BL-R4533中文资料

ChipAbsolute MaximumRatingsElectro-optical Data (At 20mA) ViewingAngle 2θ 1/2(deg)DrawingNo. Vf (V)Iv (mcd)Package Part No.Material/EmittedColorPeak Wave Length λp (nm) Lens Appearance∆λ (nm) Pd (mw) If (mA) Peak (mA)Typ Max Typ.BL-R5131GaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 1.0 BL-R4531 GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 7.0 BL-R2131 GaP/GaP/Green 568 Green Diffused 30 80 30 150 2.2 2.6 7.0 BL-R3131 GaAsP/GaAs/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 6.0 BL-R4131GaAsP/GaP/Orange 635 Orange Diffused 45 80 30 150 2.0 2.6 7.0 2.0x4.0x 7.0mm 1.0″ LeadRectangular Flangeless BL-R9131 GaP/GaP/Pure Green 555 Green Diffused 25 80 30 150 2.2 2.6 1.0 120L-025BL-R5421DGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 6.0 BL-R4621DGaAsP/GaP/Hi-Eff Red 635 Red Trans 45 80 30 150 2.0 2.6 12.0 BL-R2421D GaP/GaP/Green 568 Green Trans 30 80 30 150 2.2 2.6 12.0 BL-R3421D GaAsP/GaP/Yellow 585 Yellow Trans 35 80 30 150 2.1 2.6 10.0 BL-R4421DGaAsP/GaP/Orange 635 Orange Trans 25 80 30 150 2.0 2.6 12.0 1.3x4.0x4.0mm 1.0″ Lead RectangularBL-R9421D GaP/GaP/Pure Green 555 Green Trans 30 80 30 150 2.2 2.6 1.0 80L-026BL-R5121FGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 0.6 BL-R4521F GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 3.0 BL-R2121FGaP/Gap/Green 568 Green Diffused 30 80 30 150 2.2 2.6 3.0 BL-R3121FGaAsP/GaP/ Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 2.5 1.9x3.1x 4.0mm0.5″ LeadRectangular BL-R4121FGaAsP/GaP/Orange 635 Orange Diffused 25 80 30 150 2.0 2.6 3.0 120L-027BL-R5421GGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 0.6 BL-R4621G GaAsP/GaP/Hi-Eff Red 635 Red Trans 45 80 30 150 2.0 2.6 3.5 BL-R2421G GaP/GaP/Green 568 Green Trans 30 80 30 150 2.2 2.6 3.5 1.2x3.4x4.0mm 0.5″ Lead RectangularBL-R3421GGaAsP/GaP/Yellow 585 Yellow Trans 35 80 30 150 2.1 2.6 3.0 60L-028BL-R5141HGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 1.0 BL-R4541HGaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 4.0 BL-R2141H GaP/GaP/Green 568 Green Diffused 30 80 30 150 2.2 2.6 4.0 BL-R3141H GaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 3.0 BL-R4141HGaAsP/GaP/Orange 635 Orange Diffused 45 80 30 150 2.0 2.6 4.0 1.7x4.0x6.9mm 1.0″ Lead RectangularBL-R9141H GaP/GaP/Pure Green 555 Green Diffused 25 80 30 150 2.2 2.6 0.5 140L-029BL-R5132GaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 6.0 BL-R4632GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 10.0 BL-R2132 GaP/GaP/Green 568 Green Diffused 30 80 30 150 2.2 2.6 10.0 BL-R3132 GaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 8.0 BL-R4132GaAsP/GaP/Orange 635 Orange Diffused 25 80 30 150 2.0 2.6 10.0 2.0x5.0x7.8mm 1.0″ Lead RectangularBL-R9132 GaP/GaP/Pure Green 555 Green Diffused 30 80 30 150 2.2 2.6 1.5 120L-030BL-R5132BGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 0.8 BL-R4532B GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 5.0 BL-R2132BGaP/Gap/Green 568 Green Diffused 30 80 30 150 2.2 2.6 5.0 BL-R3132BGaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 4.0 2.0x5.0x 7.5mm1.0″ LeadRectangular BL-R4132BGaAsP/GaP/Orange 635 Orange Diffused 25 80 30 150 2.0 2.6 0.4 120L-031BL-R5132CGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 0.8 BL-R4532C GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 4.0 BL-R2132C GaP/GaP/Green 568 Green Diffused 30 80 30 150 2.22.64.02.5x5.1x5.4mm 1.0″ Lead RectangularBL-R3132CGaAsP/GaP/Yellow585Yellow Diffused3580301502.1 2.63.0130L-032Notes: 1. All Dimensions are in millimeters (inches).2. Tolerance is ±0.25mm (.010″)STANDARD LED LAMPS (RECTANGULAR TYPES)ChipAbsolute MaximumRatings Electro-optical Data (At 20mA)Vf (V) Iv (mcd)PackagePart No.Material/EmittedColor Peak Wave Length λP (nm) Lens Appearance£G λ (nm) Pd (mw) If (mA) Peak (mA) Typ Max Typ ViewingAngle 2θ 1⁄2 (deg)Drawing No. BL-R5132RGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 1.2 BL-R4532RGaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 8.0 BL-R2132R GaP/GaP/Green 568 Green Diffused 30 80 30 150 2.2 2.6 8.0 BL-R3132R GaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 7.0 BL-R4132RGaAsP/GaP/Orange635 Orange Diffused 45 80 30 150 2.0 2.6 8.0 1.9x5.0x6.8mm 1.0″ Lead RectangularBL-RX1132R GaP/GaP/Hi-Eff Green 568 Green Diffused 30 80 30 150 2.2 2.6 12.0 140L-033BL-R5432TGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 30.0 BL-R4632TGaAsP/GaP/Hi-Eff Red 635 Red Trans 45 80 30 150 2.0 2.6 80.0 BL-R2432T GaP/GaP/Green 568 Green Trans 30 80 30 150 2.2 2.6 80.0 BL-R3432T GaAsP/GaP/Yellow 585 Yellow Trans 35 80 30 150 2.1 2.6 70.0 BL-R4432TGaAsP/GaP/Orange635 Orange Trans 45 80 30 150 2.0 2.6 80.0 2.4x5.0x8.6mm 1.0″ Lead RectangularBL-RX1432T GaP/GaP/Hi-Eff Green 568 Green Trans 30 100 30 150 2.2 2.6 100 40L-034BL-R5133GaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 0.8 BL-R4533GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 5.0 BL-R2133 GaP/Gap/Green 568 Green Diffused 30 80 30 150 2.2 2.6 5.0 BL-R3133 GaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 4.0 BL-R4133GaAsP/GaP/Orange 635 Orange Diffused 45 80 30 150 2.0 2.6 5.0 1.4x4.7x7.0mm 1.0″ Lead RectangularBL-RX1133 GaP/Gap/Pure Green 568 Green Diffused 30 80 30 150 2.2 2.6 8.0 125L-035BL-R5130GaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 1.0 BL-R4530 GaAsP/GaP/Hi-Eff Red 635 Red Diffused 45 80 30 150 2.0 2.6 7.0 BL-R2130GaP/GaP/Green 568 Green Diffused 30 80 30 150 2.2 2.6 7.0 BL-R3130GaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 6.0 5.0x5.0x 7.1mm1.0″ LeadRectangular BL-R4130 GaAsP/GaP/Orange 635 Orange Diffused 25 80 30 150 2.0 2.6 7.0 150L-036BL-R5130NGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 1.0 BL-R4530NGaAsP/GaP/Hi-Eff Red 635 Red Diffused45 80 30 150 2.0 2.6 7.0 BL-R2130N GaP/Gap/Green 568 30 80 30 150 2.2 2.6 7.0 BL-RX1130N GaP/GaP/Hi-Eff Green 568 Green Diffused 30 80 30 150 2.2 2.6 10.0 BL-R3130NGaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 6.0 5.0x5.0x7.1mm 1.0″ Lead RectangularBL-R4130N GaAsP/GaP/Orange 635 Orange Diffused 45 80 30 150 2.0 2.6 7.0 150L-037BL-R513PGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 2.0 BL-R453PGaAsP/GaP/Hi-Eff Red 635 Red Diffused45 80 30 150 2.0 2.6 8.0 BL-R213P GaP/GaP/Green 568 30 80 30 150 2.2 2.6 8.0 BL-RX113P GaP/GaP/Hi-Eff Green 568 Green Diffused 30 80 30 150 2.2 2.6 11.0 BL-R313PGaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 7.0 3.7x6.3x6.8mm 1.0″ Lead RectangularBL-R413P GaAsP/GaP/Orange 635 Orange Diffused 45 80 30 150 2.0 2.6 8.0 120L-038BL-R513TGaP/GaP/Bright Red 700 90 40 15 50 2.2 2.6 1.0 BL-R453TGaAsP/GaP/Hi-Eff Red 635 Red Diffused45 80 30 150 2.0 2.6 6.0 BL-R213T GaP/GaP/Green 568 30 80 30 150 2.2 2.6 6.0 BL-RX113T GaP/GaP/Hi-Eff Green 568 Green Diffused 30 80 30 150 2.2 2.6 8.0 BL-R313TGaAsP/GaP/Yellow 585 Yellow Diffused 35 80 30 150 2.1 2.6 5.0 3.6x3.6x7.2mm 1.0″ Lead RectangularBL-R413TGaAsP/GaP/Orange635Orange Diffused4580301502.02.66.0120L-039元器件交易网元器件交易网STANDARD LED LAMPS (RECTANGULAR TYPES)Notes: 1. All Dimensions are in millimeters (inches).。

INSPIRED BY EFFICIENCY操作说明书Interroll DriveControl DriveControl 20DriveControl 54DriveControl 2048制造商地址INTERROLL(Suzhou) Co. LTD.NO. 16 Huipu RoadSuzhou Industrial ParkJiangsu Province, P.R.ChinaZip code:215126英特诺物流机械（苏州）有限公司中国江苏苏州工业园区惠浦路16号；邮编215126内容我们力求信息的准确性，及时性和完整性，并精心准备了本文档中的内容。

