9314DMQB中文资料

安全信息请阅读本用户手册在使用本导航系统之前，请务必仔细阅读并充分理解以下的安全信息确保安全驾驶，以便您能享受到其中的高级功能。

请保留本用户手册,以便日后参考。

确保遵守安全驾驶规章以及现行的交通规则。

如果操作本导航系统（以及可选的倒车摄像头）会分散您在安全驾驶车辆时的注意力，就请不要进行操作。

如果您要通过观看显示器进行系统操作，请将车辆停靠在安全的场所，并使用停车制动，然后再做必要的调整。

切勿将导航系统的音量设置得过高，以免您无法听到车外的交通情况和紧急求援信号。

出于对安全的考虑，车辆在行驶时，您将无法操作本系统的某些功能。

除非将车辆停止或使用停车制动。

请切记在驾驶车辆时系好安全带。

一旦发生车祸，未能系好安全带给您带来的伤害会比系好安全带时您所受的伤害严重得多。

l l l l l l ll危llll请不要在驾驶车辆时戴耳机。

电源接头上的蓝白色导线是用来检测停车状态,必须连接到停车制动开关的电源上。

此导线的不恰当连接或使用可能会违反适用法律，并可能及你的人身安全。

为了防止车祸，避免对适用法律可能的违反，请勿在驾驶时将本系统用作除导航以外的目的。

同样，后视显示器也不能在阻碍驾驶员视线的情况下使用。

当使用连接到后方监视输出的显示器时，本系统的后方监视输出用于显示器的连接，以使得后座的乘员能够观看图像。

警告:请勿自行安装或维修您的导航系统。

由未经电子设备和汽车配件方面培训的人员安装或修理本导航系统可能导致危险的发生，并可能使您遭受电击或其他危险，驾驶汽车时请勿观看节目和做相关操作。

l 开车时观看视频节目及有关操作是为一些国家的法律所禁止的，为了您及他人的人身安全，驾驶汽车时请勿观看节目和做相关操作。

l 切勿使本系统接触液体，否则会导致电击，还可能引起对本系统的损伤、系统冒烟以及过热等。

lll安全声明本产品的导航功能（以及可选的倒车摄像头）仅作为您在驾驶车辆时的一个辅助，并不意味着您在驾驶时可以分心、粗心或者丧失判断。

本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正：tyooo@A49313-Phase Brushless DC Motor Pre-Driver三相无刷直流电机前置驱动器4931-DS, Rev. 4下载：：/~/media/Files/Datasheets/A4931-Datasheet.ashx下载翻译：2012-11-15▪ ▪ ▪ ▪▪▪ ▪▪本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正： tyooo@A4931 三相无刷直流电机前置驱动器Absolute Maximum RatingsThermal Characteristics*For additional information, refer to the Allegro website.CharacteristicSymbolNotes RatingUnits供电电压Load Supply Voltage V BB38 V 电机输出Motor Phase Output S X t w < 500 ns –3 V 霍尔输入 V Hx DC–0.3 to 7 V 逻辑输入电压范围 V IN–0.3 to 7 V 工作环境温度 T A Range M–20 to 105ºC 最大结温度 T J (max) 150 ºC 储藏温度T stg–40 to 150ºCCharacteristicSymbolTest Conditions*RatingUnits封装内阻，结点到外面（Junction to Ambient ）R θJA 4-layer PCB based on JEDEC standard32 ºC/W 封装内阻，结点到焊盘（Junction to Exposed Pad ）R θJP2ºC/W本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正： tyooo@A4931 三相无刷直流电机前置驱动器Functional Block DiagramTerminal List0.1 μFNumber 1Name HA+ Description Hall input A 2 HA - Hall input A 3 HB+ Hall input B 4 HB Hall input B 5 HC+ Hall input C 6 HC- Hall input C 7 GND Ground8 HBIAS Hall bias power supply output 9 CP1 Charge pump capacitor terminal 10 CP2 Charge pump capacitor terminal 11 VBB Supply voltage12 VCP Reservoir capacitor terminal 13 SENSE Sense resistor connection 14GLCLow side gate drive CNumber 15 Name GLB Description Low side gate drive B 16 GLA Low side gate drive A 17 GHC High side gate drive C18 SC High side source connection C 19 GHB High side gate drive B20 SB High side source connection B 21 GHA High side gate drive A22 SA High side source connection A 23 FG1 FG 1 speed control output (3 Φ inputs)24 FG2 FG 2 speed control output (ΦA input) 25 CLD Locked rotor detect timing capacitor 26 DIR Logic input – motor direction27 ENABLE Logic input – external PWM control 28BRAKEZLogic input – motor brake (active low)本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正： tyooo@A4931 三相无刷直流电机前置驱动器ELECTRICAL CHARACTERISTICS *Valid at T A= 25°C, V BB= 24 V, unless noted otherwise*Typical data are for initial design estimations only, and assume optimum manufacturing and application conditions. Performance may vary for individualunits, within the specified maximum and minimum limits. For input and output current specifications, negative current is defined as coming out of (sourcing) the specified device pin. Specifications throughout the allowed operating temperature range are guaranteed by design and characterization.本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正：tyooo@ A4931 三相无刷直流电机前置驱动器本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正：tyooo@固定断开时间Fixed Off-Time 理论上A4931的固定断开本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正：tyooo@ A4931 三相无刷直流电机前置驱动器ET Package, 28-Contact QFNFor Reference Only (reference JEDEC MO-220VHHD-1) Dimensions in millimeters Exact caseand lead configuration at supplier discretion within limits shown0.55 +0.20 –0.10Terminal #1 mark area 3.15Exposed thermal pad (reference only, terminal #1 identifier appearance at supplier discretion)Reference land pattern layout (reference IPC7351 QFN50P500X500X100-29V1M); All pads a minimum of 0.20 mm from all adjacentpads; adjust as necessary to meet application process requirements and PCB layout tolerances; when mounting on a multilayer PCB,thermal vias at the exposed thermal pad land can improve thermal dissipation (reference EIA/JEDEC Standard JESD51-5)Coplanarity includes exposed thermal本人使用过程中翻译了本文，水平有限难免有误，欢迎纠正：tyooo@总结1.BREAK：低电平进入刹车状态。

公司介绍产品零缺陷，售后零服务。

不需要服务的产品才是更好的产品。

缺图01金笛是一家集硬件、软件研发、生产、销售一体的高科技企业，注册资金2000万元，产品行销海内外，业内享有极高的美誉度。

MU-106M1806-NC5M1806-ME MG301-FT MC323RS232MC323MG301M1206B-FTMG35-FT M1806-NC5M1806-ME M1806N-NC5MG35-N M1806N-ME MG301-N小一体机MN1604大一体机MN1408RJ45M1206BMG35产品概述03把方便留给客户，把麻烦留给我们。

能简单才不简单。

提供高可靠的短信软硬件，立志把可靠性做到极致。

产品经过十多年的技术积累和积淀，不断迭代升级，日趋完善。

产品选型图02金笛MG35是一款全球4频段工业级GSM/GPRS MODEM，是一款2G短信猫。

金笛MG35 GSM/GPRS Modem其工作频段是GSM850MHz，EGSM900MHz，DCS1800MHz，PCS1900MHz。

提供GSM短信，GPRS数传业务，可在全球大多数国家使用。

该产品采用射频基带一体化超小超薄核心芯片方案，具有超低功耗、超宽温度、更快的速度传输率，抗干扰能力强。

经过雷击、浪涌、电脉冲、温度冲击、跌落、盐雾等大量可靠性测试，可靠性达到99.99%，是短信监控、报警、通知和M2M应用的理想方案。

超小超薄核心芯片金笛MG35核心模块采用强劲的ESD保护，直接放电空气±10KV，接触±5KV，充分的FLASH保护机制和多重防呆机制，保证设备可以长期稳定运行。

