CN240610中文资料
EPF10K70RC240-3中文资料(Altera)中文数据手册「EasyDatasheet - 矽搜」
40,000 93,000 2,304
288 8
16,384 189
50,000 116,000 2,880
360 10 20,480 310
1
芯片中文手册,看全文,戳
FLEX 10K嵌入式可编程逻辑器件系列数据表
表2 FLEX 10K器件特性
特点
Altera公司FLEX 10K器件是业界第一款嵌入式可编程逻辑器件.基于 可重构CMOS SRAM元件,灵活逻辑单元 MATRIX(FLEX)架构整合所有必要实施普通门阵列宏功能特点.凭 借高达25万门FLEX 10K系列提供密度,速度和功能,整个系统,包括 多个32位总线,集成到一个单一设备.
FLEX 10K装置是可重新配置,这使得在装运前100%测试.其结果是, 设计者不需要产生用于故障覆盖率目测试矢量.此外,设计人员并不需要管 理不同ASIC设计清单; FLEX 10K设备可以在电路板上被配置为所需特 定功能.
和FineLine BGA
包.
(2) 是支持256针FineLine BGA封装,该选项.通过使用SameFrame针迁移,所有FineLine
BGA封装引脚兼容.例如,电路板可以被设计成支持256针和484针
FineLine BGA封装. Altera软件会自动避免冲突引脚时,未来迁移设置.
一般 描写
演出
-2速度 Grade
166
166 5.8 145
89
-3速度 Grade
125
125 6.0 108
68
Units
-4速度 Grade
95
MHz
95
MHz
7.0
ns
84
ATV610变频器中文样本
为中国创造了成千上万个就业机会。
5
技术规范
控制电路特性 ( 续 )
P24 0V 数字量输入 DI1-DI6 10V 模拟量输入 AI1/AI2/AI3 COM AI2-AI3
6
变频器
睿易系列 ATV610
+24 Vdc 用于连接外部电源,对变频器控制部分单独供电,这样在功率部分没有上电 的情况下也可以进行调试。 p 误差:最小 19 V,最大 30 V p 电流 :1.25 A 最大 P24 对应的 0V p 6 个可编程逻辑输入,与 1 级 PLC 兼容、符合 IEC/EN61131-2 标准 p 正逻辑 ( 源型 ):如果 < 5 V 或逻辑输入没有接线,为状态 0;如果 > 11 V,为状态 1 p 负逻辑 ( 漏型 ):如果 > 16 V 或逻辑输入没有接线,为状态 0;如果 < 10 V,为状态 1 p 阻抗:3.5 kΩ p 最大电压:30 V p 最大采样时间:2 ms ± 0.5 ms p 多重定义使得能够在一个输入上设置几种功能 ( 例如:DI1 被定义为正向与预置速度 2,DI3 被定义为反向与预置速度 3) p 10.5 V c ± 5% 电源用于电位计给定(1 到 10 kΩ) p 最大电流 10 mA p 短路保护 可通过软件设置的电压、电流模拟输入 p 电压模拟量输入 0...10 V c,阻抗为 30 kΩ p 电流模拟量输入 X-Y mA, X 和 Y 可通过编程设定, 范围从 0 到 20 mA, 阻抗为 250 Ω p 最大采样时间:5 ms ± 1 ms p 分辨率:11 位 p 精度:在 60oC 时为 ± 0.6% p 线性度:在最大值时为 ± 0.15% 模拟量输入的 0V 可通过软件设置为 PT100,PT1000, KTY84 , PTC 或 水探头 (Water Probe) PT100: p 1 至 3 个探头串联安装(可通过软件设置) p 探头电流:最大 5 mA p 范围: -20/200oC p 精度:60oC 时为 +/- 4oC PT1000, KTY84: p 1 至 3 个探头串联安装(可通过软件设置) p 探头电流:最大 1mA p 范围:-20/200oC p 精度:60oC 时为 +/- 4oC PTC: p 最多 6 个 PTC 探头串联安装 p 探头电流:最大 1mA p 额定值 < 1.5 kΩ p 脱扣阻值 3 kΩ, 复位值 1.8 kΩ p 短路保护 < 50 Ω 水探头 (Water Probe): p 灵敏度:0 - 1MΩ,通过软件调整 p 探头电流:0.3mA 至 1mA p 延时调整:0 - 10s
ATV610变频器中文样本
ATV610 变频器适用于标准风机和泵类负载,可广泛应用 于工业及基础设施等各行业。包括:
> 水处理和污水处理 > 石化 > 发电厂 > 工业及民用建筑 > 热力供暖
在这些行业和应用中,变频器的采购和使用者们往往会面 对如下挑战:
> 产品的复杂性,导致从设计选型到调试维护过程中更多的人力资源投入 > 恶劣应用环境,如高温,潮湿,盐雾,灰尘,腐蚀性气体等,对产品的稳定性提
变频器 ATV610
用于0.75至160kW的异步电机
产品目录 全国销售部专用
施耐德电气
善用其效 尽享其能
全球能效管理专家施耐德电气为世界100多个国家提供整体解决方案,其中在能源与基 础设施、工业过程控制、楼宇自动化和数据中心与网络等市场处于世界领先地位,在 住宅应用领域也拥有强大的市场能力。致力于为客户提供安全、可靠、高效的能源, 施耐德电气2013年的销售额为240亿欧元,拥有超过150,000名员工。施耐德电气助 您——善用其效,尽享其能!
> 更强的环境适应性 > 专业的抗恶劣环境设计方案,PCBA 涂层、母线镀层、绝缘强度提高 > 创新风路设计,降低电路板腐蚀机会 > 可在 - 15oC 至 +60oC,4800m 海拔高度运行 > 顶部高防护等级 IP40
> 为中国客户量身定制 > 针对于标准风机和泵类控制系统优化设计 > 内置优化的抗电磁干扰和抑制谐波方案 > I/O 端口数量和软件功能优化自动化控制系统
出了更高的要求 > 设备初期投入与产品性能之间的平衡
ATV610 变频器凭借可靠的品质,简单便捷的使用方式和 量身定制的功能,助您更好的应对挑战。
CN系列多功能计数器操作说明书
一、型号说明显示位数:6:6位显示控制输出:R:继电器输出 S:固态输出CN系列多功能计数器报警输出:B:一路 C:二路*24V供电电源可订做通讯功能:0:无通讯 8:RS485通讯电源:空白:100-240VAC/DC F:24VDC供电外形尺寸(mm):4:48H×48W×101L 7:72H×72W×100L 8:48H×96W×100L9:96H×96W×101L 80:80H×160W×102LCN系列多功能计数器操作说明书注意安全1.在以下情况下使用这个设备,如(核能控制、医疗设备、汽车、火车、飞机、航空、娱乐或安全装置等),需要安装安全保护 装置,或联系我们索取这方面的资料,否则可能会引起严重的损失,火灾或人身伤害。
2.必须要安装面板,否则可能会发生触电。
3.在供电状态中不要接触接线端子,否则可能会发生触电。
4.不要随意拆卸和改动这个产品,如确实需要请联系我们,否则会引起触电和火灾。
5.请在连接电源线或信号输入时检查端子号,否则可能会引起火灾。
1.这个装置不能使用在户外,否则会缩短此产品的使用寿命或发生触电事故。
2.当电源输入端或信号输入端接线时,No.20AWG(0.50mm ) 螺丝拧到端子上的力矩为0.74n·m - 0.9n·m。
3.不要用汽油、化学溶剂清洁仪表外壳,使用这些溶剂会损害仪表外壳。
请用柔软的湿布(水或酒精)清洁塑料外壳。
为了您的安全,在使用前请仔细阅读以下内容!特点:⊙计数速度最高可达10KCPS⊙系数0.00001~999999任意设定⊙通用输入.可通过软件选择“NPN”或 “PNP”输入⊙最多可选二路计数/计长报警输出、 一路批次报警输出⊙可用于轻工、机械、包装、食品等 行业的长度、计数等测量控制用2PS2: 下排显示OUT2设定值复位键批次设定键PS1: 下排显示OUT1设定值BA.S:上排显示批次计数值 下排显示批次设定值二、型号种类三、技术参数系列显示电源允许电压的波动范围输入脉宽输入One-shot输出控制输出接点容量固态容量记忆保持外部传感器电源使用温度保存温度环境湿度绝缘强度耐压干扰 (AC电源)冲击寿命振动机械机械机械电气故障故障双排六位额定电压的90-110%(AC电源)INA,INB的输入频率INA,INHIBIT,RESET,BATCH RESET,可选择1ms或20ms电压输入:输入阻抗为5.4KΩ,“H”为5-30VDC “L”为0-2VDC无电压输入:短路阻抗为最大1KΩ,残留电压:最大2VDC 开路阻抗:最大100KΩ10/50/100/200/500/1000/2000/5000msNO:250VAC 3A阻抗 NC:250VAC 2A阻抗最大30VDC , 最大100mA 10年12VDC±10% 100mA以下 -10℃~50℃ (未结冰状态)-25℃~65℃ (未结冰状态)35-85%RH最小100MΩ (at500VDC)2000V AC 50/60Hz 1分钟±2kV 由方波发生器干扰 (脉宽:1us)振幅为:0.75mm 频率为:10~55Hz X,Y,Z各个方向1小时振幅为:0.5mm 频率为:10~55Hz X,Y,Z各个方向10分钟300/S (约: 30G) X,Y,Z各个方向3次10,000,000次以上100,000次以上 (NO:250VAC 3A负载 NC:250VAC 2A负载)四、面板名称100/S (约: 10G) X,Y,Z各个方向3次22100-240V AC/DC1Hz、30Hz、1KHz、5KHz、10KHz可选OUT1,OUT2:OUT1或OUT2输出指示BA.O:批次输出指示(CN4无此指示灯)LOCK:按键锁定指示CN五、操作流程六、批次计数和批次设定值批次复位批次设定值批次输出1. 批次输出动作◆批次计数批次计数值是向上累加的,只有外部批次复位信号才能将其复位归零。
EPM240T100I5N中文资料(Altera)中文数据手册「EasyDatasheet - 矽搜」
256-Pin FineLine
BGA
324-Pin FineLine
BGA
0.5
0.5
1
1
49
121
289
361
7×7
11 × 11 17 × 17 19 × 19
芯片中文手册,看全文,戳
MAX II器件具有内部线性稳压器,它支持3.3 V或2.5 V外接电源电压,调节 供给下降到1.8 V MAX IIG和MAX IIZ器件内部工作电压只接受1.8 V外部电源. MAX IIZ器件引脚兼容100针微型FineLine BGA和256引脚微型FineLine BGA封装 MAX IIG设备.除外部电源电压要求,MAX II和MAX II G设备具有相同引脚 输出和时序规范.
f
有关等效宏单元详细信息,请参阅
宏单元转换方法
白皮书.
MAX II逻辑元素
MAX II和MAX IIG器件有三种速度等级:-3,-4,-5,与
-3是最快.同样,MAX IIZ器件有三种速度等级可供选择:-6,
-7,和-8,以-6是最快.这些速度等级代表总体相对
性能,而不是任何特定时序参数.对于传播延迟定时
由MAX II系列支持.
