V 5W 150MHz2SC2498 SI-N 30V | 2SC2508 SI-N 40V 6A 50W 175MHz2SC2510 SI-N 55V 20A 250W(28MHz) |2SC2512 SI-N 30V 50mA 900MHz TUNE2SC2516 SI-N 150V 5A 30W <2us | 2SC2517 SI-N 150V 5A 30W <2us2SC2538 SI-N 40V |2SC2539 SI-N 35V 4A 17W 175MHz2SC2542 SI-N 450V 5A 40W |2SC2547 SI-N 120V2SC2551 SI-N 300V 80MHz | 2SC2552 SI-N500V 2A 20W2SC2553 SI-N 500V 5A 40W 1us |2SC2562 SI-N 60V 5A 25W2SC2563 SI-N 120V 8A 80W 90MHz |2SC2570A SI-N 25V 70mA2SC2579 SI-N 160V 8A 80W 20MHz |2SC2581 SI-N 200V 10A 100W2SC2590 SI-N 120V 5W 250MHz |2SC2592 SI-N 180V 1A 20W 250MHz2SC2603 SI-N 50V |2SC2610 SI-N 300V 80MHz2SC2611 SI-N 300V 80MHz | 2SC2621E SI-N 300V 10W >50MHz2SC2625 SI-N 450V 10A 80W |2SC2630 SI-N 35V 14A 100W2SC2631 SI-N 150V 50mA 0,75W 160MHz |2SC2632 SI-N 150V 50mA 1W 160MHz2SC2634 SI-N 60V 200MHz | 2SC2653 SI-N350V 15W >50MHz2SC2654 SI-N 40V 7A 40W |2SC2655 SI-N 50V 2A2SC2656 SI-N 450V 7A 80W < | 2SC2660 SI-N 200V 2A 30W 30MHz2SC2668 SI-N 30V 20mA 550MHz | 2SC2671 SI-N 15V 80mA2SC2682 SI-N 180V 8W 180MHz |2SC2690 SI-N 120V 20W 160MHz2SC2694 SI-N 35V 20A 140W |2SC2705 SI-N 150V 50mA 200MHz2SC2706 SI-N 140V 10A 100W 90MHz |2SC2712 SI-N 50V 80MHz2SC2714 SI-N 30V 20mA 550MHz | 2SC2717 SI-N 30V 50mA 300MHz2SC2724 SI-N 30V 30mA 200MHz |2SC2749 SI-N 500V 10A 100W 50MHz2SC2750 SI-N 150V 15A 100W POWER |2SC2751 SI-N 500V 15A 120W 50MHz2SC2752 SI-N 500V 10W <1/ | 2SC2753 SI-N 17V 5GHz2SC2759 SI-N 30V 50mA | 2SC2786 SI-N 20V 20mA 600MHz2SC2787 SI-N 50V 30mA 250MHz | 2SC2791 SI-N 900V 5A 100W2SC2792 SI-N 850V 2A 80W |2SC2793 SI-N 900V 5A 100W2SC2802 SI-N 300V 10W 80MHz |2SC2808 SI-N 100V 50mA 140MHz2SC2810 SI-N 500V 7A 50W 18MHz |2SC2812 SI-N 55V 100MHz2SC2814 SI-N 30V 320MHz F |2SC2825 SI-N 80V 6A 70W B>5002SC2837 SI-N 150V 10A 100W 70MHz |2SC2839 SI-N 20V 30mA 320MHz2SC2851 SI-N 36V 1W | 2SC2873 SI-N 50V 2A 120MHz2SC2878 SI-N 20V 30MHz | 2SC2879 SI-N 45V 25A PEP=100W 28MHz2SC2882 SI-N 90V 100MHz | 2SC288A SI-N 35V 20mA2SC2898 SI-N 500V 8A 50W |2SC2901 SI-N 40V <12/182SC2908 SI-N 200V 5A 50W 50MHz |2SC2910 SI-N 160V 70mA 150MHz2SC2911 SI-N 180V 140mA 10W 150MHz |2SC2912 SI-N 200V 140mA 10W 150MHz2SC2922 SI-N 180V 17A 200W 50MHz |2SC2923 SI-N 300V 140MHz2SC2928 SI-N 1500V 5A 50W |2SC2939 SI-N 500V 10A 100W2SC2958 SI-N 160V 1W |2SC2979 SI-N 800V 3A 40W2SC2987 SI-N 140V 12A 120W 60MHz |2SC2988 SI-N 36V 175MHz2SC2999 SI-N 20V 30mA 750MHz |2SC3001 SI-N 20V 3A PQ=7W(175MHz)2SC3019 SI-N 35V 520MHz | 2SC3020 SI-N 35V 1A 10W2SC3022 SI-N 35V 7A 50W |2SC3026 SI-N 1700V 5A 50W POWER2SC3030 N-DARL 900V 7A 80W |2SC3039 SI-N 500V 7A 52W2SC3042 SI-N 500/400V 12A 100W |2SC3052F SI-N 50V 200MHz2SC3063 SI-N 300V 140MHz | 2SC3067 2xSI-N 130V 50mA 1602SC3068 SI-N 30V Ueb=15V B>8 | 2SC3071 SI-N 120V Ueb=15V B>2SC3073 SI-N 30V 3A 15W 100MHz |2SC3074 SI-N 60V 5A 20W 120MHz2SC3075 SI-N 500V 10W 1/ | 2SC3089 SI-N 800V 7A 80W2SC3101 SI-N 250V 30A 200W 25MHz |2SC3102 SI-N 35V 18A 170W 520MHz2SC3112 SI-N 50V 100MHz | 2SC3116 SI-N 180V 10W 120MHz2SC3117 SI-N 180V 10W 120MHz | 2SC3133 SI-N 60V 6A 27MHz2SC3148 SI-N 900V 3A 40W 1us |2SC3150 SI-N 900V 3A 50W 15MHz2SC3153 SI-N 900V 6A 100W |2SC3157 SI-N 150V 10A 60W2SC3158 SI-N 500V 7A 60W |2SC3164 SI-N 500V 10A 100W2SC3169 SI-N 500V 2A 25W >8MHz |2SC3175 SI-N 400V 7A 50W 40MHz2SC3178 SI-N 1200V 2A 60W |2SC3179 SI-N 60V 4A 30W 15MHz2SC3180N SI-N 80V 6A 60W 30MHz |2SC3181N SI-N 120V 8A 80W 30MHz2SC3182N SI-N 140V 10A 100W 30MHz |2SC3195 SI-N 30V 20mA 550MHz2SC3199 SI-N 60V 130MHz | 2SC3200 SI-N 120V 100MHz2SC3202 SI-N 35V 300MHz | 2SC3203 SI-N 35V 120MHz2SC3205 SI-N 30V 2A 1W 120MHz |2SC3206 SI-N 150V 120MHz2SC3210 SI-N 500V 10A 100W 1us |2SC3211 SI-N 800V 5A 70W >3MHz2SC3212 SI-N 800V 7A 3W | 2SC3225 SI-N 40V 2A 1us2SC3231 SI-N 200V 4A 40W 8MHz |2SC3240 SI-N 50V 25A 110W 30MHz2SC3242 SI-N 20V 2A 80MHz |2SC3244E SI-N 100V 130MHz2SC3245A SI-N 150V 200MHz | 2SC3246 SI-N 30V 130MHz2SC3247 SI-N 50V 1A .9W 130MHz B> |2SC3257 SI-N 250V 10A 40W 1/2SC3258 SI-N 100V 5A 30W 120MHz |2SC3260 N-DARL 800V 3A 50W B>102SC3262 N-DARL 800V 10A 100W |2SC3263 SI-N 230V 15A 130W2SC3264 SI-N 230V 17A 200W 60MHz |2SC3271 SI-N 300V 1A 5W 80MHz2SC3277 SI-N 500V 10A 90W 20MHz |2SC3279 SI-N 10V 2A 150MHz2SC3280 SI-N 160V 12A 120W 30MHz |2SC3281 SI-N 200V 15A 150W 30MHz2SC3284 SI-N 150V 14A 125W 60MHz |2SC3293 N-DARL+D 50V 20W 1802SC3297 SI-N 30V 3A 15W 100MHz |2SC3299 SI-N 60V 5A 20W2SC3300 SI-N 100V 15A 100W |2SC3303 SI-N 100V 5A 20W2SC3306 SI-N 500V 10A 100W 1us |2SC3307 SI-N 900V 10A 150W 1us2SC3309 SI-N 500V 2A 20W 1us |2SC3310 SI-N 500V 5A 30W 1us2SC3311 SI-N 60V 150MHz | 2SC3320 SI-N500V 15A 80W2SC3326 SI-N 20V 30MHz | 2SC3327 SI-N 50V 30MHz2SC3328 SI-N 80V 2A 100MHz |2SC3330 SI-N 60V 200MHz2SC3331 SI-N 60V 200MHz | 2SC3332 SI-N180V 120MHz2SC3334 SI-N 250V 50mA 100MHz | 2SC3345 SI-N 60V 12A 40W 90MHz2SC3346 SI-N 80V 12A 40W |2SC3355 SI-N 20V2SC3356 SI-N 20V 7GHz | 2SC3377 SI-N 40V 1A 150MHz2SC3378 SI-N 120V 100MHz | 2SC3379 SI-N 20V PQ=3W2SC3381 2xSI-N 80V 170MHz | 2SC3383 SI-N 60V 250MHz2SC3397 SI-N 50V 250MHz 46K/ | 2SC3399 SI-N 50V 250MHz2SC3400 SI-N 50V 250MHz 22K/ | 2SC3401 SI-N 50V .1A 46K/23KOHM2SC3402 SI-N 50V 250MHz 10K/ | 2SC3405 SI-N 900V 20W 1us2SC3409 SI-N 900V 2A 80W .8uS |2SC3416 SI-N 200V 5W 70MHz2SC3419 SI-N 40V 5W 100MHz |2SC3420 SI-N 50V 5A 10W 100MHz2SC3421O SI-N 120V 1A BJT O-G | 2SC3421Y SI-N 120V 1A 10W 120MHz2SC3422Y SI-N 40V 3A 10W 100MHz |2SC3423 SI-N 150V 50mA 5W 200MHz2SC3425 SI-N 500V 10W |2SC3446 SI-N 800V 7A 40W 18MHz2SC3447 SI-N 800V 5A 50W 18MHz |2SC3456 SI-N 1100/800V 40W2SC3457 SI-N 1100V 3A 50W |2SC3460 SI-N 1100V 6A 100W2SC3461 SI-N 1100/800V 8A 120W |2SC3466 SI-N 1200/650V 8A 120W2SC3467 SI-N 200V 1W 150MHz |2SC3468 SI-N 300V 1W 150MHz2SC3486 SI-N 1500V 6A 120W |2SC3502 SI-N 200V2SC3503 SI-N 300V 7W 150MHz |2SC3504 SI-N 70V 500MHz2SC3505 SI-N 900V 6A 80W |2SC3507 SI-N 1000/800V 5A 80W2SC3509 N-DARL+D 900V 10A 100W 0. |2SC3514 SI-N 180V 10W 200MHz2SC3518 SI-N 60V 5A 10W |2SC3520 SI-N 500V 18A 130W 18MHz2SC3526 SI-N 110V 7A 30W 1us | 2SC3528 SI-N 500V 20A 125W2SC3549 SI-N 900V 3A 40W |2SC3552 SI-N 1100V 12A 150W 15MHz2SC3568 SI-N 150V 10A 30W |2SC3571 SI-N 500V 7A 30W2SC3577 SI-N 850V 5A 80W 6MHz |2SC3581 SI-N 55V 150MHz2SC3591 SI-N 400V 7A 50W |2SC3595 SI-N 30V 5W 2GHz2SC3596 SI-N 80V 8W 700MHz |2SC3597 SI-N 80V 10W 800MHz2SC3599 SI-N 120V 8W 500MHz |2SC3600 SI-N 200V 7W 400MHz2SC3601 SI-N 200V 7W 400MHz | 2SC3608 SI-N 20V2SC3611 SI-N 50V 4W 300MHz | 2SC3616 SI-N 25V 250MHz2SC3621 SI-N 150V 10W 100MHz | 2SC3623 SI-N 60V B=1K2SC3632 SI-N 600V 1A 10W 30MHz |2SC3636 SI-N 900/500V 7A 80W2SC3642 SI-N 1200V 6A 100W 200ns |2SC3655 SI-N 50V 46/23K2SC3656 SI-N 50V 10K/10 | 2SC3659 SI-N+D 1700/800V 5A 50W2SC3668 SI-N 50V 2A 1W 100MHz |2SC3669 SI-N 80V 2A 1W2SC3675 SI-N 1500/900V 10W |2SC3678 SI-N 900V 3A 80W2SC3679 SI-N 900/800V 5A 100W |2SC3680 SI-N 900/800V 7A 120W 6MHz2SC3684 SI-N+D 1500V 10A 150W |2SC3688 SI-N 1500V 10A 150W2SC3692 SI-N 100V 7A 30W <300/180 |2SC373 SI-N 35V B>2002SC3746 SI-N 80V 5A 20W 100MHz |2SC3748 SI-N 80V 10A 30W 100/600ns2SC3752 SI-N 1100/800V 3A 30W |2SC3781 SI-N 120V 15W 500MHz2SC3782 SI-N 200V 15W 400MHz | 2SC3783 SI-N 800V 5A 100W2SC3787 SI-N 180V 10W 150MHz | 2SC3788 SI-N 200V 5W 150MHz2SC3789 SI-N 300V 7W 70MHz |2SC3790 SI-N 300V 7W 150MHz2SC3792 SI-N 50V 250MHz | 2SC3795A SI-N 900V 5A 40W2SC3807 SI-N 30V 2A 15W 260MHz |2SC3808 N-DARL 80V 2A 170MHz B>802SC380TM SI-N 30V 50mA 100MHz | 2SC3811 SI-N 40V 450MHz2SC3831 SI-N 500V 10A 100W |2SC3833 SI-N 500/400V 12A 100W2SC3844 SI-N 600V 15A 75W 30MHz2SC3851 SI-N 80V 4A 25W 15MHz |2SC3852 SI-N 80V 3A 25W 15MHz2SC3855 SI-N 200V 10A 100W 20MHz |2SC3857 SI-N 200V 15A 150W 20MHz2SC3858 SI-N 200V 17A 200W 20MHz |2SC3866 SI-N 900V 3A 40W2SC3868 SI-N 500V 25W | 2SC3883 SI-N+D 1500V 6A 50W2SC3884A SI-N 1500V 6A 50W |2SC3886A SI-N 1500V 8A 50W2SC388A SI-N 25V 50mA 300MHz | 2SC3890 SI-N 500V 7A 30W 500NS2SC3892A SI-N+D 1500V 7A 50W | 2SC3893A SI-N+D 1500V 8A 50W2SC3895 SI-N 1500/800V 8A 70W |2SC3896 SI-N 1500V 8A 70W2SC3897 SI-N 1500V 10A 70W |2SC3902 SI-N 180V 10W 120MHz2SC3907 SI-N 180V 12A 130W 30MHz |2SC3927 SI-N 900V 10A 120W2SC394 SI-N 25V 200MC RF |2SC3940 SI-N 30V 1A 1W 200MHz2SC3943 SI-N 110V 2W 300MHz | 2SC3944 SI-N 150V 1A 40W 300MHz2SC3950 SI-N 30V 5W2SC3952 SI-N 80V 10W 700MHz |2SC3953 SI-N 120V 8W 400MHz2SC3954 SI-N 120V 8W 400MHz |2SC3955 SI-N 200V 7W 300MHz2SC3956 SI-N 200V 7W 70MHz |2SC3964 SI-N 40V 2A 1us2SC3972 SI-N 800/500V 5A 40W |2SC3973A SI-N 900V 7A 45W2SC3979A SI-N 800V 3A 2W 10MHz |2SC3987 N-DARL+D 50V 3A 15W2SC3996 SI-N 1500/800V 15A 180W |2SC3998 SI-N 1500V 25A 250W POWER2SC3999 SI-N 300V 300MHz | 2SC4004 SI-N 900/800V 1A 30W <1/42SC4020 SI-N 900V 3A 50W 1us |2SC4024 SI-N 100V 10A 35W B>3002SC4029 SI-N 230V 15A 150W 30MHz |2SC4043 SI-N 20V 50mA2SC4046 SI-N 120V 8W 350MHz |2SC4052 SI-N 600V 3A 40W 20MHz2SC4056 SI-N 600V 8A 45W |2SC4059 SI-N 600/450V 15A 130W2SC4064 SI-N 50V 12A 35W 40MHz |2SC4107 SI-N 500/400V 10A 60W2SC4119 N-DARL+D 1500V 15A 250W B |2SC4123 SI-N+D 1500V 7A 60W2SC4125 SI-N+D 1500/800V 10A 70W |2SC4131 SI-N 100V 15A 60W 18MHz2SC4135 SI-N 120V 2A 15W 200MHz |2SC4137 SI-N 25V 300MHz2SC4138 SI-N 500V 10A 80W <1/ | 2SC4153 SI-N 200V 7A 30W2SC4157 SI-N 600V 10A 100W |2SC4159 SI-N 180V 15W 100MHz2SC4161 SI-N 500V 7A 30W |2SC4169 N-DARL+D 50V 1W B=4K2SC4199 SI-N 1400V 10A 100W |2SC4200 SI-N 20V 5W2SC4204 SI-N 30V |2SC4231 SI-N 1200/800V 2A 30W2SC4235 SI-N 1200/800V 3A 80W |2SC4236 SI-N 1200/800V 6A 100W2SC4237 SI-N 1200/800V 10A 150W |2SC4242 SI-N 450/400V 7A 40W2SC4256 SI-N 1500V 10A 175W 6MHz |2SC4278 SI-N 150V 10A 100W 30MHz2SC4288A SI-N1600/600V 12A 200W |2SC4289A SI-N 1500V 16A 200W2SC4290A SI-N 1500V 20A 200W |2SC4297 SI-N 500V 12A 75W 10MHz2SC4298 SI-N 500V 15A 80W 10MHz |2SC4300 SI-N 900V 5A 75W 1/6us2SC4304 SI-N 800V 3A 35W |2SC4308 SI-N 30V2SC4313 SI-N 900V 10A 100W | 2SC4381 SI-N 150V 2A 25W 15MHz2SC4382 SI-N 200V 2A 25W 15MHz |2SC4386 SI-N 160/120V 8A 75W 20MHz2SC4387 SI-N 200V 10A 80W 20MHz |2SC4388 SI-N 200V 15A 85W 20MHz2SC4408 SI-N 80V 2A 100/600ns | 2SC4429 SI-N 1100/800V 8A 60W2SC4430 SI-N 1100V 12A 65W 15MHz |2SC4431 SI-N 120V 20W 150MHz2SC4439 SI-N 180V 8W 400MHz |2SC4467 SI-N 160/120V 8A 80W 20MHz2SC4468 SI-N 200V 10A 80W 20MHz |2SC4484 SI-N 30V 1W 250MHz2SC4488 SI-N 120V 1A 1W 120MHz |2SC4511 SI-N 120V 6A 30W 20MHz2SC4512 SI-N 120V 6A 50W 20MHz |2SC4517 SI-N 900V 3A 30W 6MHz2SC4517A SI-N 1000V 3A 30W |2SC4531 SI-N+D 1500V 10A 50W2SC4532 SI-N 1700V 10A 200W 2uS |2SC4538 SI-N 900V 5A 80W2SC454 SI-N 30V 230MHz |2SC4542 SI-N 1500V 10A 50W2SC4547 N-DARL+D 85V 3A 30W B>2K |2SC4557 SI-N 900V 10A 80W <1/2SC4560 SI-N 1500V 10A 80W |2SC458 SI-N 30V 230MC UNI2SC4582 SI-N 600V 100A 65W 20MHz |2SC460 SI-N 30V 230MHz2SC461 SI-N 30V 230MHz | 2SC4744 SI-N 1500V 6A POWER2SC4745 SI-N 1500V 6A |2SC4747 SI-N 1500V 10A 50W2SC4758 SI-N 1500V 8A 50W HI-RES |2SC4769 SI-N+D 1500V 7A 60W2SC4770 SI-N 1500/800V 7A 60W |2SC4793 SI-N 230V 1A 2W 100MHz2SC4804 SI-N 900V 3A 30W |2SC4820 SI-N 450V 6A 30W 12MHz2SC4826 SI-N 200V 3A 300MHz |2SC4834 SI-N 500V 8A 45W <2SC4883A SI-N 180V 2A 20W 120MHz |2SC4891 SI-N 1500V 15A 75W2SC4908 SI-N 900V 3A 35W 1us |2SC4924 SI-N 800V 10A 70W2SC4977 SI-N 450V 7A 40W |2SC5002 SI-N 1500V 7A 80W2SC5003 SI-N+D 1500V 7A 80W |2SC5027 SI-N 1100V 3A 50W2SC5030 SI-N 50V 5A 150MHz |2SC5045 SI-N 1600V 15A 75W2SC5047 SI-N 1600V 25A 250W |2SC5048 SI-N 1500V 12A 50W2SC5070 SI-N 30V 2A B>800 |2SC5086 SI-N 20V 80MA 7GHZ2SC509 SI-N 35V 60MHz | 2SC5144 SI-N 1700V 20A 200W2SC5148 SI-N 1500V 8A 50W |2SC5149 SI-N+D 1500V 8A 50W2SC5150 SI-N 1700V 10A 50W 03us |2SC5171 SI-N 180V 2A 20W 200MHz2SC5198 SI-N 140V 10A 100W 30MHz |2SC5207 SI-N 1500V 10A 50W2SC5242 SI-N 230V 15A 130W 30MHz |2SC5244A SI-N 1600V 30A 200W2SC5296 SI-N+D 1500V 8A 60W |2SC5297 SI-N 1500V 8A 60W2SC5299 SI-N 1500V 10A 70W | 2SC535 SI-N 20V 20mA2SC536 SI-N 40V 180MC UNI |2SC620 SI-N 50V UNI2SC643 SI-N 1100V 50W |2SC644 SI-N 30V 50mA2SC645 SI-N 30V 30mA 200MHz | 2SC710 SI-N 30V 200MHz2SC711 SI-N 30V 150MHz |2SC712 SI-N 30V 150MHz2SC717 SI-N 30V 50mA 600MHz |2SC730 SI-N 40V PQ=2SC732 SI-N 50V 150MHz | 2SC735 SI-N 35V UNI2SC752 SI-N 15V 100mA |2SC756 SI-N 40V 4A 10W 65MHz2SC784 SI-N 40V 500MC RF |2SC815 SI-N 60V 200MHz2SC828 SI-N 30V UNI | 2SC829 SI-N30V 30mA 230MHz2SC839 SI-N 50V 250MHz |2SC867 SI-N 400V 1A 23W 8MHz2SC869 SI-N 160V 30mA 150MHz | 2SC898A SI-N 150V 7A 80W 15MHz2SC900 SI-N 30V 100MHz |2SC930 SI-N 15V 300MC RF2SC936 SI-N 1000V 1A 22W POWER |2SC941 SI-N 35V 20mA 120MHz2SC943 SI-N 60V 220MHz | 2SC945 SI-N 50V 250MC UNI2SC982 N-DARL 40V。
