TSOP4833WE1中文资料

三菱PLC型号::型号功能说明FX1N-60MR-001 输入点:36,24点继电器输出FX1N-40MR-001 输入点:24,16点继电器输出FX1N-24MR-001 输入点:14,10点继电器输出FX1N-14MR-001 输入点:8,6点继电器输出FX1N-60MR-D 输入点:36,24点继电器输出(直流供电) FX1N-40MR-D 输入点:24,16点继电器输出(直流供电) FX1N-24MR-D 输入点:14,10点继电器输出(直流供电) FX1N-60MT-001 输入点:36,24点晶体管输出FX1N-40MT-001 输入点:24,16点晶体管输出FX1N-24MT-001 输入点:14,10点晶体管输出FX1N-14MT-001 输入点:8,6点晶体管输出FX1N-60MT-D 输入点:36,24点晶体管输出(直流供电) FX1N-40MT-D 输入点:24,16点晶体管输出(直流供电) FX1N-24MT-D 输入点:14,10点晶体管输出(直流供电) FX1NC-16MT 输入点:8,8点晶体管输出FX1NC-32MT 输入点:16,16点晶体管输出FX1S-30MR-001 输入点:16,14点继电器输出FX1S-20MR-001 输入点:12,8点继电器输出FX1S-14MR-001 输入点:8,6点继电器输出FX1S-10MR-001 输入点:6,4点继电器输出FX1S-30MR-D 输入点:16,14点继电器输出(直流供电) FX1S-20MR-D 输入点:12,8点继电器输出(直流供电) FX1S-14MR-D 输入点:8,6点继电器输出(直流供电) FX1S-10MR-D 输入点:6,4点继电器输出(直流供电) FX1S-30MT-001 输入点:16,14点晶体管输出FX1S-20MT-001 输入点:12,8点晶体管输出FX1S-14MT-001 输入点:8,6点晶体管输出FX1S-10MT-001 输入点:6,4点晶体管输出FX1S-30MT-D 输入点:16,14点晶体管输出(直流供电) FX1S-20MT-D 输入点:12,8点晶体管输出(直流供电) FX1S-14MT-D 输入点:8,6点晶体管输出(直流供电) FX1S-10MT-D 输入点:6,4点晶体管输出(直流供电) FX1N-1DA-BD 1路D/AFX1N-2AD-BD 2路A/DFX1N-2EYT-BD 扩展板,2点晶体管输出FX1N-4EX-BD 扩展板,3点输入FX1N-8AV-BD 扩展板,8路电位器FX1N-232-BD RS-232通讯板(1CH)FX1N-422-BD RS-422通讯板(1CH)FX1N-485-BD RS-485通讯板(1CH)FX1N-CNV-BD 转换用接头FX1N-EEPROM-8L PLC存储盒型号功能说明FX2N-128MR-001 输入点:64,64 继电器输出FX2N-80MR-001 输入点:40,40 继电器输出FX2N-64MR-001 输入点:32,32 继电器输出FX2N-48MR-001 输入点:24,24 继电器输出FX2N-32MR-001 输入点:16,16 继电器输出FX2N-16MR-001 输入点:8,8 继电器输出FX2N-80MR-D 输入点:40,40 继电器输出(直流供电) FX2N-64MR-D 输入点:32,32 继电器输出(直流供电) FX2N-48MR-D 输入点:24,24 继电器输出(直流供电) FX2N-32MR-D 输入点:16,16 继电器输出(直流供电) FX2N-128MT-001 输入点:64,64点晶体管输出FX2N-80MT-001 输入点:40,40点晶体管输出FX2N-64MT-001 输入点:32,32点晶体管输出FX2N-48MT-001 输入点:24,24点晶体管输出FX2N-32MT-001 输入点:16,16点晶体管输出FX2N-16MT-001 输入点:8,8点晶体管输出FX2N-80MT-D 输入点:40,40点晶体管输出(直流供电) FX2N-64MT-D 输入点:32,32点晶体管输出(直流供电) FX2N-48MT-D 输入点:24,24点晶体管输出(直流供电) FX2N-32MT-D 输入点:16,16点晶体管输出(直流供电) FX2NC-96MT 输入点:48,48点晶体管输出FX2NC-64MT 输入点:32,32点晶体管输出FX2NC-32MT 输入点:16,16点晶体管输出FX2NC-16MT 输入点:8,8点晶体管输出FX2N-48ER 输入点:24,24 继电器输出FX2N-48ET 输入点:24,24点晶体管输出FX2N-32ER 输入点:16,16 继电器输出FX2N-32ET 输入点:16,16点晶体管输出FX2N-16EX 输入点:16FX2N-16EYR 输入点:16 继电器输出FX2N-16EYT 输入点:16点晶体管输出FX2N-8ER 输入点:4,4 继电器输出FX2N-8EX 输入点:8FX2N-8EYR 输入点:8 继电器输出FX2N-8EYT 输入点:8点晶体管输出FX2NC-32EX 输入点:32FX2NC-32EYT 输入点:32点晶体管输出FX2NC-16EX 输入点:16FX2NC-16EYT 输入点:16点晶体管输出FX2NC-16EX-T 输入点:16FX2NC-16EYR-T 输入点:8 继电器输出FX2N-2AD 2通道A/DFX2N-2DA 2通道D/AFX2N-2LC 2通道温度控制FX2N-4AD 4通道A/DFX2N-4AD-PT 4通道温度输入,铂金电阻FX2N-4AD-TC 4通道温度输入,热电耦FX2N-4DA 4通道D/AFX2N-5A 4 通道A/D, 1通道D/AFX2N-8AD 8通道A/DFX2N-1HC 1通道高速计数FX2N-1PG-E 脉冲定位模块(1通道-100KHz) FX2N-10GM 1轴位置控制单元FX2N-10PG 脉冲定位模块(1通道-1MHz) FX2N-20GM 2轴位置控制单元E-20TP-E-SET0 编程器(FX2N-10GM 和FX2N-20GM 用) E-GM-200CAB 2 米电缆连接伺服用E-GMJ2-200CAB1A 2 米电缆连接MR-J2伺服用FX2N-1RM-E-SET 凸轮控制器F2-720RSV RESOLVERF2-RS-5CAB FX2N-RS-5CAB用电缆FX2N-RS-5CAB 信号电缆(FX2N-1RM 和F2-720RSV用) FX-PCS-VPS/WIN-E 控制单元用编程软件FX2N-16CCL-M CC-LINK主站模块FX2N-16LNK-M REMOTE I/O SYSTEM通讯模块FX2N-32ASI-M AS-INTERFACE通讯模块FX2N-32CCL CC-LINK本地站模块FX2N-64CL-M CC-LINK/L T模块FX2N-20PSU 电源模块(24DC, 2A)FX2N-232IF RS-232 通讯模块(1 CH)FX2N-CNV-IF 电缆适配器(FX2 TO FX2N)FX2N-8AV-BD 8路电位器FX2N-232-BD RS-232C通讯板FX2N-422-BD RS-422通讯板FX2N-485-BD RS-485通讯板FX2N-CNV-BC 转换FX2N-CNV-BD 转换适配器FX2NC-232-ADP RS232 通讯模块FX2NC-485-ADP RS485 通讯模块FX2NC-CNV-IF 接口适配器型号说明FX3U-128MR-ES-A BASE UNIT WITH 64 INPUTS/64 RELA Y OUTPUTSFX3U-80MR-ES-A BASE UNIT WITH 40 INPUTS/40 RELA Y OUTPUTS FX3U-64MR-ES-A BASE UNIT WITH 32 INPUTS/32 RELA Y OUTPUTS FX3U-48MR-ES-A BASE UNIT WITH 24 INPUTS/24 RELA Y OUTPUTS FX3U-32MR-ES-A BASE UNIT WITH 16 INPUTS/16 RELA Y OUTPUTS FX3U-16MR-ES-A BASE UNIT WITH 8 INPUTS/8 RELA Y OUTPUTS FX3U-80MR-DS BASE UNIT WITH 40 INPUTS/40 RELA Y OUTPUTS (DC)FX3U-64MR-DS BASE UNIT WITH 32 INPUTS/32 RELA Y OUTPUTS (DC)FX3U-48MR-DS BASE UNIT WITH 24 INPUTS/24 RELA Y OUTPUTS (DC)FX3U-32MR-DS BASE UNIT WITH 16 