表1-5 显示外部电源电压
表 1-5. MAX II外接电源电压
设备
多电压内核外部电源电压(V 多电压I / O接口电压电平(V 须知 表 1-5: (1)MAX IIG和MAX IIZ器件只接受1.8 V他们 (2)MAX II器件在1.8 V内部操作
) (2) )
EPM 240 EPM 570 EPM 1270 EPM 2210
3.3 V / 2.5 V或1.8 V ■ 多电压I / O接口,支持3.3 V,2.5 V,1.8 V和1.5 V逻辑电平 ■ 总线型架构,包括可编程摆率,驱动能力,
施耐德 ATV610D15N4 Easy Altivar 610变频器 数据表
Product data sheetCharacteristicsATV610D15N4变频器 ATV610 - 15 kW / 20HP - 380...460 V -IP20主要信息产品系列Easy Altivar 610产品类型变频器应用领域风扇,泵,压缩机,传送带产品短名ATV610变量标准版本产品应用场景异步电机同步电机安装类型柜装EMC 滤波器集成的 符合 IEC 61800-3 安全级别 C3 和 50 m 最长电机电缆IP 保护等级IP20冷却方式强制通风供电频率50...60 Hz +/-5 %网络相数3 相额定电源电压 [Us]380...460 V - 15...10 %电动机功率 (kW)15 KW 适用 标准负载 11 KW 适用 重载电机功率20 Hp 适用 标准负载 15 Hp 适用 重载线路电流29.4 A 在…上 380 V (标准负载) 26.0 A 在…上 460 V (标准负载) 23 A 在…上 380 V (重载) 20.8 A 在…上 460 V (重载)预期线路Isc 22 KA视在功率20.7 KVA 在…上 460 V (标准负载) 16.6 KVA 在…上 460 V (重载)连续输出电流31.7 A 在…上 4 kHz 适用 标准负载 23.5 A 在…上 4 kHz 适用 重载最大瞬变电流34.9 A 在 60 s (标准负载) 35.3 A 在 60 s (重载)异步电机控制配置文件标准变转矩 优化转矩模式标准恒转矩变频器输出频率0.1…500 Hz 额定开关频率 4 kHz开关频率 2...12 kHz 可调离散量输入逻辑16个预置速度T h e i n f o r m a t i o n p r o v i d e d i n t h i s d o c u m e n t a t i o n c o n t a i n s g e n e r a l d e s c r i p t i o n s a n d /o r t e c h n i c a l c h a r a c t e r i s t i c s o f t h e p e r f o r m a n c e o f t h e p r o d u c t s c o n t a i n e d h e r e i n .T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s .I t i s t h e d u t y o f a n y s u c h u s e r o r i n t e g r a t o r t o p e r f o r m t h e a p p r o p r i a t e a n d c o m p l e t e r i s k a n a l y s i s , e v a l u a t i o n a n d t e s t i n g o f t h e p r o d u c t s w i t h r e s p e c t t o t h e r e l e v a n t s p e c i f i c a p p l i c a t i o n o r u s e t h e r e o f .N e i t h e r S c h n e i d e r E l e c t r i c I n d u s t r i e s S A S n o r a n y o f i t s a f f i l i a t e s o r s u b s i d i a r i e s s h a l l b e r e s p o n s i b l e o r l i a b l e f o r m i s u s e o f t h e i n f o r m a t i o n c o n t a i n e d h e r e i n .通讯端口协议Modbus 串行选项卡卡槽A: 通信卡, Profibus DP V1卡槽A: 逻辑或模拟I/O扩展卡卡槽A: 继电器输出卡补充信息输出电压<= 电源电压电机滑差补偿可以抑制不适用永磁同步电机规律自动 无论负载情况可调加速和减速倾斜S, U 或自定义从 0.01 至 9000 s 独立线性可调制动至停止采用直流注入保护类型热保护: 马达电机断相: 马达热保护: 驱动过热: 驱动输出相线和接地之间的过流: 驱动输出电压过载: 驱动短路保护: 驱动电机断相: 驱动直流总线过压: 驱动线路电源过压: 驱动总线供电欠压: 驱动总线供电失相: 驱动超速: 驱动控制电路上制动: 驱动频率分辨率显示单元: 0.1 Hz模拟量输入: 0.012/50 Hz电气连接控制, 螺钉终端: 0.5...1.5 mm²线路侧, 螺钉终端: 6...16 mm²马达, 螺钉终端: 6...16 mm²端口类型 1 RJ45 (在远程图形终端) 适用 Modbus 串行物理接口2线制RS485 适用 Modbus 串行传输帧RTU 适用 Modbus 串行传输率 4.8, 9.6, 19.2, 38.4 kbit/s 适用 Modbus 串行极化方式无阻抗 适用 Modbus 串行地址数1…247 适用 Modbus 串行访问方法从(站)电源用于逻辑输入的外部电源: 24 V 直流 (19…30 V), <1.25 mA, 保护类型: 过载和短路保护内部电源 用于参考电位计 (1 至 10 kOhm): 10.5 V 直流 +/- 5 %, <10 mA, 保护类型: 过载和短路保护本地信号指示 2 LED for 本地诊断:1 个LED (黄色) for 集成通讯状态:2 LED (双色) for 通讯模块状态:1 个LED (红色) for 电压状态:宽度171 Mm高度360 Mm423 Mm 带EMC板深度233 Mm净重7.730 Kg模拟量输入数量3模拟量输入类型AI1, AI2, AI3 软件-可配置电压: 0...10 V 直流, 阻抗: 30 kOhm, 分辨率 12 bitsAI1, AI2, AI3 软件-可配置电流: 0...20 mA, 阻抗: 250 Ω, 分辨率 12 bitsAI2, AI3 软件-可配置温度探测器或水位传感器离散量输入数量6数字量输入类型DI1...DI6 可编程为逻辑输入, 24 V 直流 (<= 30 V), 阻抗: 3.5 kOhmDI5, DI6 可编程为脉冲输入: 0…30 kHz, 24 V 直流 (<= 30 V)输入兼容DI1...DI6: 逻辑输入 1 级 PLC 符合 IEC 61131-2DI5, DI6: 脉冲输入 1 级 PLC 符合 IEC 65A-68离散量输入逻辑正逻辑(源): DI1...DI6 可配置 逻辑输入, < 5 V (状态 0), > 11 V (状态 1)负逻辑 (漏): DI1...DI6 可配置 逻辑输入, > 16 V (状态 0), < 10 V (状态 1)正逻辑(源): DI5, DI6 可配置 脉冲输入, < 0.6 V (状态 0), > 2.5 V (状态 1)模拟量输出数量2模拟量输出 型号软件-可配置电流 AQ1, AQ2: 0...20 mA, 分辨率 10 bits软件-可配置电压 AQ1, AQ2: 0...10 V 直流 阻抗 470 Ω, 分辨率 10 bits采样期间5 Ms +/- 0.1 ms (AI1, AI2, AI3) - 模拟量输入2 Ms +/- 0.5 ms (DI1...DI6)可配置 - 离散量输入5 Ms +/- 1 ms (DI5, DI6)可配置 - 脉冲输入10 Ms +/- 1 ms (AQ1, AQ2) - 模拟量输出精度+/- 0.6 % AI1, AI2, AI3 用于60 °C的温度变动 模拟量输入+/- 1 % AQ1, AQ2 用于60 °C的温度变动 模拟量输出线性度误差AI1, AI2, AI3: 最大值 +/- 0.15 % 适用 模拟量输入AQ1, AQ2: +/- 0.2 % 适用 模拟量输出继电器输出数量3继电器输出类型可配置的继电器逻辑 R1: 故障继电器 NO/NC 电气寿命 100000 次可配置的继电器逻辑 R2: 序列继电器 NO 电气寿命 100000 次可配置的继电器逻辑 R3: 序列继电器 NO 电气寿命 100000 次更新时间继电器输出 (R1, R2, R3): 5 ms (+/- 0.5 ms)最小开关电流 [Imin]继电器输出 R1, R2, R3: 5 mA 在…上 24 V 直流最大开关电流继电器输出 R1, R2, R3 在…上 阻性(负载) 量, cos phi = 1: 3 A 在…上 250 V AC继电器输出 R1, R2, R3 在…上 阻性(负载) 量, cos phi = 1: 3 A 在…上 30 V 直流继电器输出 R1, R2, R3 在…上 感性负载 量, cos phi = 0.4 L/R = 7 ms: 2 A 在…上 250 V AC继电器输出 R1, R2, R3 在…上 感性负载 量, cos phi = 0.4 L/R = 7 ms: 2 A 在…上 30 V 直流隔离电源与控制端子之间绝缘电阻> 1 MOhm 接地 1 分钟 500 V 直流环境噪音等级65 DB 符合 86/188/EEC功耗W408 W(强制通风) 在…上 380 V,开关频率 4 kHz62 W(自然通风) 在…上 380 V,开关频率 4 kHz操作位置垂直方向 +/- 10°电磁兼容性静电放电抗干扰 级别 3 符合 IEC 61000-4-2射频电磁场辐射抗扰度试验 级别 3 符合 IEC 61000-4-3抗快速瞬变 级别 4 符合 IEC 61000-4-41.2/50和8/20 µs复合波(测试) 级别 3 符合 IEC 61000-4-5抗射频场引起的传导波动 级别 3 符合 IEC 61000-4-6污染等级 2 符合 IEC 61800-5-1抗振动波峰至波峰 1.5 mm (f= 2…13 Hz) 符合 IEC 60068-2-61 gn (f= 13…200 Hz) 符合 IEC 60068-2-6抗冲击15 gn 适用 11 ms 符合 IEC 60068-2-27相对湿度5…95 % 无凝结 符合 IEC 60068-2-3环境温度-15…45 °C (无降容)45…60 °C (有)工作海拔<= 1000 m 无降容1000...4800 m 电流降额 1%/100m环境特征化学污染抵抗 等级3C3 符合 IEC 60721-3-3尘土污染抵抗 等级3S3 符合 IEC 60721-3-3标准IEC 61800-3环境2分类C3 IEC 61800-3IEC 61800-5-1IEC 60721-3标识CE包装单位Unit Type of Package 1PCENumber of Units in Package 11Package 1 Height21.500 CmPackage 1 Width34.500 CmPackage 1 Length58.000 CmPackage 1 Weight10.120 KgUnit Type of Package 2P06Number of Units in Package 23Package 2 Height75.000 CmPackage 2 Width60.000 CmPackage 2 Length80.000 CmPackage 2 Weight38.360 Kg产品类型Green Premium 产品REACh法规REACh 声明欧盟ROHS指令主动合规性(超出欧盟 RoHS 法定范围的产品)无汞是中国 ROHS 管理办法中国 ROHS 声明RoHS 豁免信息是环境披露产品环境文件流通资料产品使用寿命终期信息WEEE该产品必须经特定废物回收处理后弃置于欧盟市场,绝不可丢弃于垃圾桶中。
操作中文 REF610
指示灯 .............................................................. 28 3.3.1.1. 绿色 LED 指示灯....................................... 28 3.3.1.2. 黄色 LED 指示灯....................................... 28 3.3.1.3. 红色 LED 指示灯....................................... 29 3.3.1.4. 可编程 LED 指示灯 ................................... 29 3.3.2. 指示信息 .................................................................. 29 3.3.2.1. 运行指示信息 ............................................ 30 3.3.2.2. 故障录波模块指示..................................... 31 3.3.2.3. 继电器内部故障(IRF)和告警指示 ............. 31 3.4. 可分离的插件 ......................................................................... 34 3.4.1. 产品识别 .................................................................. 34 3.4.2. 拔出和安装插件 ....................................................... 35 3.4.3. 插入和更换电池 ....................................................... 36
武汉肯比PROTIG 410_CN
电桥单元 8 保护气软管
快速接头 – 0 9/9a 焊接电流电缆 23b TIG 焊枪
水冷 23d TIG 延长电缆
21 MMA 焊接电缆
23b TIG 焊枪 水冷
23d TIG 延长电缆 水冷
XT 分接头
7
PRO 3000, 4000, 5000 电源 PROCOOL 10 冷却液循环单元 PROMIG 500, 510 MIG – MAG 送丝机
8
1/1d 控制电缆 5 冷却液软管
R 3/8 – 快速接头 5d 冷却液软管
主开关---------------------------------------------------------------------------------------------------------14 冷却单元的操作---------------------------------------------------------------------------------------------14 面板操作 TL 控制面板-----------------------------------------------------------------------------------------------15
23c / 10m 23c / 15m W3=1d+9+9+8 W3 / 1m-50mm2 W3/ 10m-50m00 6131400 6131500 6185261 6185409 6185419 6185406 6185481 6185482 6184511 6184501 6271841 6271842
变速器ATV610D45N4产品数据手册说明书
Product datasheetCharacteristicsATV610D45N4variable speed drive ATV610 - 45 kW/60 HP -380...415 V - IP20Training Objectives : CompliantMainRange of productEasy Altivar 610Product or component type Variable speed driveProduct specific application Fan, pump, compressor, conveyor Device short name ATV610VariantStandard version Product destination Asynchronous motors Mounting mode Cabinet mountEMC filterIntegrated conforming to EN/IEC 61800-3 category C3 with 50 m IP degree of protection IP20Type of cooling Forced convection Supply frequency50...60 Hz +/-5 %Network number of phases 3 phases[Us] rated supply voltage 380...460 V - 15...10 %Motor power kW 45 kW for normal duty 37 kW for heavy duty Motor power hp 60 hp for normal duty 50 hp for heavy duty Line current92.9 A at 380 V (normal duty)82.7 A at 460 V (normal duty)80.5 A at 380 V (heavy duty)69.6 A at 460 V (heavy duty)Prospective line Isc 22 kAApparent power65.9 kVA at 460 V (normal duty)55.4 kVA at 460 V (heavy duty)Continuous output current 88 A at 4 kHz for normal duty 75 A at 4 kHz for heavy duty Maximum transient current97 A during 60 s (normal duty)112 A during 60 s (heavy duty)i s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n sAsynchronous motor control profile Optimized torque modeConstant torque standardVariable torque standardOutput frequency0.0001…0.5 kHzNominal switching frequency 4 kHzSwitching frequency 2...12 kHz adjustableNumber of preset speeds16 preset speedsCommunication port protocol Modbus serialOption card Slot A: communication card, Profibus DP V1Slot A: digital or analog I/O extension cardSlot A: relay output cardComplementaryOutput voltage<= power supply voltageMotor slip compensation Automatic whatever the loadAdjustableNot available in permanent magnet motor lawCan be suppressedAcceleration and deceleration ramps Linear adjustable separately from 0.01 to 9000 sS, U or customizedBraking to standstill By DC injectionProtection type Thermal protection: motorMotor phase break: motorThermal protection: driveOverheating: driveOvercurrent between output phases and earth: driveOverload of output voltage: driveShort-circuit protection: driveMotor phase break: driveOvervoltages on the DC bus: driveLine supply overvoltage: driveLine supply undervoltage: driveLine supply phase loss: driveOverspeed: driveBreak on the control circuit: driveFrequency resolution Display unit: 0.1 HzAnalog input: 0.012/50 HzElectrical connection Control, screw terminal: 0.5...1.5 mm²Line side, screw terminal: 35...50 mm²Motor, screw terminal: 50 mm²Connector type 1 RJ45 (on the remote graphic terminal) for Modbus serialPhysical interface2-wire RS 485 for Modbus serialTransmission frame RTU for Modbus serialTransmission rate 4.8, 9.6, 19.2, 38.4 kbit/s for Modbus serialType of polarization No impedance for Modbus serialNumber of addresses1…247 for Modbus serialMethod of access SlaveSupply External supply for digital inputs: 24 V DC (19…30 V), <1.25 mA, protection type: overload and short-circuit protectionInternal supply for reference potentiometer (1 to 10 kOhm): 10.5 V DC +/- 5 %, <10 mA, protectiontype: overload and short-circuit protectionLocal signalling 2 LEDs for local diagnostic1 LED (yellow) for embedded communication status2 LEDs (dual colour) for communication module status1 LED (red) for presence of voltageWidth226 mmHeight613 mm706 mm with EMC plateDepth271 mmProduct weight26.8 kgAnalogue input number3Analogue input type AI1, AI2, AI3 software-configurable voltage: 0...10 V DC, impedance: 30 kOhm, resolution 12 bitsAI1, AI2, AI3 software-configurable current: 0...20 mA, impedance: 250 Ohm, resolution 12 bitsAI2, AI3 software-configurable temperature probe or water level sensorDiscrete input number6Discrete input type DI1...DI6 programmable as logic input, 24 V DC (<= 30 V), impedance: 3.5 kOhmDI5, DI6 programmable as pulse input: 0…30 kHz, 24 V DC (<= 30 V)Input compatibility DI1...DI6: logic input level 1 PLC conforming to EN/IEC 61131-2DI5, DI6: pulse input level 1 PLC conforming to IEC 65A-68Discrete input logic Positive logic (source): DI1...DI6 configurable logic input, < 5 V (state 0), > 11 V (state 1)Negative logic (sink): DI1...DI6 configurable logic input, > 16 V (state 0), < 10 V (state 1)Positive logic (source): DI5, DI6 configurable pulse input, < 0.6 V (state 0), > 2.5 V (state 1) Analogue output number2Analogue output type Software-configurable current AQ1, AQ2: 0...20 mA, resolution 10 bitsSoftware-configurable voltage AQ1, AQ2: 0...10 V DC impedance 470 Ohm, resolution 10 bits Sampling duration5 ms +/- 0.1 ms (AI1, AI2, AI3) - analog input2 ms +/- 0.5 ms (DI1...DI6)configurable - discrete input5 ms +/- 1 ms (DI5, DI6)configurable - pulse input10 ms +/- 1 ms (AQ1, AQ2) - analog outputAccuracy+/- 0.6 % AI1, AI2, AI3 for a temperature variation 60 °C analog input+/- 1 % AQ1, AQ2 for a temperature variation 60 °C analog outputLinearity error AI1, AI2, AI3: +/- 0.15 % of maximum value for analog inputAQ1, AQ2: +/- 0.2 % for analog outputRelay output number3Relay output type Configurable relay logic R1: fault relay NO/NC electrical durability 100000 cyclesConfigurable relay logic R2: sequence relay NO electrical durability 100000 cyclesConfigurable relay logic R3: sequence relay NO electrical durability 100000 cyclesRefresh time Relay output (R1, R2, R3): 5 ms (+/- 0.5 ms)Minimum switching current Relay output R1, R2, R3: 5 mA at 24 V DCMaximum switching current Relay output R1, R2, R3 on resistive load, cos phi = 1: 3 A at 250 V ACRelay output R1, R2, R3 on resistive load, cos phi = 1: 3 A at 30 V DCRelay output R1, R2, R3 on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 250 V ACRelay output R1, R2, R3 on inductive load, cos phi = 0.4 and L/R = 7 ms: 2 A at 30 V DC Isolation Between power and control terminalsInsulation resistance> 1 MOhm 500 V DC for 1 minute to earthEnvironmentNoise level75 dB conforming to 86/188/EECPower dissipation in W1000 W(forced convection) at 380 V, switching frequency 4 kHz121 W(natural convection) at 380 V, switching frequency 4 kHzVolume of cooling air240 m3/hOperating position Vertical +/- 10 degreeElectromagnetic compatibility Electrostatic discharge immunity test level 3 conforming to IEC 61000-4-2Radiated radio-frequency electromagnetic field immunity test level 3 conforming to IEC 61000-4-3Electrical fast transient/burst immunity test level 4 conforming to IEC 61000-4-41.2/50 µs - 8/20 µs surge immunity test level 3 conforming to IEC 61000-4-5Conducted radio-frequency immunity test level 3 conforming to IEC 61000-4-6Pollution degree 2 conforming to EN/IEC 61800-5-1Vibration resistance 1.5 mm peak to peak (f= 2…13 Hz) conforming to IEC 60068-2-61 gn (f= 13…200 Hz) conforming to IEC 60068-2-6Shock resistance15 gn for 11 ms conforming to IEC 60068-2-27Relative humidity5…95 % without condensation conforming to IEC 60068-2-3Ambient air temperature for operation-15…45 °C (without derating)45…60 °C (with derating factor)Ambient air temperature for storage-40…70 °COperating altitude<= 1000 m without derating1000...4800 m with current derating 1 % per 100 mEnvironmental characteristic Chemical pollution resistance class 3C3 conforming to EN/IEC 60721-3-3Dust pollution resistance class 3S3 conforming to EN/IEC 60721-3-3Standards EN/IEC 61800-3Environment 2 category C3 EN/IEC 61800-3EN/IEC 61800-5-1IEC 60721-3Marking CEPacking UnitsUnit Type of Package 1PCENumber of Units in Package 11Package 1 Weight30.2 kgPackage 1 Height51 cmPackage 1 width38 cmPackage 1 Length76 cmOffer SustainabilitySustainable offer status Green Premium productREACh Regulation REACh DeclarationEU RoHS Directive Pro-active compliance (Product out of EU RoHS legal scope)EU RoHS DeclarationMercury free YesRoHS exemption information YesChina RoHS Regulation China RoHS declarationEnvironmental Disclosure Product Environmental ProfileCircularity Profile End of Life InformationWEEE The product must be disposed on European Union markets following specific waste collection andnever end up in rubbish bins。
FR610中文资料
Amps
........................................ -65 to 175 .........................................
