LDEEB2470中文资料

Side Viewing LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 15mA Angle at 20mAWave Length No.No.Lens Typical2θ½Typical Maximum at 15mA Drawing2E108Translucent 2.5mcd 60° 2.1V 2.8V 700nm B 3E109Translucent 4.0mcd 60° 2.1V 2.8V 610nm B 4E110Translucent 4.0mcd 60° 2.1V 2.8V 585nm B 5E111Translucent4.0mcd60°2.1V2.8V565nmB• RED• ORANGE • GREEN• YELLOW BRight Angle, Attachable LEDsLuminous Intensity Viewing Forward V oltagePeak Line Part at 10mA (*at 20mA)Angle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing6EA22Diffused 100mcd 300mcd 60° 1.85V 2.5V 660nm C 7EA27Clear 500mcd 900mcd 30° 1.85V 2.5V 660nm C 8EA20Diffused 5mcd 20.0mcd 60° 2.1V 2.5V 590nm C 9EA21Diffused 5mcd 20.0mcd 60° 2.2V 2.5V 565nm C 10EA25Diffused20mcd60mcd60°2.2V2.5V565nmCULTRA BRIGHT •RED •YELLOW ULTRA BRIGHT•RED•GREEN•GREENT -1¾, Right Angle Leads, LEDs (5mm)Luminous IntensityViewing Forward V oltagePeakLine Part at 10mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mA Drawing 9E241Diffused 12.5mcd 32.0mcd 60° 2.0V 2.5V 625nm C 10E242Diffused 12.5mcd 32.0mcd 60° 2.0V 2.6V 610nm C 11E244Diffused 5.0mcd 20.0mcd 60° 2.1V 2.5V 590nm C 12E246Diffused5.0mcd20.0mcd60°2.2V2.5V565nmC• RED• ORANGE • GREEN• YELLOWRight Angle Bi-Color LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing3EA300White 12.5mcd 40.0mcd 60° 2.2V 2.5V 565nm CDiffused5.0mcd20.0mcd60°2.1V2.5V590nm•GREEN &•YELLOWRight Angle, Attachable, Bi-Color LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing1EA28White Diffused20.0mcd 50.0mcd 60° 2.0V 2.5V 625nm A12.5mcd 40.0mcd 60° 2.2V 2.5V 565nm 2EA29White Diffused 20.0mcd 50.0mcd 60° 2.0V 2.5V 625nm B5.0mcd20.0mcd60°2.1V2.5V590nm•RED &•GREEN •RED &•YELLOWRight Angle, Bi-Color LEDs (Three Leads)Luminous IntensityViewing Forward Voltage PeakLine Part at 20mAAngle at 20mA Wave Length No.No.LensMinimum Maximum2θ½Typical Maximum at 20mA Leads Drawing1E249White 100mcd 300mcd 60° 1.85V 2.5V 660nm 1. Red Anode ADiffused 40mcd 80mcd 60° 2.2V 2.5V 565nm 2. Cathode3. Green Anode 2E250White 20mcd 90mcd 60° 2.0V 2.5V 625nm 1. Red Anode ADiffused 20mcd 70mcd 60° 2.2V 2.5V 565nm 2. Cathode3. Green Anode 3E247White 20mcd 90mcd 60° 2.0V 2.5V 625nm 1. Red Anode ADiffused 20mcd 60mcd 60° 2.1V 2.5V 590nm 2. Cathode3. Yellow Anode 4E248White 20mcd 60mcd 60° 2.1V 2.5V 590nm 1. Yellow Anode ADiffused20mcd70mcd60°2.2V2.5V565nm2. Cathode3. Green Anode•RED &•GREEN•RED &•YELLOW•YELLOW &•GREEN•RED &•GREENRight Angle, Bi-Color, T -1, Low Profile, LEDLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum2θ½Typical Maximum at 20mALeads Drawing8EA202White 8mcd 40mcd 60° 2.0V 2.5V 625nm 1.Red Anode CDiffused 8mcd 40mcd 60° 2.2V 2.5V 565nm 2.Cathode3.Green Anode •RED &•GREEN 9EA207White 8mcd 40mcd 60° 2.0V 2.5V 565nm 1.Green Anode CDiffused 8mcd 40mcd 60° 2.1V 2.5V 590nm 2.Cathode3.Yellow Anode 10EA208White 8mcd 40mcd 60° 2.0V 2.5V 625nm 1.Red Anode CRight Angle, T -1 LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing5EA100Translucent 360mcd 500mcd 50° 1.85V 2.50V 660nm B 6EA104Translucent 20mcd 100mcd 50° 2.10V 2.50V 590nm B 7EA106Translucent100mcd300mcd50°2.20V2.50V565nmB•YELLOW •GREENULTRA BRIGHT•RED•GREEN &•YELLOW RED &Right Angle, Bi-Level, Bi-Color, T -1 LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum2θ½Typical Maximum at 20mALeads Drawing3EA203White 8mcd 40mcd 60° 2.0V 2.5V 625nm 1.Red Anode BDiffused 8mcd 40mcd 60° 2.2V 2.5V 565nm 2.Cathode3.Green Anode 4EA205White 8mcd 40mcd 60° 2.0V 2.5V 625nm 1.Red Anode BDiffused 8mcd 40mcd 60° 2.1V 2.5V 590nm 2.Cathode3.Y ellow Anode 5EA206White 8mcd 40mcd 60° 2.2V 2.5V 565nm 1.Green Anode BDiffused8mcd40mcd60°2.1V2.5V590nm2.Cathode3.Y ellow Anode•RED &•GREEN •RED &•YELLOW •GREEN &•YELLOWRight Angle, Bi-Level, T -1 LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing1EA200Red 100mcd300mcd60°1.85V2.5V660nmADiffused 2EA201Green 8mcd 32mcd 60° 2.2V 2.5V 565nm ADiffused•GREENULTRA BRIGHT•REDRight Angle, Tri-Level, T -1 LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 10mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing6EA331Diffused 12.5mcd 50.0mcd 60° 2.0V 2.5V 625nm C ••REDRight Angle, Quad-Level, Mini LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 10mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing1EA401Diffused 2.0mcd 12.5mcd 100° 2.0V 2.5V 625nm A 2EA404Diffused 2.0mcd 5.0mcd 100° 2.1V 2.5V 590nm A 3EA406Diffused 2.0mcd 5.0mcd 100° 2.2V 2.5V 565nm A 4EA444GR White 8.0mcd 32.0mcd 100° 2.0V 2.5V 625nm A Diffused 8.0mcd 32.0mcd 100° 2.2V 2.5V 565NM 5EA444GYWhite 8.0mcd 32.0mcd 100° 2.2V 2.5V 565nm ADiffused5.0mcd20.0mcd100°2.2V2.5V590nm•YELLOW •GREEN •REDRight Angle, Quad LEDsLuminous IntensityViewing Forward VoltagePeak Line Part at 20mAAngle at 20mAWave Length No.No.Lens Minimum Maximum 2θ½Typical Maximum at 20mADrawing 6EA430Diffused 100.0mcd 300.0mcd 60° 1.85V 2.5V 660nm B 7EA432Diffused20.0mcd60.0mcd60o2.2V2.5V565nmBULTRA BRIGHT•RED SUPER BRIGHT•GREEN•RED &•GREEN •GREEN &•YELLOW。

PACKAGING INFORMATIONOrderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)BQ24702PW ACTIVE TSSOP PW 2460Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24702PWG4ACTIVE TSSOP PW 2460Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24702PWR ACTIVE TSSOP PW 242000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24702PWRG4ACTIVE TSSOP PW 242000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24703PW ACTIVE TSSOP PW 2460Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24703PWR ACTIVE TSSOP PW 242000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24703PWRG4ACTIVE TSSOP PW 242000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM BQ24703RHDR ACTIVE QFN RHD 283000Green (RoHS &no Sb/Br)CU NIPDAU Level-2-260C-1YEAR BQ24703RHDRG4ACTIVEQFNRHD283000Green (RoHS &no Sb/Br)CU NIPDAULevel-2-260C-1YEAR(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -The planned eco-friendly classification:Pb-Free (RoHS)or Green (RoHS &no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Green (RoHS &no Sb/Br):TI defines "Green"to mean Pb-Free (RoHS compatible),and free of Bromine (Br)and Antimony (Sb)based flame retardants (Br or Sb do not exceed 0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers consider certain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.PACKAGE OPTION ADDENDUM27-Sep-2005Addendum-Page 1元器件交易网IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications,enhancements, improvements, and other changes to its products and services at any time and to discontinueany product or service without notice. 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轨到轨运放常用型号
轨到轨运放是一种特殊的运算放大器，其输入和输出电压可以接近或达到供电电源的极限值。

这种运放的特点是具有轨到轨的输入和输出摆幅，因此得名。

轨到轨运放常用型号有：μA741、μA747、AD515A、AD605、AD644、AD648、AD704、AD705、AD706、AD707、AD708、AD711、AD712、AD713、AD741、AD743、AD744、AD745、AD746、AD748、MS8551/8552/8554等。

轨到轨运放的应用非常广泛，特别是在需要高精度、高速、低噪声的信号处理电路中。

由于其输入和输出电压范围大，可以有效地减小电路中的失真和噪声，提高信号的动态范围和信噪比。

此外，轨到轨运放的带宽增益乘积为常数，因此其带宽与增益之间不存在冲突，使得它在许多应用中成为理想的选择。

需要注意的是，轨到轨运放也有一些局限性。

例如，由于其输出摆幅较大，可能会导致放大器在某些情况下容易受到电源噪声的干扰。

此外，轨到轨运放的增益和带宽等性能参数也会受到限制，因此需要根据实际应用需求进行选择和优化。

常用稳压型号参数查询DZ是稳压管的电器编号，1N4148就是一个0.6V的稳压管，下面是稳压管上的编号对应的稳压值，有些小的稳压管也会在管体上直接标稳压电压，如5V6就是5.6V的稳压管。

美标稳压二极管型号：HITACHI(日立)：HITACHI(日立)0.5W稳压二极管型号参数稳压HZ3A1 2.5~2.7VHZ3A2 2.6~2.8VHZ3A3 2.6~2.9VHZ3B1 2.8~3.0VHZ3B2 2.9~3.1VHZ3B3 3.0~3.2V线性稳压器件(输入输出电流相等,压降3V以上)型号稳压(V) 最大输出电流可替代型号79L05 -5V 100mA79L06 -6V 100mA79L08 -8V 100mALM7805 5V 1A L7805,LM340T5LM7806 6V 1A L7806LM7808 8V 1A L7808LM7809 9V 1A L7809LM7812 12V 1A L7812,LM340T12LM7815 15V 1A L7815,LM340T15LM7818 18V 1A L7815LM7824 24V 1A L7824LM7905 -5V 1A L7905LM7906 -6V 1A L7906,KA7906LM7908 -8V 1A L7908LM7909 -9V 1A L7909LM7912 -12V 1A L7912LM7915 -15V 1A L7915LM7918 -18V 1A L7918LM7924 -24V 1A L792478L05 5V 100mA78L06 6V 100mA78L08 8V 100ma78L09 9V 100ma78L12 12V 100ma78L15 15V 100ma78L18 18V 100ma78L24 24V 100ma开关稳压器件(电压转换效率高)型号说明最大输出电流LM1575T-3.3 3.3V简易开关电源稳压器1ALM1575T-5.0 5V简易开关电源稳压器1ALM1575T-12 12V简易开关电源稳压器1ALM1575T-15 15V简易开关电源稳压器1ALM1575T-ADJ 简易开关电源稳压器(可调1.23V~37V) 1ALM1575HVT-3.3 3.3V简易开关电源稳压器1ALM1575HVT-5.0 5V简易开关电源稳压器1ALM1575HVT-12 12V简易开关电源稳压器1ALM1575HVT-15 15V简易开关电源稳压器1ALM1575HVT-ADJ 简易开关电源稳压器(可调1.23V~37V) 1ALM2575T-3.3 3.3V简易开关电源稳压器1ALM2575T-5.0 5V简易开关电源稳压器1ALM2575T-12 12V简易开关电源稳压器1ALM2575T-15 15V简易开关电源稳压器1ALM2575T-ADJ 简易开关电源稳压器(可调1.23V~ 37V) 1ALM2575HVT-3.3 3.3V简易开关电源稳压器1ALM2575HVT-5.0 5V简易开关电源稳压器1ALM2575HVT-12 12V简易开关电源稳压器1ALM2575HVT-15 15V简易开关电源稳压器1ALM2575HVT-ADJ 简易开关电源稳压器(可调1.23V~37V) 1ALM2576T-3.3 3.3V简易开关电源稳压器3A LM2576T-5.0 5.0V简易开关电源稳压器3A LM2576T-12 12V简易开关电源稳压器3A LM2576T-15 15V简易开关电源稳压器3A LM2576T-ADJ 简易开关电源稳压器(可调1.23V~37V) 3A LM2576HVT-3.3 3.3V简易开关电源稳压器3ALM2576HVT-5.0 5.0V简易开关电源稳压器3ALM2576HVT-12 12V简易开关电源稳压器3ALM2576HVT-15 15V简易开关电源稳压器3ALM2576HVT-ADJ 简易开关电源稳压器(可调1.23V~37V) 3A。

DL/T724-2000电力系统用蓄电池直流电源装置运行与维护技术规程1 范围本标准规定了电力系统用蓄电池直流电源装置（包括蓄电池、充电装置、微机监控器）运行与维护的技术要求和技术参数，适用于电力系统各部门直流电源的运行和维护。

2 引用标准下列标准所包含的条文，通过在本标准中引用而构成为本标准的条文。

本标准出版时，所示的版本均为有效。

所有标准都会被修订，使用本标准的各方应探讨使用下列标准最新版本的可能性。

GB/T2900.11-1988 蓄电池名词术语GB/T2900.33-1993 电工术语电力电子技术DL/T459-2000 电力系统直流电源柜订货技术条件3 名词术语名词术语除按引用标准GB/T2900.11及GB/T2900.33中的规定外，再增补以下名词术语：3.1初充电新的蓄电池在交付使用前，为完全达到荷电状态所进行的第一次充电。