INPUTS/16 RELA Y OUTPUTS(DC)FX3U-16MR-DS BASE UNIT WITH 16 INPUTS/16 RELA Y OUTPUTS (DC) FX3U-128MT-ES-A BASE UNIT WITH 64 INPUTS/64 TRANSISTOR OUTPUTS FX3U-80MT-ES-A BASE UNIT WITH 40 INPUTS/40 TRANSISTOR OUTPUTS FX3U-64MT-ES-A BASE UNIT WITH 32 INPUTS/32 TRANSISTOR OUTPUTS FX3U-48MT-ES-A BASE UNIT WITH 24 INPUTS/24 TRANSISTOR OUTPUTS FX3U-32MT-ES-A BASE UNIT WITH 16 INPUTS/16 TRANSISTOR OUTPUTS FX3U-16MT-ES-A BASE UNIT WITH 8 INPUTS/8 TRANSISTOR OUTPUTS FX3U-80MT-DS BASE UNIT WITH 40 INPUTS/40 RELA Y OUTPUTS (DC) FX3U-64MT-DS BASE UNIT WITH 32 INPUTS/32 RELA Y OUTPUTS (DC) FX3U-48MT-DS BASE UNIT WITH 24 INPUTS/24 RELA Y OUTPUTS (DC) FX3U-32MT-DS BASE UNIT WITH 16 INPUTS/16 RELA Y OUTPUTS (DC) FX3U-16MT-DS BASE UNIT WITH 16 INPUTS/16 RELA Y OUTPUTS (DC) FX3UC-32MT-L T BASE UNIT WITH 16 INPUTS/16 TRANSISTOR OUTPUTS FX3U-232-BD RS-232C SERIAL PORT (1 CH)FX3U-422-BD RS-422 SERIAL PORT (1 CH)FX3U-485-BD RS-485 SERIAL PORT (1 CH)FX3U-CNV-BD FX3U MODULE TRANSFORM UNITFX3U-USB-BD USB COMMUNICA TION PORT (FOR ALL FX SERIES PLC)FX3U-2HSY-ADP 2 CHANNELS PULSE TRAIN OUTPUTFX3U-4AD-ADP 4 CHANNELS A/DFX3U-4AD-PT-ADP 4 CHANNELS TEMPERA TURE INPUTS, PT TYPE FX3U-4AD-TC-ADP 4 CHANNELS TEMPERA TURE INPUTS, THERMAL COUPLE TYPEFX3U-4DA-ADP 4 CHANNELS D/AFX3U-4HSX-ADP 4 CHANNELS HIGH SPEED COUNTERFX3U-232ADP RS232 COMMUNICA TION MODULEFX3U-485ADP RS485 COMMUNICA TION MODULEFX3U-1PSU-5V DC 5V 1A POWER SUPPLY UNIT FOR FX3U SERIES FX3U-4AD 4 CHANNELS A/DFX3U-4DA 4 CHANNELS D/AFX3U-7DM DISPLA Y PANELFX3U-7DM-HLD DISPLA Y PANEL HOLDERFX3U-20SSC-H 2 CHL SSC-NET MODULEFX3U-32BL BACKUP BA TTERY FOR FX3UC CPUFX3UC-1PS-5V DC 5V 1A POWER SUPPLY UNIT FOR FX3UC SERIES FX3UC-4AD 4 CHANNELS A/D (16BIT)-[存储卡]FX3U-FLROM-16 16K FLASH ROM MEMORY CASSETTEFX3U-FLROM-64 64K FLASH ROM MEMORY CASSETTEFX3U-FLROM-64L 64K PLC PROGRAM TRANSFER UNIT型号说明FX0N-40ER EXTENSION UNIT WITH 24 INPUTS/16 RELA Y OUTPUTSFX0N-40ET EXTENSION UNIT WITH 24 INPUTS/16 TRANSISTOR OUTPUTSFX0N-3A 2 CHANNEL A/D, 1 CHANNEL D/AFX0N-30EC EXTENSION CABLE (30CM)FX0N-65EC EXTENSION CABLE (60CM)FX0N-32NT-DP PROFIBUS-DP INTERFACE UNITF2-40BL BACKUP BA TTERY FOR FX CPUFX-2PIF 2 TO 1 INTERFACE FOR FX-20P-E, DA TA ACCESS UNIT AND FX PLC FX-20P-ADP-KIT OFFLINE PROGRAMMING ADAPTORFX-20P-CADP UNIVERSAL ADAPTOR CABLE 0.3MFX-20P-E-SET0 HANDY PROGRAMMING PANEL FOR FX0S,FX0N,FX2N SERIES CPU FX-20P-RWM ROM WRITER FOR FX-20P-EFX-485PC-IF RS232/RS485 CONVERTERFX-USB-AW USB TO RS422 CONVERTERGX-DEVELOPER-C PROGRAM SOFTWARE, WINDOW VERSION (GPPW/LL T) - CHIN. GX-DEVELOPER-E PROGRAM SOFTWARE, WINDOW VERSION (GPPW/LL T) - ENG. SC-09 RS232/RS422 INTERFACE UNITFX-16E-TB TERMINAL BOX FOR 16 INPUTSFX-32E-TB TERMINAL BOX FOR 32 INPUTSFX-16EYR-TB TERMINAL BOX FOR 16 RELA Y OUTPUTSFX-16EYS-TB TERMINAL BOX FOR 16 TRAIC OUTPUTSFX-16EYT-TB TERMINAL BOX FOR 16 TRANSISTOR OUTPUTSFX-16EYT-H-TB TERMINAL BOX FOR 16 TRANSISTOR OUTPUTS, HIGH CURRENT FX-16E-150CAB 1.5M CONNECTION CABLEFX-16E-300CAB 3 M CONNECTION CABLEFX-16E-500CAB 5 M CONNECTION CABLEFX-16E-150CAB-R 1.5M CONNECTION CABLEFX-16E-300CAB-R 3 M CONNECTION CABLEFX-16E-500CAB-R 5 M CONNECTION CABLEFX-EEPROM-4 4K EEPROM MEMORY CASSETTEFX-EEPROM-8 8K EEPROM MEMORY CASSETTEFX-EEPROM-16 16K EEPROM MEMORY CASSETTEFX-EPROM-8 8K EPROM MEMORY CASSETTEFX2N-ROM-E1 INVERTER INSTRUCTION CASSETTEFX2NC-EEPROM-16 16K EEPROM MEMORY CASSETTE (FX2NC) 型号功能说明Q00JCPU CPU,程序容量:8K 步Q00CPU CPU,程序容量:8K 步Q01CPU CPU,程序容量:14K 步Q02CPU CPU,程序容量:28K 步Q02HCPU CPU,程序容量:28K 步,高速Q06HCPU CPU,程序容量:60K 步,高速Q12HCPU CPU,程序容量:124K 步,高速Q25HCPU CPU,程序容量:252K 步,高速Q33B 电源+ CPU + 3个Q系列I/O 插槽Q35B 电源+ CPU + 5个Q系列I/O 插槽Q38B 电源+ CPU + 8个Q系列I/O 插槽Q312B 电源+ CPU + 12个Q系列I/O 插槽Q63B 电源+ 3个Q系列I/O 插槽Q65B 电源+ 5个Q系列I/O 插槽Q68B 电源+ 8个Q系列I/O 插槽Q612B 电源+ 12个Q系列I/O 插槽Q52B 2个Q系列I/O 插槽(无电源插槽)Q55B 5个Q系列I/O 