°C
Volts
............................................. 1 0 ............................................... µAmps ............................................. 150 ............................................... µAmps ............................................. 100 ............................................... 150 150 150 150 250 500 500 pF ns
Typical Junction Capacitance...CJ (Note 1) Maximum Reverse Recovery Time...tRR Page 4-16
元器件交易网
Data Sheet
6.0 Amp FAST RECOVERY PLASTIC RECTIFIERS
100
Non-Inductive 50Ω Ω (+) 25 VDC (-) D.U.T 1Ω NonInductive 10Ω Ω (-)
Pulse Generator Note 2
+.5A
Reverse Recovery Characteristics tRR
Unitrans ZXCTN 6100(V1.10)分组传送产品硬件描述
ZXCTN6100分组传送产品硬件描述产品版本:1.10中兴通讯股份有限公司地址:深圳市科技南路55号邮编:518057电话:(86)75526770800800-830-1118传真:(86)75526770801技术支持网站:电子邮件:800@法律声明本资料著作权属中兴通讯股份有限公司所有。
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修订历史R e v i s i o n N o.R e v i s i o n D a t e R e v i s i o n R e a s o nV1.1020100316–R1.0ZXCTN6100(V1.10)产品第一次发布资料编号:SJ-20100329113328-003发布日期:20100316目录1设备子架............................................................................................1-11.1子架结构............................................................................................................1-11.2子架板位资源.....................................................................................................1-2 2单板...................................................................................................2-12.1单板命名列表.....................................................................................................2-12.2单板槽位列表.....................................................................................................2-22.3单板结构............................................................................................................2-22.4系统主板SMB.....................................................................................................2-32.4.1单板功能..................................................................................................2-52.4.2单板原理..................................................................................................2-72.4.3面板说明................................................................................................2-112.4.4指示灯状态.............................................................................................2-132.4.5告警、性能、事件..................................................................................2-142.5E1电支路仿真板E1TE.......................................................................................2-172.5.1单板功能................................................................................................2-172.5.2单板原理................................................................................................2-182.5.3面板说明................................................................................................2-182.5.4指示灯状态.............................................................................................2-192.5.5告警、性能、事件..................................................................................2-202.6千兆光口板GEx1...............................................................................................2-222.6.1单板功能................................................................................................2-222.6.2单板原理................................................................................................2-232.6.3面板说明................................................................................................2-232.6.4指示灯状态.............................................................................................2-242.6.5告警、性能、事件..................................................................................2-252.7百兆光口板FEx4...............................................................................................2-262.7.1单板功能................................................................................................2-262.7.2单板原理................................................................................................2-272.7.3面板说明................................................................................................2-272.7.4指示灯状态.............................................................................................2-282.8直流电源板PWA...............................................................................................2-292.8.1单板功能................................................................................................2-292.8.2单板原理................................................................................................2-292.8.3面板说明................................................................................................2-302.8.4指示灯状态.............................................................................................2-312.8.5告警、性能、事件..................................................................................2-312.9交流电源板PWB...............................................................................................2-322.9.1单板功能................................................................................................2-322.9.2单板原理................................................................................................2-322.9.3面板说明................................................................................................2-322.9.4指示灯状态.............................................................................................2-332.9.5告警、性能、事件..................................................................................2-33 A机柜简介...........................................................................................A-1A.1机柜结构参数...................................................................................................A-1A.2机柜基本配件...................................................................................................A-2A.3电源分配箱.......................................................................................................A-4 B壁挂支架简介....................................................................................B-1B.1竖直安装壁挂支架结构......................................................................................B-1B.2水平安装壁挂支架结构......................................................................................B-1图目录 (I)表目录 (III)缩略语表 (V)前言手册说明本手册适用于Unitrans ZXCTN6100分组传送产品(以下简称ZXCTN6100)。
TPS61040DBVR中文资料
FEATURESDESCRIPTIONAPPLICATIONSDBV PACKAGE (Top View)SW GND FBV INENGND SW V INNC ENFB321456DRV PACKAGE (Top View)TYPICAL APPLICATIONL1D1FV OUTV IN to 28 VV IN1.8 V to 6.0 VC 4.7 µ70727476788082848688900.10110100E f f i c i e n c y - %EFFICIENCYvsOUTPUT CURRENTI O - Output Current - mATPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007LOW-POWER DC/DC BOOST CONVERTER IN SOT-23AND SON PACKAGES• 1.8-V to 6-V Input Voltage RangeThe TPS61040/41is a high-frequency boost converter dedicated for small to medium LCD bias •Adjustable Output Voltage Range up to 28V supply and white LED backlight supplies.The device •400-mA (TPS61040)and 250-mA (TPS61041)is ideal to generate output voltages up to 28V from a Internal Switch Currentdual cell NiMH/NiCd or a single cell Li-Ion battery.•Up to 1-MHz Switching FrequencyThe part can also be used to generate standard 3.3-V/5-V to 12-V power conversions.•28-μA Typical No-Load Quiescent Current •1-μA Typical Shutdown Current The TPS61040/41operates with a switching frequency up to 1MHz.This allows the use of small •Internal Soft Startexternal components using ceramic as well as •Available in SOT23-5and 2×2×0.8-mm SON tantalum output capacitors.Together with the thin PackagesSON package,the TPS61040/41gives a very small overall solution size.The TPS61040has an internal 400mA switch current limit,while the TPS61041has •LCD Bias Supplya 250-mA switch current limit,offering lower output voltage ripple and allows the use of a smaller form •White-LED Supply for LCD Backlights factor inductor for lower power applications.The low •Digital Still Cameraquiescent current (typically 28μA)together with an •PDAs,Organizers,and Handheld PCs optimized control scheme,allows device operation at •Cellular Phonesvery high efficiencies over the entire load current range.•Internet Audio Player•Standard 3.3-V/5-V to 12-V ConversionPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date.Copyright ©2002–2007,Texas Instruments IncorporatedProducts conform to specifications per the terms of the TexasVINFBENTPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007These devices have limited built-in ESD protection.The leads should be shorted together or the device placed in conductive foam during storage or handling to prevent electrostatic damage to the MOS gates.ORDERING INFORMATION(1)SWITCH CURRENTPACKAGE T APART NUMBER PACKAGE LIMIT,mAMARKING TPS61040DBV400SOT23-5PHOI TPS61041DBV 250SOT23-5PHPI –40°C to 85°CTPS61040DRV 400SON-62×2CCL TPS61041DRV250SON-62×2CAW(1)The devices are available in tape and reel and in tubes.Add R suffix to the part number (e.g.,TPS61040DRVR)to order quantities of 3000parts in tape and reel or add suffix T (e.g.,TPS61040DRVT)to order a tube with 250pieces..FUNCTIONAL BLOCK DIAGRAM2Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments IncorporatedDETAILED DESCRIPTION OPERATIONPEAK CURRENT CONTROLI peak(typ)+I LIM)V INL100nsI peak(typ)+400mA)V INL100ns for the TPS61040I peak(typ)+250mA)V INL100ns for the TPS61041(1)TPS61040TPS61041SLVS413C–OCTOBER2002–REVISED AUGUST2007 Table1.Terminal FunctionsTERMINALI/O DESCRIPTIONNAME DBV NO.DRV NO.This is the enable pin of the device.Pulling this pin to ground forces the device into shutdownEN43I mode reducing the supply current to less than1μA.This pin should not be left floating and needsto be terminated.This is the feedback pin of the device.Connect this pin to the external voltage divider to program FB34Ithe desired output voltage.GND21–GroundNC–5–No connectionConnect the inductor and the Schottky diode to this pin.This is the switch pin and is connected to SW16Ithe drain of the internal power MOSFET.V IN52I Supply voltage pinThe TPS61040/41operates with an input voltage range of1.8V to6V and can generate output voltages up to 28V.The device operates in a pulse-frequency-modulation(PFM)scheme with constant peak current control. This control scheme maintains high efficiency over the entire load current range,and with a switching frequency up to1MHz,the device enables the use of very small external components.The converter monitors the output voltage,and as soon as the feedback voltage falls below the reference voltage of typically1.233V,the internal switch turns on and the current ramps up.The switch turns off as soon as the inductor current reaches the internally set peak current of typically400mA(TPS61040)or250mA(TPS61041). See the Peak Current Control section for more information.The second criteria that turns off the switch is the maximum on-time of6μs(typical).This is just to limit the maximum on-time of the converter to cover for extreme conditions.As the switch is turned off the external Schottky diode is forward biased delivering the current to the output.The switch remains off for a minimum of400ns(typical),or until the feedback voltage drops below the reference voltage ing this PFM peak current control scheme the converter operates in discontinuous conduction mode(DCM)where the switching frequency depends on the output current,which results in very high efficiency over the entire load current range.This regulation scheme is inherently stable,allowing a wider selection range for the inductor and output capacitor.The internal switch turns on until the inductor current reaches the typical dc current limit(I LIM)of400mA (TPS61040)or250mA(TPS61042).Due to the internal propagation delay of typical100ns,theactualcurrent exceeds the dc current limit threshold by a small amount.The typical peak current limit can be calculated:The higher the input voltage and the lower the inductor value,the greater the peak.By selecting the TPS61040or TPS61041,it is possible to tailor the design to the specific application current limit requirements.A lower current limit supports applications requiring lower output power and allows the use of an inductor with a lower current rating and a smaller form factor.A lower current limit usually has a lower output voltage ripple as well.Copyright©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback3SOFT STARTThe TPS61040/41limits this inrush current by increasing the current limit in two steps starting from I LIM4for 256cycles toI LIM2for the next 256cycles,and then full current limit (see Figure 14).ENABLEUNDERVOLTAGE LOCKOUTABSOLUTE MAXIMUM RATINGSDISSIPATION RATING TABLETPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007All inductive step-up converters exhibit high inrush current during start-up if no special precaution is made.This can cause voltage drops at the input rail during start up and may result in an unwanted or early system shut down.Pulling the enable (EN)to ground shuts down the device reducing the shutdown current to 1μA (typical).Because there is a conductive path from the input to the output through the inductor and Schottky diode,the output voltage is equal to the input voltage during shutdown.The enable pin needs to be terminated and should not be left ing a small external transistor disconnects the input from the output during shutdown as shown in Figure 18.An undervoltage lockout prevents misoperation of the device at input voltages below typical 1.5V.When the input voltage is below the undervoltage threshold,the main switch is turned off.over operating free-air temperature (unless otherwise noted)(1)UNIT Supply voltages on pin V IN (2)–0.3V to 7V Voltages on pins EN,FB(2)–0.3V to V IN +0.3VSwitch voltage on pin SW(2)30VContinuous power dissipation See Dissipation Rating TableT J Operating junction temperature –40°C to 150°C T stgStorage temperature–65°C to 150°CLead temperature (soldering 10seconds)260°C(1)Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device.These are stress ratings only,and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)All voltage values are with respect to network ground terminal.DERATING T A ≤25°C FACTOR T A =70°C T A =85°C PACKAGE R θJA POWER RATINGABOVE POWER RATINGPOWER RATINGT A =25°C DBV 250°C/W 