ISO1050中文资料_数据手册_参数
器件型号 ISO1050
器件信息(1)
封装
封装尺寸(标称值)
SOP (8)
9.50mm × 6.57mm
SOIC (16)
10.30mm x 7.50mm
(1) 要了解所有可用封装,请见数据表末尾的可订购产品附录。
简化电路原理图
CANH RXD
CANL
TXD
1பைடு நூலகம்
PRODUCTION DATA information is current as of publication date. Products conform to specifications per the terms of the Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters.
English Data Sheet: SLLS983
ISO1050
ZHCS321I – JUNE 2009 – REVISED JANUARY 2015
目录
1 特性.......................................................................... 1 2 应用.......................................................................... 1 3 说明.......................................................................... 1 4 修订历史记录 ........................................................... 2 5 Pin Configuration and Functions ......................... 5 6 Specifications......................................................... 6
1050材料
1050材料1050材料是一种常见的铝合金材料,具有较好的加工性能和机械性能,被广泛应用于航空航天、汽车制造、建筑装饰等领域。
本文将从1050材料的特点、应用领域、加工工艺等方面进行介绍。
首先,1050材料具有良好的加工性能。
由于其成分中含有99.5%的铝,因此具有较好的延展性和强度,易于冷加工和热加工,能够满足各种复杂形状的加工需求。
同时,1050材料的表面光洁度高,易于进行表面处理,如阳极氧化、喷涂等,能够满足不同领域对材料表面质量的要求。
其次,1050材料在航空航天领域有着广泛的应用。
由于1050材料具有较低的密度和良好的强度,因此在航空航天领域被广泛应用于飞机外壳、燃油箱、机翼等部件的制造中。
同时,1050材料的耐腐蚀性能也很好,能够在恶劣的环境下长期稳定运行,因此备受航空航天领域的青睐。
此外,1050材料在汽车制造领域也有着重要的应用。
汽车制造对材料的轻量化和强度要求较高,1050材料正好满足了这一需求。
它可以用于汽车车身、车门、车顶等部件的制造,既能够减轻车身质量,提高汽车燃油经济性,又能够保证车身的强度和安全性能。
最后,关于1050材料的加工工艺。
在冷加工方面,1050材料可以进行拉伸、压缩、弯曲等多种成型工艺,能够满足不同形状的零件加工需求。
在热加工方面,1050材料的热塑性较好,能够进行锻造、挤压等工艺,用于生产各种复杂形状的零件。
同时,1050材料的焊接性能也很好,可以采用氩弧焊、气体保护焊等多种焊接工艺进行加工。
综上所述,1050材料作为一种常见的铝合金材料,具有良好的加工性能和机械性能,被广泛应用于航空航天、汽车制造、建筑装饰等领域。
它在不同领域的应用,为相关行业的发展提供了有力支持,展现出了广阔的市场前景和应用潜力。
希望本文的介绍能够对读者对1050材料有所了解,并在实际应用中发挥其优势。
不锈钢牌号对照表
不锈钢牌号对照表序列号中国CHINAGB1220日本JAPANJIS美国USA英国UKBS970BS1449德国GERMANYDIN17440DIN17224法国FRANCENFA35-572NFA35-576-582NFA35-584ANSI ASTM11Cr17Mn6SUS201201-1S2010021Cr18Mn8Ni5N SUS202202S20200284S16X12CrNi177SZ12CN17.07 31Cr17Ni7SUS301301S30100301S21X12CrNi188Z10CN18.09 41Cr18Ni9SUS302302S30200302S25X5CrNi189Z6CN180.9 51Cr18Ni9Si3SUS302B302B S302156OCr18Ni9SUS304304S30300304S15X2CrNi189Z2CN180.9 7O OCr19Ni10SUS304L304S30403304S12Z5CN18.09A28OCr19Ni9N SUSNI304NS30451X2CrNiN1810Z2CN18.10N 9OOCr18Ni10N SUSLN304LN S30453X5CrNi1911Z8CN18.12 101Cr18Ni12SUS305305S30500305S19112Cr23Ni13SUS309309S3090012Ocr23Ni13SUS309S309S S3090813Ocr25Ni20SUS310S310S S31008X5CrNiMo1812Z6CND17.12 14OCr17Ni12Mo2SUS316316S3160316S16X2CrNiMo1812Z2CND17.12 15OOCr17Ni14Mo2 SUS316L316L S3*******S1216OCr17Ni12Mo2N SUS316N316N S3165117OOCr18Ni14Mo2Cu2SUS316JIL18OCr19Ni13Mo3SUS317317S31700317S16X2CrNiMo1816Z2CND19.15 19OOCr19Ni13Mo3SUS317L317L S3*******S12X10CrNiTi189201Cr18Ni9TiOCr19Ni10TiSUS321321S32100321s12321s20X10CrTi189Z6NT18.1021OCr18Ni11Nb SUS347347S34700347S17X10CrNiNb189Z6NNB18.10 22Ocr13AI SUS405405S40500405S17X71CrAI13Z6CA13 231Cr17SUS430430S43000430S15X8Cr17Z8C17 24OOCr27Mo SUSXM27XM27S44625Z01CD26.1 251Cr12SUS403403S40300430S17261Cr13SUS410410S41000430S21X10Cr13Z12C13 271Cr13SUS410S410S430S17X7Cr13Z6C13 281Cr13Mo SUS410J129 2 Cr13SUS420J1430S37X20Cr13Z20C1330 3 Cr13SUS420J2420S42000430S45Z15CN16.02 311Cr17Ni2SUS431431S43100430S29X22CrNi17327Cr17SUS440A440S44002338 Cr17SUS440B440S44003Z100CD17 349 Cr 18SUS440C440C X105CrMo17Z6CNU17.04 35Ocr17Ni4Cu4Nb SUS630630S17400Z8CNA17.736Ocr17Ni7AI SUS631631S17700X7CrNiAI177 37ZG15(ZG200-400) 铸钢SC41060-338ZG25ZG230-450 铸钢SC45065-3539ZG35 ZG270-500铸钢SC48070-3640ZG45 ZG310-570铸钢SCC5A41ZG10Cr13铸不锈钢SCS1CA1542ZG20Cr13 铸不锈钢SCS243ZGCr28铸不锈钢SCH2HC(28Cr)44ZG10Cr13Ni 铸不锈钢SCS3CA15M44ZG1Cr18Ni9 铸不锈钢SCS12CF-2045ZGOCr18Ni9铸不锈钢SCS13A CF-846ZGOCr18Ni9Ti铸不锈钢SCS21CF-8C47ZG35Cr26Ni12铸不锈钢SCH13HH(25Cr12Ni)48ZG40Cr25Ni20钢铸不锈SCH22HK4049Q215-A-F(B-F)钢板SS330A/B50Q235-A-F(B-F)-B/C/D钢板SM400A/B/C C51Q255-A/B钢板D52Q275钢板53HT150灰铸铁FC1520B GG15 54HT200灰铸铁F2030B GG20 55HT250灰铸铁F2535B GG25 56HT300灰铸铁F3045B GG30 57HT350灰铸铁F3550B GG35 58QT400-18球铁FCD4060-40-18GGG40 59QT450-10球铁FCD4565-45-12GGG45 60QT500-7球铁FCD5070-50-05GGG50 61QT600-3球铁FCD6080-60-03GGG60 62QT700-2球铁FCD70100-70-03GGG70 63QT800-2球铁FCD80120-90-02GGG80世界金属牌号对照表碳素结构钢中国国际原苏联美国日本德国英国法国GB/T 700 ISO 3573 ISO 630 GOST 535 GOST380 ASTM A283M ASTMA573MASTMA284MASTMA709MJISG3101JISG3131JISG3106DINEN10025BS 970Part1BSEN10025NFEN10025Q 195 HR2 CT1KPCT1CPCT1PC Gr.B SS 330(SS34)SPHCSPHD040A10Q 215 A HR1 CT2KP-2CT2PC-2CT2CP-2 Gr.C Gr.58 SS 330(SS34)SPHC Fe 360 C 040A12 Fe 360 C Fe 360 CQ 215 B CT2KP-3CT2PC-3CT2CP-3 Gr.C Gr.58 Gr.C SS 330(SS34)SPHCSPHD040A12Q235 A Fe 360 A CT3KP-2CT3PC-2CT3CP-2 Gr.D SS 400(SS41)SM 400A(SM41A)Fe 360 BFe 360 C080A15 Fe 360 BFe 360 CFe 360 BFe 360 CQ 235 B Fe 360 D CT3KP-3CT3PC-3CT3CP-3 Gr.D SS 400(SS41)SM 400A(SM41A)Fe 360 BFe 360 C080A15 Fe 360 BFe 360 CFe 360 BFe 360 CQ 235 C Fe 360 D CT3KP-4CT3PC-4CT3CP-4 Gr.D Gr.65 Gr.D SS 400A(SS41A)SM 400B(SM41B)Fe 360 C 080A15 Fe 360 C Fe 360 CQ 235 D Fe 360 D CT3KP-4CT3PC-4CT3CP-4 SS 400A(SS41A)Fe 360D1Fe 360D2Fe 360D1Fe 360D2Fe 360D1Fe 360D2Q 255 A CT4KP-2CT4PC-2CT4CP-2 Gr.36[250]SS 400(SS41)SS 400A(SS41A)Q 255 B CT4KP-3CT4PC-3CT4CP-3 Gr.36[250]SS 400(SS41)SS 400A(SS41A)Q 275 Fe 430 A CT5KP-2CT5CP-2 SS 490 (SS50)[返回]优质碳素结构钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE(1)普通含锰05F10051005015A0305kn08F100610061006040A0408kn量钢组08S09CK(S9CK)C10(1.0301),CK10(1.1121)100810081008050A040810F101010101010040A1010kn10S10C CK10(1.1121) 101010101010040A10,050A10,060A10XC1010S12C101210121012040A12,050A12,060A12XC12 15F040A1515kn15S15C,S15CKC15(1.0401),CK15(1.1141),Cm15(1.1140)101510151015040A15,050A15,060A1515S17C101710171017040A17,050A17,060A17XC1820F040A2020kn20S20C,S20CK 102010201020050A20,060A2020S22C C22(1.0402),CK22(1.1151)102310231023040A22,050A22,060A2225S25C1025,10261025,10261025,1026060A25,080A25XC2525R683/IC25eS28C102910291029060A27,080A2730S30C103010301030060A30,080A30,080M30XC3230R683/IC30eS33C103510351035060A32,080A3235S35C C35(1.0501),1035,1035,1035,060A35,XC3535R683/IC35eCK35(1.1181),Cm35(1.1180)103710371037080A35项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE普通含锰量钢组S38C103810381038060A37,080A37XC3840S40C1040,10391040,10391040,1039060A40,080A40,080M4040R683/IC40eS43C1042,10431042,10431042,1043060A42,080A42XC4245S45C C45(1.0503),CK45(1.1191),Cm45(1.1201)1045,10461045,10461045,1046060A47,080A47,080M46XC4545R683/IC45eS48C1045,1045,1045,060A47,080A47XC481046, 10491046,10491046,1049501050,10531050,10531050,1053080M5050R683/IC50eS53C105510551055060A52,080A5255S55C C55(1.0535),CK55(1.1181),Cm55(1.1209) 105510551055070M55,060A57,080A57XC5555R683/IC55e60S58C C60(1.0601),CK60(1.1221),Cm60(1.1223) 106010601060060A62,080A6260R683/IC60e65106510651065060A67,080A67XC6565 70107010701070060A72,070A72,XC7070080A72 75107410741074060A78,070A78,080A787580108010801080060A82,080A83XC8080 85108410841084060A86,080A8685项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE(2)较高含锰量钢组15Mn17Mn4(1.8044)1016,10191016,10191016,1019080A15,080A1715Г20Mn1021,10221021,10221021,1022080A20,070M20XC1820Г25Mn S28C102610261026070M2625Г30Mn S30C103010301030080A30,XC3230Г080A3235Mn S35C103710371037080A3535Г40Mn S40C40Mn4(1.5038)1039,10401039,10401039,1040080A4040Г45Mn S45C1043,10461043,10461043,1046080A4745Г50Mn S53C1050,10531050,10531050,1053080A52,080M50XC4850Г60Mn156********A6460Г65Mn15661566(1066)65Г70Mn1572157270Г[返回]碳素工具钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAET7SK7,SK6W1-71204Y275,1304Y375Y7T8SK6,SK5W1-71/2Y8 T8Mn SK5Y8ГT9SK4,SK5W2-81/2,W1-81/2WB1A Y9T10SK3,SK4W2-91/2,W1-91/2BW1B1203Y290,1303Y390Y10T11SK3W1-101/21202Y2105Y11 T12SK2W1-111/2BW1C1201Y2120Y12 T13SK1W2-13,W1-121/21200Y2135Y13T7A1105Y165Y7A T8A C80W1(1.1525)(VDEh)1104Y175Y8AT8MnA C85WS(1.1830)(VDEh)Y8ГAT9A1103Y1909YA T10A C105W1(1.1545)(VDEh)Y10AT11A1102Y1105Y11A T12A1101Y1120Y12A T13A Y13A [返回]合金结构钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE(1)锰钢组09Mn209Г210Mn21513151310Г215Mn215Г220Mn2SMn420(SMn21)102410241524(1024)150M1920Г230Mn2SMn433(SMn1)28Mn6(1.5065),30Mn5(1.5066)133013301330150M2830Г235Mn2SMn438(SMn2)36Mn5(1.5067) 133513351335150M3635Г240Mn2Smn443 (SMn3)13401340134040Г245Mn2Smn443 (SMn3)13451345134545Г250Mn2105210521552(1052)50Г(2)硅锰钢组27SiMn27CГ35SiMn37MnSi5(1.5122) 35CГ42SiMn46MnSi4(1.5121) 43CГ15MnV15MnV5(1.5213)(3)锰钒钢组42Mn2V42MnVT(1.5223)(4)铬钢组15Cr SCr415(SCr21)5115511512C315X20Cr SCr240(SCr22)512051205120527A19,527M2018C320X R683/Ⅺ430Cr SCr430(SCr2 )5130,51325130,51325130,5132530A30,530A3232C430X35Cr SCr435(SCr3 )34Cr4(1.7033),37Cr4(1.7034)513551355135530A3638C435X R683/Ⅶ2 40Cr SCr440(SCr4)41Cr4(1.7035) 514051405140530A40,530M4042C440X R683/Ⅶ345Cr SCr445(SCr5)5147,51455147,51455147,514545C445X50Cr51505150515050X (5)铬硅钢组38CrSi38XC40CrSi40XC (6)铬锰钢组38CrMn16MC515XГ,18XГ15CrMn20MnCr4(1.7147) 20MC520XГ40CrMn40XГ项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE(7)铬锰硅钢组20CrMnSi20XГC 25CrMnSi25XГC 30CrMnSi30XГC 35CrMnSi35XГCA(8)铬钒钢组20CrV22CrV4(1.7513)20Xψ40CrV42CrV6(1.7561)40XψA50CrV SUF1050CrV4(1.8159)615061506150735A5050CV450XψA (9)铬锰钛钢组30CrMnTi30XГT(10)钼钢组16Mo15Mo3(1.5415)16M(11)铬钼钢组12CrMo13CrMo44(1.7335)1501-620Gr·2712CD412XM15CrMo SCM415(SCM21)16CrMo44(1.7337)A387Cr·1212CD415XM20CrMo SCM420(SCM22)25CrMo4(1.7218)18CD420CD420XM30CrMo SCM430(SCM2)34CrMo4(1.7220)41304130413030CD430XM35CrMo SCM435(SCM3)34CrMo4(1.7220)413541354135708A3735CD435XM R683/Ⅱ242CrMo SCM440(SCM4)42CrMo4(1.7225)414041404140708M40,708A42,709M4042CD4R683/Ⅱ3SCM421(SCM23)R683/Ⅺ7SCM418411841184118SCM445(SCM5)50CrMo4(1.7228)414541454145SCM822(SCM24)25CrMo4(1.7218)25CD438CrMoAl SACM645(SACM1)34CrAlMo5(1.8507)905M3938XMюA