初充电的工作程序应参照制造厂家讲明书进行。

3.2恒流充电充电电流在充电电压范围内，维持在恒定值的充电。

3.3均衡充电为补偿蓄电池在使用过程中产生的电压不均现象，使其恢复到规定的范围内而进行的充电。

3.4恒流限压充电先以恒流方式进行充电，当蓄电池组电压上升到限压值时，充电装置自动转换为限压充电，至到充电完毕。

3.5浮充电在充电装置的直流输出端始终并接着蓄电池和负载，以恒压充电方式工作。

正常运行时充电装置在承担经常性负荷的同时向蓄电池补充充电，以补偿蓄电池的自放电，使蓄电池组以满容量的状态处于备用。

3.6补充充电蓄电池在存放中，由于自放电，容量逐渐减少，甚至于损坏，按厂家讲明书，需定期进行的充电。

3.7恒流放电蓄电池在放电过程中，放电电流值始终保持恒定不变，直放到规定的终止电压为止。

3.8容量试验（蓄电池）新安装的蓄电池组，按规定的恒定电流进行充电，将蓄电池充满容量后，按规定的恒定电流进行放电，当其中一个蓄电池放至终止电压时为止，按以下公式进行容量计算：C=Ift(Ah)式中C -蓄电池组容量，Ah；If_-恒定放电电流，A；t -放电时刻，h。

间距(mm) 单元尺寸（mm）单元分辨率驱动方式像素组成密度（点/ m2）亮度(cd/m2) 三合一表贴P5 160X80 32X16 1/8扫恒流全彩1R1G1B 40000 1800P6 192X96 32X16 1/8扫恒流全彩1R1G1B 27777 1500P7.62 244X122 32X16 1/4扫恒流全彩1R1G1B 17222 1500P7.62 244X122 32X16 1/8扫恒流全彩1R1G1B 17222 1200P8 256X128 32X16 1/4扫恒流全彩1R1G1B 15625 1250P8 256X128 32X16 1/8扫恒流全彩1R1G1B 15625P10 160X160 16X16 1/2扫恒流全彩1R1G1B 10000 1800P10 160X160 16X16 1/4扫恒流全彩1R1G1B 10000 1100P10 160X160 16X16 1/8扫恒流全彩1R1G1B 10000P12 192X192 16X16 1/4扫恒流全彩1R1G1B 6944 1000分立表贴P6 192X96 32X16 1/8扫恒流全彩1R1G1B 27777 1300P6 192X96 32X16 1/8扫恒流双色1R1G 27777 1000P7.62 244X122 32X16 1/8扫恒流全彩1R1G1B 17222 900P7.62 244X122 32X16 1/8扫恒流双色1R1G 17222 800P8 256X128 32X16 1/8扫恒流全彩1R1G1B 15625 1000P8 256X128 32X16 1/8扫恒流双色1R1G 15625 800P10 160X160 16X16 1/4扫恒流全彩1R1G1B 10000 1000P10 160X160 16X16 1/4扫恒流双色1R1G 10000 900P10 160X160 16X16 1/8扫恒流全彩1R1G1B 10000 700P10 160X160 16X16 1/8扫恒流双色1R1G 10000 630P12 192X192 16X16 1/4扫恒流全彩1R1G1B 6944 800P12 192X192 16X16 1/4扫恒流双色1R1G 6944 700亚表帖P7.62 488X244 64X32 1/8扫恒流全彩1R1G1B 17222 1800P7.62 488X244 64X32 1/8扫恒流双色1R1G 17222 1500P10 320X320 32X32 1/8扫恒流全彩1R1G1B 10000 1000P10 320X320 32X32 1/8扫恒流双色1R1G 10000 900P12 384X384 32X32 1/4扫恒流全彩1R1G1B 6944 1200P12 384X384 32X32 1/4扫恒流双色1R1G 6944 1000点阵屏P4.75 304X152 64X32 1/8扫恒流全彩1R1G1B 44321 1600P4.75 304X152 64X32 1/16扫恒流全彩1R1G1B 44321P6 384X192 64X32 1/8扫恒流全彩1R1G1B 27777P6 384X192 64X32 1/16扫恒流全彩1R1G1B 27777 1000P7.62 488X244 64X32 1/8扫恒流单色1R 17222 100P7.62 488X244 64X32 1/8扫恒流双色1R1YG 17222 200P7.62 488X244 64X32 1/8扫恒流全彩1R1G1B 17222 800彩幕P40 320X320 8X8 静态全彩2R1G1B 625 1500间距(mm) 模组尺寸（mm）模组分辨率像素组成(RGB) 驱动方式密度（点/m2）亮度(CD/m2)全彩P10 160X80 16X8 1R1G1B 1/4恒流10000 6500P10 160X80 16X8 2R1G1B 1/4恒流10000 7500P12 192X96 16X8 1R1G1B 1/4恒流6944 6000P12 192X96 16X8 2R1G1B 1/4恒流6944 7000P14 224X112 16X8 1R1G1B 静态恒流5102 5500P14 224X112 16X8 2R1G1B 静态恒流5102 6800P16 256X128 16X8 1R1G1B 静态恒流3906 5000P16 256X128 16X8(实) 2R1G1B 静态恒流3906 6500 P16 256X128 16X8(虚) 2R1G1B 静态恒流3906 6800 P18 256X128 16X8(实) 2R1G1B 静态恒流P18 256X128 16X8(虚) 2R1G1B 静态恒流P20 320X160 16X8(虚) 2R1G1B 静态恒流2500 5500 P20 320X160 16X8(实) 2R1G1B 静态恒流2500 5000 P25 400X200 16X8 2R1G1B 静态恒流1600 5000P31.25 250X250 8X8 4R2G2B 静态恒流1024 5000 双色P10 160X160 16X16 1R1G 1/4恒流10000P10 160X160 16X16 2R1G 1/4恒流10000 7000P12 192X96 16X8 1R1G 1/4恒流6944P12 192X96 16X8 2R1G 1/4恒流6944 6000P12 192X96 16X8 2R1G 1/4恒压6944 6390P14 224X112 16X8 1R1G 静态恒流5102P14 224X128 16X8 2R1G 静态恒流5102P16 256X128 16X8 2R1G 1/4恒压3906 2086P16 256X128 16X8 2R1G 静态恒流3906 5000P18 256X128 16X8 2R1G 静态恒流P20 320X160 16X8 2R1G 静态恒流2500 4000P25 200X200 16X8 2R1G 静态恒流1600 4500P31.25 250X250 8X8 4R2G 静态恒流1024 4000单色P10 320X160 32X16 1R 1/4恒压10000 900P10 160X160 16X16 1R 1/4恒压10000 900P10 160 X 80 16X8 1R 1/4恒压10000 900P10 160 X 80 16X8 2R 1/4恒压10000 1800P12 192X96 16X8 1R 1/4恒压6944 900P12 192X96 16X8 2R 1/4恒压6944 1800P14 224X112 16X8 1R 1/4恒压5102 800P14 224X128 16X8 2R 1/4恒压5102 1600P16 256X256 16X16 1R 1/2恒压3906 1400P16 256X128 16X8 2R 1/4恒压3906 700。

安全注意事项在使用本产品和任何相关仪器之前，请先阅读以下安全注意事项。

虽然一些仪器和附件通常在无害电压下使用，但是也可能出现对人体有害的情况。

本产品应由特定人员使用，此类人员需能够辨别电击危险，且熟悉必要的安全注意事项，从而避免潜在伤害。

使用此产品之前请仔细阅读并遵守所有的安装、操作和维护信息。

有关完整的产品规格，请参阅用户文档。

若未以指定的方式使用产品，可能丧失产品保修所提供的保障。

产品的用户类型有：责任主体，是负责使用和维护机器，确保在设备规格和运行限制范围内使用设备，并确保操作人员经过充分培训的个人或小组。

操作人员，是负责使用产品特定功能的人员。

他们必须接受过电气安全流程和正确操作仪器方面的培训。

应当采取保护措施，防止他们遭到电击和触碰到危险的带电电路。

维护人员，负责产品日常维护以保持仪器运转正常，例如，设置线路电压或更换耗材。

用户文档中描述了维护步骤。

这些步骤都清楚描述了操作人员是否能够执行它们。

如果不能，那么只能由服务人员来执行这些操作。

服务人员，接受过培训，可操作带电电路，执行安全安装并修理产品。

只有受过正确训练的服务人员才能执行安装和服务流程。

Keithley 产品专门设计用于测量、控制和数据输入/输出连接等电气信号，带有低瞬时过压，不能直接连接到电网电压或具有瞬时高电压的电压源上。

测量类别 II （引自 IEC 60664 标准）连接要求针对本地交流电网连接经常发生的高瞬时电压采取保护措施。

某些 Keithley 测量仪器可以连接到电网上。

这些仪器将会标记为类别 II 或更高级别。

除非在仪器规格、操作手册和仪器标签中明示允许，否则不要将任何仪器连接到电网上。

存在电击危险时，一定要小心谨慎。

电缆连接器插头或测试装置上可能存在致命电压。

美国国家标准学会 (ANSI) 规定，超过 30 V RMS、42.4 V 峰值或 60 VDC 的电压水平存在电击的危险。

养成良好的测量习惯，任何未知电路均视为存在危险电压。

2470 Wizard 2Research Use Only (RUO)Automatic Gamma CountersDescriptionThe 2470 Wizard 2® gamma counters present the next generation instrumentation for gamma counting. Wizard 2 unites the flexibility, robustness and accuracy for applications requiring gamma radiation analysis. One, two, five or ten independent well-type detectors, automatic or manualcounting mode, multi-user capability and multitasking operationenvironment provide flexible and efficient sample processing.The instrument can be used as a stand-alone system or it can be easily networked. Wizard 2 is available in either 550-sample or 1000-sample conveyor versions.Standard Features• Detector system consists of detectors made of thalli-um activated, sodium iodide crystals. The crystal height is 50 mm (2.0 in) and diameter is 32 mm (1.26 in). 4π counting geometry ensures optimal counting efficiency of the sample.• Radiation shielding is present for the detectorassembly and the conveyor. The detector assembly is surrounded by a minimum of 12 mm (0.48 in) of lead shielding above and below. The shielding against the conveyor is 30 mm (1.25 in) of solid lead. The shielding between the detectors is 7 mm (0.28 in) of solid lead.• Sample changer has a storage capacity of 55 racks (550 samples) or 100 racks (1000 samples).• Linear multichannel analyzer with 2048 channels. Dead time is 2.5 µs. • Radionuclide library consists of 45 nuclides: • Energy range is 15-1000 keV.• Maximum count rate is 6 million DPM (app. 5 million CPM) for 125I.Radiometric Detection2Quality Control and Regulations• Instrument Performance Assessment (IPA ™) allows follow up of variable instrument parameters for quality control purposes. IPA automatically monitors data, evaluates monitored data for quality assurance and provides out-of-control warnings for nine detector parameters including: – isotope main peak channel number – background CPM in counting window – relative detector efficiency – detector resolution – absolute detector efficiency – window coverage– detector stability probability – measured CPM in counting window – measured total CPM in whole spectrum • Wizard 2 is manufactured according to ISO 9001.Optional MyAssays ® Desktop Data AnalysisComprehensive data analysis is performed by optional MyAssays ® Desktop Pro from DAZDAQ (MAD). MAD is acomprehensive software specifically designed for RIA/IRMA and custom data reduction in a regulated environment.• Data analyses provide quantifiable accuracy for assaysthrough sophisticated weighting, many curve fit algorithms including 4PL and 5PL, plus curve fit metrics. • QC provides a range of inter-assay and intra-assay analysis features for continuous monitoring and automatic validation of assays.• Report Templates use the full power of Microsoft (MS) Word to define a report template to apply to MyAssays ® Desktop outputs. Including content created in MS Word, such as headers, footers, custom images, fonts, macros, signature lines, etc.• Upload worklists and download results easily with or without a LIM system.Rack and Sample Vial Specifications• Sample tube specifications are shown in the table below. In Automatic In ManualOperation Operation Maximum 13 mm (0.5 in) 15 mm (0.6 in) Diameter: (17 mm, 0.7 inwithout tray) Maximum cap diameter: 14 mm (0.6 in) 22 mm (0.9 in) Minimum diameter: No limit No limit Minimum height: No limit No limitMaximum 90 mm (3.5 in) 120 mm (4.7 in) height: (including cap) (including cap) Typical volume:~ 3 mL~ 3 mL• Tube shape Microcentrifuge tubes can be used without adapters. Eppendorf ® tubes can be measured at odd positions in sample racks.• Plastic sample racks can hold 10 samples/rack. Racks have barcodes for protocol and rack number identification. Supported barcode languages are code 128, interleaved 2/5, code 39 and codabar. Sample racks can have protocol barcodes 1-999. Sample racks are compatible with most centrifuges. Maximum centrifugation force 2500 x G.• Contamination guards are inherent in rack construction, protecting the detectors from contamination. Samples are separated from the detectors by liquid-tight, disposable sample holders.Operational Features• Built-in LCD touch screen for routine usage.• Built-in computer controlling the system is an industry standard computer with Microsoft ® Windows ® 10 operating system. The computer contains a USB connection for a memory stick, an external hard drive, a printer and an Ethernet connection for networking. • Alphanumeric keyboard and mouse for advanced usage on a pullout shelf.• Live spectrum display of counts, CPM or CPS values can be displayed on the screen. Counting spectrum can be displayed or plotted on the printer.• MultiSTAT interrupt counting enables a series of stat samples to be processed in manual mode while the assay in process is not affected. This allows the user to analyze urgent samples in the middle of long run.• Automatic normalization is carried out using a normalization cassette for each defined nuclide.• Datalogger enables all assay results to be automatically stored in a text file. Format is compatible with Microsoft ® Excel ®.For a complete listing of our global offices, visit /ContactUsCopyright ©2020, PerkinElmer, Inc. All rights reserved. PerkinElmer ® is a registered trademark of PerkinElmer, Inc. All other trademarks are the property of their respective owners.84900 RUO PKIPerkinElmer, Inc. 940 Winter StreetWaltham, MA 02451 USA P: (800) 762-4000 or (+1) 203-925-4602OptionsNew Instrument Orders:• 7005463 MyAssays ®Desktop Pro for Wizard2• 7005464 MyAssays ® Desktop Pro ES Wizard 2• 7005469 Wizard Data viewer utility for post run data and spectral data viewing • 7005457 Wizard Sample Vial Bar code Option Field Upgrade Only:• 7005465 MAD Pro for Wizard 2 - Field Upgrade • 7005466 MAD Pro ES for Wizard 2- Field Upgrade• 7005467 WorkOutPlus to MAD Pro - Field Upgrade • 7005468 WorkOutPlus ES to MAD Pro ES - Field UpgradeTypical Performance DataAll background values are typical values at PerkinElmer's facility in Singapore. Background may vary due to local conditions.Background:125I 12 CPM 129I6 CPM 57Co90 CPM15-1000 keV 452 CPM Efficiency:125I 78%129I 58%51Cr 3%137Cs 26%58Co 3.5%Efficiency = CPM/DPM x 100%, window 15 keV–1000 keV Energy Resolution:125I < 30%129I< 30%51Cr < 14%137Cs< 12%58Co< 8%Spilldown :57Co into 125I < 3% (uncorrected) preset regions< 1% (corrected)Detector to detector crosstalk:125I Negligible57Co Negligible 51Cr < 0.5%137Cs < 4%58Co< 5%Conveyor to detector crosstalk:125I Negligible57Co Negligible 51Cr Negligible 137Cs< 0.12%58Co< 0.2%Physical DataDimensions:Height: 550/1000-sample model: 729 mm (28.7 in)Width: 550-sample model: 650 mm (25.6 in) 1000-sample model: 1190 mm (46.9 in)Depth: 550-sample model: 770 mm (30.3 in) 1000-sample model: 650 mm (25.6 in)Weight: 150 – 165 kg (330 – 365 lb)depending on the model Transport weight: 168 – 180 kg (370 – 400 lb)depending on the model Electrical 100 – 240 V at 50 – 60 Hz, requirements: 150 VA maximum Environmental Temperature range requirements:from +15 °C to +35 °CMaximum humidity 85%Electrical Safety RequirementsThe design of the instrument is based on the following electrical safety requirements:EN 61010-1 Safety requirements for electrical equipment for measurement, control and laboratory use EN 61326-1 Electrical equipment for measurement, control and laboratory use – EMC requirements EN 61010-2-101 Safety requirements for electricalequipment for measurement, control and laboratory use。