强劲ESD保护金笛MG35网络兼容性强，发送速度快，另有基站定位、空中升级固件等专利技术，价格却比较亲民，有着超高性价比。

超高性价比串口款USB口款做高性能的短信猫金笛GSM MODEM MG35典雅、端庄，如同一件精致的艺术品，七分圆润三分刚硬每一个细节的品性、品质，都经过严格测试与检测，把可靠性做到极致外壳采用铝合金材质，防刮防指纹，坚固耐用磨砂工艺，高端时尚，质感十足USB款MG35产品配件您可能有这样的经历，插机箱前的USB不识别，插机箱后的USB就正常。

2008 AUTOMATIC TRANSMISSION KIT & COMPONENTS CATALOG©2008 PARKER HANNIFIN CORP. ALL RIGHTS RESERVEDEA750Direct DrumInterm. ClutchForward PlanetSun GearRearOutput ShaftLow / Rev ClutchLow / Rev DrumExt. Hsg.Linkage991Park Pawl995778CenterPumpParts507139SteelModule4282008 AUTOMATIC TRANSMISSION KIT & COMPONENTS CATALOG ©2008 PARKER HANNIFIN CORP . ALL RIGHTS RESERVEDBCE 642144106126989979969340341639632Overrun Clutch569339338966976893126104566062620062213779300765010V.B.Parts741748O.Dr. PlanetInput ShaftGov.048740Valve Body431421421386429006.............B69006..........Master W/Steels Kit, ZF3HP22 1976-84.....................................................................................1..........006.............T69006A........Master W/Steels Kit, ZF4HP22 1984-Up....................................................................................1..........006.............B69006A.......Master W/Steels Kit, ZF4HP22 1984-96 BMW, Audi..................................................................1..........006.............B69006B........Master W/Steels Kit, ZF4HP22 1984-96 With 5 Extra................................................................1..........006.............T69006E........Master W/Steels Kit, ZF4HP24 1988-96.....................................................................................1..........006.............B69006E........Master W/Steels Kit, ZF4HP24 1988-Up BMW, 750I..................................................................1..........E300...........31209............Gasket, ZF3HP22 Oil Pan 1984-On (Molded Rubber)...............................................................1..........24-11-1-205-903 E300...........31809............Gasket, ZF4HP22/24 Oil Pan (Molded Rubber)..........................................................................1..........24-11-1-215-488 E305...........31897589......Gasket, ZF4HP22 Extension Housing 1984-Up.........................................................................1. (070112012)A310..........31204............Gasket, ZF3HP22 Pump Stator To Bell Housing.........................................................................1. (1043322129)A310..........31897588......Gasket, ZF3HP22 Pump Plate To Stator.....................................................................................1. (750112009)A311...........1994785........O-Ring, ZF4HP22 Pump Body....................................................................................................1. (734313061)...................31897592......Gasket, ZF4HP22 Valve Body (Upper) 1984-On.......................................................................1. (1043326253)...................31897593......Gasket, ZF4HP24 Valve Body (Lower) Electronic 1984-On.....................................................1. (1043328080)A070..........70247............Seal, ZF3HP22/ZF4HP22/ZF4HP24/ZF4HP14 Front 1976-Up...................................................1..........24-311-207-621 D072...........70249............Seal, ZF3HP22/ZF4HP22/ZF4HP24 Manual Lever Seal 1976-Up.............................................1. (750110062)E074...........70248............Seal, ZF3HP22/ZF4HP22/ZF4HP24/ZF4HP14/4L30E Extension Housing (2 1/2"OD) BMW,...........................................Peugeot 1984-On.......................................................................................................................1..........046-504-4002H E074...........70028............Seal, ZF4HP22/C-3/A4LD/4R44E/4R55E/5R55E Extension Housing (Lincoln With Boot).........1..........E2ZZ-7052-A175.............31260............Ring Kit, ZF3HP22 1976-86 (5 Pieces)......................................................................................1..........175.............6182..............Ring Kit, ZF4HP22 1984-Up........................................................................................................1..........175.............6182OS.........Ring Kit, ZF4HP22 1984-Up........................................................................................................1..........A177..........30819............Ring, ZF4HP22 Input Shaft (PTFE) 1984-Up..............................................................................1..........B180...........TAW-2165.....Ring, ZF3HP22/ZF4HP22 Direct Clutch Drum (Metal)................................................................1. (301302051)C182...........TAW-2168.....Ring, ZF3HP22/ZF4HP22 Sun Gear Shaft (Metal).....................................................................2. (750113021)D189...........31859V..........Ring, ZF4HP22 Governor (Viton)..............................................................................................1-3.. (501306311)...................31803-5.........Ring Kit, ZF4HP22 Governor (Viton) Contains 3 Rings.............................................................1. (501306311)D100...........31820R..........Friction, ZF4HP22 Low/Reverse & Overdrive Clutch (.061") 40 Teeth (E/F Pack) 1984-On...8..........24-23-1-214-441 D104...........31224R..........Friction, ZF3HP22/ZF4HP22 Reverse Clutch (.063") 48 Teeth (D Pack)..................................4-5........24-23-1-205-955 D104...........31824W.........Friction, ZF4HP22 Reverse Clutch (.061") 58 Teeth (D Pack) 1987-On...................................5..........1043-217-015 B106...........31222R..........Friction, ZF3HP22/ZF4HP22 Direct, Intermediate, & Overrun Clutch (.059") 1976-On............6-8........24-23-1-215-770 A108..........31822............Friction, ZF4HP24 Forward Clutch (.061") 40 Teeth (5"OD) (A Pack) 1988-Up......................4-6........1043-202-189 119.............31880............Fricton Module, ZF4HP22 1984-96............................................................................................1..........119.............31880R..........Friction Module, ZF4HP22 1984-96............................................................................................1..........119.............31882R..........Friction Module, ZF4HP24 1988-96............................................................................................1..........2008 AUTOMATIC TRANSMISSION KIT & COMPONENTS CATALOG©2008 PARKER HANNIFIN CORP. ALL RIGHTS RESERVED 4304312008 AUTOMATIC TRANSMISSION KIT & COMPONENTS CATALOG©2008 PARKER HANNIFIN CORP. ALL RIGHTS RESERVEDE010...........31240............Filter, ZF3HP22 1976-84.............................................................................................................1..........24-34-1-209-791E010...........31840............Filter, ZF4HP22 (No Pick-Up Tube) 1984-Up..............................................................................1..........24-31-1-218-550E010...........31841............Filter, ZF4HP22 (With 1” Long Pick-Up Tube) 1988-Up With Suction ........................................1..........24-31-1-218-204E010...........31843............Filter, ZF4HP24 Land Rover 1988-Up ........................................................................................1..........1043-226-037011.............31242............Filter Kit, ZF3HP22 1977-On.......................................................................................................1..........011.............31842............Filter Kit, ZF4HP22 (No Pick-Up Tube) 1984-On BMW ..............................................................1..........011.............31844............Filter Kit, ZF4HP22 (With 1 Pick-Up Tube) 1988-On ..................................................................1. (011).............31845............Filter Kit, ZF4HP24 Land Rover 1991-On...................................................................................1..........A034..........31230............Bushing, ZF3HP22/ZF4HP22 NPump 1976-93...........................................................................1..........750101031A034..........31232............Bushing, ZF4HP22/ZF4HP24 Pump 1994-Up.............................................................................1..........0501-311-812A/B048.......31231............Bushing, ZF4HP22/ZF4HP24 Forward Drum, Overdrive Drum, & Center Support Plate...........................................1976-Up .....................................................................................................................................1-3........E421...........S-159.............Solenoid, ZF4HP22/ZF4HP22 (Shift/TCC/Reverse Lock-Out)..................................................1-3........501307869E431...........S-157.............Solenoid, ZF4HP22/ZF4HP24 (EPC) Pressure Regulator Solenoid (Fits The 5 Solenoid...........................................Valve Body)................................................................................................................................1..........0501206997C650...........31885............Sprag, ZF4HP22 Overdrive Roller Clutch 3RD Design ..............................................................1..........C650...........31886............Sprag, ZF4HP22 Overdrive Roller Clutch 1ST Design...............................................................1..........。