插槽(无电源插槽)Q61P 100-240V AC 输入/ 5VDC 6A 输出(以前的Q61P-A1和Q61P-A2之合成体)Q62P 100-240V AC 输入/ 5VDC 3A,24VDC/0.6A 输出Q63P 24VDC 输入/ 5VDC 6A 输出Q64P 100-120/200-240V AC 输入/ 5VDC 8.5A 输出QC05B 0.45m (1.48ft.)QC06B 0.6m (1.96ft.)QC12B 1.2m (3.93ft.)QC30B 3m (9.84ft.)QC50B 5m (16.4ft.)QC100B 10m (32.8ft.)Q6BA T 内存用电池Q7BA T 大容量电池Q7BA T-SET 大容量电池,带底座Q6DIN1 DIN导轨安装适配器,用于Q38B/Q312B/Q68B/Q612BQ6DIN2 DIN导轨安装适配器,用于Q35B/Q65BQ6DIN3 DIN导轨安装适配器,用于Q33B/Q63BQ2MEM-1MBS SRAM 内存卡容量:1M BYTESQ2MEM-2MBS SRAM 内存卡容量:2M BYTESQ2MEM-2MBF LINEAR FLASH 内存卡容量:2M BYTESQ2MEM-4MBF LINEAR FLASH 内存卡容量:4M BYTESQ2MEM-8MBA A TA 内存卡容量:8M BYTESQ2M2M-16MBA A TA 内存卡容量:16M BYTESQ2MEM-32MBA A TA 内存卡容量:32M BYTESQ2MEM-BA T Q2MEM-1MBS/Q2MEM-2MBS用电池Q2MEM-ADP 带标准PCMCIA接口的Q2MEM存储卡用的适配器QX10 100-120V AC/7-8mA,16点QX28 240V AC,8点QX40 24VDC/4mA,共阳极,16点QX40-S1 24VDC,共阳极,16点(高速)QX41 24VDC,共阳极,32点QX41-S1 24VDC,共阳极,32点(高速)QX42 24VDC,共阳极,64点QX42-S1 24VDC,共阳极,64点(高速)QX70 5-12VDC,共阴/阳极通用,16点QX71 5-12VDC,共阴/阳极通用,32点QX72 5-12VDC,共阴/阳极通用,64点QX80 24VDC/4mA,共阴极,16点,端子排QX81 24VDC/4mA,共阴极,32点,连接器QX82 24VDC/4mA,共阴极,64点,连接器QX82-S1 24VDC/4mA,共阴极,64点(高速),连接器QY10 240V AC/24VDC,16点,无保险丝QY18A 240VAC/24VDC,2A,8点独立输出QY22 240V AC/0.6A,16点,无保险丝QY40P 12/24VDC,16点,带短路保护QY41P 12/24VDC,32点,带短路保护QY42P 12/24VDC,64点,带短路保护QY50 12/24VDC,16点,带保险丝QY68A 5-24VDC,8点,无保险丝QY70 5/12VDC,16点,无保险丝QY71 5/12VDC,32点,无保险丝QY80 12/24VDC,16点,无保险丝QY81P 12/24VDC ,32点,带短路保护QH42P 24VDC 共阳极,输入:32点,输出:32点QX48Y57 24VDC 共阳极,输入:8点,输出:7点A6CON1 32点焊接型(QX41/42,QY41P/42P)A6CON2 32点无焊接型(QX41/42,QY41P/42P) A6CON3 32点扁平电缆型(QX41/42,QY41P/42P) A6CON1E 32点焊接型(QX81,QY81P)A6CON2E 32点无焊接型(QX81,QY81P)A6CON3E 32点扁平电缆型(QX81,QY81P)QI60 16点,响应时间:0FF-ON 0.2ms,ON-OFF 0.3ms 或更短Q64AD A/D 转换模块:4 通道,电流/电压输入Q68ADV A/D 转换模块:8 通道,电压输入Q68ADI A/D 转换模块:8 通道,电流输入Q62DA D/A 转换模块:2 通道,电流/电压输出Q64DA D/A 转换模块:4 通道,电流/电压输出Q68DA V D/A 转换模块:8 通道,电压输出Q68DAI D/A 转换模块:8 通道,电流输出Q64AD-GH A/D 转换模块:4 通道,电流/电压输入Q62AD-DGH A/D 转换模块:2 通道,信息状态功能Q62DA-FG D/A 转换模块:2 通道,电流/电压输出,输出监控Q64RD 铂电阻输入模块:4 通道Q64RD-G 铂电阻输入模块:4 通道(通道间隔离)Q64TCTT 热电偶输入:4 通道,晶体管输出Q64TCTTBW 热电偶输入:4 通道,晶体管输出,带断路检测Q64TCRT 铂电阻输入:4 通道,晶体管输出Q64TCRTBW 铂电阻输入:4 通道,晶体管输出,带断路检测Q64TD 热电偶输入模块:4 通道Q64TDV-GH 热电偶输入模块:4 通道,微电压输入QD62 2 通道,200kpps,5/12/24VDC 输入,漏型输出QD62D 2 通道,500kpps,差分输入,漏型输出QD62E 2 通道,200kpps,5/12/24VDC 输入,源型输出QD60P8-G 8通道,5/12至24VDC输入,输入过滤设定QD75P1 1 轴, 集电极开路输出QD75P2 2 轴, 集电极开路输出QD75P4 4 轴, 集电极开路输出QD75D1 1 轴, 差分输出QD75D2 2 轴, 差分输出QD75D4 4 轴, 差分输出QD75M1 1 轴, SSCNET 兼容QD75M2 2 轴, SSCNET 兼容QD75M4 4 轴, SSCNET 兼容QD70P4 4 轴, 脉冲串输出QD70P8 8 轴, 脉冲串输出QG60 用于I/O 糟的空盖QC30R2 用于个人计算机和CPU 连接的RS-232 电缆Q6HLD-R2 防止RS-232连接线脱落的支架A6RCON-R75 同轴总线用75欧姆终端电阻Q6TA32 给32点I/O 模块用, 0.5MM2 (AWG20)Q6TA32-TOL 只用于Q6TA32 的工具Q6TE-18S 用于16点输入输出0.3~1.5mm2(AWG22~16)QJ71E71-B2 以太网模块,10BASE-2QJ71E71-B5 以太网模块,10BASE-5QJ71E71-100 以太网模块,10BASE-T/10BASE-TXQJ71LP21-25 MELSECNET/10H 模块,SI/QSI 光纤,双环QJ71LP21S-25 MELSECNET/10H 模块,SI/QSI 光纤,双环,带外部供电功能QJ71LP21G MELSECNET/10H 模块,50GI 光纤,双环QJ71LP21GE MELSECNET/10H 模块,62.5GI 光纤,双环QJ72LP25-25 MELSECNET/10H 模块,远程站SI/QSI 光纤QJ72LP25G MELSECNET/10H 模块,远程站50GI 光纤QJ72LP25GE MELSECNET/10H 模块,远程站62.5GI 光纤QJ71BR11 MELSECNET/10H 模块,75同轴电缆, 单总线QJ72BR15 MELSECNET/10H 模块,远程站75 同轴电缆Q80BD-J71LP21-2 MELSECNET/10H 模块,光纤Q80BD-J71LP21G MELSECNET/10H 模块,SI/QSI/H-PC 光纤Q80BD-J71BR11 MELSECNET/10H 模块,同轴电缆QJ61BT11N CC-LINK 模块,主站/本地站QJ61CL12 CC-LINK/LT,主站QJ71C24N 串行RS232C,1通道,RS422/485,1通道QJ71C24N-R2 串行RS232C,2通道QJ71C24N-R4 串行RS422/485,2通道QJ71WS96 Web服务器QJ71CMO 内置调制解调器,1通道/RS232,1通道QD51 智能通讯RS232,2通道QD51-R24 智能通讯RS232,1通道,RS422/485,1通道SW1IVD-AD51HP QD51 软件包QJ71FL71 FL-NETWORK 模块,10BASE-5/10BASE-TQJ71FL71-B2 FL-NETWORK 模块,10BASE-2QJ71AS92 AS-I主站模块A80BDE-J61BT11 使用PCI总线的计算机CC-LINK接口,主站/本地站A80BDE-J61BT13 使用PCI总线的计算机CC-LINK接口,本地站QC06B 0.6m (1.97ft.)QC12B 1.2m (3.93ft.)QC30B 3m (9.84ft.)QC50B 5m (16.39ft.)QC100B 10m (32.79ft.)。