357mW 3.5mW/°C 192mW 140mW DRV76°C/W1300mW13mW/°C688mW500mW4Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments IncorporatedRECOMMENDED OPERATING CONDITIONS ELECTRICAL CHARACTERISTICSTPS61040TPS61041 SLVS413C–OCTOBER2002–REVISED AUGUST2007MIN TYP MAX UNITV IN Input voltage range 1.86VV OUT Output voltage range28VL Inductor(1) 2.210μHf Switching frequency(1)1MHzC IN Input capacitor(1) 4.7μFC OUT Output capacitor(1)1μFT A Operating ambient temperature–4085°CT J Operating junction temperature–40125°C (1)See application section for further information.V IN=2.4V,EN=V IN,T A=–40°C to85°C,typical values are at T A=25°C(unless otherwise noted)PARAMETER TEST CONDITIONS MIN TYP MAX UNIT SUPPLY CURRENTV IN Input voltage range 1.86VI Q Operating quiescent current I OUT=0mA,not switching,V FB=1.3V2850μAI SD Shutdown current EN=GND0.11μAV UVLO Under-voltage lockout threshold 1.5 1.7V ENABLEV IH EN high level input voltage 1.3VV IL EN low level input voltage0.4VI I EN input leakage current EN=GND or V IN0.11μA POWER SWITCH AND CURRENT LIMITVsw Maximum switch voltage30Vt off Minimum off time250400550nst on Maximum on time467.5μsR DS(on)MOSFET on-resistance V IN=2.4V;I SW=200mA;TPS610406001000mΩR DS(on)MOSFET on-resistance V IN=2.4V;I SW=200mA;TPS610417501250mΩMOSFET leakage current V SW=28V110μAI LIM MOSFET current limit TPS61040350400450mAI LIM MOSFET current limit TPS61041215250285mA OUTPUTV OUT Adjustable output voltage range V IN28VV ref Internal voltage reference 1.233VI FB Feedback input bias current V FB=1.3V1μAV FB Feedback trip point voltage 1.8V≤V IN≤6V 1.208 1.233 1.258V1.8V≤V IN≤6V;V OUT=18V;I load=10mA;Line regulation(1)0.05%/VC FF=not connectedLoad regulation(1)V IN=2.4V;V OUT=18V;0mA≤I OUT≤30mA0.15%/mA (1)The line and load regulation depend on the external component selection.See the application section for further information.Copyright©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback5TYPICAL CHARACTERISTICS70727476788082848688900.10110100E f f i c i e n c y - %I O - Output Current - mA70727476788082848688900.10110100E f f i c i e n c y - %I L - Load Current - mATPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007Table 2.Table of GraphsFIGUREvs Load current 1,2,3ηEfficiency vs Input voltage4I Q Quiescent current vs Input voltage and temperature 5V FB Feedback voltage vs Temperature 6I SW Switch current limit vs Temperature7vs Supply voltage,TPS610418I CL Switch current limit vs Supply voltage,TPS610409vs Temperature 10R DS(on)R DS(on)vs Supply voltage11Line transient response 12Load transient response 13Start-up behavior14EFFICIENCYEFFICIENCYvsvsOUTPUT CURRENTLOAD CURRENTFigure 1.Figure 2.6Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments Incorporated70727476788082848688900.10110100E f f i c i e n c y - %I L - Load Current - mA123456E f f i c i e n c y - %V I - Input Voltage - V- F e e d b a c k V o l t a g e - VV F B T A - Temperature - °CQ u i e s c e n t C u r r e n t - AµV I - Input Voltage - VTPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007EFFICIENCYEFFICIENCYvsvsLOAD CURRENT INPUT VOLTAGEFigure 3.Figure 4.TPS61040QUIESCENT CURRENTFEEDBACK VOLTAGEvsvsFigure 5.Figure 6.Copyright ©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback 7T A - Temperature - °CI (S W )- S w i t c h C u r r e n t L i m i t - m A- C u r r e n t L i m i t - m AI (C L ) V CC - Supply Voltage - VΩr D S (o n )− S t a t i c D r a i n -S o u r c e O n -S t a t e R e s i s t a n c e − m TA − Temperature − °C- C u r r e n t L i m i t - m AI (C L ) V CC - Supply Voltage - VTPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007TPS61040/41TPS61041SWITCH CURRENT LIMITCURRENT LIMITvsvsFREE-AIR TEMPERATURE SUPPLY VOLTAGEFigure 7.Figure 8.TPS61040TPS61040/41CURRENT LIMITSTATIC DRAIN-SOURCE ON-STATE RESISTANCEvsvsSUPPLY VOLTAGEFREE-AIR TEMPERATUREFigure 9.Figure 10.8Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments IncorporatedV I2.4 V to3.4 VV O100 mV/div 200 µS/divV O = 18 VΩr D S (o n )− S t a t i c D r a i n -S o u r c e O n -S t a t e R e s i s t a n c e − m V CC − Supply Voltage − VV O 5 V/div EN 1 V/divI I50 mA/divV O = 18 VV O1 mA to 10 mA200 µS/divV O100 mA/divV O = 18 VTPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007TPS61040/41STATIC DRAIN-SOURCE ON-STATE RESISTANCEvsFigure 11.Figure 12.Line Transient ResponseFigure 13.Load Transient Tresponse Figure 14.Start-Up BehaviorCopyright ©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback 9APPLICATION INFORMATIONINDUCTOR SELECTION,MAXIMUM LOAD CURRENTfS max +V IN(min) (V OUT *V IN)I P L V OUT (2)fS ǒI load Ǔ+2 I load (V OUT *V IN )Vd)I 2P L(3)I load max +h I 2P L fS max2 (V OUT *VIN)(4)TPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007Because the PFM peak current control scheme is inherently stable,the inductor value does not affect the stability of the regulator.The selection of the inductor together with the nominal load current,input and output voltage of the application determines the switching frequency of the converter.Depending on the application,inductor values between 2.2μH and 47μH are recommended.The maximum inductor value is determined by the maximum on time of the switch,typically 6μs.The peak current limit of 400mA/250mA (typically)should be reached within this 6-μs period for proper operation.The inductor value determines the maximum switching frequency of the converter.Therefore,select the inductor value that ensures the maximum switching frequency at the converter maximum load current is not exceeded.The maximum switching frequency is calculated by the following formula:Where:I P =Peak current as described in the Peak Current Control section L =Selected inductor valueV IN(min)=The highest switching frequency occurs at the minimum input voltageIf the selected inductor value does not exceed the maximum switching frequency of the converter,the next stepis to calculate the switching frequency at the nominal load current using the following formula:Where:I P =Peak current as described in the Peak Current Control section L =Selected inductor value I load =Nominal load currentVd =Rectifier diode forward voltage (typically 0.3V)A smaller inductor value gives a higher converter switching frequency,but lowers the efficiency.The inductor value has less effect on the maximum available load current and is only of secondary order.Thebest way to calculate the maximum available load current under certain operating conditions is to estimate the expected converter efficiency at the maximum load current.This number can be taken out of the efficiency graphs shown in Figure 1through Figure 4.The maximum load current can then be estimated as follows:Where:I P =Peak current as described in the Peak Current Control section L =Selected inductor valuefS max =Maximum switching frequency as calculated previously η=Expected converter efficiency.Typically 70%to 85%10Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments IncorporatedSETTING THE OUTPUT VOLTAGEV OUT+1.233Vǒ1)R1R2Ǔ(5)C FF+12p fS20R1(6)TPS61040TPS61041SLVS413C–OCTOBER2002–REVISED AUGUST2007The maximum load current of the conveter is the current at the operation point where the coverter starts to enter the continuous conduction ually the converter should always operate in discontinuous conduction mode.Last,the selected inductor should have a saturation current that meets the maximum peak current of the converter(as calculated in the Peak Current Control section).Use the maximum value for I LIM for this calculation. Another important inductor parameter is the dc resistance.The lower the dc resistance,the higher the efficiency of the converter.See Table3and the typical applications for the inductor selection.Table3.Recommended Inductor for Typical LCD Bias Supply(see Figure15)DEVICE INDUCTOR VALUE COMPONENT SUPPLIER COMMENTS10μH Sumida CR32-100High efficiency10μH Sumida CDRH3D16-100High efficiencyTPS6104010μH Murata LQH4C100K04High efficiency4.7μH Sumida CDRH3D16-4R7Small solution size4.7μH Murata LQH3C4R7M24Small solution sizeHigh efficiencyTPS6104110μH Murata LQH3C100K24Small solution sizeThe output voltage is calculated as:For battery-powered applications,a high-impedance voltage divider should be used with a typical value for R2of ≤200kΩand a maximum value for R1of2.2MΩ.Smaller values might be used to reduce the noise sensitivity of the feedback pin.A feedforward capacitor across the upper feedback resistor R1is required to provide sufficient overdrive for the error comparator.Without a feedforward capacitor,or one whose value is too small,the TPS61040/41shows double pulses or a pulse burst instead of single pulses at the switch node(SW),causing higher output voltage ripple.If this higher output voltage ripple is acceptable,the feedforward capacitor can be left out.The lower the switching frequency of the converter,the larger the feedforward capacitor value required.A good starting point is to use a10-pF feedforward capacitor.As a first estimation,the required value for the feedforward capacitor at the operation point can also be calculated using the following formula:Where:R1=Upper resistor of voltage dividerfS=Switching frequency of the converter at the nominal load current(See the INDUCTOR SELECTION, MAXIMUM LOAD CURRENT section for calculating the switching frequency)C FF=Choose a value that comes closest to the result of the calculationCopyright©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback11 LINE AND LOAD REGULATIONOUTPUT CAPACITOR SELECTIOND V out+I outC outǒ1fS(Iout)–I P LVout)Vd–VinǓ)I P ESR(7)TPS61040TPS61041SLVS413C–OCTOBER2002–REVISED AUGUST2007The larger the feedforward capacitor the worse the line regulation of the device.Therefore,when concern for line regulation is paramount,the selected feedforward capacitor should be as small as possible.See the LINE AND LOAD REGULATION section for more information about line and load regulation.The line regulation of the TPS61040/41depends on the voltage ripple on the feedback ually a50mV peak-to-peak voltage ripple on the feedback pin FB gives good results.Some applications require a very tight line regulation and can only allow a small change in output voltage over a certain input voltage range.If no feedforward capacitor C FF is used across the upper resistor of the voltage feedback divider,the device has the best line regulation.Without the feedforward capacitor the output voltage ripple is higher because the TPS61040/41shows output voltage bursts instead of single pulses on the switch pin (SW),increasing the output voltage ripple.Increasing the output capacitor value reduces the output voltage ripple.If a larger output capacitor value is not an option,a feedforward capacitor C FF can be used as described in the previous section.The use of a feedforward capacitor increases the amount of voltage ripple present on the feedback pin(FB).The greater the voltage ripple on the feedback pin(≥50mV),the worse the line regulation. There are two ways to improve the line regulation further:e a smaller inductor value to increase the switching frequency which will lower the output voltage ripple,as well as the voltage ripple on the feedback pin.2.Add a small capacitor from the feedback pin(FB)to ground to reduce the voltage ripple on the feedback pindown to50mV again.As a starting point,the same capacitor value as selected for the feedforward capacitorC FF can be used.For best output voltage filtering,a low ESR output capacitor is recommended.Ceramic capacitors have a low ESR value but tantalum capacitors can be used as well,depending on the application.Assuming the converter does not show double pulses or pulse bursts on the switch node(SW),the output voltage ripple can be calculated as:where:I P=Peak current as described in the Peak Current Control sectionL=Selected inductor valueI out=Nominal load currentfS(I out)=Switching frequency at the nominal load current as calculated previouslyVd=Rectifier diode forward voltage(typically0.3V)C out=Selected output capacitorESR=Output capacitor ESR valueSee Table4and the typical applications section for choosing the output capacitor.Table4.Recommended Input and Output CapacitorsDEVICE CAPACITOR VOLTAGE RATING COMPONENT SUPPLIER COMMENTS4.7μF/X5R/0805 6.3V Tayo Yuden JMK212BY475MG C IN/C OUT10μF/X5R/0805 6.3V Tayo Yuden JMK212BJ106MG C IN/C OUT TPS61040/411μF/X7R/120625V Tayo Yuden TMK316BJ105KL C OUT1μF/X5R/120635V Tayo Yuden GMK316BJ105KL C OUT4.7μF/X5R/121025V Tayo Yuden TMK325BJ475MG C OUT12Submit Documentation Feedback Copyright©2002–2007,Texas Instruments IncorporatedINPUT CAPACITOR SELECTIONDIODE SELECTIONLAYOUT CONSIDERATIONSD1V OV IN C TPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007For good input voltage filtering,low ESR ceramic capacitors are recommended.A 4.7μF ceramic input capacitor is sufficient for most of the applications.For better input voltage filtering this value can be increased.See Table 4and typical applications for input capacitor recommendations.To achieve high efficiency a Schottky diode should be used.The current rating of the diode should meet the peak current rating of the converter as it is calculated in the Peak Current Control e the maximum value for I LIM for this calculation.See Table 5and the typical applications for the selection of the Schottky diode.Table 5.Recommended Schottky Diode for Typical LCD Bias Supply (see Figure 15)DEVICEREVERSE VOLTAGECOMPONENT SUPPLIER COMMENTS30VON Semiconductor MBR053020V ON Semiconductor MBR0520TPS61040/4120V ON Semiconductor MBRM120LHigh efficiency 30VToshiba CRS02Typical for all switching power supplies,the layout is an important step in the design;especially at high peak currents and switching frequencies.If the layout is not carefully done,the regulator might show noise problems and duty cycle jitter.The input capacitor should be placed as close as possible to the input pin for good input voltage filtering.The inductor and diode should be placed as close as possible to the switch pin to minimize the noise coupling into other circuits.Because the feedback pin and network is a high-impedance circuit,the feedback network should be routed away from the inductor.The feedback pin and feedback network should be shielded with a ground plane or trace to minimize noise coupling into this circuit.Wide traces should be used for