9.3功能说明9.3.1多路复用器9.3.2模拟输入9.3.3满量程（FSR）和LSB大小9.3.4参考电压9.3.5振荡器9.3.6数字比较器（仅ADS1114和ADS1115）9.3.7转换就绪引脚（仅适用于ADS1114和ADS1115）9.3.8 SMbus警报响应9.4设备功能模式9.4.1复位和上电9.4.2操作模式9.4.3低功耗的Duty Cycling9.5编程9.5.1 I2C接口9.5.2从模式操作9.5.3写入和读取寄存器9.5.4数据格式9.6Register Map9.6.1地址指针寄存器（地址= N / A）[reset = N / A]9.6.2转换寄存器（P [1：0] = 0h）[reset = 0000h]9.6.3配置寄存器（P [1：0] = 1h）[reset = 8583h]9.6.4 Lo_thresh（P [1：0] = 2h）[reset = 8000h]和Hi_thresh（P [1：0] = 3h）[reset = 7FFFh]10应用与实施10.1申请信息10.1.1基本连接10.1.2单端输入10.1.3输入保护10.1.4未使用的输入和输出10.1.5模拟输入滤波10.1.6连接多个设备10.1.7快速入门指南9.3功能说明9.3.1多路复用器ADS1115包含输入多路复用器（MUX），如图25所示。

可以测量四个单端或两路差分信号。

另外，AIN0和AIN1可以与AIN3差分测量。

多路复用器由Config寄存器中的MUX [2：0]位组成。

当测量单端信号时，ADC的负输入通过多路复用器内的开关内部连接到GND。

ADS1113和ADS1114没有输入多路复用器，可以测量一个差分信号或一个单端信号。

对于单端测量，将AIN1引脚连接到外部。

在本数据手册的后续章节中，AINP指的是AIN0，AINN是指ADS1113和ADS1114的AIN1。

L293中文资料【完整版】L293, L293D中文数据手册配备UNITRODE L293和L293D产品来自德州仪器电源电压范围：4.5 V至36 V单独的输入逻辑电源内部ESD保护热关断高噪声抗扰度输入的通标L293和L293D SGS的功能替代输出电流1 A每通道（600毫安L293D）峰值输出电流每通道2 A（1.2 L293D）输出钳位二极管的感性瞬态抑制（L293D）描述：L293和L293D四倍高电流H桥驱动程序。

L293是提供双向驱动电流高达1 A，电压是从4.5 V至36 V的；L293D提供双向驱动电流高达600毫安，电压是从4.5 V至36 V的。

两个设备是专为驱动等感性负载继电器，电磁阀，直流双极步进和马达，也可以给其他高电流/高电压提供电源负载。

兼容所有的TTL输入。

每个输出都是推拉式驱动电路，与达林顿三极管和伪达林源。

启用1,2 EN 驱动器和3,4 EN驱动器。

当使能输入为高电平时，相关联的驱动器被启用和他们的输出处于活动状态，并在其输入端的同相。

当使能输入为低，这些驱动器被禁用其输出关闭，在高阻抗状态。

【PS：1,2EN为1和2的使能端（高电平使能）；3,4EN同理】用适当的数据输入端，每对驱动程序的形式一个完整的H桥可逆驱动器适用于电磁阀或电机应用。

L293，外部输出为高速钳位二极管，应使用电感的瞬态抑制。

VCC1和VCC2分开，提供逻辑输入，以尽量减少设备功耗。

L293和 L293D的工作温度是从0°C至70°C电路图真值表（所有芯片）输入输出YA ENH H HL H LX L Z在热关断模式下，输出的是高阻态，而不管输入电平。

逻辑图在工作自由空气的温度范围内绝对最大额定值（除非另有说明）电源电压VCC1（见注1），36 V输出电源电压VCC2，36V输入电压VI，V7输出电压范围VO，3 V至+3 V峰值输出电流，IO（非重复性的，T≤5毫秒）L293：±2 A峰值输出电流，IO（非重复性的，T≤100毫秒）L293D：±1.2连续输出电流，IO：L293±1连续输出电流，IO：：L293D±600毫安连续总功耗（或低于）25°C自由空气的温度（见注2和3）2075毫瓦连续总功耗在80°C外壳温度（见注3）5000毫瓦最高结温TJ 150°C焊接温度1,6 mm（1/16英寸）的情况下，10秒260°C存储温度范围，TSTG-65°C至150°C当超过“绝对最大额定值”时，可能会造成设备永久性损坏。