PS-48/360型 智 能 高 频开 关 电 源 系 统使用说明书深 圳 市 世 纪 新 泰 达 电 子 有 限 公 司 SHENZHEN CENTURY ELECTRONIC CO.，LTD新泰达电源目录第一章 概述 (2)一、介绍 (2)二、系统特点 (2)三、系统技术指标 (3)四、系统构成 (4)第二章 监控屏 (6)第三章 整流器 (9)一、整流器技术指标 (9)二、整流器使用说明 (11)第四章 交直流配电 (13)一、直流配电 (13)二、交流配电 (13)第五章 系统安装 (15)一、安装前检查 (15)二、搬运 (15)三、验货 (15)四、安装 (16)五、接线 (19)第六章 系统操作 (24)第七章 电池管理 (29)第八章 维护与检修 (32)一、维护 (32)二、故障处理 (32)三、整流器的更换 (34)四、监控屏的更换 (35)五、扩容 (35)第一章 概 述一、 介 绍PS-48/360智能型开关电源系统是根据信息产业部行业标准、结合国内供电状况和使用要求、采用新型进口元器件而设计生产的高新技术产品，配接电池组组成不间断直流供电系统，广泛用于电信、移动、水利、电力、铁路、计算中心等需要大功率直流通信电源的场所，尤其适用于移动通信基站和农村电话局。