connections in bold as shown in Figure 15.A star ground connection or ground plane minimizes ground shifts and noise.Figure yout DiagramCopyright ©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback 13L1D1V OUT 18 VV IN1.8 V to 6 VC14.7 µFL1:Sumida CR32-100D1:Motorola MBR0530C1:Tayo Yuden JMK212BY475MG C2:Tayo Yuden TMK316BJ105KLL1D1V IN1.8 V to 6 V4.7 DAC or Analog Voltage 0 V = 25 V 1.233 V = 18 V Sumida CR32-100Motorola MBR0530Tayo Yuden JMK212BY475MG C2:Tayo Yuden GMK316BJ105KLV OUT18 V / 10 mAV IN1.8 V to 6 V4.7 µR3200 k WµF Sumida CR32-100Motorola MBR0530Tayo Yuden JMK212BY475MG Tayo Yuden TMK316BJ105KLTPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007Figure 16.LCD Bias SupplyFigure 17.LCD Bias Supply With Adjustable Output VoltageFigure 18.LCD Bias Supply With Load Disconnect14Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments IncorporatedV IN = 2.7 V to 5 VC14.7 µFV2 = -10 V/15 mAMurata LQH4C6R8M04Motorola MBR0530Tayo Yuden JMK212BY475MGTayo Yuden EMK316BJ105KFL1D1µFV O=12 V/35 mAV IN 3.3 V10 µL1:Murata LQH4C6R8M04D1:Motorola MBR0530C1:Tayo Yuden JMK212BJ106MGC2:Tayo Yuden EMK316BJ475MLµF5 V/45 mA1.8 V to 4 V4.7L1:Murata LQH4C3R3M04D1:Motorola MBR0530C1, C2:Tayo Yuden JMK212BY475MGTPS61040TPS61041SLVS413C–OCTOBER2002–REVISED AUGUST2007 Figure19.Positive and Negative Output LCD Bias SupplyFigure20.Standard3.3-V to12-V SupplyFigure21.Dual Battery Cell to5-V/50-mA ConversionEfficiency Approx.Equals84%at V IN=2.4V to Vo=5V/45mACopyright©2002–2007,Texas Instruments Incorporated Submit Documentation Feedback15L1V CCPWM100 Hz to 500 HzL1:Murata LQH4C100K04D1:Motorola MBR0530C1:Tayo Yuden JMK212BY475MG C2:Tayo Yuden TMK316BJ105KLL1D1MBRM120L4.7 µV CC = 2.7 V to 6 V0 V ≅ Iled = 20 mAL1:Murata LQH4C3R3M04D1:Motorola MBR0530C1:Tayo Yuden JMK212BY475MG C2:Standard Ceramic CapacitorTPS61040TPS61041SLVS413C–OCTOBER 2002–REVISED AUGUST 2007Figure 22.White LED Supply With Adjustable Brightness ControlUsing a PWM Signal on the Enable Pin,Efficiency Approx.Equals 86%at V IN =3V,I LED =15mAA.A smaller output capacitor value for C2causes a larger LED ripple.Figure 23.White LED Supply With Adjustable Brightness ControlUsing an Analog Signal on the Feedback Pin16Submit Documentation Feedback Copyright ©2002–2007,Texas Instruments IncorporatedPACKAGING INFORMATIONOrderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)TPS61040DBVR ACTIVE SOT-23DBV 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM TPS61040DBVRG4ACTIVE SOT-23DBV 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM TPS61040DRVR PREVIEW SON DRV 63000TBDCall TI Call TITPS61041DBVR ACTIVE SOT-23DBV 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM TPS61041DBVRG4ACTIVE SOT-23DBV 53000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM TPS61041DRVR PREVIEW SON DRV 53000TBD Call TI Call TI TPS61041DRVTPREVIEWSONDRV5250TBDCall TICall TI(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -The planned eco-friendly classification:Pb-Free (RoHS),Pb-Free (RoHS Exempt),or Green (RoHS &no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free (RoHS Exempt):This component has a RoHS exemption for either 1)lead-based flip-chip solder bumps used between the die and package,or 2)lead-based die adhesive used between the die and leadframe.The component is otherwise considered Pb-Free (RoHS compatible)as defined above.Green (RoHS &no Sb/Br):TI defines "Green"to mean Pb-Free (RoHS compatible),and free of Bromine (Br)and Antimony (Sb)based flame retardants (Br orSb do not exceed 0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.PACKAGE OPTION ADDENDUM15-Oct-2007。
CN24020N中文资料
B 1.705±0.00843.3±0.2C 1.43736.5D 1.29933E 0.92523.5F 0.86622G 0.55114H 0.3549J 0.3158K 0.2767L 0.236 R R6M 0.209 5.3N 0.209 Dia.Dia.5.3P 0.177 4.5Q 0.138 3.5RM4 MetricM4Description:Powerex Super Fast Recovery Dual Diode Modules are designed for use in applications requiring high speed rectification or voltage clamping in isolated packaging.The modules are insulated for easy mounting onto a common heatsink with other components.They consist of two diodesconnected in either a common cathode (CC) or a common anode (CN) configuration.Features:ⅪIsolated Mounting ⅪMetal BaseplateⅪLow Thermal ImpendanceⅪt rr = 200ns, Maximum Applications:ⅪBattery Supplies ⅪFree Wheeling Diodes ⅪMotor Control Inventers ⅪUPS InventersOrdering Information:Select the complete ten digit module part number you desire from the table below.Example:CC2406020N is a 600 Volt, 20 Ampere, t rr = 200ns Common Cathode Super Fast Recovery Diode Module.Current CurrentVoltage Rating Recovery Volts Amperes Time Type (x100)(x10)(200ns)CC240302ONCN2406D-41Powerex,Inc.,200 Hillis Street,Youngwood,Pennsylvania 15697-1800 (724) 925-7272Super Fast Recovery Dual Diode Modules20 Amperes/300-600 VoltsCC24_ _020N CN24_ _020NCN24_ _020N,CC24_ _020N Super Fast Recovery Dual Diode Modules20 Amperes/300-600 VoltsPowerex,Inc.,200 Hillis Street,Youngwood,Pennsylvania 15697-1800 (724) 925-7272CC24_ _020N,CN24_ _020NSuper Fast Recovery Dual Diode Modules20 Amperes/300-600 VoltsAbsolute Maximum RatingsCC2403020N CC2406020N Characteristics Symbol CN2403020N CN2406020N UnitsPeak Reverse Blocking Voltage V RRM300600Volts T ransient Peak Reverse Blocking Voltage (Non-Repetitive), t < 5ms V RSM360720Volts DC Reverse Blocking Voltage V R(DC)240480Volts DC Current, T C= 90°C I F(DC)2020Amperes Peak One-Cycle Surge (Non-Repetitive) On-State Current (60Hz)I FSM400400Amperes Peak One-Cycle Surge (Non-Repetitive) On-State Current (50Hz)I FSM365365Amperes I2t (for Fusing), 8.3 milliseconds I2t667667A2sec Storage Temperature T STG-40 to 125-40 to 125°C Operating Temperature T j-40 to 150-40 to 150°C Maximum Mounting Torque M4 Mounting Screw—1212in.-lb.Maximum Mounting Torque M5 Terminal Screw—1717in.-lb.Module Weight (Typical)—9090Grams V Isolation V RMS25002500VoltsElectrical and Thermal Characteristics,T j= 25°C unless otherwise specifiedCharacteristics Symbol Test Conditions CC24_ _020N/CN24_ _020N Units Blocking State MaximumsReverse Leakage Current, Peak I RRM T j= 125°C, V RRM= Rated10mA Conducting State MaximumsPeak On-State Voltage V FM I FM= 20A 2.5Volts Switching MaximumsReverse Recovery Time t rr I FM= 20A200nsdi/dt = -50 A/s, V R = 1/2 V RRMThermal MaximumsThermal Resistance, Junction-to-Case R(J-C)Per Module 1.2°C/Watt Thermal Resistance, Case-to-Sink (Lubricated)R(C-S)Per Module0.3°C/WattD-42。
BQ24010DRCR中文资料
ORDERING INFORMATIONPACKAGING INFORMATIONOrderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)BQ24010DRCR ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24010DRCRG4ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24012DRCR ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24012DRCRG4ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24013DRCR ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24013DRCRG4ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24014DRCR ACTIVE SON DRC 103000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24014DRCRG4ACTIVESONDRC103000Green (RoHS &no Sb/Br)CU NIPDAULevel-2-260C-1YEAR(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -The planned eco-friendly classification:Pb-Free (RoHS)or Green (RoHS &no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be solderedat high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Green (RoHS &no Sb/Br):TI defines "Green"to mean Pb-Free (RoHS compatible),and free of Bromine (Br)and Antimony (Sb)based flame retardants (Br or Sb do not exceed 0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.PACKAGE OPTION ADDENDUM25-Oct-2005Addendum-Page 1元器件交易网IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications,enhancements, improvements, and other changes to its products and services at any time and to discontinueany product or service without notice. Customers should obtain the latest relevant information before placingorders and should verify that such information is current and complete. All products are sold subject to TI’s termsand conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale inaccordance with TI’s standard warranty. T esting and other quality control techniques are used to the extent TIdeems necessary to support this warranty. Except where mandated by government requirements, testing of allparameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible fortheir products and applications using TI components. T o minimize the risks associated with customer productsand applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right,copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or processin which TI products or services are used. Information published by TI regarding third-party products or servicesdoes not constitute a license from TI to use such products or services or a warranty or endorsement thereof.Use of such information may require a license from a third party under the patents or other intellectual propertyof the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is withoutalteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproductionof this information with alteration is an unfair and deceptive business practice. TI is not responsible or liable forsuch altered documentation.Resale of TI products or services with statements different from or beyond the parameters stated by TI for thatproduct or service voids all express and any implied warranties for the associated TI product or service andis an unfair and deceptive business practice. TI is not responsible or liable for any such statements.Following are URLs where you can obtain information on other Texas Instruments products and applicationsolutions:Products ApplicationsAmplifiers Audio /audioData Converters Automotive /automotiveDSP Broadband /broadbandInterface Digital Control /digitalcontrolLogic Military /militaryPower Mgmt Optical Networking /opticalnetworkMicrocontrollers Security /securityTelephony /telephonyVideo & Imaging /videoWireless /wirelessMailing Address:Texas InstrumentsPost Office Box 655303 Dallas, Texas 75265Copyright 2005, Texas Instruments Incorporated。
IPC-A-610F中文版电子组件的检验标准可接受性
IPC-A-610F CN 电子组件的可接受性2014前⾔.................................... 1-1 1.1 范围................................... 1-2 1.2 ⽬的................................... 1-3 1.3 员⼯熟练程度.......................... 1-3 1.4 分级................................... 1-3 1.5 对要求的说明.......................... 1-31.5.1 验收条件............................ 1-4 1.5.1.1 目标条件............................ 1-4 1.5.1.2 可接受条件.......................... 1-4 1.5.1.3 缺陷条件............................ 1-4 1.5.1.3.1 处置................................ 1-4 1.5.1.4 制程警示条件........................ 1-4 1.5.1.4.1 制程控制方法........................ 1-4 1.5.1.5 组合情况............................ 1-4 1.5.1.6 未涉及情形.......................... 1-5 1.5.1.7 特殊设计............................ 1-51.6 术语和定义............................ 1-51.6.1 板面方向............................ 1-5 1.6.1.1 *主面................................ 1-5 1.6.1.2 *辅面................................ 1-5 1.6.1.3 *焊接起始面.......................... 1-5 1.6.1.4 *焊接终止面.......................... 1-5 1.6.2 *冷焊接连接.......................... 1-5 1.6.3 电气间隙............................ 1-5 1.6.4 FOD(外来物) ........................ 1-5 1.6.5 高电压.............................. 1-5 1.6.6 通孔再流焊.......................... 1-6 1.6.7 弯月形涂层(元器件) .................. 1-6 1.6.8 *非功能盘............................ 1-6 1.6.9 针插焊膏............................ 1-6 1.6.10 焊料球.............................. 1-6 1.6.11 线径................................ 1-6 1.6.12 导线重叠............................ 1-6 1.6.13 导线过缠绕.......................... 1-61.7 图例与插图............................ 1-61.8 检查⽅法.............................. 1-6 1.9 尺⼨鉴定.............................. 1-6 1.10 放⼤辅助装置......................... 1-61.11 照明.................................. 1-72 适⽤⽂件................................ 2-1 2.1 IPC标准............................... 2-1 2.2 联合⼯业标准.......................... 2-1 2.3 EOS/ESD协会标准..................... 2-2 2.4 电⼦⼯业联合会标准.................... 2-2 2.5 国际电⼯委员会标准.................... 2-2 2.6 美国材料与测试协会.................... 2-22.7 技术出版物............................ 2-23 电⼦组件的操作.......................... 3-1 3.1 EOS/ESD的预防........................ 3-23.1.1 电气过载(EOS) ....................... 3-3 3.1.2 静电释放(ESD) ....................... 3-4 3.1.3 警告标识............................ 3-5 3.1.4 防护材料............................ 3-6 3.2 EOS/ESD安全⼯作台/EPA ............... 3-73.3 操作注意事项.......................... 3-93.3.1 指南................................ 3-9 3.3.2 物理损伤........................... 3-10 3.3.3 污染............................... 3-10 3.3.4 电子组件........................... 3-11 3.3.5 焊接后............................. 3-11 3.3.6 手套与指套......................... 3-12⽬录IPC-A-610F 2014年7月ix4 机械零部件.............................. 4-1 4.1 机械零部件的安装...................... 4-24.1.1 电气间隙............................ 4-2 4.1.2 妨碍................................ 4-3 4.1.3 大功率元器件安装.................... 4-4 4.1.4 散热装置............................ 4-6 4.1.4.1 绝缘垫和导热复合材料................ 4-6 4.1.4.2 接触................................ 4-8 4.1.5 螺纹紧固件和其它螺纹部件的安装...... 4-9 4.1.5.1 扭矩............................... 4-11 4.1.5.2 导线............................... 4-134.2 螺栓安装............................. 4-15 4.3 连接器插针........................... 4-164.3.1 板边连接器引针..................... 4-16 4.3.2 压接插针........................... 4-17 4.3.2.1 焊接............................... 4-204.4 线束的固定........................... 4-234.4.1 概述............................... 4-23 4.4.2 连轧............................... 4-26 4.4.2.1 损伤............................... 4-274.5 布线–导线和线束..................... 4-284.5.1 导线交叉........................... 4-28 4.5.2 弯曲半径........................... 4-29 4.5.3 同轴线缆........................... 4-30 4.5.4 空置线头........................... 4-31 4.5.5 接头和焊环上的扎点................. 4-325 焊接.................................... 5-1 5.1 焊接可接受性要求...................... 5-3 5.2 焊接异常.............................. 5-45.2.1 暴露金属基材........................ 5-4 5.2.2 针孔/吹孔........................... 5-6 5.2.3 焊膏再流............................ 5-7 5.2.4 不润湿.............................. 5-85.2.5 冷焊/松香焊接连接................... 5-95.2.6 退润湿.............................. 5-95.2.7 焊料过量........................... 5-105.2.7.1 焊料球_________............................. 