R683/Ⅹ4(12)铬锰钼钢组15CrMnMo15CrMo5(1.7262)20CrMnMo20CrMo5(1.7264)18XГM 40CrMnMo414041404140708A4240XГM,38XГM(13)铬锰钒钢组12CrMoV24CrMoV55(1.7733)12XMψ12Cr1MoV 24CrMoV 35CrMoV 12X1Mψ35ψMψA项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE(14)镍铬钢组12CrNi2SNC415(SNC21)10N11,16NC1112XH212CrNi3A SNC815(SNC22)14NiCr10(1.5732)(3415)665M1310NC12,14NC1212XH3A12Cr2Ni4A(E3310),(E3316)(3310),331612NC1512X2H2A20CrNi(3120)(3120)635M1520NC620XH 20CrNi3A20NC1120XH3A 20Cr2Ni4A(3325)30NC1420X2H4A30CrNi3A SNC631(SNC2)(3435)653M3130NC11,30NC1230XH3A37CrNi3A SNC836(SNC3)(3335)35NC1540CrNi SNC236(SNC1)(3140)(3140)640M4035NC640XH 45CrNi(A3145)(3145)45XH(15)镍铬钼钢组40CrNiMoA SNCM439(SNCM8)43404340,(4337)4340,4337817M40,816M4040XMA R683/Ⅲ4SNCM220(SNCM21)862086208620805M2020NCD2R683/Ⅺ12SNCM240 (SNCM6)864086408640945M38,945A40R683/Ⅷ1SNCM415(SNCM22)4315SNCM420(SNCM23)432043204320(4337)(4337)SNCM431(SNCM1)4347SNCM447(SNCM9)830M31SNCM625(SNCM2)835M15R683/Ⅺ14 SNCM815(SNCM25)(16)硼钢组40B TS14B3540B50B36H40MnB TS14B35H40MnB TS14B50H[返回]淬透性合金结构钢项目中国GB,YB日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAESMn433H(SMn1H)1330H1330H1330HSMn438H(SMn2H)1041H1041H1041HSMn443H(SMn3H)1041H1041H1041HSCr420H(SCr22H)5120H5120H5120HSCr430H(SCr2H)5130H5130H5130H530H30SCr435H(SCr3H)5135H5135H5135H503H36SCr440H(SCr4H)5140H5140H5140H503H40SCM418H4118H4118H4118H4135H4135H4135H640H3530CD4 SCM435H(SCM3H)4140H4140H4140H708H42SCM440H(SCM4H)SCM445H4145H4145H4145H(SCM5H)30NC11 SNC631H(SNC2H)SNC815H655H13(SNC22H)8620H8620H8620H20NCD2 SNCM220H(SNCM21H)SNCM420H4320H4320H4320H(SNCM23H)[返回]弹簧钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE65C67(1.0761)CK67(1.1231) 1064,10651064,10651064,1065080A67XC656570C67(1.0761)CK67(1.1231)107010701070070A72XC707075C75(1.0773) 107410741074070A78XC70,XC807585SUP3108410841084080A8685 65Mn15661566(1066)65Г55Si2Mn SUP655Si7(1.0904) 925592559255250A5355S6,56S755C260Si2Mn SUP765Si7(1.0906),66Si7(1.5028),60SiCr7(1.0961) 926092609260250A58,250A6161S760C260Si2CrA67SiCr5(1.7103) 9254925460C2XA 50CrMn SUP955Cr3(1.7176)527A6050XГ50CrVA SUP1050CrV4(1.8159) 615061506150735A5050CV450XΦA[返回]滚动轴承钢项目中国GB,YB 日本JIS德国VDEh美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAEGCr6105Cr2(1.3501)E5010050100100C3ШX6 GCr9SUJ1105Cr4(1.3503)E511005110051100534A99100C5ШX9 GCr15SUJ2100Cr6(1.3505)E521005210052100534A99100C6ШX15 GCr9SiMn SUJ3A485-Gr.1GCr15SiMn100CrMn6(1.3520)ШX15CГ[返回]高速工具钢项目中国GB,YB 日本JIS德国VDEh美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAEW18Cr4V SKH2(S18-0-1)(1.3355)T1T1BT14201Z80WCV18-04-01P18SKH3S18-1-2-5(1.3255)T4T4BT44271Z80WKCV18-05-04-01 SKH4A T5T5BT54275Z80WKCV18-10-04-02SKH4B T6T6BT6SKH10S12-1-4-5(1.3202)T15BT154175P10K5φ5Z165WKCV12-05-05-04SKH9S6-5-2(1.3343)M2M2BM24301Z85WDCV06-05-04-02SKH52M3-1M3-1SKH53S6-5-3(1.3344)M3-2M3-2SKH54M4BM144361Z130WDCV06-05-04-04SKH55S6-5-2-5(1.3243)4371Z85WDKCV06-05-05-04-02SKH56M36M36SKH57S10-4-3-10(1.3207)W12Cr4V4Mo S12-4(1.3302)P14φ4[返回]不锈耐酸钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТASTM AISI SAE0Cr13SUS405X7Cr13(1.4000) 405405S1708X13(0X13) SUS429429SUS416416416S21Z12CF131Cr17SUS430X8Cr17(1.4016) 430430S15Z8C1712X17(X17) SUS430F X12CrMoS17(1.4104) 430F Z10CF17SUS434X6CrMo17(1.4113) 434434S19Z8CD17-011Cr28X8Cr28(1.4083) 15X28(X28) 0Cr17Ti08X17T(0X17T) 1Cr17Ti X8CrTi17(1.4510)1Cr25Ti25X25T(X25T) 1Cr17Mo2Ti X8CrMoTi17(1.4523)1Cr13SUS410,SUS403X10Cr13(1.4006),X15Cr13(1.4024)410,403410S21,403S17Z12C1312X13(1X13)SUS410S X7Cr13(1.4000) 410S Z6C1308X13(0X13) 2Cr13SUS420J1X20Cr13(1.4021)420420S37420S29Z20C1320X13(2X13)SUS420F420F Z30CF13 3Cr13SUS420J2420S45Z30C1330X13(3X13) 4Cr13X40Cr13(1.4034) Z40C1440X13(4X13)1Cr17Ni2SUS431X22CrNi17(1.4057) 431431S2914X17H2(1X17H2) 9Cr1895X18(9X18)9Cr18MoV X90CrMoV18(1.4112)SUS440A440ASUS440B440BSUS440C440C Z100CD17SUS440F440FSUS305X5CrNi1911(1.4303)305305S19Z8CN18-1200Cr18Ni10SUS304L X2CrNi18 9(1.4306) 304L304L12Z2CN18-1003X18H11(000X18H11) 0Cr18Ni9SUS304X5CrNi18 9(1.4301) 304304S15Z6CN18-0908X18H10(0X18H10)1Cr18Ni9SUS302X12CrNi188(1.4300)302302S25Z10CN18-0912X18H9(X18H9) 2Cr18Ni917X18H9(2X18H9) SUS303X12CrNiS188(1.4305)303303S12Z10CNF18-09SUS303Se303Se303S1412X18H10E(X18H10E)SUS201201项目中国GB,YB日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТASTM AISI SAESUS202202284S1612X17Г9AH4(X17Г9AH4) SUS301301301S21Z12CN17-070Cr18Ni9Ti SUS321X10CrNiTi18 9(1.4541)321321S12Z6CNT18-1108X18H10T(0X18H10T) 1Cr18Ni9Ti X10CrNiTi18 9(1.4541)321S20Z10CNT18-1112X18H10T(X18H10T),12X18H9T(X18H9T) 1Cr18Ni11Nb SUS347X10CrNiNb18 9(1.4550)347347S17Z10CNNb18-1008X18H12ь(0X18H12ь) SUS384384Z6CNC18-16SUS385385SUS XM7XM7Z6CNU18-10SUS XM15J1XM152Cr13Mn9Ni420X13H4Г9(2X13H4Г9) 1Cr18Mn8Ni5N15X17AГ14(X17AГ14)Z8CNDT17-1210X17H13M2T 0Cr18Ni2Mo2Ti X10CrNiMoTi1810(1.4571)(X17H13M2T)Z8CNDT17-1210X17H13M2T 1Cr18Ni12Mo2Ti X10CrNiMoTi1810(1.4571)(X17H13M2T) SUS308308SUS309S309SSUS310S310S00Cr17Ni14Mo3SUS317L X2CrNiMo18 10(1.4438)317L317S12Z2CND19-150Cr18Ni12Mo3Ti320S17Z8CNDT17-131Cr18Ni12Mo3Ti Z8CNDT17-13SUS317317317S16SUS316X2CrNiMo18 10(1.4401)316Z6CND17-12SUS316L X2CrNiMo18 10(1.4404),X2CrNiMo18 12(1.4435)316L316S12Z2CND17-12,Z2CND17-1303X17H14M2(000X17H13M2)00Cr18Ni14Mo2Cu2SUS316J1L0Cr18Ni18Mo2Cu2Ti X5CrNiMoCuTi1818(1.4506)0Cr17Ni7Al SUS631X7CrNiAl17 7(1.4568)631Z8CNA17-709X17H7ю(0X17H7ю) SUS630630[返回]耐热钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТASTM AISI SAE1Cr13Si3X10CrSi13(1.4722)1Cr18Si2X10CrSi18(1.4741)4421Cr13SiAl X10CrAl13(1.4724)10X13Cю(1X12Cю)1Cr13SUS410,SUS403X10Cr13(1.4006)(DIN)X15Cr13(1.4024)(DIN)410,403410S21,403S17Z12C1312X13(1X13)2Cr1320X13(2X13)1Cr5Mo12CrMo19 5(1.7362)501,502Z12CD515X5M(X5M)1Cr11MoV15X11Mφ(1X11Mψ) 4Cr9Si2SUH1X45CrSi9(1.4718)401S45Z45CS940X9C2(4X9C2)4Cr10Si2Mo SUH3Z40CSD10,Z45CSD1040X10C2M(4X10C2M)1Cr18Ni9Ti X10CrNiTi189(1.4541) (DIN)321S20Z10CNT18-1112X18H10T(X18H10T)12X18H9T(X18H9T) 1Cr18Ni12Ti12X18H12T(X18H12T) 1Cr23Ni13SUH309309309S24Z15CN24-1320X23H13(X23H13) 1Cr20Ni14Si2X15CrNiSi2012(1.4828)20X20H14C2(X20H14C2)1Cr25Ni20Si2SUH310X15CrNiSi2520(1.4841)310Z12CN25-2020X25H20C2(X25H20C2)4Cr14Ni14W2Mo45X14H14B2M(4X14H14B2M) SUH31331S42Z25CNWS14-141Cr15Ni36W3Ti XH35BT SUH35349S52SUH36349S54SUH37381S34SUH330330Z12NCS36-16SUH660660Z6NCTDV25-15BSUH661661SUH21CrA12 05(1.4767)(DIN)SUH409409SUH446446SUH4443S65Z80CSN20-02SUH11Z45CS9SUH600Z20CDNbV11SUH61661615X12BHMψ(1X12BHMψ)[返回]易切结构钢项目中国GB,YB 日本JIS德国DIN(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAEY12SUM1211091109110910F2A12Y1510S20(1.0721)111911*********M07Y20SUM3222S20(1.0724) 20F2A20Y3035S20(1.0726) A30Y40Mn113911391139225M3645MF4A40ГSUM2112121212,11121212R683/Ⅸ1 SUM2212131213,11131213R683/ⅨSUM22L12L1312L13R683/Ⅸ2Pb SUM231215SUM24L12L1412L1412L14SUM31111711171117SUM41113711371137SUM42114111411141SUM4311441144225M4445MF4合金工具钢项目中国GB,YB 日本JIS德国VDEh(W-Nr.)美国英国BS法国NF前苏联ГОСТ国际ISOASTM AISI SAE(1)量具刃具用钢组9SiCr90CrSi5(1.2108)9XC 8MnSi C75W3(1.1750)CrMn145Cr5(1.2063)XГSKS51L6L6CrW5SKS1XB5 SKS11F2F2SKS7O7O72142110WC20CrO6SKS8140Cr3(1.2008)1230Y2135C13XCr2100Cr6(1.2067),105Cr5(1.2060)L3X9Cr285Cr7(1.2064)9X SKS22141100WC10B1V SKS43W2-91/2,W1-91/2BW21162Y1105VψW SKS21F1BF1(2)耐冲击工具用钢组4CrW2Si SKS4135WCrV7(1.2541),45WCrV7(1.2542)S1S1BS1234155WC204XB2C5CrW2Si45WCrV7(1.2542) BS15XB2C SKS4280WCrV8(1.2552)6CrW2Si6XB2C SKS44W2-81/2(3)冷作模具钢组Cr12SKD1X210Cr12(1.2080)D3D3BD32233Z200C12X12Cr12MoV SKD11X165CrMoV12(1.2601)D2D2BD2,BD2A2235Z160CDV12X12MCr6WV X6BψSKD12A2A2BA22231Z100CDV59Mn2O2O29Mn2V90MnV8(1.2842)O2O2BO2221190MV8项目中国GB,YB 日本JIS德国VDEh(W-Nr.)美国英国BS法国NF前苏联Т国际ISOASTM AISI SAE冷作模具钢组MnCrWV O1O1BO1CrWMn SKS31105WCr6(1.2419)221290MCW5XBГ9CrWMo SKS39XBГSKD2X210CrW12(1.2436)D7D7(4)热作模具钢组5CrMnMo SKT340CrMnMo7(1.2311)6G(ASM)6G5XГM SKT548CrMoV67(1.2323)6G(ASM)6GSKT2615061506150SCrNiMo SKT455NiCrMoV6(1.2713)6F2(ASM)6F2338155NCDV75XГM3Cr2W8VSKD5X30WCrV53(1.2567)H21H21BH21,BH21A3543Z30WCV93X2B8ψ4SiCrV38SiCrV8(1.2248)45SiCrV6(1.2249)4XC8Cr38X34Cr5MoVSi SKD6X38CrMoV51(1.2343)H11H11BH113431Z38CDV5SKD44X2B5ψMSKD61X40CrMoV51(1.2344)H13H13BH13SKD62H12H12BH123432Z38CDWV5。
tja1050中文资料
可以界面设计:Can总线是一个串行通信网络,可以有效地支持分布式控制和实时控制。
它以其高性能和高可靠性而被广泛应用于自动控制领域。
为了提高系统的驱动能力并增加通信距离,飞利浦82C250通常用作CAN控制器与物理总线(即收发器)之间的接口,以增强总线的差分传输能力。
以及CAN控制器的差分接收能力。
为了进一步提高抗干扰能力,经常在CAN控制器和收发器之间设置光电隔离电路。
典型的CAN总线接口电路原理如图1所示接口电路设计中的关键问题1.1光电隔离电路尽管光电隔离电路可以增强系统的抗干扰能力,但也会增加CAN总线有效环路信号的传输延迟时间,从而导致通信速率或距离的降低。
82C250和其他Can收发器具有瞬时抗干扰能力,可减少射频干扰(RFI)并实现热保护。
限流电路还为总线提供了进一步的保护。
因此,如果场传输距离近并且电磁干扰小,则不使用光电隔离来实现最大的通信速率或距离,并且可以简化接口电路。
如果现场环境需要光电隔离,则应选择高速光电隔离装置以减少CAN总线有效环路信号的传输延迟时间。
例如,传输延迟时间6n137短,典型值仅为48 ns,接近TTL电路的传输延迟时间。
1.2电源隔离光电隔离装置两侧使用的电源的Vdd和VCC必须完全隔离,否则光电隔离将失去应有的功能。
电源的隔离可以通过低功率DC / DC电源隔离模块来实现,例如具有5V双隔离输出的低功率DC / DC模块,其总体尺寸为dip-14标准引脚。
1.3上拉电阻图1中的罐收发器82C250的发送数据输入TXD与光耦合器6n137的输出连接。
注意,TXD还必须连接到上拉电阻R3。
一方面,R3确保6n137中的光敏三极管在导通时可以输出低电平,在截止时可以输出高电平。
另一方面,它也是CAN总线的要求。
具体来说,82C250的TXD端子的状态确定高和低罐电压输入/输出端子上的canh和canl的状态(请参见表1)。
Can总线规定,总线在空闲期间应为隐性,即Can网络中节点的默认状态为隐性,这要求TXD 终端的默认状态82c25o为逻辑1(高电平)。
SC1030资料
SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.311VOLTAGE REGULATORDESCRIPTIONThe SC10XX series is a set of three-terminal low power voltageregulators implemented in CMOS technology.They are available withseveral fixed output voltages ranging from l.5V--7.0V.CMOStechnology ensures low voltage drop and low quiescent current.Although designed primarily as fixed voltage regulators,thesedevices can be used with external components to obtain variablevoltages and currents.The SC10XX is housed in TO-92package.FEATURES*Low power consumption*Low voltage drop*Low temperature coefficient*Wide operating voltage(12V Max.)*TO-92packageAPPLICATIONS*Battery-powered equipment*Communication equipment*Audio/Video equipmentTO-92BLOCK DIAGRAMVPIN ASSIGNMENTFront ViewBottom ViewASilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.312SELECTION GUIDEPart No. Pin Assignment Output Voltage ToleranceSC1015SC1016B TypeA Typel.5V±2.4%.±5% SC1030SC1031B TypeA Type3.0V±2.4%.±5%SC1033SC1034B TypeA Type3.3V±2.4%.±5%SC1036SC1037B TypeA Type3.6V±2.4%.±5%SC1038SC1039B TypeA Type3.8V±2.4%.±5%SC1044SC1045B TypeA Type4.4V±2.4%.±5%SC1050SC1051B TypeA Type5.0V±2.4%.±5%SC1070SC1071B TypeA Type7.0V±2.4%.±5%Note:For semi-custom parts,selectable regulated voltage range is from2.4V to9V in0.1V increment.ABSOLUTE MAXIMUM RATINGSCharacteristic Symbol Value Unit Supply Voltage V DC0.3~15V Power Consumption P D250m/W Operating Temperature T OPR0~70°C Storage Temperature Tstg-50~125°C Note:These are stress ratings only.Stresses exceeding the range specified under“Absolute Maximum Ratings”may cause substantial damage to the device.Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability.SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.313ELECTRICAL CHARACTERISTICSSilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.314SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.315SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.316SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.317TYPICAL APPLICATION CIRCUITThe basic circuits of the SC10XX seriesHigh output current positive voltage regulatorSilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.318Short-Circuit protection for Tr1Circuit for increasing output voltageV OUT=V XX•(1+R1R2)+ISS•R2≈V XX•(1+R1R2)SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.319Circuit for increasing output voltageV OUT=V XX+V D1Constant current regulatorI OUT=ARXXV+ISSDual supplyIC1。