无论如何，错误和更改均明确保留。

版权/知识产权文本，图片，图形等及其排列受版权保护和其他保护法的保护。

禁止以任何形式复制，更改，传播或出版本文档的部分或全部内容。

本文档仅用于提供信息和预期用途，无权复制有问题的产品。

本文档中包含的所有标记（受保护的标记，例如徽标和商业名称）均为Interroll AG，CH或第三方的财产，未经事先书面许可，不得使用，复制或分发。

在线版本 - 仅适用于彩色打印！目录1 关于本文档 7 1.1 本文档中的警告提示 81.2 符号 92 与安全相关的信息 10 2.1 最新技术水平 10 2.2 按规定使用 10 2.3 违反规定使用 10 2.4 员工资质 11 2.5 危险 12人身伤害 12电力 12工作环境 12运行中的故障 12维护 12无意中启动 12 2.6 与其他设备之间的接口 13 2.7 功能安全 13根据DIN EN ISO 13849-1:2015的性能水平信息 13 2.8 运行模式/运行阶段 14正常模式 14特殊模式 142.9 其他适用文档 143 产品信息 15 3.1 产品描述 15能量回收/过压保护 15过载保护 15信号变化的封闭时间 16 3.2 结构 16DriveControl20/DriveControl2048 16DriveControl54 17 3.3 供货范围 17DriveControl20/DriveControl2048 17DriveControl54 17版本 2.0 (07/2022) 在线原版操作说明书译文第3页/共58页第4页/共58页版本 2.0 (07/2022) 在线原版操作说明书译文目录3.4 DriveControl 20/DriveControl 54技术参数 183.5 DriveControl 2048技术参数 183.6 DIP 开关/旋转编码开关19DriveControl 20 19DriveControl 54 20DriveControl 2048 203.7尺寸21DriveControl 20/DriveControl 2048 21DriveControl 54 214 运输和储存 224.1 运输 224.2 储存 225 装配和安装 235.1 关于装配的警告提示 235.2 DriveControl 的装配235.3 关于电气装配的警告提示 245.4电气安装25连接供电25DriveControl 20/DriveControl 2048 25DriveControl 54 265.5输入和输出端27DriveControl 20/DriveControl 2048 27DriveControl 54 295.6接线图31DriveControl 20、DriveControl 54原理图 31DriveControl 2048原理图31DriveControl 20、DriveControl 54 、DriveControl 2048 最小电路 33多个故障信号连接到一个PLC 上34目录6 调试和运行 35 6.1 调试 35首次调试前的检测 35 6.2 配置选项 35调整速度 35DriveControl20、DriveControl54通过DIP开关预选速度 36DriveControl20、DrivControl54通过数字输入端预选速度 38DriveControl20、DriveControl54将DIP开关RAMP用于加速和制动斜坡时的加速度 40DriveControl2048通过旋转编码开关预选速度 41DriveControl2048通过数字输入端预选速度 42DriveControl2048旋转编码开关DIR/RAMP 43 7 维护和清洁 44 7.1 维护 44检查DriveControl 44更换DriveControl 447.2 清洁 458 故障帮助信息 46 8.1 故障查找 468.2 LED指示灯的含义 479 停止运行和废弃处理 48 9.1 停止运行 489.2 废弃处理 4810 附录 49 10.1 DriveControl20、DriveControl54接口的电气数据 49输入/输出端接口 49RollerDrive接口 51 10.2 DriveControl2048接口的电气数据 53输入/输出端接口 53RollerDrive接口 55 10.3 欧盟一致性声明译文 57版本 2.0 (07/2022) 在线原版操作说明书译文第5页/共58页版本 2.0 (07/2022) 在线第6页/共58页原版操作说明书译文版本 2.0 (07/2022) 在线原版操作说明书译文第7页/共58页关于本文档1 关于本文档有关本操作说明书的信息该操作说明书描述Interroll DriveControl 系统• DriveControl 20• DriveControl 54• DriveControl 2048接下来将使用“控制系统”这个名称来代替。