5-115.2.7.2 桥连............................... 5-125.2.7.3 锡网/泼锡.......................... 5-135.2.8 焊料受扰........................... 5-145.2.9 焊料开裂. .......................... 5-155.2.10 拉尖............................... 5-165.2.11 无铅填充起翘....................... 5-175.2.12 无铅热撕裂/孔收缩. ................. 5-185.2.13 焊点表面的探针印记和其它类似表面状况......................... 5-196 端⼦连接................................ 6-16.1 铆装件................................ 6-26.1.1 接线柱.............................. 6-26.1.1.1 接线柱基座-焊盘间隙................. 6-26.1.1.2 塔形................................ 6-36.1.1.3 双叉形.............................. 6-46.1.2 卷式翻边............................ 6-56.1.3 喇叭口形翻边........................ 6-66.1.4 花瓣形翻边.......................... 6-76.1.5 焊接................................ 6-86.2 绝缘⽪............................... 6-106.2.1 损伤............................... 6-106.2.1.1 焊前............................... 6-106.2.1.2 焊后............................... 6-126.2.2 间隙............................... 6-136.2.3 挠性套管........................... 6-156.2.3.1 放置............................... 6-156.2.3.2 损伤............................... 6-176.3 导体.................................. 6-186.3.1 形变............................... 6-186.3.2 损伤............................... 6-196.3.2.1 多股导线........................... 6-196.3.2.2 实芯线............................. 6-206.3.3 股线发散(鸟笼形)–焊前............ 6-206.3.4 股线发散(鸟笼形)–焊后............ 6-216.3.5 上锡............................... 6-226.5 应⼒释放............................. 6-256.5.1 线束............................... 6-256.5.2 引线/导线弯曲...................... 6-26 6.6 引线/导线放置–通⽤要求.............. 6-28 6.7 焊接–通⽤要求....................... 6-30 ⽬录(续)x 2014年7月IPC-A-610F6.8 塔形和直针形......................... 6-316.8.1 引线/导线放置...................... 6-316.8.2 塔形和直针形–焊接................ 6-336.9 双叉形............................... 6-346.9.1 引线/导线放置–侧面进线连接........ 6-346.9.2 引线/导线放置–导线的加固.......... 6-376.9.3 引线/导线放置–底部和顶部进线连接.. 6-386.9.4 焊接............................... 6-396.10 槽形................................. 6-426.10.1 引线/导线放置...................... 6-42 6.10.2 焊接............................... 6-436.11 穿孔形............................... 6-446.11.1 引线/导线放置...................... 6-44 6.11.2 焊接............................... 6-466.12 钩形................................. 6-476.12.1 引线/导线放置...................... 6-47 6.12.2 焊接............................... 6-496.13 锡杯................................. 6-506.13.1 引线/导线放置...................... 6-50 6.13.2 焊接............................... 6-526.14 AWG30及更细的导线–引线/导线放置.. 6-54 6.15 串联连接............................ 6-557 通孔技术................................ 7-1 7.1 元器件的安放.......................... 7-27.1.1 方向................................ 7-2 7.1.1.1 方向–水平.......................... 7-3 7.1.1.2 方向–垂直.......................... 7-5 7.1.2 引线成形............................ 7-6 7.1.2.1 弯曲半径............................ 7-6 7.1.2.2 密封/熔接处与弯曲起始处之间的距离... 7-7 7.1.2.3 应力释放............................ 7-8 7.1.2.4 损伤............................... 7-10 7.1.3 引线跨越导体....................... 7-11 7.1.4 通孔阻塞........................... 7-12 7.1.5 DIP/SIP器件和插座.................. 7-13 7.1.6 径向引线–垂直..................... 7-15 7.1.6.1 限位装置........................... 7-16 7.1.7 径向引线–水平..................... 7-18 7.1.8 连接器............................. 7-19 7.1.8.1 直角............................... 7-21 7.1.8.2 带侧墙的插针头和直立插座连接器..... 7-22 7.1.9 导体外壳........................... 7-237.2 元器件的固定......................... 7-237.2.1 固定夹............................. 7-23 7.2.2 粘合剂粘接......................... 7-25 7.2.2.1 粘合剂粘接–非架高元器件........... 7-26 7.2.2.2 粘合剂粘接–架高元器件............. 7-29 7.2.3 其它器件........................... 7-30 7.3 ⽀撑孔............................... 7-317.3.1 轴向引线–水平..................... 7-31 7.3.2 轴向引线–垂直..................... 7-33 7.3.3 导线/引线伸出...................... 7-35 7.3.4 导线/引线弯折...................... 7-36 7.3.5 焊接............................... 7-38 7.3.5.1 垂直填充(A) ....................... 7-41 7.3.5.2 焊接终止面–引线到孔壁(B) ......... 7-43 7.3.5.3 焊接终止面–焊盘区覆盖(C) ......... 7-45 7.3.5.4 焊接起始面–引线到孔壁(D) ......... 7-46 7.3.5.5 焊接起始面–焊盘区覆盖(E) ......... 7-47 7.3.5.6 焊料状况–引线弯曲处的焊料......... 7-487.3.5.7 焊料状况–接触通孔元器件本体....... 7-49 7.3.5.8 焊料状况–焊料中的弯月面绝缘层..... 7-50 7.3.5.9 焊接后的引线剪切................... 7-52 7.3.5.10 焊料内的漆包线绝缘层............... 7-53 7.3.5.11 无引线的层间连接–导通孔........... 7-54 7.3.5.12 子母板............................. 7-55 7.4 ⾮⽀撑孔............................. 7-587.4.1 轴向引线–水平..................... 7-58 7.4.2 轴向引线–垂直..................... 7-59 7.4.3 引线/导线伸出...................... 7-60 7.4.4 引线/导线弯折...................... 7-61 7.4.5 焊接............................... 7-63 7.4.6 焊接后的引线剪切................... 7-657.5 跳线.................................. 7-667.5.1 导线的选择......................... 7-66 7.5.2 布线............................... 7-67 7.5.3 导线的固定......................... 7-69 7.5.4 支撑孔............................. 7-71 7.5.4.1 支撑孔–引线在孔内................. 7-71 7.5.5 缠绕连接........................... 7-72 7.5.6 搭焊连接........................... 7-73⽬录(续)IPC-A-610F 2014年7月xi8 表⾯贴装组件............................ 8-1 8.1 粘合剂固定............................ 8-38.1.1 元器件粘接........................ 8-38.1.2 机械强度.......................... 8-4 8.2 SMT引线.............................. 8-68.2.1 塑封元器件........................ 8-68.2.2 损伤.............................. 8-68.2.3 压扁.............................. 8-7 8.3 SMT连接.............................. 8-7 8.3.1 ⽚式元器件–仅有底部端⼦............ 8-88.3.1.1 侧面偏出(A) ...................... 8-9 8.3.1.2 末端偏出(B) ...................... 8-108.3.1.4 侧面连接长度(D) ................. 8-12 8.3.1.5 最大填充高度(E) .................. 8-13 8.3.1.6 最小填充高度(F) .................. 8-13 8.3.1.7 焊料厚度(G) ..................... 8-14 8.3.1.8 末端重叠(J) ...................... 8-14 8.3.2 矩形或⽅形端⽚式元器件–1,3或5⾯端⼦....................... 8-158.3.2.1 侧面偏出(A) ..................... 8-16 8.3.2.2 末端偏出(B) ...................... 8-18 8.3.2.3 末端连接宽度(C) .................. 8-19 8.3.2.4 侧面连接长度(D) ................. 8-21 8.3.2.5 最大填充高度(E) .................. 8-22 8.3.2.6 最小填充高度(F) .................. 8-23 8.3.2.7 焊料厚度(G) ..................... 8-24 8.3.2.8 末端重叠(J) ...................... 8-25 8.3.2.9 端子异常......................... 8-26 8.3.2.9.1 侧面贴装(公告板) ................ 8-26 8.3.2.9.2 底面朝上贴装..................... 8-28 8.3.2.9.3 叠装............................. 8-29 8.3.2.9.4 立碑............................. 8-30 8.3.2.10 居中焊端......................... 8-31 8.3.2.10.1 侧面焊接宽度..................... 8-31 8.3.2.10.2 侧面最小填充高度................. 8-32 8.3.3 圆柱体帽形端⼦..................... 8-338.3.3.1 侧面偏出(A) ....................... 8-34 8.3.3.2 末端偏出(B) ....................... 8-35 8.3.3.3 末端连接宽度(C) ................... 8-36 8.3.3.4 侧面连接长度(D) ................... 8-37 8.3.3.5 最大填充高度(E) ................... 8-38 8.3.3.6 最小填充高度(F) .................... 8-39 8.3.3.7 焊料厚度(G) ....................... 8-40 8.3.3.8 末端重叠(J) ........................ 8-41 8.3.4 城堡形端⼦.......................... 8-428.3.4.1 侧面偏出(A) ....................... 8-43 8.3.4.2 末端偏出(B) ....................... 8-44 8.3.4.3 最小末端连接宽度(C) ............... 8-44 8.3.4.4 最小侧面连接长度(D) ............... 8-45 8.3.4.5 最大填充高度(E) ................... 8-45 8.3.4.6 最小填充高度(F) .................... 8-468.3.5 扁平鸥翼形引线..................... 8-478.3.5.1 侧面偏出(A) ....................... 8-47 8.3.5.2 趾部偏出(B) ....................... 8-51 8.3.5.3 最小末端连接宽度(C) ............... 8-52 8.3.5.4 最小侧面连接长度(D) ............... 8-54 8.3.5.5 最大跟部填充高度(E) ............... 8-56 8.3.5.6 最小跟部填充高度(F) ................ 8-57 8.3.5.7 焊料厚度(G) ....................... 8-58 8.3.5.8 共面性............................. 8-598.3.6 圆形或扁圆(精压)鸥翼形引线.......... 8-608.3.6.1 侧面偏出........................... 8-61 8.3.6.2 趾部偏出(B) ....................... 8-62 8.3.6.3 最小末端连接宽度(C) ............... 8-62 8.3.6.4 最小侧面连接长度(D) ............... 8-63 8.3.6.5 最大跟部填充高度(E) ............... 8-64 8.3.6.6 最小跟部填充高度(F) ................ 8-65 8.3.6.7 焊料厚度(G) ....................... 8-66 8.3.6.8 最小侧面连接高度(Q) ............... 8-66 8.3.6.9 共面性............................. 8-67⽬录(续)xii 2014年7月IPC-A-610F8.3.7 J形引线............................. 8-688.3.7.1 侧面偏出(A) ....................... 8-68 8.3.7.2 趾部偏出(B) ....................... 8-70 8.3.7.3 末端连接宽度(C) ................... 8-70 8.3.7.4 侧面连接长度(D) ................... 8-72 8.3.7.5 最大跟部填充高度(E) ............... 8-73 8.3.7.6 最小跟部填充高度(F) ................ 8-74 8.3.7.7 焊料厚度(G) ....................... 8-76 8.3.7.8 共面性............................. 8-768.3.8 垛形/I形连接........................ 8-778.3.8.1 修整的通孔引线..................... 8-77 8.3.8.2 预置焊料端子....................... 8-78 8.3.8.3 最大侧面偏出(A) ................... 8-79 8.3.8.4 最大趾部偏出(B) ................... 8-80 8.3.8.5 最小末端连接宽度(C) ............... 8-818.3.8.6 最小侧面连接长度(D) ............... 8-82 8.3.8.7 最大填充高度(E) ................... 8-82 8.3.8.8 最小填充高度(F) .................... 8-83 8.3.8.9 焊料厚度(G) ....................... 8-84 8.3.9 扁平焊⽚引线........................ 8-858.3.10 仅有底部端⼦的⾼外形元器件........ 8-868.3.11 内弯L形带状引线................... 8-87 8.3.12 表⾯贴装⾯阵列.................... 8-898.3.12.1 对准............................... 8-90 8.3.12.2 焊料球间距......................... 8-90 8.3.12.3 焊接连接........................... 8-91 8.3.12.4 空洞............................... 8-93 8.3.12.5 底部填充/加固...................... 8-93 8.3.12.6 叠装............................... 8-94 8.3.13 底部端⼦元器件(BTC) ............... 8-968.3.14 具有底部散热⾯端⼦的元器件........ 8-98 8.3.15 平头柱连接........................ 8-1008.3.15.1 最大端子偏出–方形焊盘............ 8-100 8.3.15.2 最大端子偏出–圆形焊盘............ 8-101 8.3.15.3 最大填充高度...................... 8-1018.3.16 P型连接........................... 8-1028.3.16.1 最大侧面偏出(A) .................. 8-103 8.3.16.2 最大趾部偏出(B) .................. 8-103 8.3.16.3 最小末端连接宽度(C) .............. 8-104 8.3.16.4 最小侧面连接长度(D) .............. 8-104 8.3.16.5 最小填充高度(F) ................... 8-105 8.4 特殊SMT端⼦........................ 8-1068.5 表⾯贴装连接器...................... 8-107 8.6 跳线................................. 8-1088.6.1 SMT .............................. 8-109 8.6.1.1 片式和圆柱体帽形元器件............ 8-109 8.6.1.2 鸥翼形引线........................ 8-110 8.6.1.3 J形引线........................... 8-1118.6.1.5 焊盘.............................. 8-1129 元器件损伤.............................. 9-1 9.1 ⾦属镀层缺失.......................... 9-2 9.2 ⽚式电阻器材质........................ 9-3 9.3 有引线/⽆引线器件..................... 9-4 9.4 陶瓷⽚式电容器........................ 9-8 9.5 连接器............................... 9-10 9.6 继电器............................... 9-13 9.7 变压器芯体损伤....................... 9-13 9.8 连接器、⼿柄、簧⽚、锁扣............. 9-14 9.9 板边连接器引针....................... 9-15 9.10 压接插针............................ 9-16 9.11 背板连接器插针...................... 9-17 9.12 散热装置............................ 9-18 9.13 螺纹件和五⾦件...................... 9-19 ⽬录(续)IPC-A-610F 2014年7月xiii10 印制电路板............................ 10-1 10.1 ⾮焊接接触区域...................... 10-210.1.1 脏污............................... 10-2 10.1.2 损伤............................... 10-410.2 层压板状况.......................... 10-410.2.1 白斑和微裂纹....................... 10-5 10.2.2 起泡和分层......................... 10-710.2.4 晕圈.............................. 10-10 10.2.5 边缘分层、缺口和微裂纹............ 10-12 10.2.6 烧焦.............................. 10-14 10.2.7 弓曲和扭曲........................ 10-15 10.2.8 分板.............................. 10-1610.3 导体/焊盘........................... 10-1810.3.1 横截面积的减少.................... 10-18 10.3.2 垫/盘的起翘....................... 10-19 10.3.3 机械损伤.......................... 10-2110.4 挠性和刚挠性印制电路............... 10-2210.4.1 损伤.............................. 10-22 10.4.2 分层/起泡......................... 10-24 10.4.2.1 挠性.............................. 10-24 10.4.2.2 挠性板到增强板.................... 10-25 10.4.3 焊料芯吸.......................... 10-26 10.4.4 连接.............................. 10-2710.5 标记................................ 10-2810.5.1 蚀刻(包括手工描印蚀刻) ............ 10-30 10.5.2 丝印.............................. 10-31 10.5.3 盖印.............................. 10-33 10.5.4 激光.............................. 10-34 10.5.5 标签.............................. 10-35 10.5.5.1 条形码/二维码..................... 10-35 10.5.5.2 可读性............................ 10-36 10.5.5.3 标签–粘合与损伤................. 10-37 10.5.5.4 位置.............................. 10-37 10.5.6 使用射频识别(RFID)标签........... 10-3810.6 清洁度............................. 10-3910.6.1 助焊剂残留物...................... 10-40 10.6.2 外来物............................ 10-41 10.6.3 氯化物、碳酸盐和白色残留物........ 10-42 10.6.4 助焊剂–免洗工艺–外观............ 10-44 10.6.5 表面外观.......................... 10-4510.7 阻焊膜涂覆......................... 10-4610.7.1 皱褶/裂纹......................... 10-47 10.7.2 空洞、起泡和划痕.................. 10-49 10.7.3 脱落.............................. 10-50 10.7.4 变色.............................. 10-5110.8 敷形涂覆........................... 10-5110.8.1 概要.............................. 10-51 10.8.2 覆盖.............................. 10-52 10.8.3 厚度.............................. 10-54 10.8.4 电气绝缘涂敷...................... 10-55 10.8.4.1 覆盖.............................. 10-55 10.8.4.2 厚度.............................. 10-5510.9 灌封................................ 10-5611 分⽴布线.............................. 11-1 11.1 ⽆焊绕接............................ 11-211.1.1 匝数............................... 11-3 11.1.2 匝间空隙........................... 11-4 11.1.3 导线末端,绝缘绕匝................. 11-5 11.1.4 绕匝凸起重叠....................... 11-7 11.1.5 绕接位置........................... 11-8 11.1.6 理线.............................. 11-10 11.1.7 导线松弛.......................... 11-11 11.1.8 导线镀层.......................... 11-12 11.1.9 绝缘皮损伤........................ 11-1311.1.10 导体和接线柱的损伤................ 11-1412 ⾼电压................................ 12-1 附录A 最⼩电⽓间隙–导体间距............ A-1 ⽬录(续)xiv 2014年7月IPC-A-610F本章包括以下内容:1.1 范围................................... 1-2 1.2 ⽬的................................... 1-3 1.3 员⼯熟练程度.......................... 1-3 1.4 分级................................... 1-3 1.5 对要求的说明.......................... 1-31.5.1 验收条件............................ 1-4 1.5.1.1 目标条件............................ 1-4 1.5.1.2 可接受条件.......................... 1-4 1.5.1.3 缺陷条件............................ 1-4 1.5.1.3.1 处置................................ 1-4 1.5.1.4 制程警示条件........................ 1-4 1.5.1.4.1 制程控制方法........................ 1-4 1.5.1.5 组合情况............................ 1-4 1.5.1.6 未涉及情形.......................... 1-5 1.5.1.7 特殊设计............................ 1-51.6 术语和定义............................ 1-51.6.1 板面方向............................ 1-5 1.6.1.1 *主面................................ 1-5 1.6.1.2 *辅面................................ 1-5 1.6.1.3 *焊接起始面.......................... 1-5 1.6.1.4 *焊接终止面.......................... 1-5 1.6.2 *冷焊接连接.......................... 1-5 1.6.3 电气间隙............................ 1-5 1.6.4 FOD(外来物) ........................ 1-5 1.6.5 高电压.............................. 1-5 1.6.6 通孔再流焊.......................... 1-6 1.6.7 弯月形涂层(元器件) .................. 1-6 1.6.8 *非功能盘............................ 1-6 1.6.9 针插焊膏............................ 1-6 1.6.10 焊料球.............................. 1-6 1.6.11 线径................................ 1-6 1.6.12 导线重叠............................ 1-6 1.6.13 导线过缠绕.......................... 1-61.7 图例与插图............................ 1-6 1.8 检查⽅法.............................. 1-6 1.9 尺⼨鉴定.............................. 1-6 1.10 放⼤辅助装置......................... 1-6 1.11 照明.................................. 1-7完整资料:https:///item.htm?id=541142767632QQ:1395833280Mail: **************。