SC5001产品手册V1.3
4
7
10
uA
全功耗模式
低功耗模式进入时间
8
S
低功耗模式唤醒时间
70
mS
数据更新周期
60
mS
传感器电容范围 传感器变化检测范围 VOUT 驱动能力 最大输出电容负载 触控误触关断时间
0 0.01 0.1 30
16
pf pf mA
300 160 0.3VDD 0.7VDD 0.1VDD 0.3VDD
pf S V V V V
上海挚微电子技术有限公司
SHANGHAI SINCERECHIP TECHNOLOGY CO., LTD.
SC5001 产品手册 V1.3
架构框图:SC5001内置了14bit CDC,可以将精度提高至ff级别,专为触控数据处理而优化的 DPS Engine简化了外部应用,省略了繁琐的外部配置,能够根据外部按键的物理特性智能调 节内部匹配,做到了上电即可工作,极大的方便了客户的设计与使用。
10mA
1mA
100uA
Detect current
10uA
Standby current
1.8V
2V
3V
4V Power voltage
5V
Figure 8 静态电流参考(Rset=100K)
版权所有© 2013 上海挚微电子技术有限公司 Page 8 of 10
上海挚微电子技术有限公司
SHANGHAI SINCERECHIP TECHNOLOGY CO., LTD.
名称 VDD GND ASET 电源,建议并联到地 1uf 的电容。 芯片地
说明
触控灵敏度设置管脚,通过下拉电阻到地,该电阻越大灵敏度越高,范围 建议选取 55K 至 500K 之间,默认可选 100K 触控输出端口,初始默认输出为低,触控有效则输出高 S01-F:Flash 版本,触控有效期间输出高电平,触控无效期间输出低电平 S01-T:Toggle 版本,触控一次锁存输出高电平,再次触控一次锁存输出 低电平,依次循环。 S01-D:TDS 版本(time delay switch),该输出为 toggle 模式,输出高 电平后启动计时器,2 分钟后自动关闭输出
tja1050中文资料
tja1050中文资料集成电路(英语:integrated circuit,缩写作IC),或称微电路(microcircuit)、微芯片(microchip)、晶片/芯片(chip)在电子学中是一种把电路(主要包括半导体设备,也包括被动组件等)小型化的方式,并时常制造在半导体晶圆表面上。
晶体管发明并大量生产之后,各式固态半导体组件如二极管、晶体管等大量使用,取代了真空管在电路中的功能与角色。
到了20世纪中后期半导体制造技术进步,使得集成电路成为可能。
相对于手工组装电路使用个别的分立电子组件,集成电路可以把很大数量的微晶体管集成到一个小芯片,是一个巨大的进步。
集成电路的规模生产能力,可靠性,电路设计的模块化方法确保了快速采用标准化集成电路代替了设计使用离散晶体管。
集成电路对于离散晶体管有两个主要优势:成本和性能。
成本低是由于芯片把所有的组件通过照相平版技术,作为一个单位印刷,而不是在一个时间只制作一个晶体管。
性能高是由于组件快速开关,消耗更低能量,因为组件很小且彼此靠近。
2006年,芯片面积从几平方毫米到350 mm²,每mm²可以达到一百万个晶体管。
第一个集成电路雏形是由杰克·基尔比于1958年完成的,其中包括一个双极性晶体管,三个电阻和一个电容器,相较于现今科技的尺寸来讲,体积相当庞大。
电子显微镜下碳纳米管微计算机芯片体的场效应画面根据一个芯片上集成的微电子器件的数量,集成电路可以分为以下几类:小型集成电路(SSI英文全名为Small Scale Integration):逻辑门10个以下或晶体管100个以下。
中型集成电路(MSI英文全名为Medium Scale Integration):逻辑门11~100个或晶体管101~1k个。
大规模集成电路(LSI英文全名为Large Scale Integration):逻辑门101~1k个或晶体管1,001~10k个。
SC1051资料
SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.311VOLTAGE REGULATORDESCRIPTIONThe SC10XX series is a set of three-terminal low power voltageregulators implemented in CMOS technology.They are available withseveral fixed output voltages ranging from l.5V--7.0V.CMOStechnology ensures low voltage drop and low quiescent current.Although designed primarily as fixed voltage regulators,thesedevices can be used with external components to obtain variablevoltages and currents.The SC10XX is housed in TO-92package.FEATURES*Low power consumption*Low voltage drop*Low temperature coefficient*Wide operating voltage(12V Max.)*TO-92packageAPPLICATIONS*Battery-powered equipment*Communication equipment*Audio/Video equipmentTO-92BLOCK DIAGRAMVPIN ASSIGNMENTFront ViewBottom ViewASilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.312SELECTION GUIDEPart No. Pin Assignment Output Voltage ToleranceSC1015SC1016B TypeA Typel.5V±2.4%.±5% SC1030SC1031B TypeA Type3.0V±2.4%.±5%SC1033SC1034B TypeA Type3.3V±2.4%.±5%SC1036SC1037B TypeA Type3.6V±2.4%.±5%SC1038SC1039B TypeA Type3.8V±2.4%.±5%SC1044SC1045B TypeA Type4.4V±2.4%.±5%SC1050SC1051B TypeA Type5.0V±2.4%.±5%SC1070SC1071B TypeA Type7.0V±2.4%.±5%Note:For semi-custom parts,selectable regulated voltage range is from2.4V to9V in0.1V increment.ABSOLUTE MAXIMUM RATINGSCharacteristic Symbol Value Unit Supply Voltage V DC0.3~15V Power Consumption P D250m/W Operating Temperature T OPR0~70°C Storage Temperature Tstg-50~125°C Note:These are stress ratings only.Stresses exceeding the range specified under“Absolute Maximum Ratings”may cause substantial damage to the device.Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability.SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.313ELECTRICAL CHARACTERISTICSSilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.314SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.315SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.316SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.317TYPICAL APPLICATION CIRCUITThe basic circuits of the SC10XX seriesHigh output current positive voltage regulatorSilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.318Short-Circuit protection for Tr1Circuit for increasing output voltageV OUT=V XX•(1+R1R2)+ISS•R2≈V XX•(1+R1R2)SilanSemiconductorsSC10XX SERIESHANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02000.12.319Circuit for increasing output voltageV OUT=V XX+V D1Constant current regulatorI OUT=ARXXV+ISSDual supplyIC1。
CC1050PWG3中文资料
CC1050Single Chip Very Low Power RF Transmitter Applications•Very low power UHF wireless data transmitters•315 / 433 / 868 and 915 MHz ISM/SRD band systems •RKE – Remote Keyless Entry •Home automation•Wireless alarm and security systems •AMR – Automatic Meter Reading •Low power telemetry•Game Controllers and advanced toysProduct DescriptionCC1050 is a true single-chip UHF trans-mitter designed for very low power and very low voltage wireless applications. The circuit is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands at 315, 433, 868 and 915 MHz, but can easily be programmed for operation at other frequencies in the 300-1000 MHz range.The main operating parameters of CC1050 can be programmed via an easy-to-interface serial bus, thus making CC1050 a very flexible and easy to use transmitter. In a typical system CC1050 will be used together with a microcontroller and a few external passive components. CC1050 is based on Chipcon’s SmartRF®technology in 0.35 µm CMOS.Features•True single chip UHF RF transmitter •Very low current consumption •Frequency range 300 – 1000 MHz •Programmable output power –20 to12 dBm•Small size (TSSOP-24 package)•Low supply voltage (2.1 V to 3.6 V) •Very few external components required •Single-ended antenna connection •FSK data rate up to 76.8 kBaud •Complies with EN 300 220 and FCC CFR47 part 15•Programmable frequency in 250 Hz steps makes crystal temperature driftcompensation possible without TCXO •Suitable for frequency hopping protocols•Development Kit available•Easy-to-use software for generating the CC1050 configuration dataTable of ContentsAbsolute Maximum Ratings (4)Operating Conditions (4)Electrical Specifications (4)Pin Assignment (7)Application Circuit (9)Configuration Overview (10)Configuration Software (11)3-wire Serial Configuration Interface (12)Microcontroller Interface (14)Signal interface (15)Frequency programming (17)VCO (17)VCO and PLL self-calibration (17)VCO current control (21)Power management (21)Output Matching (24)Output power programming (25)Crystal oscillator (26)Optional LC Filter (27)System Considerations and Guidelines (28)PCB Layout Recommendations (29)Antenna Considerations (29)Configuration registers (30)Package Description (TSSOP-24) (38)Soldering Information (38)Plastic Tube Specification (38)Carrier Tape and Reel Specification (38)Ordering Information (39)General Information (39)Address Information (40)Absolute Maximum RatingsParameter Min.Max. Units ConditionSupply voltage, VDD -0.3 5.0 VVoltage on any pin -0.3 VDD+0.3,max 5.0V Input RF level 10 dBmStorage temperature range -50 150 °CReflow soldering temperature 260 °C T = 10 sUnder no circumstances the absolute maximum ratings given above should be violated. Stress exceeding one or more of the limiting values may cause permanent damage to the device.Caution! ESD sensitive device.Precaution should be used when handlingthe device in order to prevent permanentdamage.Operating ConditionsParameter Min. Typ. Max. Unit Condition / NoteRF Frequency Range 300 1000 MHz Programmable in steps of 250 Hz Operating ambient temperature range -40 85 °CSupply voltage 2.1 3.0 3.6 V Note: The same supply voltageshould be used for digital (DVDD)and analogue (AVDD) power. Electrical SpecificationsTc = 25°C, VDD = 3.0 V if nothing else statedParameter Min. Typ. Max. Unit Condition / Note Transmit SectionTransmit data rate 0.6 76.8 kBaud NRZ or Manchester encoding.76.8 kBaud equals 76.8 kbit/susing NRZ coding. See page 15. Binary FSK frequency separation 0 65 kHz The frequency separation isprogrammable in 250 Hz steps.65 kHz is the maximumguaranteed separation at 1 MHzreference frequency. Largerseparations can be achieved athigher reference frequencies. Output power433 MHz 868 MHz -20-20128dBmdBmDelivered to 50 Ω load.The output power isprogrammable.RF output impedance 433/868 MHz 110 / 70 ΩTransmit mode. For matchingdetails see p.24.Parameter Min. Typ. Max. Unit Condition / NoteSpurious emission -36 dBm Complies with EN 300 220 Harmonics -20 dBc An external LC should be used toreduce harmonics emission tocomply with SRD requirements.See p.27.Frequency SynthesiserSectionCrystal Oscillator Frequency 3 16 MHz Crystal frequency can be 3-4, 6-8or 9-16 MHz. Recommendedfrequencies are 3.6864, 7.3728,11.0592 and 14.7456. See page26 for details.Crystal frequency accuracy requirement ± 50± 25ppm433MHz868 MHzThe crystal frequency accuracyand drift (ageing andtemperature dependency) willdetermine the frequency accuracyof the transmitted signal.Crystal operation Parallel C3 and C4 are loadingcapacitors, see page 26Crystal load capacitance 121212 221616303016pFpFpF3-8 MHz, 22 pF recommended6-8 MHz, 16 pF recommended9-16 MHz, 16 pF recommendedCrystal oscillator start-up time 41.52 msmsms3.6864 MHz, 16 pF load7.3728 MHz, 16 pF load16 MHz, 16 pF loadOutput signal phase noise -80 dBc/Hz At 100 kHz offset from carrier PLL lock time 200 µs Up to 1 MHz frequency stepPLL turn-on time, crystal oscillatoron in power down mode250 µs Crystal oscillator runningDigital Inputs/OutputsLogic "0" input voltage 00.3*VDD VLogic "1" input voltage 0.7*VDD VDD VLogic "0" output voltage 0 0.4 V Output current -2.5 mA,3.0 V supply voltageLogic "1" output voltage 2.5 VDD V Output current 2.5 mA,3.0 V supply voltageLogic "0" input current NA -1 µA Input signal equals GNDLogic "1" input current NA 1 µA Input signal equals VDDDI setup time 20 ns TX mode, minimum time DI mustbe ready before the positive edgeof DCLKDI hold time 10 ns TX mode, minimum time DI mustbe held after the positive edge ofDCLKParameter Min. Typ. Max. Unit Condition / Note Serial interface (PCLK, PDATA andPALE) timing specificationSee Table 2 page 13 Current ConsumptionPower Down mode 0.2 1 µA Oscillator core offCurrent Consumption,transmit mode 433/868 MHz:P=0.01mW (-20dBm) P=0.3mW (-5dBm)P=1mW (0dBm)P=3mW (5dBm)P=6mW (8dBm)P=16mW (12dBm)5.5/8.07.3/10.09.1/14.213.3/17.715.9/24.923.3/NAmAmAmAmAmAmAThe output power is delivered to a50Ω loadCurrent Consumption, crystal osc. Current Consumption, crystal osc. and biasCurrent Consumption, crystal osc., bias and synthesiser 30801054004.05.5µAµAµAµAmAmA3-8 MHz, 16 pF load9-14 MHz, 12 pF load14-16 MHz, 16 pF load< 500 MHz> 500 MHzPin AssignmentPin no. Pin name Pin type Description1 AVDD Power (A) Power supply (3 V) for analog modules (PA)2 AGND Ground (A) Ground connection (0 V) for analog modules (PA)3 AGND Ground (A) Ground connection (0 V) for analog modules (PA)4 AGND Ground (A) Ground connection (0 V) for analog modules (VCO and prescaler)5 L1 Analog inputConnection no 1 for external VCO tank inductor 6 L2 Analog input Connection no 2 for external VCO tank inductor7 AVDDPower (A) Power supply (3 V) for analog modules (VCO and prescaler) 8CHP_OUTAnalog outputCharge pump current output when external loop filter is used The pin can also be used as PLL Lock indicator. Output is high when PLL is in lock.9 R_BIASAnalog output Connection for external precision bias resistor (82 k Ω, ± 1%) 10 AGND Ground (A) Ground connection (0 V) for analog modules (backplane) 11 AVDD Power (A) Power supply (3 V) for analog modules (general) 12 AGND Ground (A) Ground connection (0 V) for analog modules (general) 13 XOSC_Q2 Analog output Crystal, pin 2 14 XOSC_Q1 Analog input Crystal, pin 1, or external clock input 15 AGND Ground (A) Ground connection (0 V) for analog modules (guard) 16 DGND Ground (D) Ground connection (0 V) for digital modules (substrate) 17 DVDD Power (D) Power supply (3 V) for digital modules 18 DGND Ground (D) Ground connection (0 V) for digital modules 19 DI Digital input Data input in transmit mode 20 DCLK Digital output Clock for data in transmit mode 21 PCLKDigital input Programming clock for 3-wire bus 22 PDATA Digital input/output Programming data for 3-wire bus. Programming data input for write operation, programming data output for read operation 23 PALE Digital input Programming address latch enable for 3-wire bus 24 RF_OUT RF output RF signal output to antennaA=Analog, D=Digital(Top View)AGND AGNDAGNDL1L2AVDDAGNDPALEPDATA PCLKDCLKDIDGNDDVDDDGNDAGND XOSC_Q1AGNDXOSC_Q2RF_OUT AVDDCHP_OUTR_BIASAVDDCircuit DescriptionFigure 1. Simplified block diagramA simplified block diagram of CC1050 is shown in Figure 1. Only signal pins are shown.The voltage controlled oscillator (VCO) output signal is fed directly to the power amplifier (PA). The RF output is frequency shift keyed (FSK) by the digital bit stream fed to the pin DI. The single ended PA makes the antenna interface and matching very easy. The frequency synthesiser generates the local oscillator signal which is fed to the PA in transmit mode. The frequency synthesiser consists of a crystal oscillator (OSC), phase detector (PD), charge pump (CHARGE PUMP), VCO, and frequency dividers (/R and /N). An external crystal must be connected to XOSC, and only an external inductor is required for the VCO.The 3-wire digital serial interface (CONTROL) is used for configuration.DCLKDICHP_OUTRF_OUTXOSC_Q1R_BIASApplication CircuitVery few external components arerequired for the operation of CC1050. A typical application circuit is shown Figure 2. Component values are shown in Table 1.Output matchingC1, C2 and L2 are used to match the transmitter to 50 Ω. See Output Matching p.24 for details.VCO inductorThe VCO is completely integrated except for the inductor L1. For further details see p. 17.Component values for the matching network and VCO inductor are easily calculated using the SmartRF® Studio software. Crystal oscillatorC3 and C4 are the loading capacitors for the crystal. See page 26 for details. Additional filteringAdditional filtering (e.g. a low pass LC-filter) may be used in order to reduce the harmonic emission. See also Optional LC Filter p.27 for further information.Power supply decoupling and filtering Power supply decoupling and filtering must be used (not shown in the application circuit). The placement and size of the decoupling capacitors and the power supply filtering are very important to achieve the optimum performance. Chipcon provides a reference design (CC1050EB) that should be followed very closely.Figure 2. Typical CC1050application circuitItem 315 MHz 433 MHz 868 MHz 915 MHzC1 5.6 pF, 5%, C0G, 0603 12 pF, 5%, C0G, 0603 4.7 pF, 5%, C0G, 0603 4.7 pF, 5%, C0G, 0603 C2 8.2 pF, 5%, C0G, 0603 6.8 pF, 5%, C0G, 0603 5.6 pF, 5%, C0G, 0603 5.6 pF, 5%, C0G, 0603 C3* 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 C4* 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 15 pF, 5%, C0G, 0603 L1 56 nH, 5%, 0603 33 nH, 5%, 0603 5.6 nH, 5%, 0603 5.6 nH, 5%, 0603L2 20 nH, 10%, 0805 6.2 nH, 10%, 0805 2.5 nH, 10%, 0805 2.5 nH, 10%, 0805R1 82 kΩ, 1%, 0603 82 kΩ, 1%, 0603 82 kΩ, 1%, 0603 82 kΩ, 1%, 0603XTAL 14.7456 MHz crystal,16 pF load 14.7456 MHz crystal,16 pF load14.7456 MHz crystal,16 pF load14.7456 MHz crystal,16 pF loadNotes:Items shaded are different for different frequencies.Component values for 868 and 915 MHz are equal.*) C3 and C4 will depend on the crystal load capacitance, see page 26.Table 1. Bill of materials for the application circuit Configuration OverviewCC1050 can be configured to achieve the best performance for different applications. Through the programmable configuration registers the following key parameters can be programmed:•Transmit mode / power-down / power-up mode•RF output power• Frequency synthesiser key parameters: RF output frequency, FSKfrequency separation (deviation), crystal oscillator reference frequency •Crystal oscillator power-up / power down• Data rate and data format (NRZ, Manchester coded or UART interface) •Synthesiser lock indicator mode •Modulation spectrum shapingConfiguration SoftwareChipcon provides users of CC1050 with a software program, SmartRF® Studio (Windows interface) that generates all necessary CC1050 configuration data based on the user's selections of various parameters. These hexadecimal numbers will then be the necessary input to the microcontroller for the configuration of CC1050. In addition the program will provide the user with the component values needed for the output matching circuit and the VCO inductor.Figure 3 shows the user interface of the CC1050 configuration software.Figure 3. SmartRF® Studio user interface3-wire Serial Configuration InterfaceCC1050 is configured via a simple 3-wire interface (PDATA, PCLK and PALE). There are 19 8-bit configuration registers, each addressed by a 7-bit address. A Read/Write bit initiates a read or write operation. A full configuration of CC1050 requires sending 19 data frames of 16 bits each (7 address bits, R/W bit and 8 data bits). The time needed for a full configuration depend on the PCLK frequency. With a PCLK frequency of 10 MHz the full configuration is done in less than 30 µs. Setting the device in power down mode requires sending one frame only and will in this case take less than 2 µs. All registers are also readable.In each write-cycle 16 bits are sent on the PDATA-line. The seven most significant bits of each data frame (A6:0) are the address-bits. A6 is the MSB (Most Significant Bit) of the address and is sent as the first bit. The next bit is the R/W bit (high for write, low for read). During address and R/W bit transfer the PALE (Program Address Latch Enable) must be kept low. The 8 data-bits are then transferred (D7:0). See Figure 4.The timing for the programming is also shown in Figure 4 with reference to Table 2. The clocking of the data on PDATA is done on the negative edge of PCLK. When the last bit, D0, of the 8 data-bits has been loaded, the data word is loaded in the internal configuration register.The configuration data is stored in internal RAM and is valid after power-down mode, but not when the power-supply is turned off. The registers can be programmed in any order.The configuration registers can also be read by the microcontroller via the same configuration interface. The seven address bits are sent first, then the R/W bit set low to initiate the data read-back. CC1050 then returns the data from the addressed register. PDATA is in this case used as an output and must be tri-stated (or set high n the case of an open collector pin) by the microcontroller during the data read-back (D7:0). The read operation is illustrated in Figure 5.Figure 4. Configuration registers write operationPCLKPDATA PALET TFigure 5. Configuration registers read operationParameter SymbolMin Max UnitsConditionsPCLK, clock frequencyF CLOCK- 10 MHz PCLK low pulse durationT CL,min50nsThe minimum time PCLK must be low.PCLK high pulse durationT CH,min 50 ns The minimum time PCLK must be high.PALE setup timeT SA10 - ns The minimum time PALE must be low before negative edge of PCLK.PALE hold timeT HA 10 - ns The minimum time PALE must be held low after the positive edge of PCLK.PDATA setup time T SD 10 - ns The minimum time data on PDATA must be ready before the negative edge of PCLK.PDATA hold timeT HD 10 - ns The minimum time data must be held at PDATA, after the negative edge of PCLK.Rise time T rise 100 ns The maximum rise time for PCLK and PALEFall timeT fall100nsThe maximum fall time for PCLK and PALENote: The set-up- and hold-times refer to 50% of VDD.Table 2. Serial interface, timing specificationPCLKPALEPDATAMicrocontroller InterfaceUsed in a typical system, CC1050 will interface to a microcontroller. This microcontroller must be able to:• Program CC1050 into different modes via the 3-wire serial configurationinterface (PDATA, PCLK and PALE). •Interface to the synchronous data signal interface (DI and DCLK). •Optionally the microcontroller can do data encoding / decoding. •Optionally the microcontroller can monitor the frequency lock status frompin CHP_OUT (LOCK).Connecting the microcontrollerThe microcontroller uses 3 output pins for the configuration interface (PDATA, PCLK and PALE). PDATA should be a bi-directional pin for data read-back. The DI pin is used for data to be transmitted. DCLK providing the data timing should be connected to a microcontroller input. Optionally another pin can be used to monitor the LOCK signal (available at the CHP_OUT pin). This signal is logic level high when the PLL is in lock. SeeFigure 6. The microcontroller pins connected to PDATA and PCLK can be used for other purposes when the configuration interface is not used. PDATA and PCLK are high impedance inputs as long as PALE high. PALE has an internal pull-up resistor and should be left open (tri-stated by the microcontroller) or set to a high level during power down mode in order to prevent a trickle current flowing in the pull-up.Figure 6. Microcontroller interfaceSignal interfaceThe signal interface consists of DI and DCLK and is used for the data to be transmitted. DI is the data input line and DCLK provides a synchronous clock during data transmission.The CC1050 can be used with NRZ (Non-Return-to-Zero) data or Manchester (also known as bi-phase-level) encoded data.CC1050 can be configured for three different data formats:Synchronous NRZ mode. CC1050 provides the data clock at DCLK, and DI is used as data input. Data is clocked into CC1050 at the rising edge of DCLK. The data is modulated at RF without encoding. CC1050 can be configured for the data rates 0.6, 1.2, 2.4, 4.8, 9.6, 19.2, 38.4 or 76.8 kbit/s. See Figure 