PS-48/360系统采用模块化设计、组合式结构，它由整流器、监控屏、交直流配电、机柜组成，交直流配电已安装在同一机柜中，-48V系统容量为360A。

PS-48/360在向负载供电的同时，通过监控屏实现系统内部的自动测试、自动控制、自动诊断和告警，对并接的电池自动进行测量、维护及管理。

系统配备RS232或TCP/IP（RJ45）智能通讯接口，可以通过调制解调器、电话线、以太网或其他网络与远端的计算机相连，接受其查询、控制，向其通报系统工作状态，从而实现“三遥”功能，也可以与本地的计算机相连，实现本地的集中监控。

系统操作、参数设置、状态查询通过监控屏的显示和键盘完成，监控屏采用液晶汉字显示，简单明了，操作方便。

Photo Modules for PCM Remote Control Systems Available types for different carrier frequenciesTypeTSOP4830XG1TSOP4836XG1TSOP4838XG1TSOP4856XG1DescriptionThe TSOP48..XG1 – series are miniaturized receiversfor infrared remote control systems. PIN diode andpreamplifier are assembled on lead frame, the epoxypackage is designed as IR filter.The demodulated output signal can directly be de-coded by a microprocessor. TSOP48..XG1 is thestandard IR remote control receiver series, supportingall major transmission codes.UnitVmAVmA°C°C°CmW°CMax Unit 1.5mAmAmDocument Number 82130Suitable Data FormatThe circuit of the TSOP48..XG1 is designed in that way that unexpected output pulses due to noise or disturbance signals are avoided. A bandpassfilter, an integrator stage and an automatic gain control are used to suppress such disturbances.The distinguishing mark between data signal and disturbance signal are carrier frequency, burst length and duty cycle.The data signal should fullfill the following condition:•Carrier frequency should be close to center frequency of the bandpass (e.g. 38kHz).•Burst length should be 10 cycles/burst or longer.•After each burst which is between 10 cycles and 70cycles a gap time of at least 14 cycles is necessary.•For each burst which is longer than 1.8ms a corresponding gap time is necessary at some time in the data stream. This gap time should be at least 4times longer than the burst.•Up to 800 short bursts per second can be received continuously.Some examples for suitable data format are:NEC Code, Toshiba Micom Format, Sharp Code, RC5Code, RC6 Code, R–2000 Code.When a disturbance signal is applied to the TSOP48..XG1 it can still receive the data signal.However the sensitivity is reduced to that level that no unexpected pulses will occure.Some examples for such disturbance signals which are suppressed by the TSOP48..XG1 are:•DC light (e.g. from tungsten bulb or sunlight)•Continuous signal at 38kHz or at any other frequency•Signals from fluorescent lamps with electronic ballast with high or low modulation (see Figure A or Figure B).05101520time [ms]Figure A: IR Signal from Fluorescent Lamp with low Modulation05101520time [s]Figure B: IR Signal from Fluorescent Lamp with high Modulation2.0/m ) Figure 4. Sensitivity vs. Electric Field Disturbances1 kHzE eV O V OH V OL Optical Test Signal (IR diode TSAL6200, I Output Signalt d1)E eOptical Test Signal Document Number 82130Dimensions in mm14273Document Number 82130Ozone Depleting Substances Policy StatementIt is the policy of Vishay Semiconductor GmbH to1.Meet all present and future national and international statutory requirements.2.Regularly and continuously improve the performance of our products, processes, distribution and operating systems with respect to their impact on the health and safety of our employees and the public, as well as their impact on the environment.It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as ozone depleting substances (ODSs).The Montreal Protocol (1987) and its London Amendments (1990) intend to severely restrict the use of ODSs and forbid their use within the next ten years. Various national and international initiatives are pressing for an earlier ban on these substances.Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of ODSs listed in the following documents.1.Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively2.Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental Protection Agency (EPA) in the USA3.Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C (transitional substances) respectively.Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting substances and do not contain such substances.We reserve the right to make changes to improve technical design and may do so without further notice.Parameters can vary in different applications. All operating parameters must be validated for each customer application by the customer. Should the buyer use Vishay-Telefunken products for any unintended or unauthorized application, the buyer shall indemnify Vishay-Telefunken against all claims, costs, damages, and expenses, arising out of, directly or indirectly, any claim of personal damage, injury or death associated with such unintended or unauthorized use.Vishay Semiconductor GmbH, P .O.B. 3535, D-74025 Heilbronn, Germany Telephone: 49 (0)7131 67 2831, Fax number: 49 (0)7131 67 2423。