Service SchematicsRM-159/RM-245IMPORTANT:This document is intended for use by authorized NOKIA service centers only.N95原理图 一品无山版手机设计天下网到RD3721下载更多资料鼠标移近或点击标注， 即可看到“一品无山”的话14V /50VR 2003GNDR 200214V /50VJ2031C201410nVOUTVIOGND1u0C2019C2004/2 100nC20181u0C2004/2 100n B2NC B3B4PGND C1INL OUTR C2NCC3C1N C4D1SVDD OUTL D2D3SVSSPVSS D42C 1C N2000TPA4411YZHR A1INR A2SGND A3PVDDC1P A4B1_SDR _SDL 7RC CZ2001IP5311CX5_LF R 2A 1A B2GNDVOUTGNDC20072u22u2C200510U C201214DLM11GN601SZ2DL2002TS5A6542_YZTN20015=VOUT GND2,8=1NO NC3VIO46IN 7COMVIOJ2032GNDGNDC200227pGNDC201310nGNDR200910k13NC 4VIOIN 6COM 72,8=GNDVOUT 5=N2002TS5A6542_YZT NO 10kR 2006GNDGNDGNDJ20331.8V1.8V2.5V2.5VRM-245:C2004: 0u47RM-245:C2010: 0u47RM-245: 72nH此页是AV Connetor 图 AVconnector ：共6节源：耳机左右声道，耳机MIC TV-OUT ，GND220R/100MHzL2202WD ENABLE2GND1J2219610220R/100MHzL2205J2208J22172GNDL5SlClk L7TxCClk 1MBusTx VilmaIntK6TxCDa K7K9HV VDRAML10L2MicData AudClk L3TxC1J7VBack J8Gnd6K10VBat2K11SIMDetXK2K3PURX K4VRFC H10VR1H11Gnd5H2MBus H9HeadDet J10J11AFC F9VIO G11G5SleepX TxCCtrl G6G7WDDis G9VRef E6SIMIOC2E7VBat4F10F11VBat1RstX VBat5D11VAna E1VAux E10SIMIOC1VBatCP PMARN C4SIMRstC2C5C6SIMDa2C7SIMDaC1SIMDaC2C8VRCP1C9Gnd7B3VBatHB4EarDaL SIMRstC1B5B6SIMDa1SIMClkC1B7VSIM2B9C11PMARP A3EarDaR A4A5SIMClk1SIMClk2A6VSIM1A7VBat3A8A9SIMClkC2FlyHigh B10B11VCP A10FlyLow A11GND /2 1u52C22272x1u5/2 1u5/2 1u51C22202x1u53C22132x1u520B220032.768kHzGND5C223110u /2 1u51C22282x1u5GND /2 1u512x1u5C2227GND01GND /2 1u512x1u5C2232GNDC2232GND/2 1u522x1u5J2200GND C22221u01u50GNDJ2218C22251u0GND GND 4u7C2211C22132x1u51/2 1u5GND3GND 74GNDJ2213GND GNDC22261u07CLK H4H5DP_RXD DM_TXD H6H8Master_PD1G5RXD2Master_PD2G7Slave_PU G8F6VCCint F7VBAT3E4ChSwS E6VCharADC VCharOut2E7E8VCharOut1RstX D5VCharOutK D6VCharIn2D7VCharIn1D8SMPSClkE1E3SleepClk D1PurX SleepX D2VBAT1B5SetCurr B6B8LedCoil C1A4VBAT1A8LedCoil VPP_VIOB2GND1B33N2300BETTY_V2.1_LF GND1A2GNDGND1C23071u01u0C2303045J2308100n2C2300GND36J2300J23011215TXDRXD RXD2CLK 1302J2060GND G22002.6VGNDMBusRx J4J6ChSwSGND-tBettyInt D31J23022L4SerClk SerData K5SerSelX J501BettyFlash interface{SIM(6:0)J2216J2220J2221J2214J2215J2210J2211J2212J2206J2207J2209J2201J2202J2203J2204J2205GNDA5VcoreDis410J33001E A3C1HFSpN C3HFSpP B2A2VibraP A1VibraN C21091n0240R/100MHzL2106L2105240R/100MHzCLK ResetDa10212346782x1u5/2 1u52C2220GND L20007 1.8/3V101191.8V13.7V 0V: sleep 1.8V: active8292728PMICULPIData0ULPIData1ULPIData2ULPIData3ULPIData7130Y7SIMIOCtrl1Y9TxCDaCtrl Y17DISPC_DATA_LCD4Y18DISPC_DATA_LCD2DISPC_HSYNC Y19MMCDa3Y5Y6MMCDa1CBusDa CBusEn1X Y10PMARN Y11Y12I2SSCLK ETMTraceData8Y13Y15DISPC_DATA_LCD12DISPC_DATA_LCD8Y16W17DISPC_DATA_LCD7DISPC_DATA_LCD13W18W19DISPC_ACBIAS MMCDa W6SIMIODa1W7W11ETMTraceData5W12ETMTraceData7I2SSD1W13DISPC_DATA_LCD14W15W16DISPC_DATA_LCD9T9MMCClk ACITx U20ACIRx U21ETMTraceCtl T11ETMTraceData6T12T13DISPC_DATA_LCD16DISPC_DATA_LCD11T14R16GenIO17TxCClk K22MMCCmdDir H7EarDataR J16J21RXDa0G9GenIO15EarDataL H20ULPIDir G10G11USBVM_Clk D7GenIO13ULPIStp D8USBDSyncClk D9D17AudioClk GenIO29D22GenIO0D4GenIO11D6C9USBPUEn D11USBRCV_FRX2D12USBVP_FRX GenIO19D13C3MMCDaDir GenIO2C4C5GenIO6C6GenIO8C7GenIO12GenIO22C13MMCLSShutDn C2B4GenIO5B5GenIO7B6GenIO9B7GenIO14ULPIClock B8C10USBVOUSBFSE0_FTX C11B2GenIO1GenIO3B3TxCDa AB8B1ETMTraceData1USBOEXB11GenIO20B13GenIO21B14AB15DISPC_DATA_LCD15DISPC_DATA_LCD6AB18GenIO16AB19AB2ETMTraceData4DISPC_DATA_LCD0AB20MMCCmd AB5AA6MMCDa2SIMClk1AA7PMARP AA9ETMTraceData3AB1AB13I2SWS I2SSD2AA13DISPC_DATA_LCD17AA15AA16DISPC_DATA_LCD10DISPC_DATA_LCD5AA17DISPC_DATA_LCD3AA18AA19DISPC_DATA_LCD1AA20DISPC_PCLK DISPC_VSYNC AA21A3GenIO4A5GenIO10A8ULPINxt AA1ETMTraceData2ETMTraceClk AA12GenIO18A13A18MicData ETMTraceData0A2121514142411J280210103715213123069811591027801013102012134512ACI(1:0)INT_SIM(5:0)DIG_AUDIO(5:0)TXC(2:0)PCM(3:0)26252423312221201918171630292827131211109871565414U46V113V4R712T210T311T48U15U24U39N416N715R117R214R47M121M220M324M425M718N223N319K230K427L128L326L72229K131SDRDa10765432E4FlsOEX F3FlsWaitX F4FlsADVX C1FlsClk D2FlsRSTX D3FlsCSX E1FlsWEX E2FlsCS2X MEMCONT(15:0)A4VDD_RAPIDO VRFCVDDATX N19M19VDDARX D5, N16, L22, H8, H9, H10, H11, H12, H13, H14, H15, J8, J9, J10, J11, J12, J13, J14, J15, K8, K9, K10, K11, K12, K13, K14, K15, L8, L9, L10, L11, L12, L13, L14, L15, M8, M9, M10, M11, M12, M13, M14, M15, N8, N9, N10, N11, N12, N13, N14, N15, P8, P9, P10, P11, P12, P13, P14, P15, R8, R9, R10, R11, R12, R13, R14, R15, K20, R21, M16, P20, V21, R22=GNDMEMADDA5MEMADDA6MEMADDA3MEMADDA8MEMADDA12MEMADDA4MEMADDA11MEMADDA10MEMADDA0MEMADDA1MEMADDA7MEMADDA14MEMADDA13MEMADDA2MEMADDA9MEMADDA15MEMADDA(24:0)10765432CAWake ACFlag CAData CAFlag ACWake ACReady CAReady ACData GenIO67C12FM_INT Led_contr4Led_contr3Wlan_ClkReq BT_ClkReq Led_contr1Led_contr2Led_contr6Led_contr5131412117106150GEN_CTRL_CMT(20:0)W20GenIO66F20GenIO60F21GenIO59F19GenIO56Y21GenIO49J19GenIO55D16GenIO44C16GenIO45AVPlugDet IHF_AMP_ENAVVideoCtrl AVPaEn AVECICtrl 01234B12GenIO64D14GenIO23GenIO65W21GenIO63E20GenIO68V22GenIO41C17GenIO42B17Y22GenIO52a_sync 0G12GenIO62GenIO31Y14GenIO30W14L20GenIO40GenIO39L21GenIO33G15GenIO35D18D21D15GenIO28C20GenIO32C14GenIO27C18GenIO43C19GenIO37B18GenIO38B20GenIO34GenIO24B15A15GenIO26A20GenIO36J2850VM_CLKVP_FRX RCV_FRX2USBVP_FRX USBCV_FRX2USBFSE0_FTX FTXUSBVM_ClkULPIDir 679151413012GNDINTUSB(8:0)SDA SCLVIO 3k 3R 2853R 28523k 3Y20GenIO48GenIO51G20VIOSleepClk T20SysClk T21V20APESleepX SMPSClk T10SleepX T19PURX K21035641PUSL(7:0)2R 615910kC6158100nC615710nJ6201J8VSS_LNA2H9VBAT3J1VBAT1VBAT2J4VSS_LNA3J6H1TEST_IF_P VSS_IF H2H3TEST_IF_M H4VSS_ANALOGVSS_MIX H5VSS_LNA H7H8VSS_VCO SLEEPX_NF1VSS_DIG F2F8VSS_PLL G1GPS_EN_RESET D2VSS_DIG B7VSS_DIG VSS_DIG B8IO_PA_ENC1VSS_DIG C2C4VSS_DIG I2C_SCL_U1TX C7IO_INT_U1CLKA8IO_TIMESTAMP_DATRDYA4I2C_SDA_U1RX A5A6RTC_CLK E6213J6204E6212C6203100n GNDGNDGND100n VBATC6204BYPASS B213GPS_INT GPS_ENAGPS_TIMESTAMP 1203G13GenIO25H16GenIO57E21GenIO61GPS_PA_EN123SpeciallO5W10SpeciallO6AB10SpeciallO4AA10AA11SpeciallO7J3115J3116J3117J3118JTDI B22AB21JTDO JTMS AB22AA22JTClk A1EMU0JTrst A21AvilmaBettyAvilma, Betty, OMAPBluetooth{AvilmaJ62031.8V}1.8V143.7VRM-159: RAPIDOYAWE_V1.11_PA_385ZWKNC NC NCNC NC NC NC VIO_APENC NC22u C42061u5C4212DCDC3.VIN J8DCDC3.LJ9H6H7PWROK DCDC3.VOUTH8DCDC3.GND H9J1DCDC2.LJ2DCDC2.VIN 32KDETENJ3J4BG_CAP J5VDIG ONOFF J7G4G6GPIO1G7TESTEN/VPPVAUXG8VMMC_VAUX.ING9DCDC2.GNDH1H2DCDC2.VOUTH3NRESWARM GPIO2H4H5AVSS2UPRAVSS1F3NRESPWRON F4F6MC.S1DAT1DVSS1F7VREF05F8VIO_VMEM.IN G1G2VMEM VMODE G3GPIO3/nSLEEPE1VPLLE232KOUT E3INTE4E6MC.S2CD MC.S1CMD E7E8MC.S1CLK MC.S1DAT0E9F1VIO F2XOUT MC.S2DAT0C9VADAC D1D3HFCLK SCL D4SDAD5MC.S1CD D6MC.S2DAT1D7MC.S1DAT2D8D9MC.S1DAT3XIN MC.APPDIR3B6MC.APPDAT3B7B8MC.S2DAT2B9MC.S2DAT3C1CORE.GND C2CORE.GND MC.APPCLK C4MC.APPDAT0C5MC.APPDIR1C6MC.S2CMD C7MC.S2CLK C8MC.APPCLKF A4MC.APPCDIRA5MC.APPDIR0A6MC.APPDAT2A7A8DVSS2VMCS2A9MC.APPDAT1B3MC.APPCMD B4MC.APPDIR2B536N4200A1CORE.VIN A2CORE.VIN IO_IP8A3100nGND0GNDC4204GND100n VREF05_APEC4213GNDGND161u5C4211345L42054u7H22uVIO_APE1u5C4221GND100nGNDC4207C4219100n1u5C4214GNDV15_APE2GNDE4201C4202C421622u GNDL4204GNDGNDVAUX_APE4u7HGNDGND3J52004J5202J5204J5203D2CLK E1DATA1DATA0E2B1CD CMD B2WP C2DATA3_PUC3R 11R 12R 13R 14R 15R2EMIF09-SD01F3R5R6R1DATA2A1A2DATA3L5200GND600R/100MHzC5200100n25J5205J5206J5201061V18_APE{2/2 1u5C42002x1u5VMMC F9GND1.8V2.8V1.5V0.5V1.8V3VVersion: 3.0 29.01.2007 N95/ RM-159 RM-245 Board version: 1TB_13 1UH_02CCPDAPCCPDAN32spi1_clkY23spi1_ncs1W23W24spi1_ncs0U20spi1_ncs3spi2_simoU24V19spi1_somispi1_ncs2V23V24spi2_clkV25spi2_somiR20msbsp1_fsrspi1_simoH10AA24spi2_ncs0P7cam_vscam_hsV4AC6cam_d8AC7cam_d9213663435212ALT_GPIO53GPIO93ALT_GPIO54GPIO87GPIO56GPIO55NC6710837613J48191015812615J482017101J4818J48232174119974W82W9gpmc_clkP3gpmc_ncs7T4gpmc_wait3T8gpmc_ncs3gpmc_ncs5M1gpmc_nweM2int0M7gpmc_ncs61M8N1gpmc_noeN2gpmc_wait2gpmc_nadv_ale N8P16AF910D57E4G4gpmc_ncs2H8gpmc_ncs48J7K3AE4int13AF10AF14gpmc_ncs1AF19gpmc_ncs0AE12gpmc_wait0AE15gpmc_nwp5AE16AE189AE20gpmc_wait1GPMCGPMC_A2159516332105411813893J4821161J4822712144GPIO26GPO29GPO31GPIO6GPIO10GPIO9GPIO3GPIO23GPIO25GPIO27GPIO28GPIO35GPIO34GPIO33GPIO24GPIO22GPIO8GPIO7GPIO5GPIO4GPIO12GPIO11gpmc_nbe1U3gpmc_nbe0AF12J48401GPO30NC161J4810J4806J48055J4808J4811613774J48372141414109152W26Y25sdrc_ncs1Y26sdrc_ncs0N2554P25R257R266T258T2611tqV313W2512H25010H26L252L263M251M269D135D2F11F26B37B49B714B8C1sdrc_dm0C2sdrc_dqs0B1217B14B1518B16sdrc_nclkB19sdrc_dqs22B2AC26sdrc_nrasAE23sdrc_nweAE25sdrc_cke1AF24sdrc_cke0sdrc_dqs1B1011B118A23sdrc_dm3A24sdrc_dqs34A3A61315A7sdrc_dm1A8AA25sdrc_ncasAA2614A1012A11A121619A14sdrc_clk A15A17sdrc_dm2A20A2120SDRC_ASDRAMSDRC_D1010111413121118J48095J4802331912J4801813J4804J48001J4807J485017ALT_GPIO38GPIO1GPIO08J4803sdrc_ba1sdrc_ba0AF23AC2594J483915111092125138V15V89Y113P210T112U1U21115H114H2AE37AE54AF33AB1AB22AC26GPMC_DAA21J4824871112131415J483814361ALT_GPIO15ALT_GPIO16ALT_GPIO17ALT_GPIO13ALT_GPIO14tv_cvbs AD23AB26tv_vrefAC23tv_rref12VREF05_APEALT_GPIO62G24uart3_tx_irtxH24uart3_rx_irrxM20uart3_rts_sd1IRRXDIRTXDIRSDGNDJ460222pC460221J4600J4601RXDSD4TFBS5700-TR32TXD3TV_BUFFER_ENRREFCVBS INA1A2GNDOUTGNDGND100nC5650VAUX_APEEMIF01-TV01F3R56502=1IN+3RSETOUT4ENABLE521GNDVAUX_APEN5650OPA361AIDCKR6GNDgpio_6D64J4831J48308335J482991610mmc_dat_dir2H17mmc_dat0H20mmc_dat2H23mmc_clkommc_cmdJ24mmc_cmd_dirmmc_clkimmc_dat_dir1mmc_dat3E23mmc_dat_dir3mmc_dat_dir0mmc_dat1G19119251011J4827477J4833J48348J4832J4828ALT_GPIO7GPIO78GPIO77GPIO76GPIO75GPIO59GPIO80GPIO79GND1C11msbsp1_fsx R23GPIO97i2c2_sda K19i2c2_scl L191R486VIO_APER4852k22k2I2C2_APE(1:)Acc. interruptSCL/SCLKGNDGNDGNDINT1/DRDY89INT2N1100ADXL340KCPZVdd_IOGNDSDO12SDA/SDI/SDIO13141GNDGNDGND1nC113C1121nSH248CSPN11011VDDOutput23GNDR111kVIO_APE VAUXG23D23F23D24C23J23TV out amplifierIrDASlide sensorAccelerometer 87GPIO_APE(125:0)971GPIO_APE(125:0)3331292827232.8V1.8V1.8V2.8V1920RM-245: LIS302DLOMAPEXTCLKSDA INDICATOR ZARAH_XSHUTDOWN FLASH_CONT_2SCL XSHUTDOWN GBLRSTFLASH_CONT_1ZARAH_STROBE 1110901112114131211109871565434GNDNC F3NC NC F8G3NC NCH3D9E8E3D2E1NC NC E10NC E2E9C2C3B2B3A2B9C8C9D8BA0H9H10BA1A9B8D3H2DATA I/OA1,F1,K1,B10,D10,A3,C1=GNDJ81102J541314k7R54146R54134k759101112131415123456781413010330RR5415GPIO7P7GPIO11P8GPIO15P9GPIO10N8GPIO14N9GPIO23P10P11VOUT5VOUT2P12N12VOUT3N13VOUT1TDO N3GPIO6N7GPIO5M7M8GPIO9GPIO13M9GPIO22N10N11VOUT6GPIO17M10M11VOUT7VOUT4M12VOUT0M13M14VCLK TCK M2TDI M3TMS L2L3TRST GPIO4L7GPIO8L8GPIO12L9RSTN K2VSEL K3GPIO16L10GPIO24L11VSYNC L12HSYNC L13GPIO26L14GPIO34J14TEST J2PLL1GNDAJ3GPIO27K11K12GPIO28GPIO29K13GPIO30K14CCP_IREF H2PLL1VDDA H3GPIO31J11GPIO32J12GPIO33J13CCPRVDD G2PLL0VDDA G3GND H1GPIO35H11GPIO36H12SDR_DQ15F11F12SDR_DQ14SDR_DQ13F13SDR_DQ12F14CCPTVDD F2PLL0GNDA F3GND G1CCPX_SP E1E12SDR_DQ11SDR_DQ10E13SDR_DQ9E14AD_CH0E2ADCGND E3CCPX_SN F1SDR_DQ7D14AD_CH1D2AD_CH2D3SCLK0D5SDR_A1C5SDI0SDR_A0C7CCPX_DN D1CCPX_DP C1SDR_DQ1C11SDR_DQ6C12C13SDR_DQ5C14SDR_DQ4ADCVDDA C2SDO0C4PWRDN1B2GND B3B4XVDD BTSEL1B5SDEN0B6SYSCLK A6SDR_DQ0B11SDR_DQ3B12SDR_DQ8B13J4,K4,K5,E8,E9,E10,D11,E11,K9,K10,E5,E6,E7=V18_APE F6,F7,F8,F9,F10,G10,H10,J10,K6,K7,K8=V15_APEA12SDR_DQ2XIA3GND G9,H9,J9,G8,H8,J8,G7,H7,J7,G6,H6,J6,F5,G5,H5,J5,D4,E4,F4,G4,H4=03GND G E S D R _D A T A (15:0)HIRES_I2C(1:0)CAM_CPU_ACC_CTRL(12:0)SDASCL FLASH_CONT_1INDICATOR EXTCLKZARAH_STROBEGBLRST XSHUTDOWNFLASH_CONT_2ZARAH_XSHUTDOWN 6VBATGND5GNDGND3R 3R 5452117GND8SW 1TK11892F-GN5451U//U1Vin CONT12CONT234VFB15VFB2EAOUT 61GND C 54534u 7100n3u3HL5450C546120C54631u5C546410u J5450J54513GNDSHUTTERSHUTTER_COMMONLDO_ACTF64E1GND_DRIVESTAGE1SHUTTER_GND VBAT F2PWR_DRIVESTAGE1SHUTTER_VBAT POSSENS1C5BIASRESD5LDO_COMPSDAA6EXTCLKSTROBE B2SCL B3ANAGND B4POSENAFB5B6POSENZ PWR_DRIVESTAGE2C1AD5801_WLCSPN5452A2XSHUTDOWN A3DIG_GND VAUX A5GNDGNDGPIO0B7GPIO2A7D6SDA0C6SCL0XO A4N2CSEL A5BTSE0V18_APECCP_APE(3:0)POSSENS2GPIO_APE(125:0)32R 541082R1CCPR_SNM1CCPR_SP L1CCPR_DN K1CCPR_DP J1082RR 5411Flashlight driver{OMAPAutofocus/shutter driver02167453_CS G10_RAS _WE G8F9LDQMUDQM F2_CAS G9H8CKE G1G2CLK 67405321J5414SDR_CKE H13SDR_WE H14SDR_RAS G12SDR_CS G13SDR_CLK G14SDR_CAS G11SDR_DQMLL D13SDR_DQMLH D12G E S D R _C T R L (7:0)1.8V3.7VGNDR6304100RVBATC63302u2GND1M0R6300GNDGNDJ63111u0C63073GND 8BTH GND 1OUT 11NC14PA_EN 15GND162TXIN 17=GNDGNDGND21J6312GND OUTINZ63002450MHz GND R12R13RFACTIVE GP2_9R14GP1_4P9R10GP2_8UART_SIN P13STATUS TX_CONF P14LB_VPA N10N14GP1_15GP2_10N15N16GP1_13M11UART_SOUT POR_V4M4POR_V2M7L10I_TEST-L11Q_TEST-L7GPI1_2L9I_TEST+FREQ M10Q_TEST+K10GPIO_0F4F5RSRV_NC RSRV_NC F6F7RSRV_NC TX_OUT G1RSRV_NC RSRV_NC E15E5RSRV_NC E6RSRV_NC F12RSRV_NC RSRV_NC D6D7RSRV_NC RSRV_NC E13E14C7RSRV_NC D16GP2_11C14RESETN GP2_13C15GP2_12C16RSRV_NC C6B13B16RSRV_NC STANDBY1B4B5STANDBY2B6PWR_RESETB7TEST RSRV_NC B8IRES A5A6CREF A7GP2_2RSRV_NC A8B1RSRV_NC B11TRSTnB12TMS TCK RSRV_NC A1TDI A11TDO A12REF_CLK A13A15RSRV_NC RSRV_NC A16A2RSRV_NC C63296p8GNDGNDGNDGNDJ6305J6304220pC6335GNDWLAN_BT(6:0)PCM_CLK UART_CTS BT_RESETX UART_RTS PCM_SYNC UART_TX B T H _C L K _R E QUART_RX PCM_OUT PCM_IN C60512p73012VIO_APE2p7C6052GNDE5PIO5RESETB E7PIO9F1AUX_DAC F2PIO7D4PCM_OUT D5PIO6D7E1RF_B RF_A E2C5PCM_SYNC VSS_DIG C7D2RF_IN UART_RTS UART_TX B5B6PCM_CLKPCM_IN B7BC4-ROM1.0RDLUART_RX A5A6UART_CTS A72n7HL603104321L60302n7HT60301346LDB182G4505C-110GNDSYS_APE(15:0)R6030BT_WAKEUP UART_CTS_P UART_WAKE G1PIO2PIO3G2E6PIO4645LPRF_APE(6:0)PCM(3:0)D13OSC_EN 021Bluetooth100kR 645574LVC1G32YZTR GND3=VIO_APE 5=1D645012GND100kR 6454J6000J6008J6007J6006J6005J6002J6003J6321J6322J6323J6310RapidoOMAP GND1.8V3.7V1.8V if WLAN is activePlease note the following for RM-245:- Z6030 replaces the balun T6030. In this case the output of Z6030 is directly connected to N6400.- BTH_CLK_REQ from N6030 is directly connected to regulator N6453.GNDBal LFB2H2G44BB2A257Z6030 (RM-245 only!)2441.75MHz Unbal DCGNDBalto N6400Connection applies to RM-245 only!9kbc_3kbr_6kbr_4kbr_6kbr_2kbc_16Vol Downkbc_442kbr_35kbc_081kbc_2kbr_1kbr_40*kbr_5kbr_037#S4415215611S4409GNDS4413GND3S4414312710GND10GND1168B1B2B1B2GNDGND1624S4406569S4408GND0S4404S4410GNDS4405S441141S4412S440351277S4407452140300GNDS60(7:0)FC_I2C(1:0)LCD(12:0)GenIO67GenIO59s .y .GenIO49GenIO60GenIO66GenIO56D6E1C2-E3D4A E5D2A E7EN-B B4EN-A B6C1VIN C3D3BC5D1B C7ISET GNDD2D3A D4D1A N1150LM2796TLXC1+A1A3POUTC2+A5A7EN B2C1-D2B C11534u70RR 11527GNDJ1151C11511u0VBAT1u0C1150BETTYIO(3:0)Betty GenOut2VAUXCOMVIOTS5A6542_YZT 5=VAUX GND2,8=N44001NO NC 3VIO46IN72Keyboard illuminationITU keys1.8V2.8V3.7V3.7V主KeypadCSX VDDLVDDENDLeftSKkbc_056J221S202 J2221J212S203 68R47RR23R222C27PEMT1V20022p7GND322pC29GND59J21345J21656GND6 2GND7J211V200PEMT1100n1022pC286J2178S2012GND4GNDC2111n 19V/3V319V/3VR25R2441CL-194S-WRA-SD-TV2013J215J2142202122233456789X200GND11011121314151617181919V/3VR2R2119V/3VVIO_APEVAUX1nC21567GNDJ22311CL-194WMA-SD-TV2044GND1J32537J319GNDJ324600R/100MHz J318V202CL-194WMA-SD-T12J21812V203CL-194WMA-SD-TJ326GNDJ322J323GNDS204J320J321J316J317ccp_clknlcd_rdxlcd_led_inkbc_3kbc_2kbc_1kbc_0kbr_0kbr_1lcd_wrxlcd_data0lcd_data1lcd_data2lcd_data3lcd_resxlcd_telcd_data4lcd_data5lcd_data6lcd_data7lcd_d_cxui_led_inlcd_led_outs60_led_outccp_dpccp_clkpS60 keyboard illuminationDisplay connectorS60 keys1.8V2.8V滑盖子板23pin LCM连接器只有8bit数据线！836.5/881.5MHz6n 8HL 7589L 758812n HR7530470R26VCC 2835Vbat VID67Icont_I In_19VCC 12VCC In_214Icont_h 16Vbat 182NC/GND Vreg2021Vdet Out_22325VCC OUTRF3278E4.1N7540112400-2483MHz Z7521IN12n HRXOUT_NI M4SCLK M5M6XRESETVVCO_CAP LO_INM8REFP M9VREF_CM L2RFC11L3L4RXOUT_PQ RXOUT_NQ L5L6SDATA L8VCO_CTRLL9OSCIN M10REFG RXOUT_PI K4XENA K5REFN K9RFC10L1L10CBUF_CAPJ11TXQ_0J12TXQ_180K10DAC_REF1RFC5K11DAC203G11G12P_OUTN G2C2IP G3C1IP H1RBEXT_RX H11TXI_180TXI_0H12C1IN H3G_OUTN E12VBEXT E2E3C1QP C2QP F1F12P_OUTP F2C2QNF3C1QN G1C2INC8C9MUX_INW_OUTP_L D10W_OUTN_L D11G_OUTP D12RFC4D2C10ENV_DETW_OUTN_H C12INN_MIX_L C2RFC1C4RFC6C7RFC7DET B11B12W_OUTP_H INP_MIX_L B2RFC2B4RFC3B5OUTN_850B6B7OUTP_850RFC8B8A11INN_850A2INP_2150A3INN_2150A4INP_1900INN_1900A5INP_1800A6INN_1800A7INP_900A8A9INN_900THERMAL BALLS=GNDA10INP_850L 7500T7502HHM1749K1123451n0C7553C75498n2470RR752910kR7543R75440R22pC7524N7590Z7504INOUT OUT942.5MHzC75501n012345OUT_Band 2IN_Band 2IN_Band 5IN_Band 5T7580HHM1779B1836.5/1880MHz Z7582LN66A 10RR7528C75488n2R752218kGND BAL_OUT ANTRXFILTERZ7540DUPLEXSXR525E0RX 10p C7586C754510pC758722nC7544B3MUX_OUTOut_1NC/GNDE10DAC101IN_Band 2GNDPRE_TX K8GNDBB_TX J10GNDBB_RX J2GNDPRE_RX J3GNDPRE_RX2K1GNDBB_RX2J1GNDK6GNDDIG GNDDIG_TX K7GNDGNDGND GND GND GND GNDGNDGND GNDGND GNDGND GNDGNDGND GND GNDGND GND GNDGNDGND GNDDAC201H10DAC202G10GNDCP_TX M11K2GNDCP GNDRF_TX F10C11GNDVGA E11DAC102OUT_Band 5TXWCDMA SMPSWCDMA PATXC B1018pC7526GND240R /100M H zL 7550D1INP_MIX_H E1INN_MIX_H C1OUTN_FDD B1OUTP_FDD IN GND OUT OUT IN SXJ148C3Z75801960MHzGND34320.2-2Vpp35RM -159 RF 部分 带WCDMA836.5/881.5MHz12n HRXOUT_NI M4SCLK M5M6XRESETVVCO_CAP LO_INM8REFP M9VREF_CM L2RFC11L3L4RXOUT_PQ RXOUT_NQ L5L6SDATA L8VCO_CTRLL9OSCIN M10REFG RXOUT_PI K4XENA K5REFN K9RFC10L1L10CBUF_CAPJ11TXQ_0J12TXQ_180K10DAC_REF1RFC5K11DAC203G11G12P_OUTN G2C2IP G3C1IP H1RBEXT_RX H11TXI_180TXI_0H12C1IN H3G_OUTN E12VBEXT E2E3C1QP C2QP F1F12P_OUTP F2C2QN F3C1QN G1C2INC8C9MUX_INW_OUTP_L D10W_OUTN_L D11G_OUTP D12RFC4D2C10ENV_DETW_OUTN_H C12INN_MIX_L C2RFC1C4RFC6C7RFC7DET B11B12W_OUTP_H INP_MIX_L B2RFC2B4RFC3B5OUTN_850B6B7OUTP_850RFC8B8A11INN_850A2INP_2150A3INN_2150A4INP_1900INN_1900A5INP_1800A6INN_1800A7INP_900A8A9INN_900THERMAL BALLS=GNDA10INP_850L 7500T7502HHM1749K11234522pC7524Z7504INOUT OUT942.5MHz8n2HR7528R752218kGND BAL_OUT ANTRXFILTERZ7540DUPLEX SXR525E0RX B3MUX_OUTE10DAC101GNDPRE_TX K8GNDBB_TX J10GNDBB_RX J2GNDPRE_RX J3GNDPRE_RX2K1GNDBB_RX2J1GNDK6GNDDIG GNDDIG_TX K7GNDGNDGNDGND GNDGNDGNDGNDDAC201H10DAC202G10GNDCP_TX M11K2GNDCP GNDRF_TX F10C11GNDVGA E11DAC102TXTXC B1018pC7526GNDD1INP_MIX_H E1INN_MIX_H C1OUTN_FDD B1OUTP_FDD 33320.2-2Vpp35R754047RGNDL7527240R/100MHzR7522 assembled if RFMD PAs used,not assembled if Skyworks PAs used!RFPA+ switch本人应的邀请，陆续将发布一些知名手机的原理图，并附上简单点评，以帮助大家更好的参考这些手机的设计思想。