247000 SeriesDigital Low Resistance Ohmmeters■Resolution to 0.1 µΩon 599.9 µΩrange ■Standard accuracy of ±0.25% ■Digital readout247000 SeriesDigital Low Resistance OhmmetersDESCRIPTIONDigital Low Resistance Ohmmeters (DLRO ®) are a family of highly accurate instruments that provide a simple, practical and reliable means of making low-resistance tests in the field. They also are ideal for production quality control.They operate on the four-wire measurement principle, thus eliminating lead and contact resistances. With basicaccuracies of ±0.25% and resolution down to 0.1 µΩ, they are nonetheless designed to be rugged and portable for use at the job site. A variety of optional test leads and calibration resistance standards are offered for use with DLROs.APPLICATIONSOperation is simple: just connect the leads, turn the instrument on and read the measurement directly from the digital LED display. No warm-up is required.Typical applications include measuring the resistance of:■Switch and circuit breaker contacts ■Transformers and generators ■Motor windings ■Busbar and other joints ■Aircraft, rail and pipe bonds ■Cable splices, welds and fuses ■Metal alloys■Graphite electrodes and other composites ■Wire and cableGeneral-Purpose DLROsTwo models specially designed for general-purpose testing applications are available.Each provides up to 10 amperes of test current for measuring resistances to 60 ohms with 1 µΩresolution and ±0.25% accuracy.Dual-Pak General-Purpose Model, Cat No. 247000This battery-powered unit features separate measuring and charger modules for maximum portability. The charger can be left in the shop, and the measuring module taken to the job site.It weighs less than 8 pounds (3.6 kg) and provides hours of testing.Single-Pak General-Purpose Model, Cat. No. 247001This compact instrument packages measuring circuits,rechargeable batteries and charger in one self-contained unit.Ruggedly built to handle the most demanding fieldapplications, the Single-Pak is housed in a tough Noryl ®case with hinged, removable lid and carrying handle. This model also includes captive wing nuts.Single-Pak/Low-Range ModelCat. No. 247002This model provides an extra range, 0 to 599.9 µΩ, for applications requiring 0.1 µΩresolution. It also features a current-reversing switch to average out any voltage offset in the test sample. Captive wing nuts are also standard.1981Low-Range/High-Current ModelsCat. No. 247100 and 247101These instruments are used when a continuous test current of 100 amperes is required. These models include a separate 100 ampere current supply module with a modified standard battery-powered 10 ampere system.These combinations provide a sixth range, 0 to 599.9 µΩ, with the 100 ampere current.For 100 ampere measurements, an interconnecting cable from the 100 ampere current supply module is plugged into a special receptacle on the measuring module.When the 100 ampere range is not used, a jumper plug is inserted in place of the interconnecting cable.This feature allows the measuring module to be usedas a standard battery-powered, 10 A instrument.Cat. No. 247100 meets ANSI C37.09, Test Procedure for AC High Voltage Circuit Breakers.FEATURES AND BENEFITS■Resolution as fine as 0.1 µΩ■Standard accuracy of ±0.25%■Kelvin-type, four-wire measurement eliminates errors caused by lead and contact resistances.■Digital readout with automatic zero circuit eliminates field test inaccuracies.■Broad line of test leads is available to simplify and enhance data collection.The Low-Range DLRO, Cat.No. 247002, features an extrarange and rugged, Single-Pakdesign.Low-Range/High-Current Model Cat. No. 247101 consists of aSingle-Pak DLRO, Cat. No. 247001-3, and separate 100 amperetest current supply, Cat. No. 247120. The 100 ampere supplyalso may be ordered as an option.SPECIFICATIONS247100 consists of 247000-3 Dual-Pak & 247120 100 ampere Power Supply247101 consists of 247001-3 Single-Pak & 247120 100 ampere Power Supply*Al ID f l*Gold-plated**Silver-plated***With Cat. No. 247120 onlyIndividual Test LeadsTest LeadsMegger DLROs require test leads, two potential and two current, to make low-resistancemeasurements. In addition to individual current and potential lead sets, duplex leads that combinecurrent and potential connections in one set are offered. A variety of C-clamps, Kelvin clips, fixed-point and helical spring-point leads are available in various lengths.Duplex Test Lead StylesKelvin Clips —Feature spadelugs on outboard end andalligator clips with insulated,silver- or gold-plated jawsCat. No. 241005-7, 242005-7,242006-7, 242006-18, 242006-30Heavy-Duty C-Clamps —Current passes through theC-clamp and screw thread;the potential passes through afour-point anvil insulated fromthe clamp metal. This set ofleads is available in two widthsand a variety of lengths.Cat. No. 242004-7, 242004-18,242004-30, 242104-2-16,242104-2-26Heavy-Duty Fixed Points —Economical, lightweight andbuilt for durabilityCat. No. 242002-7, 242002-18,242002-30Helical Spring Points —Tips rotate and compress intothe body of the probe toensure accurate measurement.Cat. No. 242011-7, 242011-18,242011-30, 242009-18UKArchcliffe Road, Dover CT17 9EN England T (0) 1 304 502101 F (0) 1 304 207342UNITED STATES 4271 Bronze WayDallas, TX 75237-1019 USA T 1 800 723 2861 T 1 214 333 3201 F 1 214 331 7399OTHER TECHNICAL SALES OFFICES Norristown USA, Toronto CANADA,Mumbai INDIA, Trappes FRANCE, Sydney AUSTRALIA, Madrid SPAIN and The Kingdom of BAHRAIN.ISO STATEMENTRegistered to ISO 9001:2000 Reg no. Q 09250Registered to ISO 14001 Reg no. EMS 61597DLRO247000_DS_en_Megger is a registered trademarkOPTIONAL ACCESSORIES Input Voltage ProtectionTo protect the instrument when testing battery straps, this option provides input protection against accidental overvoltage up to 30 volts.The option should not be specified when the instrument will be used to test transformers and other inductivecomponents. This option is available on Cat. No. 247000,247001 and 247002 only. To order, add –11to instrument Cat. No.100-Ampere Adapter PlugCat. No. 247000 and 247001 can be ordered with an adapter plug to allow use with the 100 ampere current supply, Cat. No. 247120.This capability is required by some standard methods of testing large switchgear. ANSI C37.09, Test Procedure for AC High Voltage Circuit Breakers, and IECRecommendation, Publication 56-4, High VoltageAlternating Current Circuit Breakers Cat. No. 247101, are two such standards. Cat. No. 247100 comes standard with this option. This option is not available with Cat. No.247002. To order, add –3to instrument Cat. No.Calibration ShuntsThese four-terminal calibrating resistance standards feature a conservative current rating to ensure against overheating. Each shunt provides two current terminals with knurled Allen-head cap screws and two potential terminals with slotted screw heads. Accuracy is ±0.25%.。

Microwave Drawer : SMD2470AS, SMD2470AH, SMD3070ASINSTALLATION MANUALUNPACKING YOUR MICROWAVE DRAWER• Remove all packing materials from inside the Microwave Drawer. DO NOT REMOVE THE WAVEGUIDE COVER, which is located on the top of the Microwave Drawer.• Remove the feature sticker, if there is one.Check the drawer for any damage, such as misaligned or bentnot operate the Microwave Drawer and contact your dealer or a SHARP AUTHORIZED SERVICER.IMPORTANT NOTES TO THE INSTALLER• Read all of the Installation Manual before installing theMicrowave Drawer. • Remove all packing material before connecting the electricalsupply. • Observe all governing codes and ordinances. • Be sure to leave these instructions with the consumer.IMPORTANT NOTES TO THE CONSUMERaccordance with local codes. • Make sure the wall coverings and the cabinets around theMicrowave Drawer can withstand the heat generated by the Microwave Drawer. Never leave children alone or unattended inthe area where a Microwave Drawer is in use. Never leave the drawer open when the microwave is unattended.Stepping, leaning or sitting on the drawer mayresult in serious injuries and can also cause damage to the Microwave Drawer.• Do not use the Microwave Drawer as a storage space.This creates a potentially hazardous situation.• Check that the time-of-day is in the display. If not, touchSTOP/CLEAR to prevent unintended use.• Dimensions that are shown in Figure 1 (for 24") or Figures4 and5 (for 30") must be used. Given dimensions provide minimum clearance. Locate electrical outlet in the shaded area in the upper left-hand corner of the cutout. See Figure 9. • Contact surface must be solid and level. Pay special attentionto the floor on which the Microwave Drawer will sit. The floor of the opening should be constructed of plywood strong enough to support the weight of the oven (about 100 pounds).• Check location where the Microwave Drawer will beinstalled for proper electrical supply.• Your oven can be built into a cabinet or wall by itself orunder a gas or electric wall oven. • Be sur e that the clearance of the floor between the wall ovenand the microwave drawer is a minimum of 2-inches.• The microwave interior will easily accommodate a 9" x 13"oblong dish or a bag of microwave popcorn.• The oven can also be mounted flush. Please see instructionsfor flush m ounting included with the Flush Mount Deflector vent.CA. 6"B. Suggested electrical outlet location*C. Anti-Tip blockD. 5"E. 3-1/2"F. 4"G. 22-1/8" openingH. 14-13/16" to bottom of Anti-Tip block I. Allow 7/8" overlapJ. 23-1/2" minimum depth K. Allow 3/16" overlap L. 36" countertop heightM. Allow 7/16" minimum space N. Floor must support 100 lb O. 24" cabinet minimum P. 15-9/16" opening Q. Allow 1/8" overlapFigures 1 and 2 contain many Microwave Drawer measurements for reference when planning the drawer’s location.This Microwave Drawer can be installed below any electric or gas wall oven.* Can also be installed using an electrical outlet in an adjacent cabinet within the area where the provided electrical cord can reach. Power cord access hole in cabinet should be a minimum 1 1/2" diameter hole and deburred of all sharp edges.IMPORTANTAlways allow sufficient power cord length to theelectrical outlet to prevent tension.Always check electrical codes for requirements.A. 21-5/8"B. 4-11/16"C. 1-3/4"D. 21-7/8"E. 23-7/8"F. 15-7/8"G. 14-19/32"H. 1-9/64" door thickness I. 15" auto drawer opening J. 4"EThis drawing represents a typical standard cabinet. If installed in custom cabinets with extended counter tops, take into account visibility and access to controls. See Figure 3.A. 25"B. 1/2" minimumC. 15-7/8"D. 36"E. Control panel shown in open positionF. 24"G. 34-1/2"Figures 4, 5 and 6 contain many Microwave Drawer measurements for reference when planning the drawer’s location.This Microwave Drawer can be installed below any electric or gas wall oven.A. 84" wall cabinetB. Optional wall oven cutout illustrated in sketchC. Suggested electrical outlet location*D. 6"E. Anti-Tip blockF. 3-1/2"G. 5"H. 4"I. 2" minimumJ. 22-1/8" minimum, 28-7/16" maximum K. Allow 3/16" overlapL. 14-13/16" to bottom of Anti-Tip block M. Allow 23/32" overlap N. 23-1/2" minimum depth O. 15-9/16" opening P. Allow 1/8" overlapQ. Floor must support 100 lb R. 30" cabinet minimum* Can also be installed using an electrical outlet in an adjacent cabinet within the area where the provided electrical cord can reach. Power cord access hole in cabinet should be a minimum 1 1/2" diameter hole and deburred of all sharp edges.Always allow sufficient power cord length to theelectrical outlet to prevent tension.Always check electrical codes for requirements.A. 6"B. Suggested electrical outlet location*C. Anti-Tip blockD. 5"E. 3-1/2"F. 4"G. 22-1/8" minimum, 28-7/16" maximum H. 14-13/16" to bottom of Anti-Tip block I. Allow 23/32" overlap J. 23-1/2" minimum depth K. Allow 3/16" overlap L. 36" countertop heightM. Allow 7/16" minimum space N. Floor must support 100 lb O. 30" cabinet minimum P. 15-9/16" opening Q. Allow 1/8" overlapA. 21-5/8"B. 4-11/16"C. 1-3/4"D. 21-7/8"E. 30"F. 15-7/8"G. 14-19/32"H. 1-9/64" door thickness I. 15" auto drawer opening J. 4"EThis drawing represents a typical standard cabinet. If installed in custom cabinets with extended counter tops, take into account visibility and access to controls. See Figure 7.A. 25"B. 1/2" minimumC. 15-7/8"D. 36"E. Control panel shown in open positionF. 24"G. 34-1/2"This appliance must be grounded. The Microwave Drawer is equipped with a cord having a grounding wire with a grounding plug. It must be plugged into a wall receptacle that is properly installed and grounded in accordance with the National Electrical Code and local codes and ordinances. In the event of an electrical short circuit, grounding reduces risk of electric shock by providing an escape wire for the electric current. – Improper use of the grounding plug can result in a risk of electricshock. Do not use an extension cord. If the power supply cord is too short, have a qualified electrician or serviceman install an outlet near the appliance.Screw1. P lace the drawer adjacent to the wall or cabinet opening. Plug the power supply cord into the electrical outlet.2. C arefully guide the drawer into the prepared opening. Avoid pinching the cord between the oven and the wall.3. S lide the drawer all the way until the mounting flange is flush with the face of the cabinet. See Figure 10A.4. O pen the drawer. Using the 4 holes on the drawer as a template, pre drill the cabinet using a 1/16" bit. See Figure 10A.5. S ecure the drawer with the 4 screws supplied. See Figure 10B.The name plate includes model and serial number. Open the Microwave Drawer fully. The label is beyond the back wall of the microwave cavity facing up from the flat surface.Refer to the Operation Manual for cleaning instructions.Read the BEFORE YOU CALL and operating instruction sections in your Operation Manual. It may save you time and expense. The list includes common occurrences that are not the result of defective workmanship or materials in this range.Refer to the warranty in your Operation Manual for Sharp’s toll-free service number and address. Please call or write if you have inquiriesabout your microwave product and/or need to order parts.Parts suppliedFigure 10BTINSEB539MRR4SHARP ELECTRONICS CORPORATION100 Paragon Drive, Suite #100 • Montvale, New Jersey 076451-800-BE-SHARP (237-4277)。