IR Receiver Modules for Remote Control SystemsMECHANICAL DATAPinning for TSOP348.., TSOP344..:1 = OUT, 2 = GND, 3 = V SPinning for TSOP322.., TSOP324..:1 = OUT, 2 = V S , 3 = GNDFEATURES•Very low supply current•Photo detector and preamplifier in one package •Internal filter for PCM frequency •Improved shielding against EMI •Supply voltage: 2.5 V to 5.5 V•Improved immunity against ambient light •Insensitive to supply voltage ripple and noise•Material categorization: For definitions of compliance please see /doc?99912DESCRIPTIONThese products are miniaturized receivers for infrared remote control systems. A PIN diode and a preamplifier are assembled on a lead frame, the epoxy package acts as an IR filter.The demodulated output signal can be directly decoded by a microprocessor. The TSOP348.., TSOP322.. are compatible with all common IR remote control data formats. The TSOP324.., TSOP344.. are optimized to suppress almost all spurious pulses from energy saving fluorescent lamps but will also suppress some data signals.This component has not been qualified according to automotive specifications.BLOCK DIAGRAMAPPLICATION CIRCUITPARTS TABLECARRIER FREQUENCY STANDARD APPLICATIONS(AGC2)VERY NOISY ENVIRONMENTS(AGC4)PINNING1 = OUT,2 = GND,3 = V S1 = OUT,2 = V S ,3 = GND1 = OUT,2 = GND,3 = V S1 = OUT,2 = V S ,3 = GND30 kHz TSOP34830TSOP32230TSOP34430TSOP3243033 kHz TSOP34833TSOP32233TSOP34433TSOP3243336 kHz TSOP34836TSOP32236TSOP34436TSOP3243638 kHz TSOP34838TSOP32238TSOP34438TSOP3243840 kHz TSOP34840TSOP32240TSOP34440TSOP3244056 kHzTSOP34856TSOP32256TSOP34456TSOP32456Note•Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect the device reliability.TYPICAL CHARACTERISTICS (T amb = 25 °C, unless otherwise specified)Fig. 1 - Output Active Low Fig. 2 - Pulse Length and Sensitivity in Dark AmbientABSOLUTE MAXIMUM RATINGSPARAMETER TEST CONDITIONSYMBOLVALUE UNIT Supply voltage V S - 0.3 to + 6V Supply current I S 3mA Output voltage V O - 0.3 to (V S + 0.3)V Output current I O 5mA Junction temperature T j 100°C Storage temperature range T stg - 25 to + 85°C Operating temperature range T amb- 25 to + 85°C Power consumption T amb ≤ 85 °C P tot 10mW Soldering temperaturet ≤ 10 s, 1 mm from caseT sd260°CELECTRICAL AND OPTICAL CHARACTERISTICS (T amb = 25 °C, unless otherwise specified)PARAMETER TEST CONDITION SYMBOLMIN.TYP.MAX.UNIT Supply current E v = 0, V S = 3.3 V I SD 0.270.350.45mA E v = 40 klx, sunlightI SH 0.45mA Supply voltage V S 2.55.5V Transmission distance E v = 0, test signal see fig. 1,IR diode TSAL6200,I F = 250 mA d 45m Output voltage low I OSL = 0.5 mA, E e = 0.7 mW/m 2,test signal see fig. 1V OSL 100mV Minimum irradiance Pulse width tolerance:t pi - 5/f 0 < t po < t pi + 6/f 0,test signal see fig. 1E e min.0.10.25mW/m 2Maximum irradiance t pi - 5/f 0 < t po < t pi + 6/f 0,test signal see fig. 1E e max.30W/m 2DirectivityAngle of half transmissiondistanceϕ1/2± 45degE eV O V VFig. 3 - Output Function Fig. 4 - Output Pulse Diagram Fig. 5 - Frequency Dependence of Responsivity Fig. 6 - Sensitivity in Bright AmbientFig. 7 - Sensitivity vs. Supply Voltage DisturbancesFig. 8 - Sensitivity vs. Electric Field DisturbancesEV O V V OL0.00.20.40.60.81.01.20.70.9 1.1 1.3f/f 0 - Relative Frequency16925E /E - R e l. R e s p o n s i v i t y e m i n.eFig. 9 - Max. Envelope Duty Cycle vs. Burst Length Fig. 10 - Sensitivity vs. Ambient TemperatureFig. 11 - Relative Spectral Sensitivity vs. WavelengthFig. 12 - Horizontal DirectivityFig. 13 - Sensitivity vs. Supply VoltageSUITABLE DATA FORMATThese products are designed to suppress spurious output pulses due to noise or disturbance signals. Data and disturbance signals can be distinguished by the devices according to carrier frequency, burst length and envelope duty cycle. The data signal should be close to the band-pass center frequency (e.g. 38 kH z) and fulfill the conditions in the table below.When a data signal is applied to the IR receiver in the presence of a disturbance signal, the sensitivity of the receiver is reduced to insure that no spurious pulses are present at the output. Some examples of disturbance signals which are suppressed are:•DC light (e.g. from tungsten bulb or sunlight)•Continuous signals at any frequency•Strongly or weakly modulated noise from fluorescent lamps with electronic ballasts (see figure 14 or figure 15)Fig. 14 - IR Signal from Fluorescent Lampwith Low ModulationFig. 15 - IR Signal from Fluorescent Lampwith High ModulationNote•For data formats with short bursts please see the datasheet for TSOP323.., TSOP325.., TSOP343.., TSOP345..0101520Time (ms)16920I R S i g n a l50101520Time (ms)16921I R S i g n a l5TSOP322.., TSOP348..TSOP324.., TSOP344..Minimum burst length10 cycles/burst 10 cycles/burst After each burst of lengtha minimum gap time is required of10 to 70 cycles ≥ 10 cycles 10 to 35 cycles ≥ 10 cycles For bursts greater thana minimum gap time in the data stream is needed of 70 cycles > 4 x burst length35 cycles> 10 x burst lengthMaximum number of continuous short bursts/second 18001500Recommended for NEC code yes yes Recommended for RC5/RC6 code yes yes Recommended for Sony codeyes no Recommended for Thomson 56 kHz codeyes yes Recommended for Mitsubishi code (38 kHz, preburst 8 ms, 16 bit)yes no Recommended for Sharp codeyesyesSuppression of interference from fluorescent lampsMost common disturbance signals are suppressedEven extreme disturbance signals are suppressedPACKAGE DIMENSIONS in millimetersLegal Disclaimer Notice VishayDisclaimerALL PRODU CT, PRODU CT SPECIFICATIONS AND DATA ARE SU BJECT TO CHANGE WITHOU T NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. 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Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereb y certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.分销商库存信息: VISHAYTSOP34838。

ATS 48软启动器厂家：schneider控制电源CL1-CL2主电源1/L1-3/L2-5/L3启动器旁路A2-B2-C2控制端子的出厂配置：CL1/CL2 控制电源R1A/R1C 故障继电器R2A/R2C 启动器旁路继电器R3A/R3C 电机通电STOP 停机RUN 开机L13/L14 可编程逻辑输入+24V 电源逻辑输入LO+ 电源逻辑输出LO1/LO2 电机热报警可逻辑编程输入AO1 4-20mA输出可编程模拟输出COM I/O公共端PTC1/PTC2 PTC（温度）传感器输入显示代码：nlp 主电源断开rdy 启动器已通电并待机tbs 末经过启动延时HEA 电机正在加热brL 启动器制动Stb 在级联模式下等待命令InF 内部故障断开控制电源后重新上电，如果故障仍然存在，应联系施耐德OCF 过电流：。

启动器输出短路。

内部短路。

旁路接触器粘连。

超过启动器额定值处理：关闭启动器电源。

检查连接电缆和电机隔离。

检查晶闸管。

检查旁路接触器（触点粘连）。

检查菜单drc中参数bst的值（电压升高水平，当一个运行命令存在100ms时即可施加一个可调整电压（tp0），当这段时间结束后，启动器将按照一个标准的加速斜坡启动，以初始力矩设定值（tp0）开始，在超过启动器额定值的情况下，参数bst的过高值将会导致启动器出现OCF脱钩PIF 相序颠倒电源倒相不符合pro菜单中PHr （防止线路相序颠倒）参数的选择EEF 内部存储故障断开控制电源后再重新连上，如果故障仍然存在，应联系施耐德CFF 通电时无效配置在高级设定菜单drc中返回出厂设定值，重新配置CFI 无效配置，通过串口载入启动器配置与之不兼容检查前一次的配置，载入兼容配置PHF 电源缺相电机缺相（注意pro中PHL的配置缺相阈值，如果电机某一相电流降至阈值以下并保持0.5s或三相电流全部降至此阈值以下持续0.2s，则启动器将锁定，并显示PHF，可以设置为启动器额定电流的5%到10%之间。