Hardware User Manual CM-BF533 V2.0 (V1.3)ContactBluetechnix Mechatronische Systeme GmbHWaidhausenstr. 3/19A-1140 ViennaAUSTRIA/EUROPE*********************Document No.: 100-1203-2.0Version 6Date: 2007-04-05Table of Contents1Introduction (1)1.1Overview (1)1.2Benefits (2)1.3Applications (2)2Specification (3)2.1Functional Specification (3)2.2Boot Mode (3)2.3Memory Map (4)2.4Electrical Specification (4)2.4.1Supply Voltage (4)2.4.2Supply Voltage Ripple (4)2.4.3External Oscillator Frequency (4)2.4.4Real Time Clock Crystal (4)2.4.5Supply Current (4)2.5Environmental Specification (4)2.5.1Temperature (4)2.5.2Humidity (5)3CM-BF533 (Connector Version) (6)3.1Mechanical Outline (6)3.2Connector Footprint (7)3.3Top Mounted Connector (8)3.4Schematic Symbol (Signals of P1 and P2) (9)3.5Connectors Pin Assignment P1 – (1-60) (10)3.6Connector Pin Assignment P2 – (61-120) (11)3.7ITU656 Camera Connector P3 (1-22) (12)3.8Connector P4 (1-10) (12)4Test Points (13)4.1Footprint – Test Points (13)5Application Examples (14)5.1Sample Application (14)5.2Stand-alone Camera System (15)5.3Generic Signal Processing System (15)5.4Coprocessor Application (15)5.5Digital Video System (16)5.6Design Services (16)6Software Support (17)6.1BLACKSheep (17)6.2uClinux (17)7Known Bugs (18)8Product Changes (19)9Document Revision History (20)A List of Figures and Tables (21)Edition 2007-02© Bluetechnix Mechatronische Systeme GmbH 2007All Rights Reserved.The information herein is given to describe certain components and shall not be considered as a guarantee of characteristics.Terms of delivery and rights of technical change reserved.We hereby disclaim any warranties, including but not limited to warranties of non-infringement, regarding circuits, descriptions and charts stated herein.Bluetechnix makes and you receive no warranties or conditions, express, implied, statutory or in any communication with you. Bluetechnix specifically disclaims any implied warranty of merchantability or fitness for a particular purpose.Bluetechnix takes no liability for any damages and errors causing of the usage of this board. The user of this board is responsible by himself for the functionality of his application. He is allowed to use the board only if he has the qualification. More information is found in the General Terms and Conditions (AGB).InformationFor further information on technology, delivery terms and conditions and prices please contact Bluetechnix ().WarningsDue to technical requirements components may contain dangerous substances.BLACKFIN ProductsCore Modules:CM-BF533: Blackfin Processor Module powered by Analog Devices single coreADSP-BF533 processor; up to 600MHz, 32MB RAM, 2MB Flash,120 pin expansion connector and a size of 36.5x31.5mmCM-BF537E: Blackfin Processor Module powered by Analog Devices single coreADSP-BF537 processor; up to 600MHz, 32MB RAM, 4MB Flash,integrated TP10/100 Ethernet physical transceiver, 120 pin expansionconnector and a size of 36.5x31.5mmCM-BF537U: Blackfin Processor Module powered by Analog Devices single coreADSP-BF537 processor; up to 600MHz, 32MB RAM, 4MB Flash,integrated USB 2.0 Device, 120 pin expansion connector and a size of36.5x31.5mmTCM-BF537: Blackfin Processor Module powered by Analog Devices single coreADSP-BF537 processor; up to 500MHz, 32MB RAM, 8MB Flash,28x28mm, 120 pin expansion connector, Ball Grid Array or BorderPads for reflow soldering, industrial temperature range -40°C to+85°C.CM-BF561: Blackfin Processor Module powered by Analog Devices dual coreADSP-BF561 processor; up to 2x 600MHz, 64MB RAM, 8MBFlash, 120 pin expansion connector and a size of 36.5x31.5mmCM-BF527: From Q3 '07 a new Blackfin Processor Module powered by AnalogDevices single core ADSP-BF527 processor will be available; keyfeatures are USB OTG 2.0 and Ethernet. 2x120pin expansionconnectors are backwards compatible to other Core Modules.CM-BF548: From Q3 '07 a new Blackfin Processor Module powered by AnalogDevices single core ADSP-BF548 processor will be available; keyfeatures are 64MB DDR SD-RAM 2x100pin expansion connectors.Development Boards:EVAL-BF5xx: Low cost Blackfin processor Evaluation Board with one socket forany Bluetechnix Blackfin Core Module. Additional periphery isavailable, such as a SD-Card.DEV-BF5xxDA-Lite: Get ready to program and debug Bluetechnix Core Modules with thistiny development platform including a USB Based Debug Agent. TheDEV-BF5xxDA-Lite is a low cost starter development systemincluding VDSP++ Evaluation Software License.DEV-BF5xx-FPGA: Backfin Development Board with two sockets for any combination ofBlackfin Core Modules. Additional periphery is available, such asSD-Card, Ethernet, USB host, multi-port JTAG including a USBbased Debug Agent, connector for a LCD-TFT Display and connectorfor a digital camera system. A large on-board SPARTAN-3 FPGAand Soft IPs make this board the most flexible Blackfin developmentplatforms ever developed.Available Q2 2007EXT-Boards: The following Extender Boards are available: EXT-BF5xx-Audio,EXT-BF5xx-Video, EXT-BF5xx-Camera, EXT-BF5xx-Exp, *EXT-BF5xx-LVDS, *EXT-BF5xx-ETH-USB, *EXT-BF5xx-AD/DA.Additional boards based on customer request*Available Q2 2007Software Support:BLACKSheep: The BLACKSheep VDK is a multithreaded framework for theAnalog Devices Blackfin processor family that includes driversupport for a variety of hardware extensions. It is based on the real-time VDK kernel included within the VDSP++ developmentenvironment.LabVIEW: LabVIEW embedded support for the CM-BF537E, CM-BF537U andTCM-BF537 Core Modules based on the BLACKSheep VDK driverFramework.uClinux: All the Core Modules are supported by uClinux. The required bootloader and uClinux can be downloaded at .BLACKFIN Design ServiceBased on over three years Blackfin experience Bluetechnix offers development assistance as well as custom design services and software development.1 IntroductionThe CM-BF533 is a tiny, high performance and low power DSP/RISC core module incorporating Analog Devices Blackfin family of processors. The module allows easy integration into high demanding very space and power limited applications.1.1 OverviewThe Core Module CM-BF533 consists of the following components:Figure 1-1: Main Components of the CM-BF533 module▪Analog Devices Blackfin Processor BF533o ADSP-BF533SKBCZ600 (0°-70°C) Standard mounto ADSP-BF533SBBCZ500 (-40°-85°C) Option upon request▪32 MB SDRAMo SDRAM clock up to 133 MHzo MT48LC16M16A2BG-7 (16Mx16 at 3.3 V)▪2MB of Addressable Flasho ITLRC28F320J3C110 (2Mx16 at 3.3 V; 2MByte addressable only)o Additionally flash memory can be connected through the expansion board as parallel flash using asynchronous chip select lines or as a SPI flash.▪Low Voltage Reset Circuito Resets module if power supply goes below 2.93 V for at least 140 ms▪Dynamic Core Voltage Controlo Allows to adjust core voltage by setting software registers at the Blackfin Processoro Core voltage range: 0.8 – 1.32V▪Expansion Connector Ao Data Buso Address Buso Control Signalso Power Supply▪Expansion Connector Bo SPORT 0 and SPORT 1o JTAGo UARTo SPIo PPI (Parallel Port Interface)o GPIO’s1.2 Benefits▪The CM-BF533 is very compact and measures only 36.5x31.5mm▪Allows quick prototyping of product that comes very close to the final design ▪Reduces development costs, faster time to market▪Very cost effective for small and medium volumes1.3 Applications▪Generic high performance signal processor module▪Internet Connected Embedded System▪High performance web camera▪Robotics: Tiny processor module for mobile robots2 Specification2.1 Functional SpecificationFigure 2-1: Detailed Block DiagramFigure 2-1 shows a detailed block diagram of the CM-BF533 module. Beside the SDRAM control pins the CM-BF533 has all other pins of the Blackfin processor at its two main 60 pin connectors.Dynamic voltage control allows reducing power consumption to a minimum adjusting the core-voltage and the clock frequency dynamically in accordance to the required processing power.A low voltage reset circuit guarantees a power on reset and resets the system when the input voltage drops below 2.93V.2.2 Boot ModeDefault Boot Mode = 00 (BMODE1 = LOW, BMODE0 = LOW)BMODE0, BMODE1 has internal pull-down resistorConnect BMODE0 to Vcc and leave BMODE1 pin open for Boot Mode 01 (equals to 8 or 16 bit PROM/FLASH boot mode), this is the default boot mode of the Blacksheep software. See Blackfin Datasheets or Eval/DevBoard manuals for more details.2.3 Memory MapTable 2-1: Memory Map2.4 Electrical Specification2.4.1 Supply Voltage▪ 3.3 V DC +/-10%2.4.2 Supply Voltage Ripple▪100 mV peak to peak 0-20MHz2.4.3 External Oscillator Frequency▪25MHz2.4.4 Real Time Clock Crystal▪32.768kHz2.4.5 Supply Current▪Maximumsupplycurrent:**********▪Operating conditions:o Processor running at 600MHz, Core Voltage 1.2V, SDRAM 20% bandwidth utilization at 130MHz: 150mAo Processor running at 300MHz, Core Voltage 0.8V SDRAM 20% bandwidth utilization at 130MHz: 90mA2.5 Environmental Specification2.5.1 TemperatureDevelopment Version:▪Operating at full 600MHz: 0 to + 70° CIndustrial Version: (Only available upon request at a MOQ)2.5.2 HumidityOperating: 10% to 90% (non condensing)3 CM-BF533 (Connector Version)3.1 Mechanical OutlineTOP VIEWAll dimensions are given in millimeters!P336.517.57.059.2532.46.8526.7528.0531.522.450.60.35Ø0.652.551.7P1P27.759.0514.653452Figure 3-1: Mechanical outline and Bottom ConnectorsThe mechanical outline represents a top view of the connectors placed at the bottom of the core board.The module is shipped with two 60pin connectors.Figure 3-2: Side View with Connector mountedThe total minimum mounting height including receptacle at the motherboard is 6.1 mm.3.2 Connector FootprintIf the connector version (2x Hirose 0.6mm pitch) is used, the footprint for the baseboard may look as shown in Figure 3-3.For the baseboard the following connectors have to be used:Table 3-1: Baseboard connector typesThe connectors on the CM-BF533 are of the following type:Table 3-2: Module connector types36.526.7531.57.756.85Figure 3-3: Connector Footprint for Baseboard3.3 Top Mounted ConnectorThe optionally mounted connector P4 will not be supported in future versions.Figure 3-4: TOP VIEW3.4 Schematic Symbol (Signals of P1 and P2)SPORT0SPORT1PPIUARTSPIJTAGDataBusAddr.BusControlSignals Figure 3-5: Schematic Symbol of Module3.5 Connectors Pin Assignment P1 – (1-60)Table 3-3: Connector P1 pin assignmentAll Pin names of the connectors correspond to the names found in the Blackfin BF533 datasheet from Analog Devices.3.6 Connector Pin Assignment P2 – (61-120)Table 3-4: Connector P2 pin assignmentNon processor Pins:CLK_OUT: 25MHz buffered output clock of main oscillatorAll other pins are connected directly to the respective ADSP-BF533 processor pins.For details about the meaning of the signal names consult the Blackfin ADSP-BF533 datasheet.3.7 ITU656 Camera Connector P3 (1-22)The ITU656 connector has been tested only for the OmniVision cameras available in our camera kit Kit-CAM-OV. It is not recommended to use this connector!Table 3-5: Connector P3 pin assignment3.8 Connector P4 (1-10)The top optionally mounted connector P4 can be used as a stand-alone connector for a system requiring only power supply and one or two communication ports (UART and SPI)Table 3-6: Connector P4 pin assignment4 Test Points4.1 Footprint – Test Points9.859.251.25.057.4510.751.7524.0526.4529.7520.751233031322960596162909192119120Ø0.731.536.5Figure 4-1: Test Points of the Core Module5 Application Examples5.1 Sample ApplicationIn this minimum configuration the CM-BF533 is used as a high performance SPI-based co-processor module.Figure 5-1: Minimum Configuration with SPI and JTAG Connector5.2 Stand-alone Camera SystemThe CM-BF533 module can be used as a stand-alone module for a camera system requiring only power supply and the direct attachment of a compatible video camera. A camera kit including drivers can be purchased from Bluetechnix: KIT-CAM-OV (O.Nr 100-9901) The digital ITU656 camera directly connects to P3 while the power supply and any of two communication ports (SPI and UART) can be connected to the 10 pin P4 connector as well as over the large connectors P1 and P2 at the bottom.3.3 V Power, SPI, UARTFigure 5-2: Stand-alone Camera System5.3 Generic Signal Processing SystemFigure 5-3: Block Diagram – Analog Signal Processing Module5.4 Coprocessor ApplicationFigure 5-4: Block Diagram – Coprocessor Module5.5 Digital Video SystemFigure 5-5: Block Diagram: Digital Video System5.6 Design ServicesBluetechnix offers custom design services and software development.6 Software Support6.1 BLACKSheepThe Core Module is delivered with a pre-flashed basic version of the BLACKSheep VDK multithreaded framework. It contains a boot-loader for flashing the Core Module via the serial port.Please mind the software development documents.6.2 uClinuxThe Core Module is supported by the open source platform at . Since the Core Modules are pre-flashed with BLACKSheep you have to flash uBoot first. For flashing the uBoot you can use the BLACKSheep boot-loader.7 Known BugsTable 7-1: Known Bugs8 Product ChangesTable 8-1: Product Changes9 Document Revision HistoryTable 9-1: Revision HistoryA List of Figures and TablesFiguresFigure 1-1: Main Components of the CM-BF533 module (1)Figure 2-1: Detailed Block Diagram (3)Figure 3-1: Mechanical outline and Bottom Connectors (6)Figure 3-2: Side View with Connector mounted (6)Figure 3-3: Connector Footprint for Baseboard (7)Figure 3-4: TOP VIEW (8)Figure 3-5: Schematic Symbol of Module (9)Figure 4-1: Test Points of the Core Module (13)Figure 5-1: Minimum Configuration with SPI and JTAG Connector (14)Figure 5-2: Stand-alone Camera System (15)Figure 5-3: Block Diagram – Analog Signal Processing Module (15)Figure 5-4: Block Diagram – Coprocessor Module (15)Figure 5-5: Block Diagram: Digital Video System (16)TablesTable 2-1: Memory Map (4)Table 3-1: Baseboard connector types (7)Table 3-2: Module connector types (7)Table 3-3: Connector P1 pin assignment (10)Table 3-4: Connector P2 pin assignment (11)Table 3-5: Connector P3 pin assignment (12)Table 3-6: Connector P4 pin assignment (12)Table 7-1: Known Bugs (18)Table 8-1: Product Changes (19)Table 9-1: Revision History (20)。