7.Synchronous Manchester encoded mode. CC1050 provides the data clock at DCLK, and DI is used as data input. Data is clocked into CC1050 at the rising edge of DCLK and should be in NRZ format. The data is modulated at RF with Manchester code. The encoding is done by CC1050. In this mode CC1050 can be configured for the data rates 0.3, 0.6, 1.2, 2.4, 4.8, 9.6, 19.2 or 38.4 kbit/s. The 38.4 kbit/s rate corresponds to the maximum 76.8 kBaud due to the Manchester encoding. See Figure 8.Transparent Asynchronous UART mode. In transmit mode DI is used as data input. The data is modulated at RF without synchronisation or encoding. Data rates in the range from 0.6 to 76.8 kBaud can be used. See Figure 9.Manchester encodingIn the Synchronous Manchester encoded mode CC1050 uses Manchester coding when modulating the data. The Manchester code is based on transitions; a “0” is encoded as a low-to-high transition, a “1” is encoded as a high-to-low transition. See Figure 10.The Manchester code ensures that the signal has a constant DC component, which is necessary in some FSK demodulators. Using this mode also ensures compatibility with CC400/CC900 designs.FSK modulating signal (NRZ),DCLK DI “RF”Clock provided by CC1050internal in CC1050Data provided by microcontrollerFigure 7. Synchronous NRZ modeFSK modulating signal (Manchester encoded),DCLK DI “RF”Clock provided by CC1050internal in CC1050Data provided by microcontroller (NRZ)Figure 8. Synchronous Manchester encoded modeFSK modulating signal,DCLK DI “RF”DCLK is not usedinternal in CC1050Data provided by UART (TXD)Figure 9. Transparent Asynchronous UART modeFigure 10. Manchester encodingFrequency programmingThe operation frequency is set byprogramming the frequency word in the configuration registers. There are two frequency words registers, termed A and B, which can be programmed to two different frequencies in order to switch fast between two different channels. Frequency word A or B is selected by theF_REG bit in the MAIN register.The frequency word is 24 bits (3 bytes) located in FREQ_2A:FREQ_1A:FREQ_0A and FREQ_2B:FREQ_1B:FREQ_0B for the A and B word respectively.The FSK frequency separation is programmed in the FSEP1:FSEP0 registers (11 bits).The frequency word FREQ is calculated by:163848192+⋅=FREQffrefVCOwhere the reference frequency is the crystal oscillator clock divided by REFDIV (4 bits in the PLL register), a number between 2 and 15:REFDIVff xoscref=The equation above gives the VCO frequency, that is, f VCO is the f0 frequency for transmit mode (lower FSK frequency).The upper FSK frequency is given by:f1 = f0 + f sepwhere f sep is set by the separation word:16384FSEPffrefsep⋅=VCOOnly one external inductor (L1) is required for the VCO. The inductor will determine the operating frequency range of the circuit. It is important to place the inductoras close to the pins as possible in order to reduce stray inductance. It is recommended to use a high Q, low tolerance inductor for best performance. Typical tuning range for the integrated varactor is 20-25%.Component values for various frequencies are given in Table 1. Component values for other frequencies can be found using the SmartRF® Studio software.VCO and PLL self-calibrationTo compensate for supply voltage, temperature and process variations the VCO and PLL must be calibrated. The calibration is done automatically and sets maximum VCO tuning range and optimum charge pump current for PLL stability. After setting up the device at the operating frequency, the self-calibration can be initiated by setting the CAL_START bit. The calibration result is stored internally in the chip, and is valid as long as power is not turned off. If large supply voltage variations (more than 0.5 V) or temperature variations (more than 40 degrees) occur after calibration, a new calibration should be performed. The self-calibration is controlled through the CAL register (see configuration registers description p. 30). The CAL_COMPLETE bit indicates complete calibration. The user can poll this bit, or simply wait for 26 ms (calibration wait time when CAL_WAIT = 1). The wait time is proportional to the internal PLL reference frequency. The lowest permitted reference frequency (1 MHz) gives 26 ms wait time, which is therefore the worst case.Referencefrequency [MHz]Calibration time[ms]2.4 112.0 131.5 181.0 26The CAL_COMPLETE bit can also be monitored at the CHP_OUT (LOCK) pin (configured by LOCK_SELECT[3:0]) and used as an interrupt input to the microcontroller.The CAL_START bit must be set to 0 by the microcontroller after the calibration is done.There are separate calibration values for the two frequency registers. If the two frequencies, A and B, differ more than 1 MHz, or different VCO currents are used (VCO_CURRENT[3:0] in the CURRENT register) the calibration should be done separately. The CAL_DUAL bit in the CAL register controls dual or separate calibration.The single calibration algorithm using separate calibration for two frequencies is illustrated in Figure 11.In Figure 12 the dual calibration algorithmis shown.Frequency register A and B are used forThe result of the calibration is stored‘Current’ is the VCO current to be usedCalibration time depend on the referenceThe result of the calibration is storedtwo different channelsforfrequency FREQ_A and can be read fromthe status registers TEST0 and TEST2when F_REG = 0for both frequenciesPA is turned off to prevent spurious emissionFrequency register B is calibrated secondfrequency, see text.forfrequency FREQ_B and can be read fromthe status registers TEST0 and TEST2when F_REG = 1Figure 11. Single calibration algorithm for two different frequenciesFrequency registers A and B are both usedfor both frequenciesfor Figure 12. Dual calibration algorithmVCO current controlThe VCO current is programmable and should be set according to operating frequency and output power. Recommended settings for the VCO_CURRENT bits in the CURRENT register are shown in the tables on page 32. The bias current for the PA buffers are also programmable. Recommended settings for the PA_DRIVE bits in the CURRENT register are shown in the tables on page 32.Power managementCC1050 offers great flexibility for power management in order to meet strict power consumption requirements in battery operated applications. Power Down mode is controlled through the MAIN register. There are separate bits to control the TX part, the frequency synthesiser and the crystal oscillator. This individual control can be used to optimise for lowest possible current consumption in a certain application. A typical power-on and initialising sequence for minimum power consumption is shown in Figure 13 and Figure 14.PALE should be tri-stated or set to a high level during power down mode in order to prevent a trickle current from flowing in the internal pull-up resistor.PA_POW should be set to 00h during power down mode to ensure lowest possible leakage current.Calibration is performed according Reset and turn on the *Time to wait depends on the crystal frequency to calibration algorithmcrystal oscillator coreand the load capacitanceFigure 13. Initializing sequence*Time to wait depends on the crystal frequencyand the load capacitanceWaiting for the PLL to lockWaiting for the PA to ramp upFigure 14. Sequence for activating TX modeOutput MatchingA few passive external components ensures match in TX mode. The matching network is shown in Figure 15. Component values for various frequenciesare given in Table 1. Component values for other frequencies can be found using the configuration software.Figure 15. Output matching networkCC1050AVDD=3VOutput power programmingThe RF output power is programmable and controlled by the PA_POW register. Table 3 shows the closest programmable value for output powers in steps of 1 dB. The typical current consumption is also shown. In power down mode the PA_POW should be set to 00h for minimum leakage current.RF frequency 433 MHz RF frequency 868 MHz Output power[dBm]PA_POW[hex] Current consumption,typ. [mA]PA_POW[hex]Current consumption,typ. [mA]-20 01 5.5 02 8.0-19 01 5.5 02 8.0-18 01 5.5 02 8.0-17 02 5.7 03 8.3-16 02 5.7 03 8.3-15 02 5.7 04 8.5-14 02 5.7 04 8.5-13 03 6.0 05 8.7-12 03 6.0 05 8.7-11 04 6.2 06 8.9-10 04 6.2 06 8.9-9 05 6.5 07 9.1 -8 05 6.5 08 9.4 -7 06 6.8 09 9.6 -6 07 7.0 0A 9.8 -5 08 7.3 0B 10.0 -4 09 7.5 0D 10.4 -3 0A 7.8 0E 10.6 -2 0C 8.3 0F 10.9 -1 0D 8.5 40 13.40 0F 9.1 50 14.21 40 10.5 60 15.02 50 11.5 70 15.73 50 11.5 80 16.34 60 12.4 90 17.05 70 13.3 A0 17.76 80 14.7 C0 19.17 90 15.1 E0 20.08 A0 15.9 FF 24.99 C0 17.610 E0 19.211 F0 20.012 FF 23.3Table 3. Output power settings and typical current consumption。
1050铝合金状态及用途
1050铝合金状态及用途
1050铝合金是一种纯铝合金,由99.5%的铝和0.5%的其它元素组成。
它的状态可以是软铝状态(O状态)或者经过冷加工后的硬铝状态(H状态)。
以下是1050铝合金在不同状态下的用途:
1. 软铝状态(O状态):1050铝合金通常以软铝状态供应。
软铝具有良好的延展性和可加工性,适用于各种冷加工工艺,如拉伸、弯曲、打孔等。
它主要用于拉伸成型的零部件,例如罐体、壳体、金属工艺品等。
2. 硬铝状态(H状态):通过冷加工和热处理,1050铝合金可以获得不同的硬度和强度。
H14、H24和H34是常见的硬铝状态。
- H14状态适用于要求较好抗腐蚀性和可加工性的应用,如铝板、铝箔、食品包装材料等。
- H24状态适用于要求良好抗腐蚀性和机械性能的应用,如汽车零部件、建筑材料、厨房用具等。
- H34状态适用于要求较高强度和抗腐蚀性的应用,如船舶结构、卡车车架等。
总结起来,1050铝合金在软铝状态下适用于拉伸成型工艺,而在硬铝状态下适用于各种应用,包括铝板、铝箔、食品包装材料、汽车零部件、建筑材料、厨房用具、船舶结构等。
铝1050标准
铝1050标准
摘要:
1.铝1050 标准的概述
2.铝1050 标准的成分和性能
3.铝1050 标准的加工工艺
4.铝1050 标准的应用领域
正文:
铝1050 标准,是一种以铝为主要元素,以1050 为代号的铝合金材料标准。
它是我国铝合金材料中使用最广泛的一种,因其良好的性能和低廉的价格,被广泛应用在各种工业和民用产品中。
首先,让我们来看一下铝1050 标准的成分和性能。
铝1050 标准中的主要成分是铝,其它元素如铜、镁、锰等都是作为杂质存在。
铝1050 的性能主要包括:优良的抗腐蚀性、良好的导电性和导热性、较高的机械强度以及良好的可塑性和可锻性。
接下来,我们来了解一下铝1050 标准的加工工艺。
铝1050 标准的加工工艺主要包括熔炼、铸造、轧制、拉伸等步骤。
这些步骤可以保证铝1050 材料具有良好的性能和尺寸精度。
最后,我们来看一下铝1050 标准的应用领域。
由于铝1050 标准具有优良的性能和低廉的价格,它被广泛应用在各种工业和民用产品中,如汽车零部件、电子产品、建筑材料、包装材料等。
2SC系列三极管参数