Omega CNi-CB120 240 工业控制面板说明书
CNi-CB120/240 SERIESIndustrial Controller Panelse-mail:**************For latest product manuals:Shop online at ®User’s Guide***********************Servicing North America:U.S.A.:Omega Engineering, Inc., One Omega Drive, P.O. Box 4047S tamford, CT 06907-0047 USAToll-Free: 1-800-826-6342 (USA & Canada only)Customer Service: 1-800-622-2378 (USA & Canada only)Engineering Service: 1-800-872-9436 (USA & Canada only)Tel: (203) 359-1660 Fax: (203) 359-7700e-mail:**************For Other Locations Visit /worldwideThe information contained in this document is believed to be correct, but OMEGA accepts no liability for any errors it contains, and reserves the right to alter specifications without notice.WARNING: These products are not designed for use in, and should not be used for, human applications.Table of ContentsSection PageSection 1 Introduction .......................................................................................... 1-1WARNINGS .......................................................................................................... 1-11.1 Precautions ..................................................................................................... 1-11.2 Safety Warnings and IEC Symbols .............................................................. 1-2Section 2 Hardware ............................................................................................. 2-12.1 Unpacking and Inspection .......................................................................... 2-12.2 Included Items ............................................................................................... 2-12.3 CNi-CB120 and CNi-CB240 Labels ............................................................ 2-22.4 CNi-CB120 and CNi-CB240 Mounting Dimensions ................................ 2-22.5 CNi-CB120 Components .............................................................................. 2-32.6 CNi-CB240 Components .............................................................................. 2-5Section 3 Installation and Wiring ..................................................................... 3-13.1 Connections .................................................................................................... 3-13.1.1 Rewiring for 4 Wire 100 Ohm RTD Input ......................................... 3-23.1.2 Programming the Controller for 4 Wire 100 Ohm RTD .................. 3-63.2 Wiring Schematics ........................................................................................ 3-83.2.1 CNi-CB120 Wiring ............................................................................... 3-83.2.2 CNi-CB240 Wiring ............................................................................. 3-10Section 4 Spare Parts ........................................................................................... 4-1Section 5 Specifications ...................................................................................... 6-1iList of FiguresSection Figure Description .............................................................. PageSection 1 1-2IEC Symbols ........................................................................ 1-2Section 2 2-1CNi-CB120 and CNi-CB240 Labels (Left View) ............. 2-22-2CNi-CB120 and CNi-CB240 Labels (Right View) .......... 2-22-3CNi-CB120 and CNi-CB240Mounting Dimensions (Rear View) ............................ 2-22-4CNi-CB120 and CNi-CB240Mounting Dimensions (Side View) ............................ 2-22-5CN-CB120 and CBi-CB240Mounting Dimensions (Bottom View) ....................... 2-32-6CNi-CB120 Components Front View (Closed) .............. 2-32-7CNi-CB120 Components Front View (Open) ................. 2-42-8CNi-CB120 Components Bottom View ........................... 2-42-9CNi-CB240 Components Front View (Closed) .............. 2-52-10CNi-CB240 Components Front View (Open) ................. 2-52-11CNi-CB240 Components Bottom View ........................... 2-6 Section 3 3-1From the Factory ................................................................ 3-23-2Remove the Thermocouple Wire From 1 and 2 ............. 3-33-3Unclip the M12 Connector Wire ...................................... 3-33-4Remove Wire Nut ............................................................... 3-43-5Install Wires Per Wiring Diagram ................................... 3-43-6Place Wire Nut on T/C Wire ............................................ 3-53-7Place Wire Into Clip To Secure It. Close Box andSecure Box Cover Screws ............................................. 3-53-8Flow Chart ........................................................................... 3-63-9CNi-CB120 Output Wiring ............................................... 3-83-10CNi-CB120 Internal Wiring .............................................. 3-93-11CNi-CB240 Output Wiring ............................................. 3-103-10CNi-CB240 Internal Wiring ............................................ 3-11iiSection 1 - IntroductionThe CNI-CB120/240 series Industrial Controller Panel is ideal for light industrial use and applications requiring temperature measurement and control. The CNI-CB120/240 features both a Thermocouple and an M-12 Female input connection. The CNI-CB120/240 can be configured by the user for use with a thermocouple, RTD, Voltage or Current signal. These controllers are factory configured and calibrated for Thermocouples. It is important that the user read this manual and additional manuals outlined in Section 2.2 completely and follow all safety precautions in all manuals before operating your unit.•This unit contains 120V or 240V which can cause injury or death within the enclosure. Installation and troubleshooting of input, output, and internal circuitry should be performed by qualified personnel only.•Hazardous voltages are present on the internal circuitry of the Temperature Controller.•Disconnect power before attempting any inspection or work on the inside of unit.•Be sure the branch circuit or main disconnect switch is open or electrical input circuit fuses are removed before attempting any inspection or work on the inside of unit.•This control box is designed for inside, dry use only. To avoid the risk of shock or fire DO NOT expose this box to excessive moisture (ie wash down) or rain. It is not NEMA rated.1.1 Precautions•Follow all safety precautions and operating instructions outlined in thismanual.•Keep unit out of reach of all children.•Do not operate in flammable or explosive environments.•Never operate with a power cord that is not properly rated for use with yourunit.•Remove and or disconnect main power cord before attempting anymaintenance or fuse replacement.•Do not connect and or operate this unit to a non-grounded, non-polarizedoutlet or power source.•This product is not designed for use in human, medical, nuclear, or othersafety critical applications.•This product is not for use in damp or wet environments. Do not operatecontroller in an area where it can get wet or sprayed.•Do not plug the equipment into a receptacle with wet hands. Ensure hands aredry before handling the electrical cord and connecting to power.1-1Attempting to repair or service your unit may void yourwarranty.1.2 Safety Warnings and IEC SymbolsThis device is marked with international safety and hazard symbols inaccordance with EN61010-1. It is important to read and follow all precautionsand instructions in this manual before operating or commissioning this device asit contains important information relating to safety and EMC. Failure to followall safety precautions may result in injury and or damage to your controller.Use of this device in a manor not specified by the manufacturer may impairprotection devices and safety features provided by the unit.IEC symbols DescriptionCaution, refer to accompanying documentationEU’s Waste Electrical and Electronic EquipmentComplianceFigure 1-1. IEC Symbols1-2Section 2 – Hardware2.1 Unpacking and InspectionRemove the packing slip and verify that you have received everything listed.Inspect the container and equipment for signs of damage as soon as you receivethe shipment. Note any evidence of rough handling in transit. Immediatelyreport any damage to the shipping agent. The carrier will not honor damageclaims unless all shipping material is saved for inspection. After examiningand removing the contents, save the packing material and carton in the eventreshipment is necessary.If you have any questions about the shipment, please call our Customer ServiceDepartment at:1-800-622-2378 or 203-359-1660.e-mail:**************2.2 Included ItemsThe following items are supplied with your unit:•CNI-CB120 –or– CNI-CB240 series Industrial Controller Panel (1 each)•SC-GG-(*)-30-36 Spool Cap Thermocouple (1 each)•Spare 100 mA control fuse (1 each)•Spare 25 Amp output fuse (1 each)•Spare 1 Amp SSR fuse (1 each)•This Users Guide and CNI Controller Manual #M3355 (1 each),•Quick Start Manual #MQS3355 (1 each)•Communications Manual #M-3629 (1 each) with Ethernet models only2-1Section 2.3 CNi-CB120 and CNi-CB240 LabelsView Right ViewSection 2.4 CNi-CB120 and CNi-CB240 Mounting DimensionsMounting Dimensions (Rear View) Mounting Dimensions (Side View)2-2Figure 2-5. CNi-CB120 & CNi-CB240 Mounting Dimensions (Bottom View)Section 2.5 CNi-CB120 ComponentsFigure 2-6. CNi-CB120 ComponentsFront View (Closed)2-31. (Omegamation No. CNI16D43)2. I ndicator lamp, main power on3. E mergeny stop switch4. On/off switchFigure 2-7. CNi-CB120 ComponentsFront View (Open)Figure 2-8. CNi-CB120ComponentsBottom View2-45. C ooling fan6. H eat sink (Omegamation no. FHS-2)7. S olid state relay, 25A con-tinuous (Omegamation no. SSRL240DC25)8. C ontractor 1 pole, 30 amp (Omegamation no. C25CNB130A)9. F use block, din rail mount, 25A (Omegamation no. ASK-4-1)10. F use block, din rail mount, 1A(Omegamation no. ASK-2S)11. R TD/Process input, M1212. TC input (Omegamation no.UPJ-*-F 13. P ower in 14. P ower out 15. E thernet connection (optional)Section 2.6 CNi-CB240 ComponentsFigure 2-9. CNi-CB240 ComponentsBottom Front View (Closed)Figure 2-10. CNi-CB240 ComponentsFront View (Open)2-51. (Omegamation no. CNI16D43)2. I ndicator lamp, main power on3. E mergeny stop switch4. On/off switch5. C ooling fan6. H eat sink (Omegamation no. FHS-2)7. S olid state relay, 25AContinuous (Omegamation no. SSRL240DC25)8. C ontractor, 1 pole, 30 amp (Omegamation no. C25CNB130A)9. F use block, din rail mount, 25A (Omegamation no. ASK-4-1)10. F use block, din rail mount, 1 A(Omegamation no. ASK-2S)2-6Figure 2-11. CNi-CB240 ComponentsBottom View11. R TD/Process input, M1212. T C input (Omegamation no.UPJ-*-F13. P ower in14. P ower out15. E thernet connection (optional)3-1Section 3 - Installation and WiringInstallation and troubleshooting of input, output, and internal circuitry should be performed by qualified personnel onlymanual before attempting to apply power to this controlbox. The controller has been preconfigured for thermocouple operation. Should the user desire to use another input such as RTD or Process using the M-12 connector provided, the user will need to remove the thermocouple wires and connect the wires from the M-12 connector on the back of the CNI Controller. The user will also need to reconfigure the input settings to configure the controller for the correct input type (RTD or Process (Voltage or Current) input). See the Controller Manual #M3355 for additional instructions. An example of a 4 wire RTD connection has been given later in this manual.The CNI-CB120 is designed to operate using standard 120V, 60Hz.The CNI-CB240 is designed to operate using standard 240V, 60Hz.1)Attach properly sized input power cable thru bottom input cable gland, and assemble to labeled input fuse block. (DO NOT CONNECT POWER IF CHANGING INPUT TYPES).2) If using a thermocouple, plug the thermocouple into the jack provided on the bottom of the unit.3)If using RTD or Process Control, the user will need to rewire the inputconnections on the back of the back of the controller. MAKE SURE THE POWER IS NOT CONNECTED! (see Section 2.4.1 below for an example of converting it for 4 wire RTD input)4) Attach properly sized output power cable thru bottom output cable gland, and assemble to labeled output fuse block.5) The fuses have been preinstalled. Caution must be taken when replacing fuses because high voltage may be present at various locations within control box. 6)After all of the connections have been made AND THE DOOR IS SECURED, the user may turn the unit on. Turning on the power switch will turn the controller on. The outputs will be off at this point. The user can now program the controller for RTD or Process inputs if needed.7) The set points can now be adjusted for each output.8)When the set points are adjusted, pressing the down arrow twice will return the controller to run mode and it will begin to control.3-2THE CONTROLLER MANUALS BEFORE OPERATING THECONTROL BOX.The CNI Temperature/Process Controller has a lot of functionality. The menustructure in the quick start manual gives the user an easy understanding of howto move thru the settings in the controller. Some of the functions are not enabled for this controller.Section 