BD52XXG/FVE series BD53XXG/FVE seriesHigh-accuracy detection voltage Low current consumptionDescriptionFeaturesApplications VOL T AGE DETECTOR IC with adjustable delay timeBD52XXG/FVE, BD53XXG/FVE are series of high-accuracy detection voltage and low current consumption VOLTAGE DETECTOR ICs adopting CMOS process.New lineup of 152 types with delay time circuit have developed in addition to well-reputed 152 types of VOLTAGE DETECTOR ICs.Any delay time can be established by using small capacitor due to high-resistance process technology.Total 152 types of VOLTAGE DETECTOR ICs includingBD52XXG/FVE series (Nch open drain output) and BD53XXG/FVE series (CMOS output), each of which has 38 kinds in every 0.1V step (2.3~6.0V) have developed.1) Detection voltage: 0.1V step line-up 2.3~6.0V (Typ.)2) High-accuracy detection voltage:±1.5% (Max.)3) Ultra low current consumption: 0.95µA (Typ.)4) Nch open drain output (BD52XXG/FVE series), CMOS output (BD53XXG/FVE series)5) Small VSOF5(EMP5), SSOP5(SMP5C2) packageEvery kind of appliances with microcontroller and logic circuit BD52XXG/FVEBD53XXG/FVEPin No.SSOP5(SMP5C2)VSOF5(EMP5)Vout VoutV DD V DDGND GNDNC.CT SUBCT12345 Application CircuitAbsolute Maximum Ratings (Ta=25˚C)Characteristic diagram and Measurement circuitElectrical characteristics (Unless otherwise noted; Ta=-25~85˚C)1 ˚C ˚C *2 Derating: 2.1mW/˚C for operation above Ta=25˚C .(Mounted on a 70.0mmX70.0mmX16mm glass epoxy PCB.)*2 T PLH : V DD =(V DET typ.–0.5V) (V DET typ.+0.5V). Note) Please refer to the detection voltage of Line-up table.Output delay time "L H"Output delay time "H L"ΩV DET ΩCT Capacitance [µF]d e l a y t i m e [s ]CT Capacitance [µF]d e l a y t i m e [µs ]Part number and Marking of samplesBD5260PW PV PU PT PS PR PQ PP PN PM 6.0V 5.9V 5.8V 5.7V 5.6V 5.5V 5.4V 5.3V 5.2V 5.1V PB P A MV MU MT MS MR MQ MP MN 4.1V 4.0V 3.9V 3.8V 3.7V 3.6V 3.5V 3.4V 3.3V 3.2V RW RVRU RT RS RR RQ RN RM RP 6.0V 5.9V 5.8V 5.7V 5.6V 5.5V 5.4V 5.3V BD5241BD5259BD5258BD5257BD5256BD5255BD5254BD5253BD5252BD5251BD5240BD5239BD5238BD5237BD5236BD5235BD5234BD5233BD5232BD5360BD5359BD5358BD5357BD5356BD5355BD5354BD53535.2V 5.1V BD5352BD5351Marking VoltagePart No.Marking VoltagePart No.Marking VoltagePart No.Marking VoltagePart No.BD5341RB RA QV QU QT QS QR QQ QP QN 4.1V 4.0V 3.9V 3.8V 3.7V 3.6V 3.5V 3.4V 3.3V 3.2V BD5340BD5339BD5338BD5337BD5336BD5335BD5334BD5333BD5332BD5250PL PK PJ PH PG PF PE PD PC5.0V 4.9V 4.8V 4.7V 4.6V 4.5V 4.4V 4.3V 4.2VMM ML MK MJ MH MG MF ME MD3.1V 3.0V 2.9V 2.8V 2.7V 2.6V 2.5V 2.4V 2.3VRL RK RJRH RG RF RE RCRD 5.0V 4.9V 4.8V 4.7V 4.6V 4.5V 4.4V 4.3V BD5231BD5249BD5248BD5247BD5246BD5245BD5244BD5243BD5242BD5230BD5229BD5228BD5227BD5226BD5225BD5224BD5223BD5350BD5349BD5348BD5347BD5346BD5345BD5344BD53434.2VBD5342BD5331QM QL QK QJ QH QG QF QE QD3.1V3.0V 2.9V 2.8V 2.7V 2.6V 2.5V 2.4V 2.3VBD5330BD5329BD5328BD5327BD5326BD5325BD5324BD5323Circuit current"L" output current"H" output currentI/O characteristicBD52XXG/BD53XXG : SSOP5 (SMP5C2)BD52XXFVE/BD53XXFVE : VSOF5 (EMP5)V DS [V]I O H[m A ]Timing waveformDetection voltageV D E T VVΩV ΩV V DD [V]I D D [µA ][m A ]V DS [V]I O L V DD [V]V O U T [V ]Ta [˚C][V ]V DDV DDV OUTV 0V V OHV OLV DET +∆V DETLine-up。