RM1E48AA100中文资料Rated operational Non-rep. voltage Control inputRated operational current voltage 25 A 50 A 100 A230 VAC 650 V p 4 - 20 mA RM1E23AA25RM1E23AA50RM1E23AA1000-10 VDC RM1E23V25RM1E23V50RM1E23V100400 VAC 850 V p 4 - 20 mA RM1E40AA25RM1E40AA50RM1E40AA100480 VAC 1200 V p 4 - 20 mA RM1E48AA25RM1E48AA50RM1E48AA1000-10 VDC RM1E48V25RM1E48V50RM1E48V100600 VAC1400 V p4 - 20 mA RM1E60AA25RM1E60AA50RM1E60AA1000-10 VDCRM1E60V25RM1E60V50RM1E60V100Switching mode Rated operational Rated operational Control input voltagecurrentE: Analog switching23: 230 VACrms*25: 25 AACrms AA: 4 - 20 mADC 40: 400 VACrms 50: 50 AACrms V: 0-10VDC**48: 480 VACrms 100: 100 AACrms60: 600 VACrms* For nominal operational voltage of 110VACrms, use RM1E23...** RM1E..V .. require an external supply voltageAC Solid State RelayAnalog switching (phase-angle control) for resistive and slightly inductive load applications ?4 - 20mA or 0 -10V control inputRated operational current: 25, 50 and 100 AACrms ?Rated operational voltage: Up to 600 VACrmsVariable intensity LED-indication according to input current Integral snubber networkProduct DescriptionThe analog switching relay works in accordance with the phase angle control principle,i.e., the output switching point in the AC sine wave depends on the control input which can be either 4-20mA or 0-10VDC.4 mA or 0VDC correspond to zero output power whilst 20 mA or 10VDC correspond to full output power (near linear pow-er response). The relay switch-es off every time the output current crosses zero, and switches ON in accordance with the applied control input.Solid State RelaysType SelectionSelection GuideGeneral Specifications** Heatsink must be connected to ground for 600V types Industrial, 1-Phase Analog Switching Type RM1ERM1E..AARM1E..VInput SpecificationsNote: The use of twisted pair cable for the control input is recommendedOutput SpecificationsFunctional DiagramNote: The supply circuit in the RM1E..V versions is provided with reverse pro-tection in case the female connector is reversed so as to have a reverse volt-age applied to terminals A1-A3. No reverse protection is provided on the con-trol and hence the terminal markings indicated should be respected to avoid any damage to the device.Heatsink Dimensions (load current versus ambient temperature)----5.00 K/W 3.00 K/W 2.70 K/W 2.00 K/W 1.35K/W 1.25 K/W 1.20 K/W 1.10 K/W 0.80 K/W 0.45K/W 0.40 K/W 0.25 K/W <0.25K/W ---- K/WCarlo Gavazzi Heatsink (see Accessories)No heatsink required RHS 300RHS 100 RHS 45C RHS 45B RHS 90A RHS 45C plus fan RHS 45Bplus fan RHS 112A RHS 301RHS 90A plus fan RHS 112A plus fan RHS 301 plus fanConsult your distributor Infinite heatsink - No solutionHeatsink SelectionThermal resistance...Note: For power dissipation values smaller than those shown above, please refer to the corresponding heatsink curve in the SSR Accessories Section is referred to.N/A > 0 W > 25 W > 55 W > 60 W > 60 W > 0 W > 0 W > 100 W > 80 W > 0 W > 0 W > 0 W N/A N/A..for power dissipation With the output fully ON (360°conduction angle)RM1E..25T AAmbient temp. [°C]25.022.520.017.515.012.510.07.55.02.5Powerdissipation [W]Thermal resistance [K/W]Loadcurrent [A]3.23 2.80 2.37 1.94 1.51 1.09233.70 3.21 2.73 2.24 1.75 1.26214.30 3.74 3.17 2.61 2.05 1.49185.07 4.41 3.76 3.10 2.44 1.78156.12 5.33 4.54 3.75 2.96 2.17137.58 6.61 5.64 4.66 3.69 2.72109.808.557.306.054.80 3.55813.511.8010.098.37 6.664.946-18.315.713.0410.397.744-----72RM1E..50T AAmbient temp. [°C]50.045.040.035.030.025.020.015.010.05.0Powerdissipation [W]Thermal resistance [K/W]Loadcurrent [A]1.25 1.070.880.700.520.34551.46 1.251.040.840.630.42481.73 1.49 1.25 1.010.770.52412.08 1.80 1.51 1.230.940.66352.56 2.22 1.87 1.53 1.180.84293.24 2.81 2.38 1.95 1.52 1.09234.26 3.71 3.15 2.59 2.03 1.47185.99 5.22 4.45 3.67 2.90 2.12139.498.277.06 5.85 4.64 3.438-17.515.012.49.917.394203040506070RM1E..100T AAmbient temp. [°C]100.090.080.070.060.050.040.030.020.010.0Powerdissipation [W]Thermal resistance [K/W]Loadcurrent [A]0.600.520.430.340.260.171170.740.640.540.440.340.241010.910. 790.680.560.450.33871.090.960.820.680.550.41731.33 1.16 1.000.830.660.50601.66 1.45 1.24 1.040.830.62482.16 1.89 1.621.35 1.080.81373.012.64 2.26 1.88 1.51 1.13274.73 4.143.55 2.962.37 1.78179.948.707.45 6.21 4.973.738203040506070Thermal SpecificationsInsulationApplicationsThis relay is suitable for control of heaters, lighting andslightly inductive loads such as small fans. The relay can also be used for soft turn-on of high-power incandescent lamps.Transfer CharacteristicsOutput power as a function of control inputControl current (mA)Control voltage (VDC)Output power4008 2.52512550167.5752010994 to U lineU lineRM1E..V ..。