1/12L293B L293EJuly 2003 s OUTPUT CURRENT 1A PER CHANNELs PEAK OUTPUT CURRENT 2A PER CHANNEL (non repetitive)s INHIBIT FACILITYs HIGH NOISE IMMUNITY s SEPARATE LOGIC SUPPLYsOVERTEMPERATURE PROTECTIONDESCRIPTIONThe L293B and L293E are quad push-pull drivers capable of delivering output currents to 1A per channel. Each channel is controlled by a TTL-compatible logic input and each pair of drivers (a full bridge) is equipped with an inhibit input which turns off all four transistors. A separate supply in-put is provided for the logic so that it may be run off a lower voltage to reduce dissipation.Additionally, the L293E has external connection of sensing resistors, for switchmode control.The L293B and L293E are package in 16 and 20-pin plastic DIPs respectively ; both use the four center pins to conduct heat to the printed circuit board.PUSH-PULL FOUR CHANNEL DRIVERSPIN CONNECTION (Top view)DIP16 - L293BPOWERDIP (16+2+2) - L293EL293E L293B2/12BLOCK DIAGRAMSDIP16 - L293BPOWERDIP (16+2+2) - L293E3/12L293E L293BSCHEMATIC DIAGRAMO Pins of L293 () Pins of L293E.ABSOLUTE MAXIMUM RATINGSSymbol ParameterValue Unit V s Supply Voltage36V V ss Logic Supply Voltage 36V V i Input Voltage 7V V inh Inhibit Voltage7V I out Peak Output Current (non repetitive t = 5ms)2A P tot T otal Power Dissipation at T ground-pins = 80°C 5WT stg , T jStorage and Junction T emperature–40 to +150o CL293E L293B4/12THERMAL DATAELECTRICAL CHARACTERISTCS* See figure 1** Referred to L293ETRUTH TABLE(*) High output impedance(**) Relative to the considerate channelSymbol ParameterValue UnitR th j-case Thermal Resistance Junction-case Max.14o C/W R th j-ambThermal Resistance Junction-ambientMax.80oC/WSymbol ParameterTest Condition Min.Typ.Max.Unit V sSupply Voltage Vss36V VssLogic Supply Voltage4.536V I sTotal Quiescent Supply CurrentV i = L; I o = 0; V inh = H 26mA V i = h; I o = 0; V inh = H1624mA V inh = L4mA I ssTotal Quiescent Logic Supply CurrentV i = L; I o = 0; V inh = H 4460mA V i = h; I o = 0; V inh = H1622mA V inh = L1624mA V iLInput Low Voltage -0.31.5VV iHInput High Voltage V SS ≤ 7V 2.3V ssVV SS > 7V 2.37V I iL Low Voltage Input Current V il = 1.5V-10µA I iH High Voltage Input Current 2.3V ≤ V IH ≤ V SS - 0.6V30100µA V inhL Inhibit Low Voltage -0.31.5V V inhH Inhibit High VoltageV SS ≤7V 2.3VssV V SS > 7V 2.37V I inhL Low Voltage Inhibit Current V inhL = 1.5V-30-100µA I inhH High Voltage Inhibit Current 2.3V ≤V inhH ≤ Vss- 0.6V±10µA V CEsatH Source Output Saturation Voltage I o = -1A1.4 1.8V V CEsatL Sink Output Saturation Voltage I o = 1A 1.2 1.8V V SENS Sensing Voltage (pins 4, 7, 14, 17) (**)2V t r Rise Time 0.1 to 0.9 V o (*)250ns t f Fall Time 0.9 to 0.1 V o (*)250ns t on Turn-on Delay 0.5 V i to 0.5 V o (*)750ns t offTurn-off Delay0.5 V i to 0.5 V o (*)200nsV i (each channel)V o V inh (**)H H H L L H H X (*)L LX (*)LL293E L293B Figure 1. Switching TimersFigure 2. Saturation voltage versus Output CurrentFigure 3. Source Saturation Voltage versus Ambient Temperature Figure 4. Sink Saturation Voltage versus Ambient TemperatureFigure 5. Quiescent Logic Supply Currentversus Logic Supply Voltage5/12L293E L293B6/12Figure 6. Output Voltage versus Input VoltageFigure 7. Output Voltage versus Inhibit VoltageAPPLICATION INFORMATIONFigure 8. DC Motor Controls(with connection to ground and to the supply voltage)L = Low H = High X = Don’t CareFigure 9. Bidirectional DC Motor ControlL = Low H = High X = Don’t CareV inh A M1B M2H H Fast Motor Stop H RunH L RunL Fast Motor Stop LXFree Running XFree Running Motor StopMotor StopInputs FunctionV inh = HC = H ;D = L Turn Right C = L ; D = HT urn Left C = DFast Motor StopV inh = LC = X ;D = X Free Running Motor Stop7/12L293E L293BFigure 10. Bipolar Stepping Motor ControlL293E L293B8/12Figure 11. Stepping Motor Driver with Phase Current Control and Short Circuit Protection9/12L293E L293BMOUNTING INSTRUCTIONSThe Rth j-amb of the L293B and the L293E can be reduced by soldering the GND pins to a suitable copper area of the printed circuit board as shown in figure 12 or to an external heatsink (figure 13).During soldering the pins temperature must not exceed 260°C and the soldering time must not be longer than 12 seconds.The external heatsink or printed circuit copper area must be connected to electrical ground.Figure 12. Example of P.C. Board Copper Area which is Used as HeatsinkFigure 13. External Heatsink Mounting Example (R th= 30°C/W)L293E L293B10/12分销商库存信息:STML293B L293E。

◆GPS参数
卫星接收通道数：24
定位精度：15m之内
定位时间：冷启<60s，温启<37s，热启<19s
刷新频率：1Hz
地图配置参数：COM2通信端口9600波特率
◆DVD参数
天线长度：
兼容碟片：DVD\VCD\CD\MP3\MP4\CD-R
自主播放：SD/Micro-SD卡多媒本文件播放
视频多媒体魄式：MPEG4/DIVX系列、AVI、WMV、MP4、ASF等音频多媒体魄式：MP3\WMA\WAV等
图片阅读格式：JPG\BMP等
◆屏幕参数
显示屏：16：9TFT真彩数字液晶屏
触摸屏：四线电阻式
亮度：350cd/m2
视角：水平左右各大于60度，垂直上下各大于50度
◆系统参数
菜单界面语言：中文真彩图形化OSD
蓝牙免提功能：内置喇叭、外置咪头
倒车摄像支持制式：PAL/NTSC全制式支持
电源电压：DC12V
消耗电流：
操作温度：-10-55度存储温度：-30-70度。