INFRARED RECEIVER MODULE MIM-5xx3K3F DescriptionFeaturesl Photo detector and preamplifier in one packagel Internal filter for PCM frequencyl High immunity against ambient lightl Improved shielding against electric field disturbancel 5.0-Volt supply voltage; low power consumptionl TTL and CMOS compatibilityMIM-5xx3K3F Series Modelsl MIM-5303K3F 30.0KHz l MIM-5383K3F 38.0KHzl MIM-5333K3F 33.0KHz l MIM-5403K3F 40.0KHzl MIM-5363K3F 36.0KHz l MIM-5443K3F 44.0KHzl MIM-5373K3F 36.7KHz l MIM-5563K3F 56.0KHzBLOCK DIAGRAMREV: A1INFRARED RECEIVER MODULE MIM-5xx3K3F Absolute Maximum RatingsItem Symbol Ratings Unit RemarkSupply voltage V CC-0.3 ~ 6.0VSupply Current Is 5.0mAOperating temperature T opr-25 ~ + 85o CStorage temperature T stg-25 ~ + 85o CSoldering temperature T sd260o C t≦5 s, 1mm from casePower dissipation at Ta=25oC P tot30mWElectro-optical characteristics (Vcc=5.0V)Parameter Symbol Min.Typ.Max.Unit RemarksSupply Voltage Vs 4.5 5.0 5.5VCurrent consumption Icc 1.4 2.0mA Under no signal Response wavelength l p940nmOutput form - - - - - active low output - - - - -H level output voltage V0h 4.2VL level output voltage V0l0.5VH level output pulse width Twh400800m sL level output pulse width Twl400800m sDistance between emitter & detector L110.0m Note 1Half angle Dq±45deg Horizonal directionTest MethodA. Standard TransmitterREV: A1B. Detection Length TestC . Pulse Width TestApplication CircuitREV: A1Dimensions in mmREV: A1CHARACTERISTIC CURVES (T A=25o C)REV: A1INFRARED RECEIVER MODULE MIM-5xx3K3F ReliabilityTest item Test condition StandardHigh temparature Ta=+80o C t=240H Note 2.High temp. & high humi.Ta=+40o C 90%RH t=240H Note 2.Low temparature Ta= -30o C t=240H Note 2.Temperature cycle -30o C(0.5H) ~ +80o C(0.5H) 20cycle Note 2.Dropping Test devices shall be dropped 3 times naturally Note 3.onto hard wooden board from a 75cm height position.NOTE 1. Distance between emitter & detector specifies maximum distance that output wave form satisfiesthe standard under the conditions below against the standerd transmitter.(1)Measuring place ………Indoor without extreme reflection of light.(2)Ambient light source… Detecting surface illumination shall be 200±50Lux under ordinaryhite fluorescense lamp of no high frequency lighting.(3)Standard transmitter … Burst wave indicated in Fig 1. of standard transmittershall be arranged to 50mVp-p under the measuring circuit specified in Fig 2.NOTE 2. (electro-optical charactistics) shall be satisfied after leaving 2 hours in the normal temperature .NOTE 3. (electro-optical charactistics) shall be satisfied and no conoid deformsand destructions of appearance .(excepting deforms of terminals)Inspection standard1.Among electrical characteristics , total number shall be inspected on items blow.1-1 front distance between emitter & detector1-2 Current consumption1-3 H level output voltage1-4 L level output voltage2.Items except above mentioned are not inspected particularly , but shall fully satisfyCAUTION ( When use and storage of this device )1.Store and use where there is no force causing transformation or change in quality .2.Store and use where there is no corrosive gas or sea(salt) breeze .3.Store and use where there is no extreme humidity .4.Solder the lead-pin within the condition of ratings. After soldering do not add extra force .5.Do not wash this device . Wipe the stains of diode side with a soft cloth. You canuse the solvent , ethylalcohol or methylalcohol or isupropylene only .6.To prevent static electricity damage to the Pre-AMP make sure that the human body, the soldering iron is connected to ground before using .7.Put decoupling device between Vcc and GND for reduse the noise from power supply line .8.The performance of remote-control system depends on environments condition and abilityof periferal parts. Customer should evaluate the performance as total system in those conditionsafter system up with components such as commander , micon and this receiver module .Others1.This device is not design to endure radiative rays and heavily charged particles .2.In case where any trouble or questions arise,both parties agress to make full discussioncovering the said problem .REV: A1。