2470-RACKThe 2470 High Voltage SourceMeter® Source Measure Unit (SMU) Instrument brings advanced Touch, Test, Invent® technology right to your fingertips. It combines an innovative graphical user interface (GUI) with capacitive touchscreen technology to make testing intuitive and minimize the learning curve to help engineers and scientists learn faster, work smarter, and invent easier. With its 1100 V and 10 fA capability, the 2470 is optimized for characterizing and testing high voltage, low leakage devices, materials, and modules, such as silicon carbide (SiC), gallium nitride (GaN), power MOSFETs, transient suppression devices, circuit protection devices, power modules, batteries, and much more. Thesenew capabilities, combined with Keithley’s decades of expertise in developing high precision, high-accuracy SMU instruments, make the 2470 a “go-to instrument” for high-voltage source and low-current measurement applications in the lab and in the test rack.Key Features• Wide coverage up to 1100 V / 1 A DC 20 W max.• 10 fA measure resolution• 0.012% basic measure accuracy with 6½-digit resolution• Five-inch, high resolution capacitive touch screen GUI • Source and sink (4-quadrant) operation• SCPI and TSP® scripting programming modes• TSP-Link for multi-channel I-V testing• Front panel input banana jacks; rear panelhigh-voltage input triaxial connections• Built-in context-sensitive help• Front-panel USB 2.0 memory I/O port for transferring data, test scripts, and test configurationsDatasheetA Tektronix CompanyDatasheet2Learn Faster; Work Smarter; Invent EasierThe 2470 features a five-inch, full-color, high resolution touchscreen that supports intuitive operation, helps operators become familiar with the instrument quickly, and optimizes overall speed and productivity. A simple icon-based menu structure reduces the number of steps required to configure a test by as much as 50 percent and eliminates the cumbersome multi-layer menu structures typically used on soft-key instruments. Built-in, context-sensitive help supports intuitive operation and minimizes the need to review a separate manual. These capabilities, combined with the 2470’s high versatility, simplify its operation in both basic and advanced measurementapplications, regardless of the user’s previous experience in working with SMU instruments.All-in-One SMU InstrumentThe 2470, Keithley’s fourth generation of SourceMeter SMUs, leverages the proven capabilities of the original 2410 High Voltage SourceMeter SMU Instrument. SMU instruments offer a highly flexible, four-quadrant voltage and current source/load coupled with precision voltage and current measurements. This all-in-one instrument can be used as a:• Precision power supply with V and I readback • True current source• Digital multimeter (DCV, DCI, ohms, and power with 6½-digit resolution)• Precision electronic load •Pulse generator•Trigger controller2470 main home screen.2470 icon-based menu.2470 power envelope. 32470 Graphical SourceMeter ® SMU Instrument Data SheetOnline USB 2.0memory I/OFront/rear input selectorRotary navigation/control knobEase of Use Beyond the TouchscreenIn addition to its five-inch color touchscreen, the 2470 front panel offers a variety of features that enhance its speed, user-friendliness, and learnability, including a USB 2.0 memory I/O port, a HELP key, a rotary navigation/control knob, a front/rear input terminal selector button, and banana jacks for basic bench applications. The USB 2.0 memory port simplifies storing test results and instrument configurations, uploading test scripts into the instrument, and installing system upgrades. All front-panel buttons are backlit to enhance visibility in low-light environments. Four Quick Setup modes simplify instrument setup. With one touch, the instrument can be quickly configured for various operating modes without the need to configure the instrument indirectly for this operation.Comprehensive Built-in ConnectivityRear panel access to rear-input connectors, remote control interfaces (GPIB, USB 2.0, and LXI/Ethernet), a D-sub 9-pin digital I/Oport (for internal/external trigger signals and handler control), instrument interlock connector, and TSP-Link ® connectors make it simple to configure multiple instrument test solutions and eliminate the need to invest in additional adapter accessories.2470 front panel with high-resolution, capacitive touchscreen.Rear panel connections are optimized for signal integrity and speed system setup.One-touch Quickset modes speed measurement setups and minimize the time to measurements.EthernetDigital I/O TSP-Link GPIBInterlockUSBDatasheet4Convert Raw Data to InformationA full graphical plotting window converts raw data and displays it immediately as useful information, such as semiconductor I-V curves and waveforms. Using the 2470’s Sheet view, test data can also be displayed in tabular form. The instrument supports exporting data to a spreadsheet for further analysis, dramatically improving productivity for research, benchtop testing, device qualification, and debugging.Built-in data display, charting, and spreadsheet export functions simplify converting test results into useful information.TriggerFlow ® Building Blocks for Instrument Control and ExecutionThe 2470 incorporates Keithley’s TriggerFlow triggering system, which provides user control of instrument execution. TriggerFlow diagrams are created in much the same way that flow charts are developed, using four building blocks:• Wait – Waits for an event to occur before the flow continues • Branch – Branches when a condition has been satisfied• Action – Initiates an action in the instrument, for example, measure, source, delay, set digital I/O, etc.• Notify – Notifies other equipment that an eventhas occurredTriggerFlow building blocks allow creating triggering models that range from very simple to highly complex.A TriggerFlow model using a combination of these building blocks can be created from the front panel or by sending remote commands. With the TriggerFlow system, users can build triggering models from very simple to complex with up to 255 block levels. The 2470 also includes basic triggering functions, including immediate, timer, and manual triggering. 52470 Graphical SourceMeter ® SMU Instrument Data SheetUnmatched System Integration and Programming FlexibilityWhen a 2470 is configured into a multi-channel I-V test system, its embedded Test Script Processor (TSP ®)allows it to run test scripts, so users can create powerful measurement applications with significantly-reduced development times. TSP technology also offers channel expansion without a mainframe. Keithley’s TSP-Link ® channel expansion bus can connect multiple 2470s and other TSP instruments, including Keithley’s other graphical SourceMeter instruments (2450, 2460, 2461), Keithley’s DMM7510, DMM6500, and DAQ6510 graphical multimeters, Series 2600B System SourceMeter SMU instruments, and Series 3700A Switch/Multimeter systems, in a master-subordinate configuration that operates as one integrated system. The TSP-Link expansion bus supports up to 32 units per GPIB or IP address, making it easy to scale a system to fit an application’s particular requirements.Parallel Test CapabilityThe TSP technology in the 2470 supports testing multiple devices in parallel to meet the needs of device research, advanced semiconductor lab applications, and even high throughput production test. This parallel testing capability allows each instrument in the system to run its own complete test sequence, creating a fully multi-threaded test environment. The number of tests that can be run in parallel on a graphical SourceMeter can be as high as the number of instruments in the system.Typical ApplicationsIdeal for current/voltage characterization and functional test of a wide range of today’s modern electronics and devices, including:• Devices–Power semiconductors and materials: SiC, GaN, power MOSFETs, power diodes –IGBT–Thyristors, SCRs–Transient suppression devices –Circuit protection devices: TVS, MOVs, fuses, etc. –Connectors, switches, relays –Power management modules –Batteries • Tests–I-V characterization –Forward voltage –Breakdown voltage –Leakage current –Isolation –Hi-Pot–Dielectric withstandingThe 2470 is the ideal addition to your development bench for designing today’s high power devices and components.Characterize transistors with multiple SMU instruments on wafer or packaged transistorsDatasheet6Instrument Control Start-up SoftwareKickStart instrument control/start-up software enables users to start making measurements in minutes without programming. In most cases, users merely need to make some quick measurements, graph the data, and store the data to disk for later analysis in software environments such as Excel. KickStart offers:• Instrument configuration control to perform I-V characterization • Native X-Y graphing, panning, and zooming • Spreadsheet/tabular viewing of data• Saving and exporting of data for further analysis • Saving of test setups• Screenshot capturing of graphs • Annotating of tests• Command line dialog for sending and receiving data • HTML help• GPIB, USB 2.0, Ethernet complianceSimplified Programming with Ready-to-Use Instrument DriversFor those who prefer to create their own customized application software, native National Instruments LabVIEW ® drivers, and IVI-C and IVICOM drivers are available at /keithley.KickStart start-up software lets users be ready to make measurements in minutes.2470 Graphical SourceMeter® SMU Instrument Data SheetSpecificationsVoltage Specifications1, 2Current Specifications1, 2Notes1. Speed = 1 PLC.2. All specifications are guaranteed with output ON.3. Accuracies apply to 2-wire and 4-wire modes when properly zeroed. For the 200 mV and 1 A ranges, the voltage burden may exceed the specification in 2-wire mode.4. Maximum display and programmming ranges are 5% overrange for voltage, except for the 1000 V range, which is 10% overrange (1100 V), and 5% overrange for current (for example,1.05 A on the 1 A range).5. For sink mode, accuracy is ±(0.15% + offset × 4) except for 1 A range, accuracy is: ± (1.5% + offset × 8).6. Rear-panel triaxial connections only.Resistance Measurement Accuracy (Local Or Remote Sense)7, 8, 97Datasheet8Temperature Coefficient ± (0.15 × accuracy specification)/°C 0 °C to 18 °C and 28 °C to 50 °CSource Current, Measure Resistance ModeTotal uncertainty = I source accuracy + V measure accuracy (4-wire remote sense)Source Voltage, Measure Resistance ModeTotal uncertainty = V source accuracy + I measure accuracy (4-wire remote sense)Guard Output Impedance ≥ 300 Ω typicalNotes7. Speed = 1 PLC.8. All specifications are guaranteed with output ON.9. Accuracies apply to 2-wire and 4-wire modes when properly zeroed.10. Measure resolution 6.5 digits.11. Source readback enabled; offset compensation on.12. Source current, measure resistance or source voltage, measure resistance only.13. Rear-panel triaxial connections only.Supplemental SpecificationsOverrange 105% of range for 200 mV to 200 V, source and measure ranges; 110% of range for 1000 V, source and measure rangesRegulationVoltage Line: 0.01% of rangeLoad: 0.01% of range + 100 µV Current Line: 0.01% of rangeLoad: 0.01% of range + 100 pA Source LimitsVoltage Source Current Limit Bipolar current limit set with a single valueMinimum value is 10% of range Current Source Voltage Limit Bipolar voltage limit set with a single valueMinimum value is 10% of rangeVoltage Limit/Current Limit AccuracyAdd 0.3% of range and ±0.02% of reading to base specification OvershootVoltage Source < 0.1% typicalStep size = Full scale, resistive load, 20 V range, 10 mA current limit Current Source < 0.1% typicalStep size = Full scale, resistive load of 10 kΩ, 1 mA range, 20 V voltage limitRange Change Overshoot Overshoot into a fully resistive 100 kΩ load, 10 Hz to 20 MHz bandwidth, adjacent ranges: 250 mV typical Output Settling Time Time required to reach within 0.1% of final value: 20 V range, 100 mA current limit: < 200 µs typical Maximum Slew Rate 14 0.2 V/µs, 200 V range, 100 mA limit into a 2 kΩ load (typical) 0.5 V/µs, 1000 V range, 10 mA limit into a 100 kΩ load (typical)Overvoltage Protection User-selectable values, 10% tolerance; factory default = none Voltage Source Noise 10 Hz to 20 MHz (RMS): 4 mV typical into a resistive load Common Mode Voltage 250 V DCCommon Mode Isolation> 1 GΩ, < 1000 pFNotes14. High capacitance mode off.2470 Graphical SourceMeter® SMU Instrument Data Sheet Noise Rejection (typical)Load ImpedanceNormal Mode 20 nF typicalHigh-Capacitance Mode Stable into 1 μF typical (specification only valid for ranges ≥100 μA)Maximum Voltage Drop Between Force and Sense Terminals5 VMaximum Sense Lead Resistance 1 MΩ for rated accuracySense Input Impedance > 10 GΩGuard Offset Voltage < 300 µV typicalSystem Measurement Speeds 15Reading rates (readings per second) typical for 60 Hz (50 Hz), script (TSP) programmedReading rates (readings per second) typical for 60 Hz (50 Hz), SCPI programmed16Notes15. Reading rates applicable for voltage or current measurements, autozero off, autorange off, filter off, binary reading format, and source readback off.16. SCPI programming mode.9Datasheet10General Characteristics(Default mode unless specified)Factory Default Standard Power-Up SettingSCPI mode Source Output ModesFixed DC levelMemory/configuration list (mixed function) Stair (linear and logarithmic)Memory Buffer >5,000,000 readings with selected measured values and timestamp Real-Time Clock Lithium battery backup (more than 3 years of battery life)Remote Interfaces GPIB: IEEE Std 488.1 compliant; supports IEEE Std 488.2 common commands and status model topology USB device (rear panel, type B): 2.0 full-speed USBTMCUSB host (front panel, type A): USB 2.0, support for flash drives, FAT32Ethernet: RJ-45 connector, 10/100 BT IP Configuration Static or DHCPExpansion Interface The TSP-Link ® expansion interface allows TSP-enabled instruments to trigger and communicate with each otherLXI Compliance LXI version 1.4 Core 2011TSP Mode Embedded Test Script Processor (TSP) accessible from any host interface DisplayFive-inch capacitive touch, color TFT WVGA (800 × 480) with LED backlight Input Signal Connections Front: Banana. Rear: High-voltage triaxial Programmability SCPI or TSP command sets Interlock Active high-inputDigital I/OLines: Six input/output, user-defined, for digital I/O or triggeringConnector: 9-pin female D Input Signal Levels: 0.7 V (maximum logic low), 3.7 V (minimum logic high) Input Voltage Limits: –0.25 V (absolute minimum), +5.25 V (absolute maximum) Maximum Source Current: +2.0 mA at > 2.7 V (per pin)Maximum Sink Current: –50 mA at 0.7 V (per pin, solid-state fuse protected)5 V Power Supply Pin: Limited to 500 mA at > 4 V (solid-state fuse protected)Handler: User-definable start of test, end of test, four category bits CoolingForced air, variable speedOvertemperature Protection Internally sensed temperature overload puts instrument in standby mode Power Supply 100 VRMS to 240 VRMS, 50 Hz or 60 Hz (automatically detected at power up)VA Rating 220 VA maximumAltitude Maximum 2000 meters (6562 feet) above sea level EMC Conforms to European Union EMC DirectiveSafety NRTL listed to UL61010-1 and UL61010-2-30; conforms to European Union Low Voltage Directive RoHS Conforms to European Union Restriction on Hazardous Substances Directive Vibration MIL -PRF-28800F Class 3 Random Warm upOne hour to rated accuracies2470 Graphical SourceMeter® SMU Instrument Data SheetDimensions With handle and bumpers: 106 mm × 255 mm × 425 mm (4.18 in. high × 10.05 in. wide × 16.75 in. deep)Without handle and bumpers: 88 mm × 213 mm × 403 mm (3.46 in. high × 8.39 in. wide × 15.87 in. deep) Weight With handle and bumpers: 4.54 kg (10 lb)Without handle and bumpers: 4.08 kg (9.0 lb)Environment Operating: 0 °C to 50 °C, 70% relative humidity up to 35 °C; derate 3% relative humidity/°C, 35 °C to 50 °C Storage: –25 °C to 65 °CPollution Category: 2SourceMeter® is a registered trademark of Keithley Instruments LLC. All other trademarks are the property of their respective owners. Supplied Accessories8608 High Performance Test LeadsUSB-B-1 USB Cable, Type A to Type B, 1 m (3.3 ft)CS-1616-3 Safety Interlock Mating Connector17469460X TSP-Link/Ethernet Cable2470 QuickStart GuideTest Script Builder Software (available at )LabVIEW and IVI Drivers (available at )Available AccessoriesTest Leads and Probes8605 High Performance Modular Test Leads8606 High Performance Modular Probe Kit8608 High Performance Test LeadsCables, Connectors, AdaptersTRX-1100V-BAN HV Triax to Banana Adapter. Converts the 4 triax connectors on the rear panel to 5 banana jacksTRX-1100V-* 3-slot HV Low Noise Triax Cable (0.5 m, 1 m, 2 m, 3 m lengths available)8607 2-wire, 1000 V Banana Cables, 1 m (3.3 ft)CS-1616-3 Safety Interlock Mating ConnectorCommunication Interfaces & Cables7007-1 Shielded GPIB Cable, 1 m (3.3 ft)7007-2 Shielded GPIB Cable, 2 m (6.6 ft)17469460X TSP-Link Ethernet CableKPCI-488LPA IEEE-488 Interface for PCI BusKUSB-488B IEEE-488 USB-to-GPIB Interface AdapterUSB-B-1 USB Cable, Type A to Type B, 1 m (3.3 ft)11Datasheet12Triggering and Control2450-TLINK DB-9 to Trigger Link Connector Adapter 8501-1 Trigger Link Cable, DIN-to-DIN, 1 m (3.3 ft.)8501-2Trigger Link Cable, DIN-to-DIN, 2 m (6.6 ft.)Rack Mount Kits4299-8 Single Fixed Rack Mount Kit 4299-9 Dual Fixed Rack Mount Kit4299-10 Dual Fixed Rack Mount Kit. Mount one 2450 and one Series 26xxB4299-11Dual Fixed Rack Mount Kit. Mount one 2450 and one Series 2400, Series 2000, etc.Available Services2470-3Y-EW 1-year factory warranty extended to 3 years from date of shipment 2470-5Y-EW 1-year factory warranty extended to 5 years from date of shipment C/2470-3Y-17025 KeithleyCare ® 3 Year ISO 17025 Calibration Plan C/2470-3Y-DATA KeithleyCare 3 Year Calibration w/Data Plan C/2470-3Y-STD KeithleyCare 3 Year STD Calibration Plan C/2470-5Y-17025 KeithleyCare 5 Year ISO 17025 Calibration Plan C/2470-5Y-DATA KeithleyCare 5 Year Calibration w/Data Plan C/2470-5Y-STD KeithleyCare 5 Year STD Calibration Plan C/NEW DATA Calibration Data for New UnitsC/NEW DATA ISOISO-17025 Calibration Data for New UnitsOrdering Information24701000 V, 1 A, 20 W SourceMeter SMU InstrumentWarranty InformationWarranty SummaryThis section summarizes the warranties of the 2470. For complete warranty information, refer to theTektronix warranty page at https:///service/warranties/warranty-2. Any portion of the product that is not manufactured by Keithley is not covered by this warranty and Keithley will have no duty to enforce any other manufacturer’s warranties.Hardware WarrantyKeithley warrants the Keithley manufactured portion of the hardware for a period of one year from defects in materials or workmanship; provided that such defect has not been caused by use of the Keithleyhardware which is not in accordance with the hardware instructions. The warranty does not apply upon any modification of Keithley hardware made by the customer or operation of the hardware outside the environmental specifications.Software WarrantyKeithley warrants for the Keithley produced portion of the software or firmware will conform in all material respects with the published specifications for a period of ninety (90) days; provided the software is used on the product for which it is intended in accordance with the software instructions. Keithley does not warrant that operation of the software will be uninterrupted or error-free, or that the software will be adequate for the customer’s intended application. The warranty does not apply upon any modification of the software made by the customer.2470 Graphical SourceMeter® SMU Instrument Data Sheet13Contact Information:Australia* 1 800 709 465Austria 00800 2255 4835Balkans, Israel, South Africa and other ISE Countries +41 52 675 3777Belgium* 00800 2255 4835Brazil +55 (11) 3759 7627Canada 180****9200Central East Europe / Baltics +41 52 675 3777Central Europe / Greece +41 52 675 3777Denmark +45 80 88 1401Finland +41 52 675 3777France* 00800 2255 4835Germany* 00800 2255 4835Hong Kong 400 820 5835India 000 800 650 1835Indonesia 007 803 601 5249Italy 00800 2255 4835Japan 81 (3) 6714 3010Luxembourg +41 52 675 3777Malaysia 180****5835Mexico, Central/South America and Caribbean 52 (55) 56 04 50 90Middle East, Asia, and North Africa +41 52 675 3777The Netherlands* 00800 2255 4835New Zealand 0800 800 238Norway 800 16098People’s Republic of China 400 820 5835Philippines 1 800 1601 0077Poland +41 52 675 3777Portugal 80 08 12370Republic of Korea +82 2 565 1455Russia / CIS +7 (495) 6647564Singapore 800 6011 473South Africa +41 52 675 3777Spain* 00800 2255 4835Sweden* 00800 2255 4835Switzerland* 00800 2255 4835Taiwan 886 (2) 2656 6688Thailand 1 800 011 931United Kingdom / Ireland* 00800 2255 4835USA 180****9200Vietnam 12060128* European toll-free number. If notaccessible, call: +41 52 675 3777Find more valuable resources at Copyright © Tektronix. All rights reserved. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes thatin all previously published material. Specification and price change privileges reserved. TEKTRONIX and TEK are registered trademarks of Tektronix, Inc. All other trade namesreferenced are the service marks, trademarks or registered trademarks of their respective companies.042419.SBG 1KW-61523-02470-RACK。