2SC系列三极管参数2SC1000 SI-N 55V 0.1A 0.2W 80MHz2SC1008 SI-N 80V 0.7A 0.8W 75MHz | 2SC1012A SI-N 250V 60mA 0.75W >8 2SC1014 SI-N 50V 1.5A 7W | 2SC1017 SI-N 75V 1A 60mW 120MHz 2SC1030 SI-N 150V 6A 50W | 2SC1046 SI-N 1000V 3A 25W2SC1047 SI-N 30V 20mA 0.4W 650MHz | 2SC1050 SI-N 300V 1A 40W2SC1051 SI-N 150V 7A 60W 8MHz | 2SC1061 SI-N 50V 3A 25W 8MHz=H1 2SC1070 SI-N 30V 20mA 900MHz | 2SC1080 SI-N 110V 12A 100W 4MHz 2SC109 SI-N 50V 0.6A 0.6W | 2SC1096 SI-N 40V 3A 10W 60MHz 2SC1106 SI-N 350V 2A 80W | 2SC1114 SI-N 300V 4A 100W 10MHz 2SC1115 SI-N 140V 10A 100W 10MHz | 2SC1116 SI-N 180V 10A 100W 10MH 2SC1161 SI-P 160V 12A 120W | 2SC1162 SI-N 35V 1.5A 10W 180MH 2SC1172 SI-N 1500V 5A 50W | 2SC1195 SI-N 200V 2.5A 100W2SC1213C SI-N 50V 0.5A 0.4W UNI | 2SC1214 SI-N 50V 0.5A 0.6W 50MH 2SC1215 SI-N 30V 50mA 0.4W 1.2GHZ | 2SC1216 SI-N 40V 0.2A 0.3W <20/ 2SC1226 SI-N 40/50V 2A 10W 150MHz | 2SC1238 SI-N 35V 0.15A 5W 1.7GH 2SC1247A SI-N 50V 0.5A 0.4W 60MHz | 2SC1308 SI-N 1500V 7A 50W2SC1312 SI-N 35V 0.1A 0.15W 100MHz | 2SC1318 SI-N 60V 0.5A 0.6W 200M 2SC1343 SI-N 150V 10A 100W 14MHz | 2SC1345 SI-N 55V 0.1A 0.1W 230M 2SC1359 SI-N 30V 30mA 0.4W 250MHz | 2SC1360 SI-N 50V 0.05A 1W >300M 2SC1362 SI-N 50V 0.2A 0.25W 140MHz | 2SC1368 SI-N 25V 1.5A 8W 180MHz 2SC1382 SI-N 80V 0.75A 5W 100MHz | 2SC1384 SI-N 60V 1A 1W 200MHz 2SC1393 SI-N 30V 20mA 250 mW 700MHz | 2SC1398 SI-N 70V 2A 15W2SC1413A SI-N 1200V 5A 50W | 2SC1419 SI-N 50V 2A 20W 5MHz 2SC1426 SI-N 35V 0.2A 2.7GHz | 2SC1431 SI-N 110V 2A 23W 80MHz 2SC1432 N-DARL 30V 0.3A 0.3W B=40 | 2SC1439 SI-N 150V 50mA 0.5W 130 2SC1445 SI-N 100V 6A 40W 10MHz | 2SC1446 SI-N 300V 0.1A 10W 55MH 2SC1447 SI-N 300V 0.15A 20W 80MHz | 2SC1448 SI-N 150V 1.5A 25W 3MHz 2SC1449 SI-N 40V 2A 5W 60MHz | 2SC1450 SI-N 150V 0.4A 20W2SC1454 SI-N 300V 4A 50W 10MHz | 2SC1474-4 SI-N 20V 2A 0.75W 80MHz 2SC1501 SI-N 300V 0.1A 10W 55MHz | 2SC1505 SI-N 300V 0.2A 15W2SC1507 SI-N 300V 0.2A 15W 80MHz | 2SC1509 SI-N 80V 0.5A 1W 120MHz 2SC1515 SI-N 200V 0.05A 0.2W 110MHz | 2SC1520 SI-N 300V 0.2A 12,5W 2SC1545 N-DARL 40V 0.3A 0.3W B=1K | 2SC1567 SI-N 100V 0.5A 5W 120MH 2SC1570 SI-N 55V 0.1A 0.2W 100MHz | 2SC1571 SI-N 40V 0.1A 0.2W 100M 2SC1573 SI-N 200V 0.1A 1W 80MHz | 2SC1577 SI-N 500V 8A 80W 7MHz 2SC1583 SI-N 50V 0.1A 0.4W 100MHz | 2SC1619 SI-N 100V 6A 50W 10MHz 2SC1623 SI-N 60V 0.1A 0.2W 250MHz | 2SC1624 SI-N 120V 1A 15W 30MHz 2SC1627 SI-N 80V 0.4A 0.8W 100MHz | 2SC1674 SI-N 30V .02A 600MC RF/ 2SC1675 SI-N 50V .03A 0.25W | 2SC1678 SI-N 65V 3A 3W2SC1685 SI-N 60V 0.1A 150MC UNI | 2SC1688 SI-N 50V 30mA 0.4W 550M 2SC1708A SI-N 120V 50mA 0.2W 150MHz | 2SC1729 SI-N 35V 3.5A 16W 500MH 2SC1730 SI-N 30V 0.05A 1.1GHz UHF | 2SC1740 SI-N 40V 100mA 0.3W2SC1741 SI-N 40V 0.5A 0.3W 250MHz | 2SC1756 SI-N 300V 0.2A >50MHz 2SC1760 SI-N 100V 1A 7.9W 80MHz | 2SC1775A SI-N 120V 0.05A 0.2W UN 2SC1781 SI-N 50V 0.5A 0.35W | 2SC1815 SI-N 50V 0.15A 0.4W 80M 2SC1815BL SI-N 60V 0.15A 0.4W B>350 | 2SC1815GR SI-N 60V 0.15A 0.4W B>2 2SC1815Y SI-N 60V 0.15A 0.4W B>120 | 2SC1827 SI-N 100V 4A 30W 10MHz 2SC1832 N-DARL 500V 15A 150W B>10 | 2SC1841 SI-N 120V 0.05A 0.5W 2SC1844 SI-N 60V 0.1A 0.5W 100MHz | 2SC1845 SI-N 120V 0.05A 0.5W 2SC1846 SI-N 120V 0.05A 0.5W | 2SC1847 SI-N 50V 1.5A 1.2W2SC1855 SI-N 20V 20mA 0.25W 550MHz | 2SC1871 SI-N 450V 15A 150W <1/3 2SC1879 N-DARL+D 120V 2A 0.8W B>1 | 2SC1890 SI-N 90V 0.05A 0.3W 200 2SC1895 SI-N 1500V 6A 50W 2MHz | 2SC1906 SI-N 19V 0.05A 0.3W2SC1907 SI-N 30V 0.05A 1100MHz | 2SC1913 SI-N 150V 1A 15W 120MHz 2SC1914 SI-N 90V 50mA 0.2W 150MHz | 2SC1921 SI-N 250V 0.05A 0.6W 2SC1922 SI-N 1500V 2.5A 50W | 2SC1923 SI-N 30V 20mA 10mW 550M 2SC1929 SI-N 300V 0.4A 25W 80MHz | 2SC1941 SI-N 160V 50mA 0.8W2SC1944 SI-N 80V 6A PQ=16W | 2SC1945 SI-N 80V 6A 20W2SC1946A SI-N 35V 7A 50W | 2SC1947 SI-N 35V 1A 4W/175MHz 2SC1953 SI-N 150V 0.05A 1.2W 70MHz | 2SC1957 SI-N 40V 1A 1.8W/27MHz 2SC1959 SI-N 30V 0.5A 0.5W 200MHz | 2SC1967 SI-N 35V 2A 8W 470MHz 2SC1968 SI-N 35V 5A 3W 470MHz | 2SC1969 SI-N 60V 6A 20W2SC1970 SI-N 40V 0.6A 5W | 2SC1971 SI-N 35V 2A 12.5W2SC1972 SI-N 35V 3.5A 25W | 2SC1975 SI-N 120V 2A 3.8W 50MHz 2SC1980 SI-N 120V 20mA 0.25W 200MHz | 2SC1984 SI-N 100V 3A 30W B=700 2SC1985 SI-N 80V 6A 40W 10MHz | 2SC2023 SI-N 300V 2A 40W 10MHz 2SC2026 SI-N 30V 0.05A 0.25W | 2SC2027 SI-N 1500/800V 5A 50W 2SC2036 SI-N 80V 1A PQ=1..4W | 2SC2053 SI-N 40V 0.3A 0.6W 500M 2SC2055 SI-N 18V 0,3A 0,5W | 2SC2058 SI-N 40V 0.05A 0.25W 2SC2060 SI-N 40V 0.7A 0.75W 150MHz | 2SC2061 SI-N 80V 1A 0.75W 120MH 2SC2068 SI-N 300V 0.05A 95MHz | 2SC2073 SI-N 150V 1.5A 25W 4MHz 2SC2078 SI-N 80V 3A 10W 150MHz | 2SC2086 SI-N 75V 1A 0.45W/27MHz 2SC2092 SI-N 75V 3A 5W 27MHz | 2SC2094 SI-N 40V 3.5A PQ>15W 17 2SC2097 SI-N 50V 15A PQ=85W | 2SC2120 SI-N 30V 0.8A 0.6W 120M 2SC2122 SI-N 800V 10A 50W | 2SC2166 SI-N 75V 4A 12.5W RFPOW 2SC2168 SI-N 200V 2A 30W 10MHz | 2SC2200 SI-N 500V 7A 40W 1US 2SC2209 SI-N 50V 1.5A 10W 150MHz | 2SC2216 SI-N 45V 50mA 0.3W 300M 2SC2228 SI-N 160V 0.05A 0.75W >50 | 2SC2229 SI-N 200V 50mA 0.8W 120 2SC2230 SI-N 200V 0.1A 0.8W 50MHz | 2SC2233 SI-N 200V 4A 40W 8MHz 2SC2235 SI-N 120V 0.8A 0.9W 120MHz | 2SC2236 SI-N 30V 1.5A 0.9W 120M 2SC2237 SI-N 35V 2A PQ>7.5W 175MHz | 2SC2238 SI-N 160V 1.5A 25W 100M 2SC2240 SI-N 120V 50mA .3W 100MHz | 2SC2261 SI-N 180V 8A 80W 15MHz 2SC2267 SI-N 400/360V 0.1A 0.4W | 2SC2270 SI-N 50V 5A 10W 100MHz 2SC2271 SI-N 300V 0.1A 0.9W 50MHz | 2SC2275 SI-N 120V 1.5A 25W 200M 2SC2283 SI-N 38V 0.75A 2.8W(500MHz | 2SC2287 SI-N 38V 1.5A 7.1W 175M 2SC2295 SI-N 30V 0.03A 0.2W 250MHz | 2SC2307 SI-N 500V 12A 100W 18MH2SC2312 SI-N 60V 6A 18.5W/27MHz | 2SC2314 SI-N 45V 1A 5W2SC2320 SI-N 50V 0,2A 0,3W | 2SC2329 SI-N 38V 0.75A 2W 175MH 2SC2331 SI-N 150V 2A 15W POWER | 2SC2333 SI-N 500/400V 2A 40W 2SC2334 SI-N 150V 7A 40W POWER | 2SC2335 SI-N 500V 7A 40W POWER 2SC2336B SI-N 250V 1.5A 25W 95MHz | 2SC2344 SI-N 180V 1.5A 25W 120M 2SC2347 SI-N 15V 50mA 250mW 650MHz | 2SC2362 SI-N 120V 50mA 0.4W 130 2SC2363 SI-N 120V 50mA 0.5W 130MHz | 2SC2365 SI-N 600V 6A 50W POWER 2SC2369 SI-N 25V 70mA 0.25W 4.5GHz | 2SC2383 SI-N 160V 1A 0.9W 100MH 2SC2389 SI-N 120V 50mA 0.3W 140MHz | 2SC2407 SI-N 35V 0.15A 0.16W 50 2SC2412 SI-N 50V 0.1A 180MHz | 2SC2433 SI-N 120V 30A 150W 80MH 2SC2440 SI-N 450V 5A 40W | 2SC2458 SI-N 50V 0.15A 0.2W 80M 2SC2466 SI-N 30V 0.05A 2.2GHz | 2SC2482 SI-N 300V 0.1A 0.9W 50M 2SC2485 SI-N 100V 6A 70W 15MHz | 2SC2486 SI-N 120V 7A 80W 15MHz 2SC2491 SI-N 100V 6A 40W 15MHz | 2SC2497 SI-N 70V 1.5A 5W 150MHz 2SC2498 SI-N 30V 0.05A 0.3W 3.5GHz | 2SC2508 SI-N 40V 6A 50W 175MHz 2SC2510 SI-N 55V 20A 250W(28MHz) | 2SC2512 SI-N 30V 50mA 900MHz TU 2SC2516 SI-N 150V 5A 30W <0.5/2us | 2SC2517 SI-N 150V 5A 30W <0.5/2 2SC2538 SI-N 40V 0.4A 0.7W | 2SC2539 SI-N 35V 4A 17W 175MHz 2SC2542 SI-N 450V 5A 40W | 2SC2547 SI-N 120V 0.1A 0.4W2SC2551 SI-N 300V 0.1A 0.4W 80MHz | 2SC2552 SI-N 500V 2A 20W2SC2553 SI-N 500V 5A 40W 1us | 2SC2562 SI-N 60V 5A 25W 0.1us 2SC2563 SI-N 120V 8A 80W 90MHz | 2SC2570A SI-N 25V 70mA 0.6W2SC2579 SI-N 160V 8A 80W 20MHz | 2SC2581 SI-N 200V 10A 100W2SC2590 SI-N 120V 0.5A 5W 250MHz | 2SC2592 SI-N 180V 1A 20W 250MHz 2SC2603 SI-N 50V 0.2A 0.3W | 2SC2610 SI-N 300V 0.1A 0.8W 80M 2SC2611 SI-N 300V 0.1A 0.8W 80MHz | 2SC2621E SI-N 300V 0.2A 10W >50M 2SC2625 SI-N 450V 10A 80W | 2SC2630 SI-N 35V 14A 100W2SC2631 SI-N 150V 50mA 0,75W 160MHz | 2SC2632 SI-N 150V 50mA 1W 160MH2SC2654 SI-N 40V 7A 40W | 2SC2655 SI-N 50V 2A 0.9W 0.1us 2SC2656 SI-N 450V 7A 80W <1.5/4.5 | 2SC2660 SI-N 200V 2A 30W 30MHz 2SC2668 SI-N 30V 20mA 0.1W 550MHz | 2SC2671 SI-N 15V 80mA 0.6W 5.5G 2SC2682 SI-N 180V 0.1A 8W 180MHz | 2SC2690 SI-N 120V 1.2A 20W 160M 2SC2694 SI-N 35V 20A 140W | 2SC2705 SI-N 150V 50mA 0.8W 200 2SC2706 SI-N 140V 10A 100W 90MHz | 2SC2712 SI-N 50V 0.15A 0.15W 80 2SC2714 SI-N 30V 20mA 0.1W 550MHz | 2SC2717 SI-N 30V 50mA 0.3W 300M 2SC2724 SI-N 30V 30mA 200MHz | 2SC2749 SI-N 500V 10A 100W 50MH 2SC2750 SI-N 150V 15A 100W POWER | 2SC2751 SI-N 500V 15A 120W 50MH 2SC2752 SI-N 500V 0.5A 10W <1/3.5 | 2SC2753 SI-N 17V 0.07A 0.3W 5GH 2SC2759 SI-N 30V 50mA 0.2W 2.3GHz | 2SC2786 SI-N 20V 20mA 600MHz 2SC2787 SI-N 50V 30mA 0.3W 250MHz | 2SC2791 SI-N 900V 5A 100W2SC2792 SI-N 850V 2A 80W | 2SC2793 SI-N 900V 5A 100W2SC2802 SI-N 300V 0.2A 10W 80MHz | 2SC2808 SI-N 100V 50mA 0.5W 140 2SC2810 SI-N 500V 7A 50W 18MHz | 2SC2812 SI-N 55V 0.15A 0.2W 100 2SC2814 SI-N 30V 0.03A 320MHz F | 2SC2825 SI-N 80V 6A 70W B>500 2SC2837 SI-N 150V 10A 100W 70MHz | 2SC2839 SI-N 20V 30mA 0.15W 320 2SC2851 SI-N 36V 0.3A 1W 1.5GHz | 2SC2873 SI-N 50V 2A 0.5W 120MHz 2SC2878 SI-N 20V 0.3A 0.4W 30MHz | 2SC2879 SI-N 45V 25A PEP=100W 2 2SC2882 SI-N 90V 0.4A 0.5W 100MHz | 2SC288A SI-N 35V 20mA 0.15W2SC2898 SI-N 500V 8A 50W | 2SC2901 SI-N 40V 0.2A 0.6W <12/ 2SC2908 SI-N 200V 5A 50W 50MHz | 2SC2910 SI-N 160V 70mA 0.9W 150 2SC2911 SI-N 180V 140mA 10W 150MHz | 2SC2912 SI-N 200V 140mA 10W 150 2SC2922 SI-N 180V 17A 200W 50MHz | 2SC2923 SI-N 300V 0.1A 140MHz 2SC2928 SI-N 1500V 5A 50W | 2SC2939 SI-N 500V 10A 100W 2.5u 2SC2958 SI-N 160V 0.5A 1W | 2SC2979 SI-N 800V 3A 40W2SC2987 SI-N 140V 12A 120W 60MHz | 2SC2988 SI-N 36V 0.5A 175MHz 2SC2999 SI-N 20V 30mA 750MHz | 2SC3001 SI-N 20V 3A PQ=7W(175MH2SC3019 SI-N 35V 0.4A 0.6W 520MHz | 2SC3020 SI-N 35V 1A 10W2SC3022 SI-N 35V 7A 50W | 2SC3026 SI-N 1700V 5A 50W POWER 2SC3030 N-DARL 900V 7A 80W | 2SC3039 SI-N 500V 7A 52W2SC3042 SI-N 500/400V 12A 100W | 2SC3052F SI-N 50V 0.2A 0.15W 200 2SC3063 SI-N 300V 0.1A 1.2W 140MHz | 2SC3067 2xSI-N 130V 50mA 0.5W 1 2SC3068 SI-N 30V 0.3A Ueb=15V B>8 | 2SC3071 SI-N 120V 0.2A Ueb=15V 2SC3073 SI-N 30V 3A 15W 100MHz | 2SC3074 SI-N 60V 5A 20W 120MHz 2SC3075 SI-N 500V 0.8A 10W 1/1.5us | 2SC3089 SI-N 800V 7A 80W2SC3101 SI-N 250V 30A 200W 25MHz | 2SC3102 SI-N 35V 18A 170W 520MH 2SC3112 SI-N 50V 0.15A 0.4W 100MHz | 2SC3116 SI-N 180V 0.7A 10W 120M 2SC3117 SI-N 180V 1.5A 10W 120MHz | 2SC3133 SI-N 60V 6A 1.5W 27MHz 2SC3148 SI-N 900V 3A 40W 1us | 2SC3150 SI-N 900V 3A 50W 15MHz 2SC3153 SI-N 900V 6A 100W | 2SC3157 SI-N 150V 10A 60W2SC3158 SI-N 500V 7A 60W | 2SC3164 SI-N 500V 10A 100W2SC3169 SI-N 500V 2A 25W >8MHz | 2SC3175 SI-N 400V 7A 50W 40MHz 2SC3178 SI-N 1200V 2A 60W | 2SC3179 SI-N 60V 4A 30W 15MHz 2SC3180N SI-N 80V 6A 60W 30MHz | 2SC3181N SI-N 120V 8A 80W 30MHz 2SC3182N SI-N 140V 10A 100W 30MHz | 2SC3195 SI-N 30V 20mA 0.1W 550M 2SC3199 SI-N 60V 0.15A 0.2W 130MHz | 2SC3200 SI-N 120V 0.1A 0.3W 100 2SC3202 SI-N 35V 0.5A 0.5W 300MHz | 2SC3203 SI-N 35V 0.8A 0.6W 120M 2SC3205 SI-N 30V 2A 1W 120MHz | 2SC3206 SI-N 150V 0.5A 0.8W 120 2SC3210 SI-N 500V 10A 100W 1us | 2SC3211 SI-N 800V 5A 70W >3MHz 2SC3212 SI-N 800V 7A 3W 3.5MHz | 2SC3225 SI-N 40V 2A 0.9W 1us 2SC3231 SI-N 200V 4A 40W 8MHz | 2SC3240 SI-N 50V 25A 110W 30MHz 2SC3242 SI-N 20V 2A 0.9W 80MHz | 2SC3244E SI-N 100V 0.5A 0.9W 130 2SC3245A SI-N 150V 0.1A 0.9W 200MHz | 2SC3246 SI-N 30V 1.5A 0.9W 130M 2SC3247 SI-N 50V 1A .9W 130MHz B> | 2SC3257 SI-N 250V 10A 40W 1/3.5 2SC3258 SI-N 100V 5A 30W 120MHz | 2SC3260 N-DARL 800V 3A 50W B>10 2SC3262 N-DARL 800V 10A 100W | 2SC3263 SI-N 230V 15A 130W2SC3264 SI-N 230V 17A 200W 60MHz | 2SC3271 SI-N 300V 1A 5W 80MHz 2SC3277 SI-N 500V 10A 90W 20MHz | 2SC3279 SI-N 10V 2A 0.75W 150MH 2SC3280 SI-N 160V 12A 120W 30MHz | 2SC3281 SI-N 200V 15A 150W 30MH 2SC3284 SI-N 150V 14A 125W 60MHz | 2SC3293 N-DARL+D 50V 1.2A 20W 1 2SC3297 SI-N 30V 3A 15W 100MHz | 2SC3299 SI-N 60V 5A 20W 0.1us 2SC3300 SI-N 100V 15A 100W | 2SC3303 SI-N 100V 5A 20W 0.2us 2SC3306 SI-N 500V 10A 100W 1us | 2SC3307 SI-N 900V 10A 150W 1us 2SC3309 SI-N 500V 2A 20W 1us | 2SC3310 SI-N 500V 5A 30W 1us 2SC3311 SI-N 60V 0.1A 0.3W 150MHz | 2SC3320 SI-N 500V 15A 80W2SC3326 SI-N 20V 0.3A 0.15W 30MHz | 2SC3327 SI-N 50V 0.3A 0.2W 30MH 2SC3328 SI-N 80V 2A 0.9W 100MHz | 2SC3330 SI-N 60V 0.2A 0.3W 200M 2SC3331 SI-N 60V 0.2A 0.5W 200MHz | 2SC3332 SI-N 180V 0.7A 0.7W 120 2SC3334 SI-N 250V 50mA 0.9W 100MHz | 2SC3345 SI-N 60V 12A 40W 90MHz 2SC3346 SI-N 80V 12A 40W 0.2us | 2SC3355 SI-N 20V 0.1A 0.6W 6.5G 2SC3356 SI-N 20V 0.1A 0.2W 7GHz | 2SC3377 SI-N 40V 1A 0.6W 150MHz 2SC3378 SI-N 120V 0.1A 0.2W 100MHz | 2SC3379 SI-N 20V 1.5A PQ=3W2SC3381 2xSI-N 80V 0.1A 0.4W 170MHz | 2SC3383 SI-N 60V 0.2A 0.5W 250M 2SC3397 SI-N 50V 0.1A 250MHz 46K/ | 2SC3399 SI-N 50V 0.1A 250MHz 2SC3400 SI-N 50V 0.1A 250MHz 22K/ | 2SC3401 SI-N 50V .1A 46K/23KOHM 2SC3402 SI-N 50V 0.1A 250MHz 10K/ | 2SC3405 SI-N 900V 