ApplicationsVOLTAGE DETECTOR IC with counter timerBD45XXXG BD46XXXGBD45XXXG and BD46XXXG are series of high-accuracy detection voltage and low current consumption VOLTAGE DETECTOR ICs adopting CMOS process. New lineup of 156 types with delay time circuit have developed. Delay time is fixed in the IC due to the built-in counter timer to require no external capacitor. Total 156 types of VOLTAGE DETECTOR ICs including BD45XXXG series (Nch open drain output) and BD46XXXG series (CMOS output), each of which has 26 kinds in every 0.1V step (2.3~4.8V) and three kinds of delay time (50msec, 100msec, 200msec) have developed.Every kind of appliances with microcontroller and logic circuitFeatures1) Built-in delay time circuit(Fixed delay time by the built-in ±10% of high-accuracy counter timer)2) No external capacitor for setting delay time required 3) 3 kinds of delay time: 50msec (Typ.)(BD45XX5G,BD46XX5G) 100msec (Typ.)(BD45XX1G,BD46XX1G) 200msec (Typ.)(BD45XX2G,BD46XX2G)4) Detection voltage: 2.3V ~ 4.8V 0.1V step 5) High-accuracy detection voltage: ±1.0% 6) Ultra low current consumption: 0.85µA typ.7) Output circuit: Nch open drain (BD45XXXG) 8) Package: SSOP5(SMP5C2)9) Operating temperature range: -40°C ~ +105°C BD45XXXGBD46XXXGPin No.SSOP5ERSubGNDV OUTV DD12345 Application CircuitCMOS (BD46XXXG)Absolute Maximum Ratings (Ta=25˚C)Electrical characteristics (1 ˚C ˚C∗1 This value is guranteed at Ta=25˚C.Note) R L is not necessary for CMOS output type.Note) Please refer to the detection voltage of Line-up table.Characteristic diagram and Measurement circuitV DET ±0.5VΩV DET ±0.5VΩTa (°C)t P L H (m s e c )-Ta (°C)t P L H [µs e c ]-Output delay time "L → H"Output delay time "H → L"V DD (V)IDD(µA)V DD (V)VOUT(V)(mA)V DS (V)IOLTiming waveformV DDTa (˚C)VDET(V)VΩVΩVV DS (V)IDS(mA)V DDV DDV OUTERV DET0VVVVV DET+∆VI/O characteristic Detection voltagePart number and Marking of samplesBD45485BD45475BD45465BD45455BD45445BD45435BD45425BD45415BD45405BD45395BD45385BD45375BD45365BD45355BD45345BD45335BD45325BD45315BD45305BD45295BD45285BD45275BD45265BD45255BD45245T0T1T2T3T4T5T6T7T8T9TA TB TC TD TE TF TG TH TJ TK TL TM TN TP TQ TRTS TT TU TV TW TX TY TZ U0U1U2U3U4U5U6U7U8U9UA UB UC UD UE UF UG UHUJ UK UL UM UN UP UQ UR US UT UU UV UW UX UY UZ V0V1V2V3V4V5V6V7V8V94.8V 4.7V 4.6V 4.5V 4.4V 4.3V 4.2V 4.1V 4.0V 3.9V 3.8V 3.7V 3.6V 3.5V 3.4V 3.3V 3.2V 3.1V 3.0V 2.9V 2.8V 2.7V 2.6V 2.5V 2.4V 2.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 VB VC VD VE VF VG VH VJ VK VL VM VN VP VQ VR VS VT VU VV VW VX VY VZ W0W1W2W3W4W5W6W7W8W9WA WB WC WD WE WF WG WH WJ WK WL WM WN WP WQ WR WS WTWU WV WW WX WY WZ X0X1X2X3X4X5X6X7X8X9XA XB XC XD XE XF XG XH XJ XKBD46235BD46481BD46471BD46461BD46451BD46441BD46431BD46421BD46411BD46401BD46391BD46381BD46371BD46361BD46351BD46341BD46331BD46321BD46311BD46301BD46291BD46281BD46271BD46261BD46251BD46241BD46231BD46482BD46472BD46462BD46452BD46442BD46432BD46422BD46412BD46402BD46392BD46382BD46372BD46362BD46352BD46342BD46332BD46322BD46312BD46302BD46292BD46282BD46272BD46262BD46252BD46242BD46232(SMP5C2)Marking Voltage Part No.Marking Part No.Marking Part No.Marking Part No.Marking Part No.Marking Part No.Line-up。

BL3329-P产品使用手册v1.2版本日期备注1.0 初版1.1 修改部分引脚说明，修改电流等电气参数1.2 修正尺寸，新增模块厚度参数，增加电流等参数模块特性a．支持IEEE802.11b/g/n无线标准b．支持WEP、WPA及WPA2加密c．支持UART\PWM\GPIO接口d．支持STA\AP等工作模式e．支持一键配置功能f．支持TLS\SSL和mDNS协议g．支持PCB天线h．3.3V供电i．模块尺寸（L*W*H) : 25mm*17.7mm*3.7mm（含屏蔽盖）1.产品概述(硬件)BL3329-P，是一款支持802.11b/g/n的WiFi模块，可以通过UART口与其他设备进行通信。

模块集成了射频收发机、MAC、基带处理、所有的wifi协议和配置信息及网络协议栈，可广泛用于智能家居设备、远程监控设备、医疗器械等领域。

模块集成32位微处理器，192KB的SRAM，外扩1MB Flash。

1.1模块基本参数1.1.1Wlan parameter频率范围 2.412 GHz - 2.484 GHz无线标准支持IEEE 802.11 b/g/n射频功率802.11b:17.5dBm 802.11g:14dBm 802.11n:14dBm天线内置：PCB天线/ 外接：不支持接收灵敏度802.11b<-91dBm@1Mbps 802.11b<-81dBm@11Mbps 802.11g<-86dBm@6Mbps 802.11g<-69dBm@54Mbps协议栈支持IPv4, TCP/UDP/FTP/HTTP/HTTPS/TLS/mDNS 数据速率（max）11M@802.11b, 54M@802.11g, MCS7@802.11n安全性支持加密标准：Open/WEP-Open/WPA/WPA2加密算法：WEP64/WEP128/TKIP/AES网络类型STA/AP1.1.2Absolute Maximum RatingsSymbol Description Min. Max. Units Ts Storage temperature -40 125 ℃T A Ambient operating-10 80 ℃temperatureVdd Supply voltage 3.0 3.6 VVio Voltage on IO pin 0 3.3 V1.1.3ESD SpecificationType Test Condition ESD Rating Unit Human Body Mode MIL-STD-883G Method 3015.7 ±2.5 KV Machine Mode JEDEC EIA/JESD22-A115 ±250 V1.1.4DC Voltage and currentSpecifications Min. Typ. Max. UnitsVDD 3 3.3 3.6 VVIL(input low voltage) 0 0.8 VVIH(input high voltage) 2 3.6 VVOL(output low voltage) 0 0.4 VVOH(output high voltage) 2.4 3.6 VIo 4 16 mAStandby (SP mini) 80 mARX 75 88 mA272 mApulse current @TX11b @18dBm 11Mbps240 mApulse current @TX11g @15dBm 54Mbps1.1.5IEEE802.11b modeITEM SpecificationModulation Type DSSS / CCKFrequency range 2412MHz~2472MHzChannel CH1 to CH13Data rate 1, 2, 5.5, 11MbpsTX Characteristics Min Typical Max. Unit Transmitter Output Power18 dBm11bTarget PowerFrequency Error-10 +10 ppm Constellation Error( peak EVM)@ target power-301~11MbpsRX Characteristics Min Typical Max. UnitMinimum Input Level SensitivitydBm 1Mbps (FER≦8%)-91 -9011Mbps (FER≦8%)-84 -83 dBm-10 dBm Maximum Input Level(FER≦8%)1.1.6IEEE802.11g modeITEM SpecificationModulation Type OFDMFrequency range 2412MHz~2472MHzChannel CH1 to CH13Data rate 6, 9, 12, 18, 24, 36, 48, 54MbpsTX Characteristics Min Typical Max. UnitTransmitter Output Power11gTarget Power14 dBm Frequency Error-10 +10 ppm Constellation Error( peak EVM)@ target power6Mbps -29 dB 54Mbps -30 dB Transmit spectrum mask@11MHz -20 dBr@20MHz -28 dBr@30MHz -40dBr RX Characteristics Min Typical Max. UnitMinimum Input Level SensitivitydBm 6Mbps -86 -8554Mbps -70 -69 dBm-20 dBm Maximum Input Level(FER≦10%)1.1.7IEEE802.11n 20MHz bandwidth modeITEM SpecificationModulation Type OFDMFrequency range 2412MHz~2472MHzChannel CH1 to CH13Data rate MCS0/1/2/3/4/5/6/7TX Characteristics Min Typical Max. UnitTransmitter Output Power14 dBm 11n HT20 Target PowerFrequency Error-10 +10 ppm Constellation Error( peak EVM)@ target power-28 dB MCS0MCS7 -30 dBTransmit spectrum mask@11MHz -20 dBr @20MHz -28 dBr @30MHz -40 dBrRX Characteristics Min Typical Max. Unit Minimum Input Level SensitivitydBm MCS0 -85 -84MCS7 -70 -68 dBm-20 dBm Maximum Input Level(FER≦10%)1.2硬件介绍1.2.1机械尺寸公差范围：（L±0.2）*（W±0.2）*（H±10%）(单位：mm)(单位：mm)公差范围：（L±0.1）*（W±0.1）*（H±0.1）(单位：mm)1.2.4接口定义pin 网络描述类型1 GND GND POWER2 VDD 3.3V POWER3 NRST 硬件复位（重启）I4 TX0 UART_DATA_TX O GPIO15 I/O5 RX0 UART_DATA_RX I GPIO18 I/O6 TX1 UART_DEBUG_TX O GPIO1 I/O7 RX1 UART_DEBUG_RX I GPIO3 I/O8 RX1 UART_DEBUG_RX I GPIO3 I/O9 TX1 UART_DEBUG_TX O GPIO1 I/O10 GPIO25 支持PWM I/O11 GPIO27 I/O12 GPIO21 I/O13 VDD 3.3V POWER14 GND GND POWERNote：1.默认情况下UART0用于通用透传，UART1用于debug信息输出，串口输出电平参照DC characteristics描述。