LU1014D中⽂资料PWRLITE LU1014DHigh Performance N-Channel P OWERJFET TM with PN DiodeFeaturesSuperior gate charge x Rdson product (FOM)Trench Power JFET with low threshold voltage Vth.Device fully “ON” with Vgs = 0.7VOptimum for “Low Side” Buck ConvertersExcellent for high frequency dc/dc convertersOptimized for Secondary Rectification in isolated DC-DC Low Rg and low Cds for high speed switching ApplicationsDC-DC ConvertersSynchronous RectifiersPC Motherboard ConvertersStep-down power suppliesVRM ModulesIPAK Lead-free Pin Assignments DescriptionThe Power JFET transistor from Lovoltech is a device that presents a Low Rdson allowing for improved efficiencies in DC-DC switching applications. The device is designed with a low threshold such that drivers can operate at 5V, which reduces the driver power dissipation and increases the overall efficiency. Lower threshold produces faster turn-on/turn-off, which minimizes the required dead time. A PN Diode is added for applications where a freewheeling diode is required.This product has tin plated leads.312Case TO251 (IPAK)N –Channel PowerJFET with PN DiodeSDGPin DefinitionsPin Number Pin Name Pin Function Description Product Summary1 GateGate. Transistor Gate V DS (V)Rdson (?)I D (A)2, 4 Drain Drain. Transistor Drain 24V 0.0065 5013 SourceSource. Transistor SourceAbsolute Maximum RatingsParameter SymbolRatingsUnits Drain-Source Voltage V DS 24 VGate-Source Voltage V GS -12 VGate-Drain Voltage V GD -28 VContinuous Drain Current I D501 APulsed Drain Current I D100 ASingle Pulse Drain-to-Source Avalanche Energy at 25°C(V DD= 6V DC, IL=60A PK, L=0.3mH, R G=100 ?)E AS 200 mJJunction Temperature T J-55 to 150°C °CStorage Temperature T STG-65 to 150°C °CLead Soldering Temperature, 10 seconds T 260°C °CPower Dissipation (Derated at 25°C) P D 69 W元器件交易⽹/doc/f73727442.htmlThermal ResistanceSymbol Parameter DPAK RatingsUnitsR ΘJA Thermal Resistance Junction-to-Ambient 90 °C/W R ΘJC Thermal Resistance Junction-to-Case1.8 °C/WElectrical Specifications(T A = +25°C, unless otherwise noted.)The φ denotes a specification which apply over the full operating temperature range. Symbol Parameter Conditions Min. Typ. Max. UnitsStaticBV DSX Breakdown Voltage Drain to Source I D = 0.5 mA V GS = -4 V 24 28 VBV GDO Breakdown Voltage Gate to DrainI G = -50µA-32 -28 V BV GSO Breakdown Voltage Gate to SourceI G = -50µA-14 -12 V R DS(ON ) Drain to Source On Resistance 2I G = 40 mA, I D =10A I G = 10 mA, I D =10A I G = 5 mA, I D =10A 4.6 4.8 4.9 6.5 7.0 m ?m ?V GS(TH) Gate Threshold Voltage V DS =0.1 V, I D =250µA-1 V TCV GSTH Temperature Coefficient of Gate Threshold VoltageV DS =0.1 V, I D =250µA-2.6 mV/o C Dynamic Q Gsync Total Gate Charge Sync JFET ?V Drive =5V,V DS =0.1V (Fig. 2) 9.8 nC Q G Total Gate Charge ?V Drive =5V, I D =10A,V DS =15V 12.4 nC Q GD Gate to Drain Charge V DS =13.5V to V DS =1.5V 8.1 nC Q GS Gate to Source Charge V GS =-4.5V to V DS =13.5V 4.3 nC Q SW Switching Charge V GS =-2V to V DS =1.5V 9.1 nC R G Gate Resistance 0.7T D(ON ) Turn-on Delay Time 5.5 T R Rise Time 12.6 T D(OFF) Turn-off Delay 10.3 T F Fall Time V DD =15V, I D =10A V Drive = 5 V Resistive Load 6.6ns C ISS Input Capacitance 1147 C OSS Output Capacitance 467 C GS Gate-Source Capacitance 784 C GD Gate-Drain Capacitance 363 C DS Drain-Source CapacitanceV DS =10V, V GS = -5 V, 1MHz. (see Fig. 4) 104pF PN DiodeI R Reverse Leakage V R =20V, Vgs = -4V 0.3 mA V F Forward Voltage I F = 1 A 812 mV V F Forward Voltage I F = 10 A 932 mV V F Forward Voltage I F = 20 A 1010 mV Qrr Reverse Recovery Charge I s = 10 A di/dt = 100A/us, 7 nC Trr Reverse Recovery Time I s = 10 A di/dt = 100A/us, 13.3 ns Notes:1. Current is limited by bondwire; with an Rthjc = 1.8 o C/W the chip is able to carry 80A.2. Pulse width <= 500µs, duty cycle < = 2%Lovoltech, Inc. - 3970 Freedom Circle - Santa Clara, CA 95054 -USA2Typical Operating Characteristics(T A = +25°C, unless otherwise noted.))h m sS (m O R D23456781.0E-051.0E-04 1.0E-03 1.0E-02 1.0E-01IG(A)Figure 1 – R DSON vs Gate Current at I D – 10AFigure 2 – Gate Charge Qg sync for V DS =0.1VFigure 5 – I G vs Gate Voltage V GSFigure 6 – Transfer CharacteristicLovoltech, Inc. - 3970 Freedom Circle - Santa Clara, CA 95054 -USATel. 1 408 654 1980 Fax 1 408 654 1988 /doc/f73727442.htmlTypical Operating Characteristics(T A = +25°C, unless otherwise noted.)Figure 7 – R DSON =f(T); I D = -10A; I G = 40mA Figure 8 – I D vs V DS CharacteristicsFigure 9 – PN Diode Voltage vs Current Figure 10 – Safe Operating AreaFigure 11 – Total Power Dissipation Figure 12 – Normalized Thermal Response 4Lovoltech, Inc. - 3970 Freedom Circle - Santa Clara, CA 95054 -USATel. 1 408 654 1980 Fax 1 408 654 1988 /doc/f73727442.htmlOrdering InformationProduct Number PN Marking Package Notes: LU1014D LU1014D TO251 (IPAK) This product is Pb-Free and has Tin Plated leadsPackage and Marking InformationDIMENSIONSmm.inchDIM. TYP. MIN. MAX.TYP. MIN. MAX.A 2.19 2.40 0.086 0.094 A1 0.891.14 0.035 0.045b 0.76 1.14 0.030 0.045b1 0.64 0.90 0.025 0.035 B2 5.20 5.46 0.205 0.215C 0.45 0.60 0.017 0.023 C2 0.45 0.60 0.017 0.023D 5.97 6.22 0.235 0.244 D1 5.64 0.222E 6.35 6.73 0.250 0.265 e 2.28 0.090 H 13.19 13.06 13.32 0.514 0.525 L 5.95 7.6 0.234 0.300 L1 2.03 2.29 0.079 0.090 L30.630.025 0.045Back ViewLife Support PolicyLOVOLTECH’s PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF LOVOLTECH, Inc. As used herein: 1. Life support devices or systems are devices or systems which (a) are intended for surgical implant into the body, or (b) support orsustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury of the user.2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected tocause the failure of the life support device or system, or to affect its safety or effectiveness.Datasheet Identification Product Status Definition Advance Information In definition or in Design This datasheet contains the design specifications for product development.Specifications may change without notice.Preliminary Initial Production This datasheet contains preliminary data; additional and application data will bepublished at a later date. Lovoltech, Inc. reserves the right to make changes at any time without notice in order to improve design.No Identification Needed In Production This datasheet contains final specifications. Lovoltech reserves the right to make changes at any time without notice in order to improve the design.Lovoltech, Inc. - 3970 Freedom Circle - Santa Clara, CA 95054 -USATel. 1 408 654 1980 Fax 1 408 654 1988 /doc/f73727442.html5。