2400 SeriesUp to 3.0 watt cw Ultra-High Brightness GaAlAsLaser DiodesP r o d u c t B u l l e t i nThe JDS Uniphase-2400 Series laser diodes repre-sent a breakthrough in high cw optical power and ultra-high brightness with unsurpassed reliability. The small emitting aperture combined with low beam divergence makes the JDS Uniphase-2400 Series the highest brightness family of cw laser diodes available in the industry today.The JDS Uniphase-2400 Series is comprisedof partially coherent broad area emitters with relatively uniform emission over the emitting aperture.Operation is multi-longitudinal mode with a spectral envelope width of approximately 2 nm FWHM.The far field beam divergence in the plane perpendicular to the P/N junction is nearly Gaussian while the lateral beam profile exhibits the complex pattern typical of broad area emitters.JDS Uniphase-2400 variants range from2 W output from a 100 µm aperture to3 W froma 200 µm aperture with superlative reliability. The high efficiency of the quantum well structure combined with low thermal resistance epi-down chip mounting provide minimum junction temperature at high optical power.Low junction temperature and low thermal resistance pack-ages extend lifetime and increase reliability.Convenient package options such as open heatsink and window packages allow easy integration into user systems.Key features•2.0 and 3.0 W cw power•100 and 200 µm apertures•High efficiency MOCVD quantumwell design•TEC option for wavelength control •Open heatsink and windowpackages•High reliabilityApplications•Solid state laser pumping •Medical/ophthalmic•Free space communication •Beacons/illumination2400 SpecificationsJDS Uniphase-2460 SeriesJDS Uniphase-2460-AJDS Uniphase-2462-P1Electro-Optical PerformanceLaser Characteristics Symbol Min Typ Max Units CW Output Power P o2W Center Wavelengthλc798800(±3) nm808812(±3) nm Spectral Width∆λ2nm Slope EfficiencyηD=P o/(I op–I th)0.750.95W/A Conversion Efficiencyη=P o/(I op V op)35%FWHM Beam DivergenceParallel to Junctionθ//12degrees Perp.to Junctionθ⊥32degrees Threshold Current I th0.40.6A Operating Current I op 2.5 3.0AopSeries Resistance R s0.250.5ΩthRecommended Case Temp.T c–2030°CAbsolute Maximum RatingsReverse Voltage V rl3VCase Operating Temp.T op–2050°CstgLead Soldering Temp.T is250°C(5 sec.)Monitor Photodiode(1)Sensitivity0.110µA/mW Capacitance6pF Breakdown Voltage V bd25V Operating Voltage V op10VThermoelectric Cooler(1)Drive Current I TE 3.5A Drive Voltage V TE8.0V Thermistor Resistance R therm10kΩNotes1.Not available on A package.2.All values at 25°C and 0.6 NA collection optics.3.Features common these products include:a.Duty Factor of 100%.b.Rise and fall times of 500 ps.(A pkg)c.Temperature coefficient of wavelength is approximately 0.27 to 0.3 nm/°Cd.Temp.coefficient of threshold current can be modeled as:I TH2= I TH1exp [(T2– T1)/T0]where T0is a device constant of ~160°K.e.Temperature coefficient of operating current is approximately 1.0% per °C.4.Modulation bandwidth of cw laser diodes is approximately 1 GHz for A package diodes.P package diodes roll-off at slightly lowerfrequencies due to inductance of pins and internal leads.5.Forward Voltage is typically:V f= 1.5 V + I op x R s2400 SpecificationsJDS Uniphase-2470 SERIESJDS Uniphase-2470-AJDS Uniphase-2472-P1Electro-Optical PerformanceLaser Characteristics Symbol Min Typ Max Units CW Output Power P o3W Center Wavelengthλc798800(±3) nm808812(±3) nm Spectral Width∆λ2nm Slope EfficiencyηD=P o/(I op–I th)0.750.95W/A Conversion Efficiencyη=P o/(I op V op)35% Emitting Dimensions W x H200 x 1µm FWHM Beam DivergenceParallel to Junctionθ//12degrees Perp.to Junctionθ⊥32degrees Threshold Current I th0.9 1.2A Operating Current I op 4.0 4.8A Operating Voltage V op see note 5V Series Resistance R s0.120.25ΩThermal Resistance R th10°C/W Recommended Case Temp.T c–2030°CAbsolute Maximum RatingsReverse Voltage V rl3VCase Operating Temp.T op–2050°C Storage Temp.Range T stg–4080°C Lead Soldering Temp.T is250°C(5 sec.)Monitor Photodiode(1)Sensitivity0.110µA/mW Capacitance6pF Breakdown Voltage V bd25V Operating Voltage V op10VThermoelectric Cooler(1)Drive Current I TE 3.5A Drive Voltage V TE8.0V Thermistor Resistance R therm10kΩNotes1.Not available on A package.2.All values at 25°C and 0.6 NA collection optics.3.Features common these products include:a.Duty Factor of 100%.b.Rise and fall times of 500 ps.(A pkg)c.Temperature coefficient of wavelength is approximately 0.27 to 0.3 nm/°Cd.Temp.coefficient of threshold current can be modeled as:I TH2= I TH1exp [(T2– T1)/T0]where T0is a device constant of ~160 °K.e.Temperature coefficient of operating current is approximately 1.0 % per °C.4.Modulation bandwidth of cw laser diodes is approximately 1 GHz for A package diodes.P package diodes roll-off at slightly lowerfrequencies due to inductance of pins and internal leads.5.Forward Voltage is typically:V f= 1.5 V + I op x R sTypical Optical CharacteristicsPackage Outline DrawingsStandard Tolerances inches:x.xx = ±0.02mm:x.x = ±0.5x.xxx = ±0.010x.xx = ±0.25Dimensions in inches (mm)except where indicatedP1High Heat Load Window Package2400 Series 5JDS Uniphase Corporation 163 Baypointe Parkway San Jose,California 95134 USA All information contained herein is believed to be accurate and is subject to change without notice.No responsibility is assumed for its use.JDS Uniphase Corporation,its subsidiaries and affiliates,or manufacturer,reserve the right to make changes,without notice,to product design,product components,and product manufacturing methods.Some specific combinations of options may not be available.Please contact JDS Uniphase for more information.©JDS Uniphase Corporation.All rights reserved.945-010 Rev.C 01/01 Printed in USATel 408 434-1800Fax 408 954-1177sales.ca@ Ordering informationFor more information on this or other products and their availability,please contact your local JDS Uniphase sales representative or JDS Uniphase directly at 408 434-1800,or by fax 408 954-1177,or via email at sales.ca@.Visit our Web site at .Output Power Danger Labelsmay be harmful to the human eye.Avoid looking directly into the laser diode,into the collimated beam along its optical axis,or directly into the fiber when the device is in operation.CAUTION:THE USE OF OPTICAL INSTRUMENTS WITH THIS PRODUCT WILL INCREASE EYE HAZARD.Operating the laser diode outside of its maximum ratings may cause device failure or a safety hazard.Power supplies used with the component must be employed such that the maximum peak optical power cannot be exceeded.CW laser diodes may be damaged by excessive drive current or switching transients.When using power supplies,the laser diode should be connected with the main power on and the output voltage at zero.The current should be increased slowly while monitoring the laser diode output power and the drive current.Device degradation accelerates with increased temperature and therefore careful attention to minimize the case tempera-ture is advised.For example,life expectancy will decrease by a factor of four if the case is operated at 50 °C rather than 30 °C.A proper heat sink for the laser diode on a thermal radiator will greatly enhance laser life.Firmly mount the laser on a radiator having a thermal impedance of less than 0.5 °C/W for increased reliability.Serial Number Identification Label“A”PACKAGE DIODESJDS Uniphase-2470JDS Uniphase-2460PACKAGE DIODESwrist straps,grounded work surfaces,and rigorous anti-static techniques when handling laser diodes.21 CFR 1040.10 ComplianceBecause of the small size of these devices,each of the labelsshown is attached to the individual shipping container.They are illustrated here to comply with 21 CFR 1040.10 as applicable under the radiations control for health and safety act of 1968.。