3.1.1 Rewiring for 4 Wire 100 Ohm RTD InputShock hazard, Disconnect the power cable from the powersource before rewiring.Figure 3-1. From The Factory3-3Figure 3-2. Remove The Thermocouple Wire From 1 and 2Figure 3-3. Unclip the M12 Connector Wire3-4Figure 3-4. Remove Wire NutFigure 3-5. Install Wires Per Wiring Diagram3-5Figure 3-6. Place Wire Nut on T/C WireFigure 3-7. Place Wire Into Clip To Secure It. Close Box And Secure Box Cover Screws.3-6Section 3.1.2 Programming the Controller For 4 Wire 100 Ohm RTDNow that the controller wiring has been properly connected for 4 wire,100 OHM usage the controller input needs to be set up to allow the controller to operate correctly. This is easily accomplished in the example below. Referencing the Menu diagram at the bottom right of page 2 of the Quick Start Manual the user will see the input portion below.Figure 3-8. Flow ChartThe following steps will set the controller for 4 wire RTD.1) From the RUN screen press the menu button (far left button). SP1 is displayed2) Press the menu button again. SP2 is displayed.3) Press the Menu button again and CNFG is displayed.4) Press the enter button (far right) and INPT is displayed. This is where the inputsfor the controller are changed and stored.5) Press the menu Button and TC is displayed. Press the menu button and next RTDis displayed. Press the enter button to choose this option.6) Use the down arrow to select the correct type RTD curve. Most RTD’s are 385 orEuropean curve. The period 2, 3, or 4 stands for how many wire RTD it is. So in this case we use 385.4 since we are connecting a 4 wire RTD. (Consult the RTD manufacture if you are unsure which type RTD you have.)7) Press enter to save the change.8) Next RDG is displayed. Press the down arrow 2 times and this will exit themenu system and return you to RUN mode.9) You should now be reading the correct temperature on the face is the unit.3-7Section 3.2: Wiring Schematics3.2.1 CNi-CB120 WiringFigure 3-9. CNi-CB120 Output Wiring 3-83-93.2.2 CNi-CB240 WiringFigure 3-11. CNi-CB240 Output Wiring 3-103-11Section 4 - Spare PartsThe following parts are used in the CNI-CB120:Item Omega PN Omega Catalog Page URL30 A Contactor, Single Pole C25CNB130A /Auto/pdf/C25.pdf Solid State Relay SSRL240DC25 h ttp:///Temperature/pdf/SSRL240_660.pdfController Fuse, 100 mA, CB-0051Fast Acting, 5 x 20 mmOutput Fuse, 25 A, CB-0032Fast ActingRelay Fuse, 1 A, BB-0303Fast Acting, 5 x 20 mmThe following parts are used in the CNI-CB240:Item Omega PN Omega Catalog Page URL30 A Contactor, Double Pole C25BNB230B /Auto/pdf/C25.pdf Solid State Relay, Double Pole SSRLDUAL240DC25 h ttp:///Temperature/pdf/SSRDUAL240.pdfController Fuse, 100 mA, CB-0051Fast Acting, 5 x 20 mmOutput Fuse, 25 A, CB-0032Fast ActingRelay Fuse, 1 A, BB-0303Fast Acting, 5 x 20 mm4-1Section 5 - SpecificationsCNi-CB120Control:O ne 120 Vac input that powers one 25 Amp SSRcontrolled outputRating:120 Vac, 60Hz, 25 Amps (2400 Watts resistive load)Dimensions:305 H x 254 W x 152 mm D (12 H x 10 W x 6” D)Weight:14 lbs.Operating Temperature:0 to 55° (32 to 151°F)Controller Fuse:100 mA 250 VacOutput Fuses:25 Amps 250 VacContactor Fuse: 1 Amp 250 VacFor Indoor use onlyCNi-CB240:Control:O ne 240 Vac input that powers one 25 Amp SSRcontrolled outputRating:240 Vac, 60 Hz, 20 Amps (4800 Watts resistive load)Dimensions:305 H x 254 W x 152 mm D (12 H x 10 W x 6” D)Weight:14 lbsOperating Temperature:0 to 55°C (32 to 151°F)Controller Fuse:100 mA 250 VacOutput Fuses:25 Amps 250 VacContactor Fuse: 1 Amp 250 VacFor Indoor use only6-1NOTES: 6-2WARRANTY/DISCLAIMEROMEGA ENGINEERING, INC. warrants this unit to be free of defects in materials and workmanship for a period of 61 months from date of purchase. OMEGA’s WARRANTY adds an additional one (1) month grace period to the normal five (5) year product warranty to cover handling and shipping time. This ensures that OMEGA’s customers receive maximum coverage on each product.If the unit malfunctions, it must be returned to the factory for evaluation. OMEGA’s Customer Service Department will issue an Authorized Return (AR) number immediately upon phone or written request. Upon examination by OMEGA, if the unit is found to be defective, it will be repaired or replaced at no charge. OMEGA’s WARRANTY does not apply to defects resulting from any action of the purchaser, including but not limited to mishandling, improper interfacing, operation outside of design limits, improper repair, or unauthorized modification. This WARRANTY is VOID if the unit shows evidence of having been tampered with or shows evidence of having been damaged as a result of excessive corrosion; or current, heat, moisture or vibration; improper specification; misapplication; misuse or other operating conditions outside of OMEGA’s control. Components in which wear is not warranted, include but are not limited to contact points, fuses, and triacs.OMEGA is pleased to offer suggestions on the use of its various products. However, OMEGA neither assumes responsibility for any omissions or errors nor assumes liability for any damages that result from the use of its products in accordance with information provided by OMEGA, either verbal or written. OMEGA warrants only that the parts manufactured by the company will be as specified and free of defects. OMEGA MAKES NO OTHER WARRANTIES OR REPRESENTATIONS OF ANY KIND WHATSOEVER, EXPRESSED OR IMPLIED, EXCEPT THAT OF TITLE, AND ALL IMPLIED WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED. LIMITATION OF LIABILITY: The remedies of purchaser set forth herein are exclusive, and the total liability of OMEGA with respect to this order, whether based on contract, warranty, negligence, indemnification, strict liability or otherwise, shall not exceed the purchase price of the component upon which liability is based. In no event shall OMEGA be liable for consequential, incidental or special damages.CONDITIONS: Equipment sold by OMEGA is not intended to be used, nor shall it be used: (1) as a “Basic Component” under 10 CFR 21 (NRC), used in or with any nuclear installation or activity; or (2) in medical applications or used on humans. Should any Product(s) be used in or with any nuclear installation or activity, medical application, used on humans, or misused in any way, OMEGA assumes no responsibility as set forth in our basic WARRANTY /DISCLAIMER language, and, additionally, purchaser will indemnify OMEGA and hold OMEGA harmless from any liability or damage whatsoever arising out of the use of the Product(s) in such a manner.OMEGA’s policy is to make running changes, not model changes, whenever an improvement is possible. This affords our customers the latest in technology and engineering.OMEGA is a registered trademark of OMEGA ENGINEERING, INC.© Copyright 2013 OMEGA ENGINEERING, INC. All rights reserved. This document may not be copied, photocopied, reproduced, translated, or reduced to any electronic medium or machine-readable form, in whole or in part, without the prior written consent of OMEGA ENGINEERING, INC.FOR WARRANTY RETURNS, please have the following information available BEFORE contacting OMEGA:1. P urchase Order number under which the product was PURCHASED,2. M odel and serial number of the product under warranty, and3. Repair instructions and/or specific problems relative to the product.FOR NON-WARRANTY REPAIRS, consult OMEGA for current repair charges. Have the followinginformation available BEFORE contacting OMEGA:1. Purchase Order number to cover the COST of the repair,2. Model and serial number of the product, and3. Repair instructions and/or specific problems relative to the product.RETURN REQUESTS/INQUIRIESDirect all warranty and repair requests/inquiries to the OMEGA Customer Service Department. BEFORE RETU RNING ANY PRODU CT(S) TO OMEGA, PU RCHASER MU ST OBTAIN AN AU THORIZED RETU RN (AR) NU MBER FROM OMEGA’S CU STOMER SERVICE DEPARTMENT (IN ORDER TO AVOID PROCESSING DELAYS). The assigned AR number should then be marked on the outside of the return package and on any correspondence.The purchaser is responsible for shipping charges, freight, insurance and proper packaging to prevent breakage in transit.Where Do I Find Everything I Need forProcess Measurement and Control?OMEGA…Of Course!Shop online at SMTEMPERATUREM U Thermocouple, RTD & Thermistor Probes, Connectors, Panels & AssembliesM U Wire: Thermocouple, RTD & ThermistorM U Calibrators & Ice Point ReferencesM U Recorders, Controllers & Process MonitorsM U Infrared PyrometersPRESSURE, STRAIN AND FORCEM U Transducers & Strain GagesM U Load Cells & Pressure GagesM U Displacement TransducersM U Instrumentation & AccessoriesFLOW/LEVELM U Rotameters, Gas Mass Flowmeters & Flow ComputersM U Air Velocity IndicatorsM U Turbine/Paddlewheel SystemsM U Totalizers & Batch ControllerspH/CONDUCTIVITYM U pH Electrodes, Testers & AccessoriesM U Benchtop/Laboratory MetersM U Controllers, Calibrators, Simulators & PumpsM U Industrial pH & Conductivity EquipmentDATA ACQUISITIONM U Data Acquisition & Engineering SoftwareM U Communications-Based Acquisition SystemsM U Plug-in Cards for Apple, IBM & CompatiblesM U Data Logging SystemsM U Recorders, Printers & PlottersHEATERSM U Heating CableM U Cartridge & Strip HeatersM U Immersion & Band HeatersM U Flexible HeatersM U Laboratory HeatersENVIRONMENTALMONITORING AND CONTROLM U Metering & Control InstrumentationM U RefractometersM U Pumps & TubingM U Air, Soil & Water MonitorsM U Industrial Water & Wastewater TreatmentM U pH, Conductivity & Dissolved Oxygen InstrumentsM5231/1013。
COM610 3通信网关产品指南说明书
slave/server protocol stacks use the OPC Clients to provide the external systems access to the data available in the OPC Servers.
To make the configuration of COM610 3.1 more efficient, Connectivity Packages are available for ABB’s protection and control IEDs. A Connectivity Package includes descriptions of data and signals available in the IED, and the descriptions are used to automatically configure the master communication in the COM610 3.1 gateway. Connectivity Packages for some IEDs are already
5
Design
Communication Gateway
COM610
1MRS755425
The COM610 gateway consists of the OPC Data Access (DA, AE) server and client components. The OPC Servers provide the master/client protocol stacks access to the data in the devices connected with the protocol. The
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B 1.705±0.00843.3±0.2C 1.43736.5D 1.29933E 0.92523.5F 0.86622G 0.55114H 0.3549J 0.3158K 0.2767L 0.236 R R6M 0.209 5.3N 0.209 Dia.Dia.5.3P 0.177 4.5Q 0.138 3.5RM4 MetricM4Description:Powerex Fast Recovery Dual Diode Modules are designed for use in applications requiring fast switching.The modules are isolat-ed for easy mounting with other components on common heatsinks.Features:ⅪIsolated MountingⅪPlanar Chips Applications:ⅪFree WheelingOrdering Information:Select the complete eight digit module part number you desire from the table below.Example:CN241210 is a 1200 Volt, 100 Ampere FastRecovery Common Anode Diode Module.Voltage Current Rating Type Volts (x100)Amperes (x10)CN240610CD2412Powerex,Inc.,200 Hillis Street,Youngwood,Pennsylvania 15697-1800 (724) 925-7272Fast RecoveryDual Diode Modules100 Amperes/600-1200 VoltsCN24_ _10CD24_ _10CN24_ _10,CD24_ _10Fast Recovery Dual Diode Modules 100 Amperes/600-1200 VoltsPowerex,Inc.,200 Hillis Street,Youngwood,Pennsylvania 15697-1800 (724) 925-7272CN24_ _10,CD24_ _10Fast Recovery Dual Diode Modules100 Amperes/600-1200 VoltsAbsolute Maximum RatingsCN240610CC240610 Characteristics Symbol CD240610CD241210UnitsPeak Reverse Blocking Voltage V RRM6001200Volts T ransient Peak Forward Blocking Voltage (Non-Repetitive), t < 5ms V RSM7201350Volts DC Reverse Blocking Voltage V R(DC)480960Volts DC Output Current, T C= 75°C I F(DC)100100Amperes Peak One-Cycle Surge (Non-Repetitive) On-State Current (60Hz)I FSM20002000Amperes Peak One-Cycle Surge (Non-Repetitive) On-State Current (50Hz)I FSM18251825Amperes I2t (for Fusing), 8.3 milliseconds I2t1660016600A2sec Storage Temperature T STG-40 to 125-40 to 125°C Operating Temperature T j-40 to 150-40 to 150°C Maximum Mounting Torque M5 Mounting Screw—1717in.-lb. Maximum Mounting Torque M4 Terminal Screw—1212in.-lb. Module Weight (Typical)—9090Grams V Isolation V RMS25002500VoltsPowerex,Inc.,200 Hillis Street,Youngwood,Pennsylvania 15697-1800 (724) 925-7272CN24__10,CD24_ _10Fast Recovery Dual Diode Modules100 Amperes/600-1200 VoltsElectrical and Thermal Characteristics,T j= 25°C unless otherwise specifiedCharacteristics Symbol Test Conditions CN24_ _10/CD24_ _10Units Blocking State MaximumsReverse Leakage Current, Peak I RRM T j= 150°C, V RRM= Rated20mA Conducting State MaximumsPeak On-State Voltage V FM I FM= 100A 1.5Volts Switching MaximumsReverse Recovery Time t rr I FM= 100A, T j= 150°C0.8sdi/dt =-200A/s, V R = 1/2V RMReverse Recovery Charge Q rr I FM= 100A, T j= 150°C30Cdi/dt =-200A/s, V R = 1/2V RMThermal MaximumsThermal Resistance, Junction-to-Case R(J-C)Per Module0.5°C/Watt Thermal Resistance, Case-to-Sink (Lubricated)R(C-S)Per Module0.4°C/WattPowerex,Inc.,200 Hillis Street,Youngwood,Pennsylvania 15697-1800 (724) 925-7272CN24_ _10,CD24_ _10Fast Recovery Dual Diode Modules 100 Amperes/600-1200 VoltsINSTANTANEOUS ON-STATE CURRENT, I FM ,(AMPERES)MAXIMUMON-STATE CHARACTERISTICS0.21000.61.41.82.22.6101102103I N S T A N T A N E O U S O N -S T A T E V O L T A G E , V F M , (V O L T S )1.0CYCLES AT 60 H ZM A X I M U M P E A K S U R G E (N O N -R E P E T I T I V E )C U R R E N T , I F S M , (A M P E R E S )MAXIMUM ALLOWABLE PEAK SURGE(NON-REPETITIVE) CURRENT400800120016002000100101102MAXIMUMALLOWABLE CASE TEMPERATUREAVERAGE ON-STATE CURRENT, I F(AV),(AMPERES)M A X I M U M A L L O W A B L E C A S E T E M P E R A T U R E , T C , (o C )10040507090110130150806020MAXIMUMON-STATE POWER DISSIPATIONAVERAGE ON-STATE CURRENT, I F(AV),(AMPERES)M A X I M U M P O W E R D I S S I P A T I O N , P A V (M A X ), (W A T T S )1005002550751001251501752002575TIME, t, (SECONDS)TRANSIENT THERMAL IMPEDANCE CHARACTERISTICS (JUNCTION-TO-CASE)10-310-210-1100T R A N S I E N T T H E R M A L I M P E D A N C E , Z (J -C )(t ), (o C /W A T T )INSTANTANEOUS ON-STATE CURRENT, I FM ,(AMPERES)REVERSE RECOVERY CHARACTERISTICS100101103I r r , (A M P E R E S ), Q r r , (µC )100102103t r r , (µs )10-1101102101102100。