0.8A 20W 1us 2SC3409 SI-N 900V 2A 80W .8uS | 2SC3416 SI-N 200V 0.1A 5W 70MHz 2SC3419 SI-N 40V 0.8A 5W 100MHz | 2SC3420 SI-N 50V 5A 10W 100MHz 2SC3421O SI-N 120V 1A 1.5W BJT O-G | 2SC3421Y SI-N 120V 1A 10W 120MHz 2SC3422Y SI-N 40V 3A 10W 100MHz | 2SC3423 SI-N 150V 50mA 5W 200MH 2SC3425 SI-N 500V 0.8A 10W | 2SC3446 SI-N 800V 7A 40W 18MHz 2SC3447 SI-N 800V 5A 50W 18MHz | 2SC3456 SI-N 1100/800V 1.5A 40W 2SC3457 SI-N 1100V 3A 50W | 2SC3460 SI-N 1100V 6A 100W2SC3461 SI-N 1100/800V 8A 120W | 2SC3466 SI-N 1200/650V 8A 120W 2SC3467 SI-N 200V 0.1A 1W 150MHz | 2SC3468 SI-N 300V 0.1A 1W 150MH2SC3486 SI-N 1500V 6A 120W | 2SC3502 SI-N 200V 0.1A 1.2W2SC3503 SI-N 300V 0.1A 7W 150MHz | 2SC3504 SI-N 70V 0.05A 0.9W 500 2SC3505 SI-N 900V 6A 80W | 2SC3507 SI-N 1000/800V 5A 80W 2SC3509 N-DARL+D 900V 10A 100W 0. | 2SC3514 SI-N 180V 0.1A 10W 200M 2SC3518 SI-N 60V 5A 10W | 2SC3520 SI-N 500V 18A 130W 18MH 2SC3526 SI-N 110V 0.15A 7A 30W 1us | 2SC3528 SI-N 500V 20A 125W2SC3549 SI-N 900V 3A 40W | 2SC3552 SI-N 1100V 12A 150W 15M 2SC3568 SI-N 150V 10A 30W | 2SC3571 SI-N 500V 7A 30W2SC3577 SI-N 850V 5A 80W 6MHz | 2SC3581 SI-N 55V 0.4A 0.9W 150M 2SC3591 SI-N 400V 7A 50W | 2SC3595 SI-N 30V 0.5A 5W 2GHz 2SC3596 SI-N 80V 0.3A 8W 700MHz | 2SC3597 SI-N 80V 0.5A 10W 800MH 2SC3599 SI-N 120V 0.3A 8W 500MHz | 2SC3600 SI-N 200V 0.1A 7W 400MH 2SC3601 SI-N 200V 0.15A 7W 400MHz | 2SC3608 SI-N 20V 0.08A 6.5GHz 2SC3611 SI-N 50V 0.15A 4W 300MHz | 2SC3616 SI-N 25V 0.7A 250MHz 2SC3621 SI-N 150V 1.5A 10W 100MHz | 2SC3623 SI-N 60V 0.15A 0.25W B= 2SC3632 SI-N 600V 1A 10W 30MHz | 2SC3636 SI-N 900/500V 7A 80W 2SC3642 SI-N 1200V 6A 100W 200ns | 2SC3655 SI-N 50V 0.1A 0.4W 46/2 2SC3656 SI-N 50V 0.1A 0.4W 10K/10 | 2SC3659 SI-N+D 1700/800V 5A 50W 2SC3668 SI-N 50V 2A 1W 100MHz | 2SC3669 SI-N 80V 2A 1W 0.2us 2SC3675 SI-N 1500/900V 0.1A 10W | 2SC3678 SI-N 900V 3A 80W2SC3679 SI-N 900/800V 5A 100W | 2SC3680 SI-N 900/800V 7A 120W 6 2SC3684 SI-N+D 1500V 10A 150W | 2SC3688 SI-N 1500V 10A 150W 0.2 2SC3692 SI-N 100V 7A 30W <300/180 | 2SC373 SI-N 35V 0.1A 0.2W B>20 2SC3746 SI-N 80V 5A 20W 100MHz | 2SC3748 SI-N 80V 10A 30W 100/60 2SC3752 SI-N 1100/800V 3A 30W | 2SC3781 SI-N 120V 0.4A 15W 500M 2SC3782 SI-N 200V 0.2A 15W 400MHz | 2SC3783 SI-N 800V 5A 100W2SC3787 SI-N 180V 0.14A 10W 150MHz | 2SC3788 SI-N 200V 0.1A 5W 150MH 2SC3789 SI-N 300V 0.1A 7W 70MHz | 2SC3790 SI-N 300V 0.1A 7W 150MH 2SC3792 SI-N 50V 0.5A 0.5W 250MHz | 2SC3795A SI-N 900V 5A 40W2SC3807 SI-N 30V 2A 15W 260MHz | 2SC3808 N-DARL 80V 2A 170MHz B> 2SC380TM SI-N 30V 50mA 0.3W 100MHz | 2SC3811 SI-N 40V 0.1A 0.4W 450M 2SC3831 SI-N 500V 10A 100W | 2SC3833 SI-N 500/400V 12A 100W 2SC3842 SI-N 600V 10A 70W 32MHz | 2SC3844 SI-N 600V 15A 75W 30MHz 2SC3851 SI-N 80V 4A 25W 15MHz | 2SC3852 SI-N 80V 3A 25W 15MHz 2SC3855 SI-N 200V 10A 100W 20MHz | 2SC3857 SI-N 200V 15A 150W 20MH 2SC3858 SI-N 200V 17A 200W 20MHz | 2SC3866 SI-N 900V 3A 40W2SC3868 SI-N 500V 1.5A 25W 0.7us | 2SC3883 SI-N+D 1500V 6A 50W2SC3884A SI-N 1500V 6A 50W | 2SC3886A SI-N 1500V 8A 50W 0.1us 2SC388A SI-N 25V 50mA 0.3W 300MHz | 2SC3890 SI-N 500V 7A 30W 500NS 2SC3892A SI-N+D 1500V 7A 50W 0.4us | 2SC3893A SI-N+D 1500V 8A 50W2SC3895 SI-N 1500/800V 8A 70W | 2SC3896 SI-N 1500V 8A 70W2SC3897 SI-N 1500V 10A 70W | 2SC3902 SI-N 180V 1.5A 10W 120M 2SC3907 SI-N 180V 12A 130W 30MHz | 2SC3927 SI-N 900V 10A 120W2SC394 SI-N 25V 0.1A 200MC RF | 2SC3940 SI-N 30V 1A 1W 200MHz 2SC3943 SI-N 110V 0.15A 2W 300MHz | 2SC3944 SI-N 150V 1A 40W 300MHz 2SC3948 SI-N 850V 10A 75W 20MHz | 2SC3950 SI-N 30V 0.5A 5W2SC3952 SI-N 80V 0.5A 10W 700MHz | 2SC3953 SI-N 120V 0.2A 8W 400MH 2SC3954 SI-N 120V 0.3A 8W 400MHz | 2SC3955 SI-N 200V 0.1A 7W 300MH 2SC3956 SI-N 200V 0.2A 7W 70MHz | 2SC3964 SI-N 40V 2A 1.5W 1us 2SC3972 SI-N 800/500V 5A 40W | 2SC3973A SI-N 900V 7A 45W2SC3979A SI-N 800V 3A 2W 10MHz | 2SC3987 N-DARL+D 50V 3A 15W2SC3996 SI-N 1500/800V 15A 180W | 2SC3998 SI-N 1500V 25A 250W POW 2SC3999 SI-N 300V 0.1A 0.75W 300MHz | 2SC4004 SI-N 900/800V 1A 30W <1 2SC4020 SI-N 900V 3A 50W 1us | 2SC4024 SI-N 100V 10A 35W B>300 2SC4029 SI-N 230V 15A 150W 30MHz | 2SC4043 SI-N 20V 50mA 0.15W 3.2 2SC4046 SI-N 120V 0.2A 8W 350MHz | 2SC4052 SI-N 600V 3A 40W 20MHz 2SC4056 SI-N 600V 8A 45W | 2SC4059 SI-N 600/450V 15A 130W 2SC4064 SI-N 50V 12A 35W 40MHz | 2SC4107 SI-N 500/400V 10A 60W2SC4119 N-DARL+D 1500V 15A 250W B | 2SC4123 SI-N+D 1500V 7A 60W2SC4125 SI-N+D 1500/800V 10A 70W | 2SC4131 SI-N 100V 15A 60W 18MHz 2SC4135 SI-N 120V 2A 15W 200MHz | 2SC4137 SI-N 25V 0.1A 300MHz 2SC4138 SI-N 500V 10A 80W <1/3.5us | 2SC4153 SI-N 200V 7A 30W 0.5us 2SC4157 SI-N 600V 10A 100W | 2SC4159 SI-N 180V 1.5A 15W 100M 2SC4161 SI-N 500V 7A 30W | 2SC4169 N-DARL+D 50V 1.2A 1W B= 2SC4199 SI-N 1400V 10A 100W | 2SC4200 SI-N 20V 0.6A 5W 2.5GHz 2SC4204 SI-N 30V 0.7A 0.6W | 2SC4231 SI-N 1200/800V 2A 30W 2SC4235 SI-N 1200/800V 3A 80W | 2SC4236 SI-N 1200/800V 6A 100W 2SC4237 SI-N 1200/800V 10A 150W | 2SC4242 SI-N 450/400V 7A 40W 2SC4256 SI-N 1500V 10A 175W 6MHz | 2SC4278 SI-N 150V 10A 100W 30MH 2SC4288A SI-N1600/600V 12A 200W | 2SC4289A SI-N 1500V 16A 200W2SC4290A SI-N 1500V 20A 200W | 2SC4297 SI-N 500V 12A 75W 10MHz 2SC4298 SI-N 500V 15A 80W 10MHz | 2SC4300 SI-N 900V 5A 75W 1/6us 2SC4304 SI-N 800V 3A 35W | 2SC4308 SI-N 30V 0.3A 0.6W 2.5G 2SC4313 SI-N 900V 10A 100W 0.5us | 2SC4381 SI-N 150V 2A 25W 15MHz 2SC4382 SI-N 200V 2A 25W 15MHz | 2SC4386 SI-N 160/120V 8A 75W 20 2SC4387 SI-N 200V 10A 80W 20MHz | 2SC4388 SI-N 200V 15A 85W 20MHz 2SC4408 SI-N 80V 2A 0.9W 100/600ns | 2SC4429 SI-N 1100/800V 8A 60W 2SC4430 SI-N 1100V 12A 65W 15MHz | 2SC4431 SI-N 120V 1.5A 20W 150M 2SC4439 SI-N 180V 0.3A 8W 400MHz | 2SC4467 SI-N 160/120V 8A 80W 20 2SC4468 SI-N 200V 10A 80W 20MHz | 2SC4484 SI-N 30V 2.5A 1W 250MHz 2SC4488 SI-N 120V 1A 1W 120MHz | 2SC4511 SI-N 120V 6A 30W 20MHz 2SC4512 SI-N 120V 6A 50W 20MHz | 2SC4517 SI-N 900V 3A 30W 6MHz 2SC4517A SI-N 1000V 3A 30W 0.5us | 2SC4531 SI-N+D 1500V 10A 50W 2SC4532 SI-N 1700V 10A 200W 2uS | 2SC4538 SI-N 900V 5A 80W2SC454 SI-N 30V 0.1A 230MHz | 2SC4542 SI-N 1500V 10A 50W2SC4547 N-DARL+D 85V 3A 30W B>2K | 2SC4557 SI-N 900V 10A 80W <1/5. 2SC4560 SI-N 1500V 10A 80W | 2SC458 SI-N 30V 0.1A 230MC UNI2SC4582 SI-N 600V 100A 65W 20MHz | 2SC460 SI-N 30V 0.1A 0.2W 230M 2SC461 SI-N 30V 0.1A 0.2W 230MHz | 2SC4744 SI-N 1500V 6A POWER2SC4745 SI-N 1500V 6A | 2SC4747 SI-N 1500V 10A 50W 0.3u 2SC4758 SI-N 1500V 8A 50W HI-RES | 2SC4769 SI-N+D 1500V 7A 60W2SC4770 SI-N 1500/800V 7A 60W | 2SC4793 SI-N 230V 1A 2W 100MHz 2SC4804 SI-N 900V 3A 30W 0.3us | 2SC4820 SI-N 450V 6A 30W 12MHz 2SC4826 SI-N 200V 3A 1.3W 300MHz | 2SC4834 SI-N 500V 8A 45W <0.3/1 2SC4883A SI-N 180V 2A 20W 120MHz | 2SC4891 SI-N 1500V 15A 75W2SC4908 SI-N 900V 3A 35W 1us | 2SC4924 SI-N 800V 10A 70W2SC4977 SI-N 450V 7A 40W | 2SC5002 SI-N 1500V 7A 80W2SC5003 SI-N+D 1500V 7A 80W | 2SC5027 SI-N 1100V 3A 50W 0.3us 2SC5030 SI-N 50V 5A 1.3W 150MHz | 2SC5045 SI-N 1600V 15A 75W2SC5047 SI-N 1600V 25A 250W | 2SC5048 SI-N 1500V 12A 50W 0.3u 2SC5070 SI-N 30V 2A 1.5W B>800 | 2SC5086 SI-N 20V 80MA 7GHZ2SC509 SI-N 35V 0.5A 0.6W 60MHz | 2SC5144 SI-N 1700V 20A 200W2SC5148 SI-N 1500V 8A 50W 0.2us | 2SC5149 SI-N+D 1500V 8A 50W 0.2 2SC5150 SI-N 1700V 10A 50W 03us | 2SC5171 SI-N 180V 2A 20W 200MHz 2SC5198 SI-N 140V 10A 100W 30MHz | 2SC5207 SI-N 1500V 10A 50W 0.4u 2SC5242 SI-N 230V 15A 130W 30MHz | 2SC5244A SI-N 1600V 30A 200W2SC5296 SI-N+D 1500V 8A 60W | 2SC5297 SI-N 1500V 8A 60W2SC5299 SI-N 1500V 10A 70W 0.2US | 2SC535 SI-N 20V 20mA 0.1W 0.70 2SC536 SI-N 40V 0.1A 180MC UNI | 2SC620 SI-N 50V 0.2A 0.25W UNI 2SC643 SI-N 1100V 2.5A 50W | 2SC644 SI-N 30V 50mA 0.25W2SC645 SI-N 30V 30mA 0.14W 200MHz | 2SC710 SI-N 30V 0.03A 200MHz 2SC711 SI-N 30V 0.05A 150MHz | 2SC712 SI-N 30V 0.5A 150MHz 2SC717 SI-N 30V 50mA 0.2W 600MHz | 2SC730 SI-N 40V 0.4A PQ=1.5W 2SC732 SI-N 50V 0.15A 0.4W 150MHz | 2SC735 SI-N 35V 0.4A 0.3W UNI 2SC752 SI-N 15V 100mA 0.1W | 2SC756 SI-N 40V 4A 10W 65MHz 2SC784 SI-N 40V 0.02A 500MC RF | 2SC815 SI-N 60V 0.2A 0.25W 2002SC828 SI-N 30V 0.05A 0.25W UNI | 2SC829 SI-N 30V 30mA 0.4W 230M 2SC839 SI-N 50V 0.03A 250MHz | 2SC867 SI-N 400V 1A 23W 8MHz 2SC869 SI-N 160V 30mA 0.2W 150MHz | 2SC898A SI-N 150V 7A 80W 15MHz 2SC900 SI-N 30V 0.03A 100MHz | 2SC930 SI-N 15V 0.03A 300MC RF 2SC936 SI-N 1000V 1A 22W POWER | 2SC941 SI-N 35V 20mA 0.2W 120M 2SC943 SI-N 60V 0.2A 0.3W 220MHz | 2SC945 SI-N 50V 0.1A 250MC UNI 2SC982 N-DARL 40V 0.3A 0.4W。
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Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
1
VOLTAGE REGULATOR
DESCRIPTION
The SC10XX series is a set of three-terminal low power voltage
regulators implemented in CMOS technology.They are available with
several fixed output voltages ranging from l.5V--7.0V.CMOS
technology ensures low voltage drop and low quiescent current.
Although designed primarily as fixed voltage regulators,these
devices can be used with external components to obtain variable
voltages and currents.
The SC10XX is housed in TO-92package.
FEATURES
*Low power consumption
*Low voltage drop
*Low temperature coefficient
*Wide operating voltage(12V Max.)
*TO-92package
APPLICATIONS
*Battery-powered equipment
*Communication equipment
*Audio/Video equipment
TO-92
BLOCK DIAGRAM
V
PIN ASSIGNMENT
Front View
Bottom View
A
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
2
SELECTION GUIDE
Part No. Pin Assignment Output Voltage Tolerance
SC1015
SC1016
B Type
A Type
l.5V±2.4%.±5% SC1030
SC1031
B Type
A Type
3.0V±2.4%.±5%
SC1033
SC1034
B Type
A Type
3.3V±2.4%.±5%
SC1036
SC1037
B Type
A Type
3.6V±2.4%.±5%
SC1038
SC1039
B Type
A Type
3.8V±2.4%.±5%
SC1044
SC1045
B Type
A Type
4.4V±2.4%.±5%
SC1050
SC1051
B Type
A Type
5.0V±2.4%.±5%
SC1070
SC1071
B Type
A Type
7.0V±2.4%.±5%
Note:For semi-custom parts,selectable regulated voltage range is from2.4V to9V in0.1V increment.
ABSOLUTE MAXIMUM RATINGS
Characteristic Symbol Value Unit Supply Voltage V DC0.3~15V Power Consumption P D250m/W Operating Temperature T OPR0~70°C Storage Temperature Tstg-50~125°C Note:These are stress ratings only.Stresses exceeding the range specified under“Absolute Maximum Ratings”may cause substantial damage to the device.Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability.
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
3
ELECTRICAL CHARACTERISTICS
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
4
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
5
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
6
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
7
TYPICAL APPLICATION CIRCUIT
The basic circuits of the SC10XX series
High output current positive voltage regulator
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
8
Short-Circuit protection for Tr1
Circuit for increasing output voltage
V OUT=V XX•(1+
R1
R2)+I
SS•R2
≈V XX•(1+
R1
R2)
Silan
Semiconductors
SC10XX SERIES
HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTD
Rev:1.02000.12.31
9
Circuit for increasing output voltage
V OUT=V XX+V D1
Constant current regulator
I OUT=
A
R
XX
V+I
SS
Dual supply
IC1。