ACNACPACOKACDETIOUTSDASCLILIMREGNBTSTHIDRVPHASEVCCbq24707bq24707A SLUSA78B–JULY2010–REVISED MARCH2011 1-4Cell Li+Battery SMBus Charge Controller With Independent Comparator andAdvanced Circuit ProtectionCheck for Samples:bq24707,bq24707AFEATURES DESCRIPTION•SMBus Host-Controlled NMOS-NMOS The bq24707and bq24707A are high-efficiency, Synchronous Buck Converter with synchronous battery charger,offering low component Programmable615kHz,750kHz,and885kHz count for space-constraint,multi-chemistry batterycharging applications.Switching Frequency•Real Time System Control on ILIM Pin to Limit SMBus controlled input current,charge current,and Charge Current charge voltage DACs allow for very high regulationaccuracies that can be easily programmed by the •Enhanced Safety Features for Over Voltagesystem power management micro-controller.Protection,Over Current Protection,Battery,Inductor,and MOSFET Short Circuit Protection The IC uses the internal input current register orexternal ILIM pin to throttle down PWM modulation to •Programmable Input Current,Charge Voltage,reduce the charge current.Charge Current Limits–±0.5%Charge Voltage Accuracy up to19.2V The IC provides an IFAULT output to alarm if anyMOSFET fault or input over current occurs.This –±3%Charge Current Accuracy up to8.128Aalarm output allows users to turn off input power –±3%Input Current Accuracy up to8.064A selectors when the fault occurs.Meanwhile,an–±2%20x Adapter Current or Charge Current independent comparator with internal reference isavailable to monitor input current,output current,or Output Accuracyoutput voltage.•Programmable Adapter Detection andIndicator The IC charges one,two,three,or four series Li+cells,and is available in a20-pin,3.5×3.5mm2QFN •Independent Comparator with Internalpackage.Reference•Integrated Soft Start•Integrated Loop Compensation•AC Adapter Operating Range5V-24V•15µA Off-State Battery Discharge Current•20-pin3.5x3.5mm2QFN Package•bq24707:delay default1.3s•bq24707A:ACOK delay default1.2msAPPLICATIONS•Portable Notebook Computers,UMPC,Ultra-Thin Notebook,and Netbook•Personal Digital Assistant•Handheld Terminal•Industrial and Medical Equipment•Portable EquipmentPlease be aware that an important notice concerning availability,standard warranty,and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date.©2010–2011,Texas Instruments Incorporated Products conform to specifications per the terms of the TexasInstruments standard warranty.Production processing does notnecessarily include testing of all parameters.-Adapter -and bq24707bq24707ASLUSA78B –JULY 2010–REVISED MARCH 2011These devices have limited built-in ESD protection.The leads should be shorted together or the device placed in conductive foam during storage or handling to prevent electrostatic damage to the MOS gates.TYPICAL APPLICATIONF s =750kHz,I adpt =4.096A,I chrg =2.944A,I lim =4A,V chrg =12.592V,90W adapter and 3S2P battery pack See the application information about negative output voltage protection for hard shorts on battery to ground or battery reverse connection.Figure 1.Typical System SchematicORDERING INFORMATIONORDERING NUMBER PART NUMBERIC MARKING PACKAGEQUANTITY (Tape and Reel)bq24707RGRR 3000bq24707BQ70720-PIN 3.5x 3.5mm 2QFN bq24707RGRT 250bq24707ARGRR 3000bq24707ABQ07A20-PIN 3.5x 3.5mm 2QFNbq24707ARGRT250COMPARISON TABLECondition bq24707bq24707A ACOK default delay1.3s1.2ms Suggest fully charged battery ChargeVoltage()settingfull scale charge voltage(12.592V for 3S battery)0V after termination Suggest fully charged battery ChargeCurrent()setting0A0Aafter termination2Submit Documentation Feedback©2010–2011,Texas Instruments IncorporatedProduct Folder Link(s):bq24707bq24707Abq24707bq24707A SLUSA78B–JULY2010–REVISED MARCH2011 ABSOLUTE MAXIMUM RATINGSover operating free-air temperature range(unless otherwise noted)(1)(2)VALUE UNITSRN,SRP,ACN,ACP,VCC–0.3to30PHASE–2to30Voltage range ACDET,SDA,SCL,LODRV,REGN,IOUT,ILIM,ACOK,IFAULT,CMPIN,–0.3to7VCMPOUTBTST,HIDRV–0.3to36Maximum difference voltage SRP–SRN,ACP–ACN–0.5to0.5Junction temperature range,T J–40to155°C Storage temperature range,T stg–55to155°C (1)Stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device.These are stress ratingsonly,and functional operation of the device at these or any other conditions beyond those indicated under recommended operating conditions is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)All voltages are with respect to GND if not specified.Currents are positive into,negative out of the specified terminal.Consult PackagingSection of the data book for thermal limitations and considerations of packages.THERMAL INFORMATIONbq24707/bq24707ATHERMAL METRIC(1)RGR UNITS20PINSθJA Junction-to-ambient thermal resistance46.8ψJT Junction-to-top characterization parameter0.6°C/WψJB Junction-to-board characterization parameter15.3(1)For more information about traditional and new thermal metrics,see the IC Package Thermal Metrics application report,SPRA953. RECOMMENDED OPERATING CONDITIONSover operating free-air temperature range(unless otherwise noted)MIN NOM MAX UNIT SRN,SRP,ACN,ACP,VCC024PHASE–224Voltage range VACDET,SDA,SCL,LODRV,REGN,IOUT,ILIM,ACOK,IFAULT,CMPIN,0 6.5CMPOUTBTST,HIDRV030 Maximum difference voltage SRP–SRN,ACP–ACN–0.20.2V Junction temperature range,T J0125°C Storage temperature range,T stg–55150°C©2010–2011,Texas Instruments Incorporated Submit Documentation Feedback3Product Folder Link(s):bq24707bq24707Abq24707bq24707ASLUSA78B–JULY2010–REVISED ELECTRICAL CHARACTERISTICS4.5V≤V(VCC)≤24V,0°C≤T J≤125°C,typical values are at T A=25°C,with respect to GND(unless otherwise noted)PARAMETER TEST CONDITIONS MIN TYP MAX UNIT OPERATING CONDITIONSV VCC_OP VCC Input voltage operating range 4.524V CHARGE VOLTAGE REGULATIONV BAT_REG_RNG BAT voltage regulation range 1.02419.2V16.71616.816.884VChargeVoltage()=0x41A0H–0.5%0.5%12.52912.59212.655VChargeVoltage()=0x3130H–0.5%0.5%V BAT_REG_ACC Charge voltage regulation accuracy8.3508.48.450VChargeVoltage()=0x20D0H–0.6%0.6%4.163 4.192 4.221VChargeVoltage()=0x1060H–0.7%0.7%CHARGE CURRENT REGULATIONV IREG_CHG_RNG Charge current regulation differential voltage range V IREG_CHG=V SRP-V SRN081.28mV397340964219mAChargeCurrent()=0x1000H–3%3%194620482150mAChargeCurrent()=0x0800H–5%5%410512614mA Charge current regulation accuracy10mΩcurrentI CHRG_REG_ACC ChargeCurrent()=0x0200Hsensing resistor–20%20%172256340mAChargeCurrent()=0x0100H–33%33%64128192mAChargeCurrent()=0x0080H–50%50%INPUT CURRENT REGULATIONV IREG_DPM_RNG Input current regulation differential voltage range V IREG_DPM=V ACP–V ACN080.64mV397340964219mAInputCurrent()=0x1000H–3%3%194620482150mAInputCurrent()=0x0800H–5%5% Input current regulation accuracy10mΩcurrentI DPM_REG_ACCsensing resistor87010241178mAInputCurrent()=0x0400H–15%15%384512640mAInputCurrent()=0x0200H–25%25%INPUT CURRENT OR CHARGE CURRENT SENSE AMPLIFIERV ACP/N_OP Input common mode range Voltage on ACP/ACN 4.524VV SRP/N_OP Output common mode range Voltage on SRP/SRN019.2VV IOUT IOUT output voltage range0 1.6VI IOUT IOUT output current01mAA IOUT Current sense amplifier gain V(ICOUT)/V(SRP-SRN)or V(ACP-ACN)20V/VV(SRP-SRN)or V(ACP-ACN)=40.96mV–2%2%V(SRP-SRN)or V(ACP-ACN)=20.48mV–4%4%V(SRP-SRN)or V(ACP-ACN)=10.24mV–15%15%V IOUT_ACC Current sense output accuracyV(SRP-SRN)or V(ACP-ACN)=5.12mV–20%20%V(SRP-SRN)or V(ACP-ACN)=2.56mV–33%33%V(SRP-SRN)or V(ACP-ACN)=1.28mV–50%50%C IOUT_MAX Maximum output load capacitance For stability with0to1mA load100pF REGN REGULATORV REGN_REG REGN regulator voltage V VCC>6.5V,V ACDET>0.6V(0-55mA load) 5.56 6.5VI REGN_LIM V REGN=0V,V VCC>UVLO charge enabled and not in TSHUT6580REGN current limit mAI REGN_LIM_TSHUT V REGN=0V,V VCC>UVLO charge disabled or in TSHUT716C REGN REGN output capacitor required for stability I LOAD=100µA to65mA1µF4Submit Documentation Feedback©2010–2011,Texas Instruments IncorporatedProduct Folder Link(s):bq24707bq24707Abq24707bq24707A SLUSA78B–JULY2010–REVISED MARCH2011 ELECTRICAL CHARACTERISTICS(continued)4.5V≤V(VCC)≤24V,0°C≤T J≤125°C,typical values are at T A=25°C,with respect to GND(unless otherwise noted)PARAMETER TEST CONDITIONS MIN TYP MAX UNIT INPUT UNDERVOLTAGE LOCK-OUT COMPARATOR(UVLO)V UVLO Input under voltage rising threshold V VCC rising 3.5 3.754VV UVLO_HYS Input under voltage falling hysteresis V VCC falling340mV FAST DPM COMPARATOR(FAST_DPM)Fast DPM comparator stop charging rising threshold108%V FAST_DPM with respect to input current limit,voltage across inputsense resistor rising edge(specified by design)QUIESCENT CURRENTTotal battery leakage current to I SRN+I SRP+I PHASE+I BAT V VCC<V BAT=16.8V,T J=0to85°C15µAI VCC+I ACP+I ACNV VCC>V UVLO,V ACDET>0.6V,charge disabled,I STANDBY Standby quiescent current,I VCC+I ACP+I ACN0.51mAT J=0to85°CAdapter bias current during charge,V VCC>V UVLO,V ACDET>2.4V,I AC_NOSW 1.53mAI VCC+I ACP+I ACN charge enabled,no switching,T J=0to85°CAdapter bias current during charge,V VCC>V UVLO,V ACDET>2.4V,I AC_SW10mAI VCC+I ACP+I ACN charge enabled,switching,MOSFET Sis412DNACOK COMPARATORV ACOK_FALL ACOK falling threshold V VCC>V UVLO,V ACDET rising 2.376 2.4 2.424VV ACOK_RISE_HYS ACOK rising hysteresis V VCC>V UVLO,V ACDET falling355575mVV VCC>V UVLO,V ACDET rising above2.4V,0.9 1.3 1.7sChargeOption()bit[15]=0(default),(bq24707only)V VCC>V UVLO,V ACDET rising above2.4V,t ACOK_FALL_DEG ACOK falling deglitch(specified by design)0.8 1.22msChargeOption()bit[15]=0(default),(bq24707A only)V VCC>V UVLO,V ACDET rising above2.4V,1050μsChargeOption()bit[15]=1V WAKEUP_RISE WAKEUP detect rising threshold V VCC>V UVLO,V ACDET rising0.570.8VV WAKEUP_FALL WAKEUP detect falling threshold V VCC>V UVLO,V ACDET falling0.30.51V VCC to SRN COMPARATOR(VCC_SRN)V VCC-SRN_FALL VCC-SRN falling threshold V VCC falling towards V SRN70125180mVV VCC-SRN_RHYS VCC-SRN rising hysteresis V VCC rising above V SRN70120170mV HIGH SIDE IFAULT COMPARATOR(IFAULT_HI)(1)ChargeOption()bit[8:7]=00200300450ChargeOption()bit[8:7]=01330500700V IFAULT_HI_RISE ACP to PHASE rising threshold mVChargeOption()bit[8:7]=10(default)4507001000ChargeOption()bit[8:7]=116009001250LOW SIDE IFAULT COMPARATOR(IFAULT_LOW)V IFAULT_LOW_RISE PHASE to GND rising threshold40110160mV INPUT OVER-CURRENT COMPARATOR(ACOC)(1)ChargeOption()bit[2:1]=01120%133%145% Adapter over current rising threshold with respect toV ACOC input current limit,voltage across input sense resistor ChargeOption()bit[2:1]=10(default)150%166%180% rising edgeChargeOption()bit[2:1]=11200%222%240%ChargeOption()bit[2:1]=01(133%),V ACOC_min Min ACOC threshold clamp voltage404550mVInputCurrent()=0x0400H(10.24mV)ChargeOption()bit[2:1]=11(222%),V ACOC_max Max ACOC threshold clamp voltage140150160mVInputCurrent()=0x1F80H(80.64mV)t ACOC_DEG ACOC deglitch time(specified by design)Voltage across input sense resistor rising to disable charge 1.7 2.5 3.3ms BAT OVER-VOLTAGE COMPARATOR(BAT_OVP)V OVP_RISE Over voltage rising threshold as percentage of V SRN rising103%104%106% V BAT_REGV OVP_FALL Over voltage falling threshold as percentage of V SRN falling102%V BAT_REGCHARGE OVERCURRENT COMPARATOR(CHG_OCP)ChargeCurrent()=0x0xxxH546066mVCharge over current rising threshold,measure voltageV OCP_RISE ChargeCurrent()=0x1000H–0x17C0H8090100mV drop across current sensing resistorChargeCurrent()=0x1800H–0x1FC0H110120130mV (1)User can adjust threshold via SMBus ChargeOption()REG0x12.