Device DescriptionA range of silicon varactor diodes for use in frequency control and filtering.Featuring closely controlled CV characteristics and high Q.Low reverse current ensures very low phase noise performance.Available in single or dual common cathode format in a wide rage of miniature surface mount packages.Features·Close tolerance C-V characteristics ·Octave tuning from 0 to 6V ·Low I R (typically 200pA)·Excellent phase noise performance ·High Q·Range of miniature surface mount packagesApplications·VCXO and TCXO·Wireless communications ·Pagers ·Mobile radioZC930, ZMV930, ZV931 seriesISSUE 6 - JANUARY 20021SILICON 12V HYPERABRUPT VARACTOR DIODESZC930, ZMV930, ZV931 seriesISSUE 6 - JANUARY 20022PARTCapacitanceV R =1V Capacitance V R =2.5VCapacitanceV R =4V Minimum Q V R =4V f=50MHzMIN pFMIN pF MAX pF MAX pF 9308.70 4.30 5.50 2.9020093113.50 6.507.80 4.0030093217.008.5010.50 5.5020093342.0018.0027.0012.00150933A 42.0020.2524.7512.0015093495.0040.0065.0025.0080934A95.0047.2557.7525.0080TUNING CHARACTERISTICS at Tamb = 25°CPARAMETERSYMBOLMAX UNIT Reverse voltage V R 12V Forward currentI F 100mA Power dissipation at T amb =25ЊC SOT23P tot 330mW Power dissipation at T amb =25ЊC SOD323P tot 330mW Power dissipation at T amb =25ЊC SOD523P tot250mW Operating and storage temperature range-55to +150ЊCABSOLUTE MAXIMUM RATINGSPARAMETERCONDITIONS MIN.TYP.MAX.UNIT Reverse breakdown voltage I R =10uA 12V Reverse voltage leakageV R =8V 0.2100nA Temperature coefficient of capacitanceV R =3V,f =1MHz300400ppCm/ЊCELECTRICAL CHARACTERISTICS at Tamb = 25°CZC930, ZMV930, ZV931 seriesTYPICAL CHARACTERISTICSISSUE 6 - JANUARY 20023ORDER CODES AND PART MARKINGZC930, ZMV930, ZV931 seriesISSUE 6 - JANUARY 20024REEL CODEREEL SIZE TAPE WIDTHQUANTITY PER REELTA 7inch (180mm)8mm 3000TC13inch (330mm)8mm10000TAPE AND REEL INFORMATIONThe order codes are shown as TA which is for 7 inch reels. For 13 inch reels substitute TC in place of TA in the order code.ZC930, ZMV930, ZV931 seriesISSUE 6 - JANUARY 20025SOT23 PACKAGE DIMENSIONSSOD323 PACKAGE DIMENSIONSZetex plcFields New Road ChaddertonOldham, OL9 8NP United KingdomTelephone (44) 161 622 4422Fax: (44) 161 622 4420Zetex GmbHStreitfeldstraße 19D-81673 München GermanyTelefon: (49) 89 45 49 49 0Fax: (49) 89 45 49 49 49Zetex Inc700 Veterans Memorial Hwy Hauppauge, NY11788USATelephone: (631) 360 2222Fax: (631) 360 8222Zetex (Asia) Ltd3701-04 Metroplaza, Tower 1Hing Fong Road Kwai Fong Hong KongTelephone: (852) 26100 611Fax: (852) 24250 494These offices are supported by agents and distributors in major countries world-wide.This publication is issued to provide outline information only which (unless agreed by the Company in writing)may not be used,applied or reproduced for any purpose or form part of any order or contract or be regarded as a representation relating to the products or services concerned.The Company reserves the right to alter without notice the specification,design,price or conditions of supply of any product or service.For the latest product information,log on to©Zetex plc 2001ZC930, ZMV930, ZV931 series6ISSUE 6 - JANUARY 2002MILLIMETRES MIN.MAX A ᎏ0.800A10.0000.100A20.6000.800b10.1600.300c 0.0800.220D 0.7000.900E 1.500 1.700E1 1.100 1.300L 0.2000.400L10.1700.230⍜1Њ4Њ10ЊSOD523 PACKAGE DIMENSIONS。

SilanSemiconductorsSC9314HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02001.04.151224 OTP ENCODERDESCRIPTIONThe SC9314is CMOS LSI encoder designed for remote controlsystem applications.It encodes24bits of information and thenserially transmits it via the D OUT pin upon receipt of transmissionenable(DATA pins:D0~D3)signals.The combination of addressand bits of the SC9314is designed by a one-time programmableprocess.The chip,in addition,offers various packaging for flexiblecombination of programmable address/data so as to meet variousapplications.Its programmable address/data is transmitted togetherwith the anti-code bits via RF or infrared transmission medium uponreceipt of a trigger signal.FEATURES*Operating voltage:2V~12V*Low power consumption*Built-in oscillator needs only5%resistor*0/2/4/8data selectable*224maximum address and data codes*Easy interface with RF or IR medium*One-time programmable*Data active:D0~D3*Minimal external componentsDIP-14APPLICATIONS*Burglar alarm system*Smoke and fire alarm system*Garage door controllers*Car door controllers*Security system*Cordless telephones*Other remote control systemsPIN CONFIGURATIOND OUTV DDD0NCV SSOSC2OSC1NCNC NCD3D2D1NCSilanSemiconductorsSC9314HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02001.04.152BLOCK DIAGRAMD OUTD0OSC2OSC1D3Note:Address/Data number are available in various combinations,refer to functional description. ABSOLUTE MAXIMUM RATINGCharacteristic Symbol Value Unit Supply Voltage V DD0.3~12V Input Voltage V IN0.3~V DD+0.3V Storage temperature T STG-50~125°C Operating Temperature T OPR-20~70°C ELECTRICAL CHARACTERISTICS (V DD=5.0V,T A=25°C)Test conditionsParameter SymbolV DD ConditionMin Typ Max Unit Operating Voltage V DD212V Standby Current I STB12V Oscillator stops12A Operating Current I DD12V No load F OSC=3KHz200400AH Input Voltage V IH0.8V DD V DD VL Input Voltage V IL00.2V DD VD0~D7Pull-High Resistance R PH12V150300k5V0.9V DD25mA Source12V0.9V DD 6.515mA5V0.1V DD25mA Output CurrentSinkI DOUT12V0.1V DD615mA Oscillator Frequency F OSC12V R OSC=1.4M3kHzSilanSemiconductorsSC9314HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02001.04.153PIN DESCRIPTIONPin No. Symbol I/O Internal Connection Description 141~3D0~D3I CMOS IN Pull-HighData input and transmission enable(active low).They can be externally set to VSS or leftopen.4V SS I Negative power supply(GND)9OSC2O OSCILLATOR Oscillator output pin10OSC1I OSCILLATOR Oscillator outputpin11D OUT O CMOS OUT Data serial transmission output12V DD I Positive power supplyFUNCTIONAL DESCRIPTIONNormal operationThe SC9314encodes and transmits address/data to a decoder upon receipt of a trigger signal.The address codes of SC9314are always being transmitted as long as power(V DD)is supplied.The transmission function of the SC9314is enabled by the D0~D3pins(active low).The following is the transmission of the SC9314.Do~D3Ebcider D OUTTransmission timingA complete code word of the SC9314consists of3periods as shown below.F OSCD OUTA complete code word for the SC9314SilanSemiconductorsSC9314HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02001.04.154The SC9314detects the logic state of the internal programmed address and the external data pins,and then transmits the detected information during the code period.Each address/data bit can be set to one of the following two logic states:F OSC1FlowchartSilanSemiconductorsSC9314HANGZHOU SILAN MICROELECTRONICS JOINT-STOCK CO.,LTDRev:1.02001.04.155TYPICAL APPLICATION CIRCUITSNote:In order to prevent the IC from being damaged owing to the latch up,the100¡resistor or theLED which also can be a transmission indicator is indispensable when V DD=9V~12V.¡0.1­。