Catalogue 2404UK-blfor Ø 12 to 25 mm IS0 6432 cylinders for Ø 32 to 100 mm ISO 6431 cylindersRod Guidance Units2Rod guidance Units for Ø 12 to 100 mm ISO cylindersContentsFeatures...................................................................................page 2Order code............................................................................. page 3Tech. info. "U" and "H" styles units for ISO Ø 12 to 25 mm cyl..page 4Dimensions "U" style units for ISO Ø 12 to 25 mm cylinders..page 5Dimensions "H" style units for ISO Ø 12 to 25 mm cylinders.page 6Range3 versions of the Piston Rod Guidance Units are available."H" style, with plain PTFE coated bearings for ISO Ø 32 to 100 mm cylinders, low-cost version for light loadings."H"style, with4 linear ball bearings, for ISO Ø 12 to 100 mm,for more demanding applications with greater loadings."U" style, with plain PTFE coated bearings, for ISO Ø 12 to 100 mm for heavy loadings.Hard anodised Flange mountingSelf aligning adaptorfor ISO cylinder piston rod.Anti rotation achieved by 4 integral bearings.Choice of linear ball bearings or plain PTFE coated bearingsAluminium body provides 3 mounting faces.Stainless steel Guide barsAnti rotationTwin guide bars prevent piston rod rotation. The piston rod is fixed to the front flange by a self aligning adaptor.High loading torqueThe use of high specification components in the design ensures long service life even under the maximum loading and torque.Light weightThe cast aluminium body is of compact and light design and provides optional mounting in both vertical or horizontal planes.Tech. info. "U" style units for ISO Ø 32 to 100 mm.cylinders.page 7Tech. info. "H" style units for ISO Ø 32 to 100 mm.cylinders.page 8Dimensions "U" style units for ISO Ø 32 to 100 mm..cyl.........page 9Dimensions "H "style units for ISO Ø 32 to 100 mm..cyl......page 10Mounting kits for Ø 32 to 100 mm Rod guidance Unitspage 11FeaturesRod guidance Units for Ø 12 to 100 mm ISO cylinders3Rod guidance Units for Ø 12 to 25 mm ISO cylinders S = Centre of gravity of theloadX = Deflection"H" style Rod guide with ball bearingsS = Centre of gravity of theloadX = Deflection4Rod guidance Units for Ø 12 to 25 mm ISO cylinders5Rod guidance Units for Ø 12 to 25 mm ISO cylinders6Rod guidance Units for Ø 32 to 100 mm ISO cylinders S = Centre of gravitiy of theload78Rod guidance Units for Ø 32 to 100 mm ISO cylindersØ32Ø 40Ø32Rod guidance Units for Ø 32 to 100 mm ISO cylinders9Rod guidance Units for Ø 32 to 100 mm ISO cylinders1011B4CD E F G H J K L Weights (kg)(1)(2)32,5116106,66080476432600,5000,230381401096392537236640,7000,28046,516012970113659045711,1800,53056,5175129741297410050771,4500,71072218161189153971266393,53,0001,59089245161390,51861111507597,54,1002,190A CFBB 4ØEDK HLGJØEDRod guidance Units for Ø 32 to 100 mm ISO cylinders。

Small Outline, 5 Lead, High Speed Optocouplers Technical DataHCPL-M452HCPL-M453Features• Surface Mountable• Very Small, Low Profile JEDEC Registered Package Outline• Compatible with Infrared Vapor Phase Reflow and Wave Soldering Processes • Very High Common Mode Transient Immunity:15000 V/µs at V CM = 1500 V Guaranteed (HCPL-M453)• High Speed: 1 Mb/s • TTL Compatible• Guaranteed AC and DC Performance overTemperature: 0°C to 70°C • Open Collector Output • Recognized Under the Component Program of U.L. (File No. E55361) for Dielectric Withstand Proof Test Voltage of 3750 Vac, 1Minute• Lead Free OptionCAUTION: The small device geometries inherent to the design of this bipolar component increase the component's susceptibility to damage from electrostatic discharge (ESD). It is advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by ESD.The SO-5 JEDEC registered (MO-155) package outline does not require “through holes” in a PCB. This package occupies approximately one-fourth the footprint area of the standard dual-in-line package. The lead profile is designed to be compatible with standard surface mount processes.These diode-transistoroptocouplers use an insulating layer between the light emitting diode and an integrated photon detector to provide electrical insulation between input and output. Separate connections for the photodiode bias and output transistor collector increase the speed up to a hundred timesSO-5 Package Standard DIP SO-8 Package HCPL-M452HCPL-4502HCPL-0452HCPL-M453HCPL-4503HCPL-0453(Note: These devices equivalent to 6N135/6N136 devices but without the base lead.)DescriptionThese small outline high CMR,high speed, diode-transistor opto-couplers are single channel devices in a five lead miniature footprint. They are electrically equivalent to the following Agilent optocouplers:tions. A standard 16 mA TTL sink current through the input LED will provide enough output current for 1 TTL load and a 5.6 k Ω pull-up resistor. CTR of the HCPL-M452 is 19%minimum at I F = 16 mA.over that of a conventional photo-transistor coupler by reducing the base-collector capacitance.The HCPL-M452 is designed for high speed TTL/TTL applica-The HCPL-M453 is an HCPL-M452 with increased common mode transient immunity of 15,000 V/µs minimum at V CM =1500 V guaranteed.Applications• Line Receivers -High common mode transient immunity (>1000V/µs) and low input-output capacitance (0.6 pF).• High Speed Logic Ground Isolation - TTL/TTL, TTL/LTTL, TTL/CMOS, TTL/LSTTL.• Replace Slow Phototran-sistor Optocouplers • Replace PulseTransformers - Save board space and weight• Analog Signal Ground Isolation -Integrated photon detector provides improved linearity over phototransistor type.Land Pattern RecommendationDIMENSIONS IN MILLIMETERS AND (INCHES)Outline Drawing (JEDEC MO-155)SchematicGNDV CCV OANODECATHODEDIMENSIONS IN MILLIMETERS (INCHES)* MAXIMUM MOLD FLASH ON EACH SIDE IS 0.15 mm (0.006)NOTE: FLOATING LEAD PROTRUSION IS 0.15 mm (6 mils) MAX.MAX.= 0.102 (0.004)Absolute Maximum Ratings(No Derating Required up to 85°C)Storage Temperature .................................................-55°C to +125°C Operating Temperature .............................................-55°C to +100°C Average Input Current - I F .....................................................25 mA [1]Peak Input Current - I F ...........................................................50 mA [2](50% duty cycle, 1 ms pulse width)Peak Transient Input Current - I F ..............................................1.0 A(≤1 µs pulse width, 300 pps)Reverse Input Voltage - V R (Pin3-1)...............................................5 V Input Power Dissipation ........................................................45 mW [3]Average Output Current - I O (Pin 5)...........................................8 mA Peak Output Current .................................................................16 mA Output Voltage - V O (Pin 5-4)........................................-0.5 V to 20 V Supply Voltage - V CC (Pin 6-4).......................................-0.5 V to 30 V Output Power Dissipation....................................................100 mW [4]Infrared and Vapor Phase Reflow Temperature..................see belowSolder Reflow Thermal ProfileRecommended Pb-Free IR ProfileTIME (SECONDS)T E M P E R A T U R E (°C )ROOM°C of ACTUAL NOTES:THE TIME FROM 25 °C to PEAK TEMPERATURE = 8 MINUTES MAX.T smax = 200 °C, T smin = 150 °CInsulation Related SpecificationsParameter Symbol Value Units ConditionsMin External Air Gap L(IO1)≥ 5mm Measured from input terminals (Clearance)to output terminalsMin. External Tracking Path L(IO2)≥ 5mm Measured from input terminals (Creepage)to output terminalsMin. Internal Plastic Gap0.08mm Through insulation distance (Clearance)conductor to conductor Tracking Resistance CTI175V DIN IEC 112/VDE 0303 Part 1 Isolation Group (per DIN VDE 0109)IIIa Material Group DIN VDE 0109Electrical SpecificationsOver recommended temperature (T A = 0°C to 70°C) unless otherwise specified. (See note 11.)*All typicals at T A = 25°C.Switching SpecificationsOver recommended temperature (T A = 0°C to 70°C) V CC = 5 V, I F = 16 mA unless otherwise specified.All typicals at T A = 25°C.Notes:1. Derate linearly above 85°C free-air temperature at a rate of 0.5 mA/°C.2. Derate linearly above 85°C free-air temperature at a rate of 1.0 mA/°C.3. Derate linearly above 85°C free-air temperature at a rate of 1.1 mW/°C.4. Derate linearly above 85°C free-air temperature at a rate of 2.3 mW/°C.5. CURRENT TRANSFER RATIO in percent is defined as the ratio of output collector current, I O, to the forward LED inputcurrent, I F, times 100.6. Device considered a two terminal device: pins 1 and 3 shorted together, and pins 4, 5 and 6 shorted together.7. In accordance with UL 1577, each optocoupler is proof tested by applying an insulation test voltage ≥4500 V RMS for 1 second(leakage detection current limit, I I-O≤ 5 µA).8. Common transient immunity in a Logic High level is the maximum tolerable (positive) dV CM/dt on the rising edge of thecommon mode pulse, V CM, to assure that the output will remain in a Logic High state (i.e., V O > 2.0 V). Common mode transient immunity in a Logic Low level is the maximum tolerable (negative) dV CM/dt on the falling edge of the common mode pulse signal, V CM to assure that the output will remain in a Logic Low state (i.e., V O < 0.8 V).9. The 1.9 kΩ load represents 1 TTL unit load of 1.6 mA and the 5.6 kΩ pull-up resistor.10. The frequency at which the ac output voltage is 3 dB below its mid-frequency value.11. Use of a 0.1 µF bypass capacitor connected between pins 4 and 6 is recommended.Figure 7. Logic High Output Current vs. Temperature.Figure 8. Small-Signal CurrentTransfer Ratio vs. Quiescent Input Current.Figure 4. Current Transfer Ratio vs.Temperature.Figure 5. Propagation Delay vs.Temperature.Figure 6. Propagation Delay Time vs. Load Resistance.Figure 1. dc and Pulsed Transfer Characteristics.Figure 2. Current Transfer Ratio vs.Input Current.Figure 3. Input Current vs. Forward Voltage.105V O – OUTPUT VOLTAGE – VI O – O U T P U T C U R R E N T – m A1.51.00.50.1N O R M A L I Z E D C U R R E N T T R A N S F E R R A T I OI F – INPUT CURRENT – mA V F – FORWARD VOLTAGE – VOLTSI F – F O R W A R D C U R R E N T – m A1.11.00.90.80.70.6N O R M A L I Z E D C U R R E N T T R A N S F E R R A T I OT A – TEMPERATURE – °C200015001000500T A – TEMPERATURE – °C t P – P R O P A G A T I O N D E L A Y – n s3.02.01.00.60.40.20.8R L – LOAD RESISTANCE – k Ωt P – P R O P A G A T I O N D E L A Y – µsT A – TEMPERATURE – °C101010100101010I O H – L O G I C H I G H O U T P U T C U R R E N T – n A∆I F ∆I O – S M A L L S I G N A L C U R R E N T T R A N S F E R R A T I O0.100.200.30I F – QUIESCENT INPUT CURRENT – mAFigure 11. Test Circuit for Transient Immunity and Typical Waveforms.Figure 10. Switching Test Circuit.Figure 9. Frequency Response.f – FREQUENCY – MHzN O R M A L I Z E D R E S P O N S E –d BAC INPUTOOI F = 15 pFt V I FOV V 0 VSWITCH AT B: I = 1.6 mA FV CMCCt r , t f = 16 ns/semiconductors For product information and a complete list of distributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or (916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939 Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only) Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand, Philippines, Indonesia: (+65) 6755 2044 Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc. Obsoletes 5989-0792ENDecember 28, 20045989-2117EN。