• Three phase energy transducer• Class 0.5S (kWh) according to EN 62053-22• Accuracy ±0.5% RDG (current/voltage)• Current measurement via CT• Energy measurement: kWh and kvarh (imported/exported); kWh+ by 2 tariffs; kWh per phase• System variables: kW, kvar, kVA, VLL, VLN, PF, Hz, kWdmd, kWdmd peak• Phase variables: kW, kvar, kVA, VLL, VLN, A, PF • Auxiliary power supply • Dimensions: 3-DIN module • Protection degree (front): IP20• RS485 Modbus port • Run hour meter• Neutral current calculation• Digital input (for tariff management)• Easy connectionProduct description Three-phase energy transducer. Particularly indicated for active energy metering and for cost allocation (CT connection), with dual tariff management availability. It can measure imported and exported energy or be programmed to consider onlythe imported one. Housingtransducer is provided with RS485 Modbus port.Energy Management Energy Transducer Type ET330Type SelectionRange codeAV5: 400 to 480 VLL ac -5(6) A (CT connection)230 to 277 VLN ac - 5(6) A (CT connection)Power supply H:auxiliary power supply 100 to 240V ac/dcOutput S1:RS485 Modbus portSystem 3:3-phase, 3- or 4-wire; 2-phase 3-wire, 1-phase 2 wireOption X: noneET330Input specificationsET330Baud rate 9.6 kbaud, no parity Address 1 Data refresh time 1 sRead command50 words available in 1 read commandOptical port LEDs LED axial distance 6.5 mmLED function- Upper LED is a receiver (from the master to the transducer- Lower LED is a transmitter (from the trasducer to the master).Digital input specificationsDigital inputs Free of voltage contact FunctionTariff management (switch between t1-t2)Number of inputs 1 Contact measurement voltage 5 V Input impedance 10 Mohm Contact resistance ≤1 kohm, close contact≥100 kohm, open contactOverloadIn case a voltage iserroneously applied to the digital input, the input is not damaged up to 30 V ac/dc.Output specificationsET330General specificationsPower supply specificationsAuxiliary power supplyH: 100 to 240 V ac/dcPower consumption≤ 1W, ≤ 8VAET330Accuracy (according to EN 62053-22 and EN 62053-23)Insulation (for 1 minute) between inputs and outputskWh,accuracy (RDG) depending on the current+1%+0.5%0%-0.5%-1%PF=10.05A0.25A 5A(I n )6A(I max )(0.05I n )(0.01I n )kvarh, accuracy (RDG) depending on the currentClass 2 accuracy limits (Reactive energy)5(6)A Start-up current: 5mAError+2.5%+2%0%-2%-2.5%sin j =10.1A0.25A 5A(In)6A(I max )0.5A sin j =0.5(0.05In)(0.1In)0.25A(0.02In)(0.05In)Class 0.5S accuracy limits (Active energy)5(6)A Start-up current: 5mA+1%+0.6%0%-0.6%-1%0.1A 5A(I n )6A(I max )PF=L0.5or C0.8(0.02I n )0.5A (0.1I n )ET330ET330Wiring diagrams (cont.)ET330Front panel descriptionDimensions1. LEDPower-ON LED with communication indication (when blinking)2. LEDLED proportional to kWh reading3. Optical portOptical port for data transmission or programming 4. RJ45 Modbus RTU ports (RS485)Modbus ports for fast bus connection. The ports are in parallel. The screw terminals can be used as well (same Modbus port).。

创佳彩电产品介绍按产品功能介绍USB电影播放功能：创佳电视32HME5000 X12创佳电视42LWE6300 F1创佳电视19HDE3000 V6创佳电视32HME8000 R35创佳电视22HZE9000 C68创佳电视32HZE9000 C68创佳电视19HZE9000 C68创佳电视26HZE9000 C68创佳电视32LME7000 T25创佳电视43HPD6000 K91创佳电视40HZE9000 C68创佳电视46HZE9000 C68创佳电视32LME8800 E6创佳电视51HPD6000 K91创佳电视22HDE3000 V655HZE9000 C6839HWE6300 F1创佳电视32HDE3000 V6创佳电视40LME8800 E6互联网电视功能：创佳电视32HME5000 X12创佳电视32LME8800 E6创佳电视40LME8800 E6电视/显示屏两用功能：创佳电视32HME5000 X12创佳电视19HDE3000 V6创佳电视22HZE9000 C68创佳电视32HZE9000 C68创佳电视32LME7000 T25创佳电视40HZE9000 C68创佳电视46HZE9000 C68创佳电视32LME8800 E6创佳电视22HDE3000 V6创佳电视 55HZE9000 C68创佳电视32HDE3000 V6创佳电视40LME8800 E6超窄边电视功能：创佳电视42LWE6300 F1创佳电视32HME8000 R35创佳电视32LME7000 T25创佳电视39HWE6300 F1内容总结。

英飞凌各代IGBT模块技术详解IGBT 是绝缘门极双极型晶体管（Isolated Gate Bipolar Transistor）的英文缩写。

它是八十年代末，九十年代初迅速发展起来的新型复合器件。

由于它将 MOSFET 和 GTR 的优点集于一身，既有输入阻抗高，速度快，热稳定性好，电压驱动（MOSFET 的优点，克服 GTR 缺点）；又具有通态压降低，可以向高电压、大电流方向发展（GTR 的优点，克服 MOSFET 的缺点）等综合优点，因此 IGBT 发展很快，在开关频率大于 1KHz，功率大于 5KW 的应用场合具有优势。

随着以 MOSFET、IGBT 为代表的电压控制型器件的出现，电力电子技术便从低频迅速迈入了高频电力电子阶段，并使电力电子技术发展得更加丰富，同时为高效节能、省材、新能源、自动化及智能化提供了新的机遇。

英飞凌／EUPEC IGBT 芯片发展经历了三代，下面将具体介绍。

一、IGBT1－平面栅穿通（PT）型 IGBT （1988 1995）西门子第一代 IGBT 芯片也是采用平面栅、PT 型 IGBT 工艺，这是最初的 IGBT 概念原型产品。

生产时间是 1990 年－ 1995 年。

西门子第一代 IGBT 以后缀为“DN1” 来区分。

如 BSM150GB120DN1。

图 1.1 PT-IGBT 结构图PT 型 IGBT 是在厚度约为 300－500μm 的硅衬底上外延生长有源层，在外延层上制作IGBT 元胞。

PT-IGBT 具有类 GTR 特性，在向 1200V 以上高压方向发展时，遇到了高阻、厚外延难度大、成本高、可靠性较低的障碍。

因此，PT-IGBT 适合生产低压器件，600V 系列 IGBT 有优势。

二、IGBT2－第二代平面栅 NPT-IGBT西门子公司经过了潜心研究，于 1989 年在 IEEE 功率电子专家会议（PESC）上率先提出了 NPT－IGBT 概念。

由于随着 IGBT 耐压的提高，如电压VCE≥1200V，要求 IGBT 承受耐压的基区厚度dB>100μm，在硅衬底上外延生长高阻厚外延的做法，不仅成本高，而且外延层的掺杂浓度和外延层的均匀性都难以保证。