SIA931DJ-T1-GE3Vishay SiliconixSiA931DJDocument Number: 62859S13-1163-Rev. A, 13-May-131This document is subject to change without notice.THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH A T /doc?91000For technical questions, contact: **************************Dual P-Channel 30-V (D-S) MOSFETFEATURES•TrenchFET ® Gen III Power MOSFET •Thermally Enhanced PowerPAK ®SC-70 Package- Small Footprint Area - Low On-Resistance •100 % R g Tested •Material categorization: F or definitions ofcompliance please see /doc?99912APPLICATIONS•Smart Phones, Tablet PCs, Mobile Computing:- Battery Switches - Load Switches- Power Management - DC/DC ConvertersNotes:a.Package limited.b.Surface mounted on 1" x 1" FR4 board.c.t = 5 s.d.See solder profile (/doc?73257). The PowerPAK SC-70 is a leadless package. The end of the lead terminal is exposed copper (not plated) as a result of the singulation process in manufacturing. A solder fillet at the exposed copper tip cannot be guaranteed and is not required to ensure adequate bottom side solder interconnection.e.Rework conditions: manual soldering with a soldering iron is not recommended for leadless components.f.Maximum under steady state conditions is 110 °C/W.PRODUCT SUMMARYV DS (V)R DS(on) (Ω) Max.I D (A)Q g (Typ.)- 300.065 at V GS = - 10 V - 4.5a 4.1 nC 0.080 at V GS = - 6 V - 4.5a 0.100 at V GS = - 4.5 V- 4.5aABSOLUTE MAXIMUM RATINGS (T A = 25 °C, unless otherwise noted)Parameter S ymbol Limit UnitDrain-Source VoltageV DS - 30VGate-Source VoltageV GS ± 20Continuous Drain Current (T J = 150 °C)T C = 25 °C I D- 4.5a A T C = 70 °C - 4.5aT A = 25 °C - 4.3b, c T A = 70 °C - 3.4b, cPulsed Drain Current (t = 300 µs)I DM - 28Continuous Source-Drain Diode CurrentT C = 25 °C I S - 4.5aT A = 25 °C - 1.6b, c Maximum Power DissipationT C = 25 °C P D 7.8W T C = 70 °C 5T A = 25 °C 1.9b, c T A = 70 °C 1.2b, cOperating Junction and Storage Temperature Range T J , T stg - 55 to 150°CSoldering Recommendations (Peak Temperature)d, e260THERMAL RESISTANCE RATINGSParameter S ymbol Typical Maximum UnitMaximum Junction-to-Ambient b, f t ≤ 5 s R thJA 5265°C/WMaximum Junction-to-Case (Drain)Steady State R thJC 12.516 2Document Number: 62859S13-1163-Rev. A, 13-May-13Vishay SiliconixSiA931DJThis document is subject to change without notice.THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH A T /doc?91000For technical questions, contact: **************************Notes:a. Pulse test; pulse width ≤ 300 µs, duty cycle ≤ 2 %.b. Guaranteed by design, not subject to production testing.Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.SPECIFICATIONS (T J = 25 °C, unless otherwise noted)Parameter S ymbol Test Conditions Min.Typ.Max.UnitStaticDrain-Source Breakdown Voltage V DS V GS = 0 V, I D = - 250 µA- 30V V DS Temperature Coefficient ∆V DS /T J I D = - 250 µA - 24mV/°C V GS(th) Temperature Coefficient ∆V GS(th)/T J 3.4Gate-Source Threshold Voltage V GS(th) V DS = V GS , I D = - 250 µA - 1.2- 2.2VGate-Source LeakageI GSS V DS = 0 V , V GS = ± 20 V ± 100 nAZero Gate Voltage Drain Current I DSS V DS = - 30 V , V GS = 0 V - 1µA V DS = - 30 V , V GS = 0 V, T J = 55 °C- 10On-State Drain Current aI D(on) V DS ≤ - 5 V , V GS = - 10 V - 10ADrain-Source On-State Resistance a R DS(on) V GS = - 10 V , I D = - 3 A 0.0520.065ΩV GS = - 6 V , I D = - 2 A 0.0630.080V GS = - 4.5 V, I D = - 2 A 0.0770.100Forward T ransconductance a g fsV DS = - 15 V , I D = - 3 A8S Dynamic bInput Capacitance C iss V DS = - 15 V , V GS = 0 V , f = 1 MHz445pFOutput CapacitanceC oss 55Reverse Transfer Capacitance C rss 45Total Gate Charge Q g V DS = - 15 V, V GS = - 10 V , ID = - 4 A 8.513nC V DS = - 15 V , V GS = - 4.5 V, I D = - 4 A 4.1 6.2Gate-Source Charge Q gs 1.2Gate-Drain Charge Q gd 1.5Gate Resistance R g f = 1 MHz1.15.511ΩTurn-On Delay Time t d(on) V DD = - 15 V , R L = 5 ΩI D ≅ - 3 A, V GEN = - 4.5 V , R g = 1 Ω2345ns Rise Timet r 1835Turn-Off Delay Time t d(off) 1735Fall Timet f 510Turn-On Delay Time t d(on) V DD = - 15 V , R L = 5 ΩI D ≅ - 3 A, V GEN = - 10 V , R g = 1 Ω815Rise Timet r 510Turn-Off Delay Time t d(off) 2040Fall Timet f510Drain-Source Body Diode Characteristics Continuous Source-Drain Diode Current I S T C = 25 °C- 4.5A Pulse Diode Forward Current I SM - 15Body Diode VoltageV SD I S = - 3 A, V GS = 0 V- 0.9- 1.2V Body Diode Reverse Recovery Time t rr I F = - 3 A, dI/dt = 100 A/µs, T J = 25 °C1530ns Body Diode Reverse Recovery Charge Q rr 820nC Reverse Recovery Fall Time t a 10nsReverse Recovery Rise Timet b5Document Number: 62859S13-1163-Rev. A, 13-May-133This document is subject to change without notice.THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH A T /doc?91000For technical questions, contact: **************************On-Resistance vs. Drain Current and Gate VoltageGate ChargeCapacitanceOn-Resistance vs. Junction Temperature 4Document Number: 62859S13-1163-Rev. A, 13-May-13This document is subject to change without notice.THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH A T /doc?91000For technical questions, contact: **************************Threshold VoltageSingle Pulse Power, Junction-to-AmbientDocument Number: 62859S13-1163-Rev. A, 13-May-135Vishay SiliconixSiA931DJThis document is subject to change without notice.THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH A T /doc?91000For technical questions, contact: **************************TYPICAL CHARACTERISTICS (25°C, unless otherwise noted)* The power dissipation P D is based on T J(max.) = 150 °C, using junction-to-case thermal resistance, and is more useful in settling the upper dissipation limit for cases where additional heatsinking is used. It is used to determine the current rating, when this rating falls below the package limit.Current Derating*Power Derating 6Document Number: 62859S13-1163-Rev. A, 13-May-13Vishay SiliconixSiA931DJThis document is subject to change without notice.THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH A T /doc?91000For technical questions, contact: **************************TYPICAL CHARACTERISTICS (25°C, unless otherwise noted)Vishay Siliconix maintains worldwide manufacturing capability. Products may be manufactured at one of several qualified locations. Reliability data for Silicon Technology and Package Reliability represent a composite of all qualified locations. For related documents such as package/tape drawings, part marking, and reliability data, see /ppg?62859.Normalized Thermal Transient Impedance, Junction-to-AmbientNormalized Thermal Transient Impedance, Junction-to-CaseVishay SiliconixPackage InformationDocument Number: 7300106-Aug-071PowerPAK ®DIMSINGLE PADDUAL PADMILLIMETERSINCHES MILLIMETERSINCHESMinNom Max Min Nom Max Min Nom Max Min Nom Max A 0.6750.750.800.0270.0300.0320.6750.750.800.0270.0300.032A10-0.050-0.0020-0.050-0.002b 0.230.300.380.0090.0120.0150.230.300.380.0090.0120.015C 0.150.200.250.0060.0080.0100.150.200.250.0060.0080.010D 1.98 2.05 2.150.0780.0810.085 1.98 2.05 2.150.0780.0810.085D10.850.95 1.050.0330.0370.0410.5130.6130.7130.0200.0240.028D20.1350.2350.3350.0050.0090.013E 1.98 2.05 2.150.0780.0810.085 1.98 2.05 2.150.0780.0810.085E1 1.40 1.50 1.600.0550.0590.0630.850.951.050.0330.0370.041E20.3450.3950.4450.0140.0160.018E30.4250.4750.5250.0170.0190.021e 0.65 BSC 0.026 BSC 0.65 BSC 0.026 BSC K 0.275 TYP 0.011 TYP 0.275 TYP 0.011 TYP K10.400 TYP 0.016 TYP 0.320 TYP 0.013 TYP K20.240 TYP 0.009 TYP 0.252 TYP0.010 TYPK30.225 TYP 0.009 TYP K40.355 TYP 0.014 TYP L 0.1750.2750.3750.0070.0110.0150.1750.2750.3750.0070.0110.015T0.050.100.150.0020.0040.006ECN: C-07431 − Rev. C, 06-Aug-07DWG: 5934Application Note 826Vishay Siliconix Document Number: 704871Revision: 18-Oct-13A P P L I C A T I O N N O T ERECOMMENDED PAD LAYOUT FOR PowerPAK ®SC70-6L DualReturn to IndexLegal Disclaimer Notice VishayDisclaimerALL PRODU CT, PRODU CT SPECIFICATIONS AND DATA ARE SU BJECT TO CHANGE WITHOU T NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein.Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereby certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as Halogen-Free follow Halogen-Free requirements as per JEDEC JS709A standards. Please note that some Vishay documentation may still make reference to the IEC 61249-2-21 definition. We confirm that all the products identified as being compliant to IEC 61249-2-21 conform to JEDEC JS709A standards.Revision: 02-Oct-121Document Number: 91000SIA931DJ-T1-GE3。