©2010–2011,Texas Instruments Incorporated Submit Documentation Feedback5Product Folder Link(s):bq24707bq24707Abq24707bq24707ASLUSA78B–JULY2010–REVISED ELECTRICAL CHARACTERISTICS(continued)4.5V≤V(VCC)≤24V,0°C≤T J≤125°C,typical values are at T A=25°C,with respect to GND(unless otherwise noted)PARAMETER TEST CONDITIONS MIN TYP MAX UNIT CHARGE UNDER-CURRENT COMPARATOR(CHG_UCP)V UCP_FALL Charge under current falling threshold V SRP falling towards V SRN159mV LIGHT LOAD COMPARATOR(LIGHT_LOAD)V LL_FALL Light load falling threshold Measure voltage drop across current sensing resistor 1.25mVV LL_RISE_HYST Light load rising hysteresis Measure voltage drop across current sensing resistor 1.25mV BATTERY LOWV COMPARATOR(BAT_LOWV)V BATLV_FALL Battery LOWV falling threshold V SRN falling 2.4 2.5 2.6VV BATLV_RHYST Battery LOWV rising hysteresis V SRN rising200mVI BATLV Battery LOWV charge current limit10mΩcurrent sensing resistor0.5A THERMAL SHUTDOWN COMPARATOR(TSHUT)T SHUT Thermal shutdown rising temperature Temperature rising155°CT SHUT_HYS Thermal shutdown hysteresis,falling Temperature falling20°C ILIM COMPARATORV ILIM_FALL ILIM as CE falling threshold V ILIM falling607590mVV ILIM_RISE ILIM as CE rising threshold V ILIM rising90105120mV LOGIC INPUT(SDA,SCL)V IN_LO Input low threshold0.8VV IN_HI Input high threshold 2.1VI IN_LEAK Input bias current V=7V–11μA LOGIC OUTPUT OPEN DRAIN(ACOK,SDA,IFAULT,CMPOUT)V OUT_LO Output saturation voltage5mA drain current500mVI OUT_LEAK Leakage current V=7V–11μA ANALOG INPUT(ACDET,ILIM)I IN_LEAK Input bias current V=7V–11μA ANALOG INPUT(CMPIN has50kΩseries resistor and2000kΩpull down resistor)I IN_LEAK Input bias current V=7V1 3.57μA PWM OSCILLATORF SW PWM switching frequency ChargeOption()bit[9]=0(default)600750900kHzF SW+PWM increase frequency ChargeOption()bit[10:9]=116658851100kHzF SW–PWM decrease frequency ChargeOption()bit[10:9]=01465615765kHz PWM HIGH SIDE DRIVER(HIDRV)R DS_HI_ON High side driver(HSD)turn-on resistance V BTST–V PH=5.5V,I=10mA1220ΩR DS_HI_OFF High side driver turn-off resistance V BTST–V PH=5.5V,I=10mA0.65 1.3ΩV BTST_REFRESH Bootstrap refresh comparator threshold voltage V BTST–V PH when low side refresh pulse is requested 3.85 4.3 4.7V PWM LOW SIDE DRIVER(LODRV)R DS_LO_ON Low side driver(LSD)turn-on resistance V REGN=6V,I=10mA1525ΩR DS_LO_OFF Low side driver turn-off resistance V REGN=6V,I=10mA0.9 1.4ΩPWM DRIVER TIMINGt LOW_HIGH Driver dead time from low side to high side20nst HIGH_LOW Driver dead time from high side to low side20ns INTERNAL SOFT STARTI STEP Soft start step size In CCM mode,10mΩcurrent sense resistor64mAt STEP Soft start step time In CCM mode,10mΩcurrent sense resistor240μs INDEPENDENT COMPARATOR(2)V IC_REF1Comparator reference ChargeOption()bit[4]=0,rising edge(default)0.5850.60.615VV IC_REF2Comparator reference ChargeOption()bit[4]=1,rising edge 2.375 2.4 2.425VR S Series resistor50kΩR DOWN Pull down resistor2000kΩ(2)User can adjust threshold via SMBus ChargeOption()REG0x12.6Submit Documentation Feedback©2010–2011,Texas Instruments IncorporatedProduct Folder Link(s):bq24707bq24707Abq24707bq24707A SLUSA78B–JULY2010–REVISED MARCH2011 ELECTRICAL CHARACTERISTICS(continued)4.5V≤V(VCC)≤24V,0°C≤T J≤125°C,typical values are at T A=25°C,with respect to GND(unless otherwise noted)PARAMETER TEST CONDITIONS MIN TYP MAX UNIT SMBus TIMING CHARACTERISTICSt R SCLK/SDATA rise time1μst F SCLK/SDATA fall time300nst W(H)SCLK pulse width high450μst W(L)SCLK pulse width low 4.7μst SU(STA)Setup time for START condition 4.7μsSTART condition hold time after which first clockt H(STA)4μs pulse is generatedt SU(DAT)Data setup time250nst H(DAT)Data hold time300nst SU(STOP)Setup time for STOP condition4µst(BUF)Bus free time between START and STOP condition 4.7μsF S(CL)Clock frequency10100kHz HOST COMMUNICATION FAILUREt timeout SMBus bus release timeout(3)2535mst BOOT Deglitch for watchdog reset signal10msWatchdog timeout period,ChargeOption()t WDI354453s bit[14:13]=01(4)Watchdog timeout period,ChargeOption()t WDI7088105s bit[14:13]=10(4)Watchdog timeout period,ChargeOption()t WDI140175210s bit[14:13]=11(4)(default)(3)Devices participating in a transfer timeout when any clock low exceeds the25ms minimum timeout period.Devices that have detected atimeout condition must reset the communication no later than the35ms maximum timeout period.Both a master and a slave must adhere to the maximum value specified as it incorporates the cumulative stretch limit for both a master(10ms)and a slave(25ms). (4)User can adjust threshold via SMBus ChargeOption()REG0x12.Figure2.SMBus Communication Timing Waveforms©2010–2011,Texas Instruments Incorporated Submit Documentation Feedback7Product Folder Link(s):bq24707bq24707Abq24707bq24707ASLUSA78B–JULY2010–REVISED TYPICAL CHARACTERISTICSTable1.Table of GraphsFIGURE NO. VCC,ACDET,REGN and ACOK Power up(bq24707)Figure3Charge Enable by ILIM Figure4Current Soft-start Figure5Charge Disable by ILIM Figure6 Continuous Conduction Mode Switching Waveforms Figure7Cycle-by-Cycle Synchronous to Non-synchronous Figure8100%Duty and Refresh Pulse Figure9System Load Transient(Input DPM)Figure10Battery Insertion Figure11Battery to Ground Short Protection Figure12Battery to Ground Short Transition Figure13 Efficiency vs Output Current Figure14CH1:VCC,10V/div,CH2:ACDET,2V/div,CH3:5V/div,CH2:ILIM,1V/div,CH4:inductor current,1A/div,10ms/divCH4:REGN,5V/div,200ms/divFigure3.VCC,ACDET,REGN and ACOK Power Up Figure4.Charge Enable by ILIM(bq24707)CH1:PHASE,10V/div,CH2:Vin,10V/div,CH3:LODRV,5V/div,CH2:ILIM,1V/div,CH4:inductor current,1A/div,4us/divCH4:inductor current,2A/div,2ms/divFigure5.Current Soft-Start Figure6.Charge Disable by ILIM8Submit Documentation Feedback©2010–2011,Texas Instruments IncorporatedProduct Folder Link(s):bq24707bq24707Abq24707bq24707A SLUSA78B–JULY2010–REVISED MARCH2011CH1:HIDRV,10V/div,CH2:LODRV,5V/div,CH3:PHASE,10V/div, CH1:HIDRV,10V/div,CH2:LODRV,5V/div,CH3:PHASE,10V/div,CH4:inductor current,1A/div,400ns/divCH4:inductor current,2A/div,400ns/divFigure7.Continuous Conduction Mode Switching Figure8.Cycle-by-Cycle Synchronous toWaveforms Non-synchronousCH2:battery current,2A/div,CH3:adapter current,2A/div,CH4:CH1:PHASE,10V/div,CH2:LODRV,5V/div,CH4:inductor current,system load current,2A/div,100us/div2A/div,4us/divFigure9.100%Duty and Refresh Pulse Figure10.System Load Transient(Input DPM)CH1:PHASE,20V/div,CH2:battery voltage,5V/div,CH3:LODRV,CH1:PHASE,20V/div,CH2:LODRV,10V/div,CH3:battery voltage, 10V/div,CH4:inductor current,2A/div,400us/div5V/div,CH4:inductor current,2A/div,2ms/divFigure11.Battery Insertion Figure12.Battery to Ground Short Protection©2010–2011,Texas Instruments Incorporated Submit Documentation Feedback9Product Folder Link(s):bq24707bq24707A8889909192939495969798Charge CurrentE f f i c i e n c y - %bq24707bq24707ASLUSA78B –JULY 2010–REVISED MARCH 2011CH1:PHASE,20V/div,CH2:LODRV,10V/div,CH3:battery voltage,5V/div,CH4:inductor current,2A/div,4us/divFigure 13.Battery to Ground Short TransitionFigure 14.Efficiency vs Output CurrentPIN FUNCTIONS –20-PIN QFNPIN DESCRIPTION Input current sense resistor negative input.Place an optional 0.1µF ceramic capacitor from ACN to GND for 1ACN common-mode filtering.Place a 0.1µF ceramic capacitor from ACN to ACP to provide differential mode filtering.Input current sense resistor positive input.Place a 0.1µF ceramic capacitor from ACP to GND for common-mode 2ACP filtering.Place a 0.1µF ceramic capacitor from ACN to ACP to provide differential-mode filtering.Open-drain output of independent comparator.Place a 10k Ωpull-up resistor from CMPOUT to pull-up supply rail.3CMPOUTInternal reference is 0.6V or 2.4V,selectable by SMBus command ChargeOption().When CMPIN is above the internal reference,CMPOUT goes HIGH.Place a resistor between CMPIN and CMPOUT to program hysteresis.Input of independent comparator.It has one 50k Ώseries resistor and one 2000k Ώpull-down resistor.Program CMPIN voltage by connecting a resistor divider from the IOUT pin to the CMPIN pin to the GND pin for adapter or charge4CMPINcurrent comparison or from the SRN pin to the CMPIN pin to the GND pin for battery voltage comparison.The internal reference is 0.6V or 2.4V,selectable by SMBus command ChargeOption().When CMPIN is above the internal reference,CMPOUT goes HIGH.Place a resistor between CMPIN and CMPOUT to program hysteresis.AC adapter detect open drain output.It is pulled LOW to GND by an internal MOSFET when the voltage on the ACDET pin is above 2.4V,voltage on the VCC pin is above UVLO and voltage on the VCC pin is 245mV above the 5ACOKvoltage on the SRN pin,indicating a valid adapter is present to start charge.If any one of the above conditions cannot meet,it is pulled HIGH to the external pull-up supply rail by an external pull-up resistor.Connect a 10k Ωpull-up resistor from the ACOK pin to the pull-up supply rail.Adapter detection input.Program the adapter valid input threshold by connecting a resistor divider from the adapter 6ACDETinput to the ACDET pin to the GND pin.When the ACDET pin is above 0.6V and VCC is above UVLO,REGN LDO is present,ACOK comparator and IOUT are both active.Buffered adapter or charge current output,selectable with SMBus command ChargeOption().IOUT voltage is 20times 7IOUT the differential voltage across the sense resistor.Place a 100pF or less ceramic decoupling capacitor from the IOUT pin to GND.SMBus open-drain data I/O.Connect to the SMBus data line from the host controller or smart battery.Connect a 10k Ω8SDA pull-up resistor according to SMBus specifications.SMBus open-drain clock input.Connect to the SMBus clock line from the host controller or smart battery.Connect a 9SCL10k Ωpull-up resistor according to SMBus specifications.Charge current limit input.Program ILIM voltage by connecting a resistor divider from the system reference 3.3V rail to the ILIM pin to the GND pin.The lower of the ILIM voltage or DAC limit voltage sets the charge current regulation limit.10ILIMTo disable control on ILIM,set ILIM above 1.6V.Once the voltage on the ILIM pin falls below 75mV,charge is disabled.Charge is enabled when the ILIM pin rises above 105mV.Open-drain output.It is pulled LOW by an internal MOSFET when ACOC or a short circuit is detected.It is pulled 11IFAULTHIGH to the external pull-up supply rail by an external pull-up resistor in normal condition.Charge current sense resistor negative input.The SRN pin is for battery voltage sensing as well.Connect SRN pin to a 7.5Ωresistor first then from resistor another terminal connect a 0.1µF ceramic capacitor to GND for common-mode 12SRNfiltering and connect to current sensing resistor.Connect a 0.1µF ceramic capacitor between current sensing resistor to provide differential mode filtering.See application information about negative output voltage protection for hard shorts on battery to ground or battery reverse connection by adding small resistor.10Submit Documentation Feedback©2010–2011,Texas Instruments IncorporatedProduct Folder Link(s):bq24707bq24707APIN FUNCTIONS–20-PIN QFN(continued)PINDESCRIPTIONCharge current sense resistor positive input.Connect SRP pin to a10Ωresistor first then from resistor anotherterminal connect to current sensing resistor.Connect a0.1µF ceramic capacitor between current sensing resistor to 13SRPprovide differential mode filtering.See application information about negative output voltage protection for hard shortson battery to ground or battery reverse connection by adding small resistor.IC ground.On PCB layout,connect to the analog ground plane,and only connect to power ground plane through the 14GNDPowerPAD underneath the IC.15LODRV Low side power MOSFET driver output.Connect to low side n-channel MOSFET gate.Linear regulator output.REGN is the output of the6V linear regulator supplied from VCC.The LDO is active when the 16REGN voltage on the ACDET pin is above0.6V and voltage on VCC is above UVLO.Connect a1uF ceramic capacitor from REGN to GND.High side power MOSFET driver power supply.Connect a0.047µF capacitor from BTST to PHASE,and a bootstrap 17BTSTSchottky diode from REGN to BTST.18HIDRV High side power MOSFET driver output.Connect to the high side n-channel MOSFET gate.19PHASE High side power MOSFET driver source.Connect to the source of the high side n-channel MOSFET.Input supply,diode OR from adapter or battery e10Ωresistor and1µF capacitor to ground as low pass20VCCfilter to limit inrush current.Exposed pad beneath the IC.Analog ground and power ground star-connected only at the PowerPAD plane.Always PowerPAD solder PowerPAD to the board,and have vias on the PowerPAD plane connecting to analog ground and power ground planes.It also serves as a thermal pad to dissipate the heat.FUNCTIONAL BLOCK DIAGRAMFigure15.Functional Block Diagram for bq24707and bq24707ADETAILED DESCRIPTIONSMBus InterfaceThe IC operates as a slave,receiving control inputs from the embedded controller host through the SMBus interface.The IC uses a simplified subset of the commands documented in System Management Bus Specification V1.1,which can be downloaded from .The IC uses the SMBus Read-Word and Write-Word protocols(see Figure16)to communicate with the smart battery.The IC performs only as a SMBus slave device with address0b00010010(0x12H)and does not initiate communication on the bus.In addition,the IC has two identification registers a16-bit device ID register(0xFFH)and a16-bit manufacturer ID register (0xFEH).SMBus communication is enabled with the following conditions:•V VCC is above UVLO;•V ACDET is above0.6V;The data(SDA)and clock(SCL)pins have Schmitt-trigger inputs that can accommodate slow edges.Choose pull-up resistors(10kΩ)for SDA and SCL to achieve rise times according to the SMBus specifications. Communication starts when the master signals a START condition,which is a high-to-low transition on SDA, while SCL is high.When the master has finished communicating,the master issues a STOP condition,which is a low-to-high transition on SDA,while SCL is high.The bus is then free for another transmission.Figure17and Figure18show the timing diagrams for signals on the SMBus interface.The address byte,command byte,and data bytes are transmitted between the START and STOP conditions.The SDA state changes only while SCL is low,except for the START and STOP conditions.Data is transmitted in8-bit bytes and is sampled on the rising edge of SCL.Nine clock cycles are required to transfer each byte in or out of the IC because either the master or the slave acknowledges the receipt of the correct byte during the ninth clock cycle.The IC supports the charger commands as described in Table2.a) Write-Word FormatPreset to 0b0001001 ChargeCurrent() = 0x14H D7 D0D15 D8ChargeVoltage() = 0x15HInputCurrent() = 0x3FHChargeOption() = 0x12Hb) Read-Word FormatPreset to 0b0001001DeviceID() = 0xFFH Preset to D7 D0D15 D8ManufactureID() = 0xFEH 0b0001001ChargeCurrent() = 0x14HChargeVoltage() = 0x15HInputCurrent() = 0x3FHChargeOption() = 0x12H LEGEND:S = START CONDITION OR REPEATED START CONDITION P= STOP CONDITIONACK =ACKNOWLEDGE (LOGIC-LOW)NACK = NOT ACKNOWLEDGE (LOGIC-HIGH)W = WRITE BIT (LOGIC-LOW)R = READ BIT (LOGIC-HIGH)MASTER TO SLAVESLAVE TO MASTERFigure16.SMBus Write-Word and Read-Word Protocols。

BLC2425M10LS500PPower LDMOS transistorRev. 2 — 21 March 2019Product data sheet 1. Product profile1.1General description500W LDMOS based power transistor suitable for use in a variety of commercial andconsumer cooking, industrial, scientific and medical applications at frequencies from2400MHz to 2500MHz.The BLC2425M10LS500P is designed for high-power CW applications and is assembledin a high performance plastic package.Table 1.Typical performanceRF performance at V DS=32V;I Dq=20mA;T case=25°C in a class-AB application circuit.Test signal f V DS P L(AV)G pηD(MHz)(V)(W)(dB)(%)CW24503250015.067.5CW pulsed [1]24503250015.067[1]t p=100μs; δ=10%1.2Features and benefits⏹High efficiency⏹Excellent ruggedness⏹Integrated ESD protection⏹Designed for broadband operation (2400 MHz to 2500 MHz)⏹Input and output internally matched⏹For RoHS compliance see the product details on the Ampleon website1.3Applications⏹RF power amplifiers for CW applications in the 2400MHz to 2500MHz frequencyrange such as commercial and consumer cooking, industrial, scientific and medicalapplications2. Pinning informationTable 2.Pinning3. Ordering informationTable 3.Ordering informationType number PackageName Description Version BLC2425M10LS500P-air cavity plastic earless flanged package; 4leads SOT1250-14. Limiting valuesTable 4.Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).Symbol Parameter Conditions Min Max UnitV DS drain-source voltage-65VV GS gate-source voltage−6+13VT stg storage temperature−65+150°CT j junction temperature[1]-225°C[1]Continuous use at maximum temperature will affect the reliability, for details refer to the online MTFcalculator.5. Thermal characteristicsTable 5.Thermal characteristicsSymbol Parameter Conditions Typ UnitR th(j-case)thermal resistance from junction to case T case=75°C; P L=500 W0.17K/W6. Characteristics7. Test information7.1Ruggedness in class-AB operationThe BLC2425M10LS500P is capable of withstanding a load mismatch corresponding to VSWR =20:1 through all phases under the following conditions: V DS =32V; I Dq =20mA; P L =500 W (CW); f = 2450MHz.7.2Impedance information[1]Z S and Z L defined in Figure 1.Table 6.DC characteristicsT j =25°C, per section; unless otherwise specified.Symbol Parameter ConditionsMin Typ Max Unit V (BR)DSS drain-source breakdown voltage V GS =0V; I D =2.7mA65--V V GS(th)gate-source threshold voltage V DS =32 V; I D =20mA 1.75 2.2 2.65V I DSS drain leakage current V GS =0 V; V DS =32V -- 4.2μA I DSX drain cut-off current V GS =V GS(th)+3.75 V; V DS =10V-59.3-A I GSS gate leakage current V GS =11 V; V DS =0V --40nA g fs forward transconductanceV DS =10V; I D =15.2 A-21-S R DS(on)drain-source on-state resistance V GS =V GS(th) + 3.75V;I D =10.64A-45.5-m ΩTable 7.RF characteristicsTest signal: CW pulsed at 2450 MHz; RF performance at V DS =32V;I Dq =10mA per section; T case =25°C; unless otherwise specified; in a class-AB production test circuit.Symbol Parameter Conditions Min Typ Max Unit G p power gain P L =500W 13.214.5-dB RL in input return loss P L =500W -−18−5dB ηDdrain efficiencyP L =500W6467-%Table 8.Typical impedanceMeasured load-pull data half device. Typical values unless otherwise specified. I Dq =20mA; V DS =32V.f Z S [1]Z L [1](MHz)(Ω)(Ω)2400 2.95−j6.51 2.3−j2.62450 4.50−j6.95 2.1−j2.425005.58−j5.662.2−j2.27.3Test circuitTable 9.List of componentsSee Figure2 for component layout.Component Description Value Remarks C1, C2multilayer ceramic chip capacitor1μF, 50V SMD 1210 C3, C4, C11, C12multilayer ceramic chip capacitor1nF, 50V SMD 0805 C5, C6, C7, C8multilayer ceramic chip capacitor22pF ATC 800A C9, C10multilayer ceramic chip capacitor22pF ATC 800B C13, C14multilayer ceramic chip capacitor 4.7μF, 50V SMD 1210 C15mica capacitor12pF MIN02R1resistor100ΩSMD 1206 R2, R3resistor10ΩSMD 0603 C16, C17electrolytic capacitor22μF, 63VC18, C19electrolytic capacitor470μF, 63V7.4Graphical data8. Package outlineFig 7.Package outline SOT1250-19. Handling informationTable 10.ESD sensitivityESD model ClassCharged Device Model (CDM); According to ANSI/ESDA/JEDEC standard JS-002C2A [1]Human Body Model (HBM); According to ANSI/ESDA/JEDEC standard JS-001 2 [2][1]CDM classification C2A is granted to any part that passes after exposure to an ESD pulse of 500V.[2]HBM classification 2 is granted to any part that passes after exposure to an ESD pulse of 2000V. 10. AbbreviationsTable 11.AbbreviationsAcronym DescriptionCW Continuous WaveESD ElectroStatic DischargeLDMOS Laterally Diffused Metal-Oxide SemiconductorMTF Median Time to FailureRoHS Restriction of Hazardous SubstancesSMD Surface Mounted DeviceVSWR Voltage Standing-Wave Ratio11. Revision historyTable 12.Revision historyDocument ID Release date Data sheet status Change notice SupersedesBLC2425M10LS500P v.220190321Product data sheet-BLC2425M10LS500P v.1 Modifications•Table9 on page4: corrected value C18 and C19BLC2425M10LS500P v.120190114Product data sheet--12. Legal information12.1 Data sheet status[1]Please consult the most recently issued document before initiating or completing a design.[2]The term ‘short data sheet’ is explained in section “Definitions”.[3]The product status of device(s) described in this document may have changed since this document was published and may differ in case of multiple devices. The latest product statusinformation is available on the Internet at URL .12.2 DefinitionsDraft — The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. Ampleon does not give any representations or warranties as to the accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information.Short data sheet — A short data sheet is an extract from a full data sheet with the same product type number(s) and title. A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local Ampleon sales office. In case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail.Product specification — The information and data provided in a Product data sheet shall define the specification of the product as agreed between Ampleon and its customer, unless Ampleon and customer have explicitly agreed otherwise in writing. In no event however, shall an agreement be valid in which the Ampleon product is deemed to offer functions and qualities beyond those described in the Product data sheet.12.3 DisclaimersLimited warranty and liability — Information in this document is believed to be accurate and reliable. However, Ampleon does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information. Ampleon takes no responsibility for the content in this document if provided by an information source outside of Ampleon.In no event shall Ampleon be liable for any indirect, incidental, punitive, special or consequential damages (including - without limitation - lost profits, lost savings, business interruption, costs related to the removal or replacement of any products or rework charges) whether or not such damages are based on tort (including negligence), warranty, breach of contract or any other legal theory.Notwithstanding any damages that customer might incur for any reason whatsoever, Ampleon’s aggregate and cumulative liability towards customer for the products described herein shall be limited in accordance with the Terms and conditions of commercial sale of Ampleon.Right to make changes — Ampleon reserves the right to make changes to information published in this document, including without limitation specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof.Suitability for use — Ampleon products are not designed, authorized or warranted to be suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of an Ampleon product can reasonably be expected to result in personal injury, death or severe property or environmental damage. Ampleon and its suppliers accept no liability for inclusion and/or use of Ampleon products in such equipment or applications and therefore such inclusion and/or use is at the customer’s own risk.Applications — Applications that are described herein for any of these products are for illustrative purposes only. Ampleon makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification.Customers are responsible for the design and operation of their applications and products using Ampleon products, and Ampleon accepts no liability for any assistance with applications or customer product design. It is customer’s sole responsibility to determine whether the Ampleon product is suitable and fit for the customer’s applications and products planned, as well as for the planned application and use of customer’s third party customer(s). Customers should provide appropriate design and operating safeguards to minimize the risks associated with their applications and products.Ampleon does not accept any liability related to any default, damage, costs or problem which is based on any weakness or default in the customer’s applications or products, or the application or use by customer’s third party customer(s). Customer is responsible for doing all necessary testing for the customer’s applications and products using Ampleon products in order to avoid a default of the applications and the products or of the application or use by customer’s third party customer(s). Ampleon does not accept any liability in this respect.Limiting values — Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC60134) will cause permanent damage to the device. Limiting values are stress ratings only and (proper) operation of the device at these or any other conditions above those given in the Recommended operating conditions section (if present) or the Characteristics sections of this document is not warranted. Constant or repeated exposure to limiting values will permanently and irreversibly affect the quality and reliability of the device.Terms and conditions of commercial sale — Ampleon products are sold subject to the general terms and conditions of commercial sale, as published at /terms, unless otherwise agreed in a valid written individual agreement. In case an individual agreement is concluded only the terms and conditions of the respective agreement shall apply. Ampleon hereby expressly objects to applying the customer’s general terms and conditions with regard to the purchase of Ampleon products by customer.No offer to sell or license — Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance or the grant, conveyance or implication of any license under any copyrights, patents or other industrial or intellectual property rights.Export control — This document as well as the item(s) described herein may be subject to export control regulations. Export might require a prior authorization from competent authorities.Document status[1][2]Product status[3]DefinitionObjective [short] data sheet Development This document contains data from the objective specification for product development. Preliminary [short] data sheet Qualification This document contains data from the preliminary specification.Product [short] data sheet Production This document contains the product specification.Non-automotive qualified products — Unless this data sheet expressly states that this specific Ampleon product is automotive qualified, the product is not suitable for automotive use. It is neither qualified nor tested in accordance with automotive testing or application requirements. Ampleon accepts no liability for inclusion and/or use of non-automotive qualified products in automotive equipment or applications.In the event that customer uses the product for design-in and use in automotive applications to automotive specifications and standards, customer (a) shall use the product without Ampleon’s warranty of the product for such automotive applications, use and specifications, and (b) whenever customer uses the product for automotive applications beyond Ampleon’s specifications such use shall be solely at customer’s own risk, and (c) customer fully indemnifies Ampleon for any liability, damages or failed product claims resulting from customer design and use of the product for automotive applications beyond Ampleon’s standard warranty and Ampleon’s product specifications.Translations — A non-English (translated) version of a document is for reference only. The English version shall prevail in case of any discrepancy between the translated and English versions.12.4 TrademarksNotice: All referenced brands, product names, service names and trademarks are the property of their respective owners.Any reference or use of any ‘NXP’ trademark in this document or in or on the surface of Ampleon products does not result in any claim, liability or entitlement vis-à-vis the owner of this trademark. Ampleon is no longer part of the NXP group of companies and any reference to or use of the ‘NXP’ trademarks will be replaced by reference to or use of Ampleon’s own trademarks.13. Contact informationFor more information, please visit: For sales office addresses, please visit: /sales14. Contents1 Product profile. . . . . . . . . . . . . . . . . . . . . . . . . . 11.1 General description . . . . . . . . . . . . . . . . . . . . . 11.2 Features and benefits. . . . . . . . . . . . . . . . . . . . 11.3 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Pinning information. . . . . . . . . . . . . . . . . . . . . . 23 Ordering information. . . . . . . . . . . . . . . . . . . . . 24 Limiting values. . . . . . . . . . . . . . . . . . . . . . . . . . 25 Thermal characteristics . . . . . . . . . . . . . . . . . . 26 Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . 37 Test information. . . . . . . . . . . . . . . . . . . . . . . . . 37.1 Ruggedness in class-AB operation . . . . . . . . . 37.2 Impedance information. . . . . . . . . . . . . . . . . . . 37.3 Test circuit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47.4 Graphical data . . . . . . . . . . . . . . . . . . . . . . . . . 58 Package outline. . . . . . . . . . . . . . . . . . . . . . . . . 69 Handling information. . . . . . . . . . . . . . . . . . . . . 710 Abbreviations. . . . . . . . . . . . . . . . . . . . . . . . . . . 711 Revision history. . . . . . . . . . . . . . . . . . . . . . . . . 712 Legal information. . . . . . . . . . . . . . . . . . . . . . . . 812.1 Data sheet status . . . . . . . . . . . . . . . . . . . . . . . 812.2 Definitions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 812.3 Disclaimers. . . . . . . . . . . . . . . . . . . . . . . . . . . . 812.4 Trademarks. . . . . . . . . . . . . . . . . . . . . . . . . . . . 913 Contact information. . . . . . . . . . . . . . . . . . . . . . 914 Contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Please be aware that important notices concerning this document and the product(s)described herein, have been included in section ‘Legal information’.© Ampleon Netherlands B.V.2019.All rights reserved.For more information, please visit: For sales office addresses, please visit: /salesDate of release: 21 March 2019Document identifier: BLC2425M10LS500P。