DESCRIPTIONPower Amplifier Board 19C851822G1 is used in the MDX, MTD, MVS, and TMX-8825 800 MHz mobile ra-dios. This board is located under the top cover of the radio.The PA Board amplifies the ten watt output of the RF Board to a level of approximately thirty watts over fre-quency ranges of 806-825 MHz and 851-866 MHz without retuning the transmitter.The thirty watt output is connected back to the RF Board where it is coupled through a PIN diode antenna switch, the low-pass filter, and the directional coupler to provide twenty-five watts power output at the antenna connector.Refer to the applicable Combination Manual for the In-terconnection Diagram and mechanical layout of this board.CIRCUIT ANALYSISPower AmplifierThe PA Board consists of a single stage RF power am-plifier in a common base configuration. Also included on the board is a diode for reverse power protection. Two small jacks are used to connect approximately ten watts of drive to the PA Board and to take the thirty watt output from the final amplifier.A+ power is supplied to six pin connector J903 through feedthru capacitor assembly A903. Diode D151 provides re-verse polarity protection. If the A+ power polarity is acci-dentally reversed, D151 conducts, causing the A+ fuse is the power cable to blow, removing power from the radio and preventing serious damage.A+ is supplied to the collector of power transistor Q151 through a network consisting of inductors L155 and L156, resistor R151 and capacitors C158, C159, and C160. In ad-dition to enhancing stability, these components also prevent RF from getting onto the A+ line.The driver output from the RF Board (10 watts and 50 ohms impedance) is matched to the emitter of Q151 by ca-pacitors C151, C152, C153, and C161 and inductors L151 and L153. Inductor L152 provides a DC return for class "C" operations.Once the drive is amplified to approximately thirty watts by Q151, the transistor is matched back up to 50 ohms by capacitors C154, C155, C156, and C162, and inductors L154 and L157. Capacitor C157 is a DC blocking capacitor to prevent DC voltage from appearing on the amplifier out-put. The amplified signal is coupled through a coaxial cable to the RF Board that contains the transmitter filter, antenna switch, and power leveling circuitry.Other non-amplifier related signals are routed through the PA Board for distribution to other boards in the radio. These include A+, SWITCHED A+, RELAY and VOL/SQ HI. A wiring harness plugs into connector J151for this purpose.LBI-38302DMAINTENANCE MANUAL800 MHz POWER AMPLIFIER BOARD19C851822G1PABOARDSERVICE NOTESThe PA Board is easily checked without removing it from the radio. RF input (J153) and output (J152) imped-ances are 50 ohms.Remove all power from the radio when servicing the P A Board. The power switch for the radio does not remove A+power from the PA Board.There are nine chip mica capacitors on the PA Board.Four of these chips (C152, C153, C161, and C162) are on the transistor leads (Q151). If any are removed, replace them with a new part since they are easily damaged. Place them in the exact positions shown in the outline diagram.Failure to do this reduces amplifier gain, bandwidth, and ef-ficiency. C154 and C155 are vertically mounted, uncased mica capacitors. They must mount against Q151.PA TRANSISTOR REPLACEMENT1.Remove the two retaining screws securing PA transis-tor Q151 to the chassis assembly.2.Remove and discard the four mica chip capacitors on the transistor leads (C152, C153, C161, and C162).The capacitors are virtually impossible to remove without damage. Remove and save uncased mica ca-pacitors C154 and C155.3.Unsolder the six leads of the transistor, and remove it from the printed board. Be careful not to damage the board.4.Remove all excess solder from the board near Q151.Clean the board to allow the new transistor to be properly positioned. Refer to Figure 1 and trim the new transistor leads (if required) to the lead lengths of the removed transistor.5.Apply silicone grease to the back of the replacement transistor and place the transistor in the mounting cut-out. Make sure that the emitter and collector leads are not reversed.6.Replace the transistor mounting screws using a mod-erate torque of 0.5 Newton-meter (4.5 inch-pounds).7.Solder the six transistor leads to the printed board.8.Re-install C154 and C155. Install the new replace-ment capacitors C152, C153, C161, and C162 in the exact positions shown on the outline diagram. Solder carefully to prevent damaging them. NOTE: Capaci-tors C161 and C162 mount against C152 and C155respectively.9.Remove any remaining flux from the board.Printed in U.S.A.Copyright© June 1989, General Electric CompanyFigure 1 - PA Transistor Lead IdentificationLBI-38302OUTLINE DIAGRAM POWER AMPLIFIER BOARDCOMPONENT SIDE(19C851822, Rev. 3)(19C851821, Rev. 2)P A B O A R DLBI-38302SCHEMATIC DIAGRAM LBI-38302POWER AMPLIFIER BOARD(19C851818, Sh. 1, Rev. 4)PARTS LISTPOWER AMPLIFIER BOARD19C851822G1*COMPONENTS, ADDED, DELETED OR CHANGED BY PRODUCTION CHANGESPRODUCTION CHANGESChanges in the equipment to improve performance or to simplify circuits are identified by a "Revision Letter", which is stamped after the model number ofthe unit. The revision stamped in the unit includes all previous revisions. Re-fer to the Parts List for the descriptions of parts affected by these revisions. REV. C - POWER AMPLIFIER BOARD 19C851822G1To improve PA reliability, changed C154 and C155.C154 and C155 were: 19A705108P21 Mica: 22 pF ±5%, 500VDCW.REV. D - POWER AMPLIFIER BOARD 19C851822G1Improved thermal capacity to increase transmit currentC151 and C161 were: 19A705108P9Mica: 6.8 pF±.25 pF 500 VDCW.PABOARDLBI-38302。

陕西烽火通信短波产品XD-D9B1型20W短波单边带电台XD-D9B1型20W短波单边带电台主要供山区、丛林及平原背负行进间通信联络.配2.4米鞭天线,通信距离20～30公里；配15米斜天线，通信距离200公里；配44米双极天线，通信距离500公里；配上保密手机可进行话音保密通信，外接Modem 可传数据。

电台具有机内自动天调，可自动调谐各种天线，具有体积小、重量轻、操作简便等特点。

采用铝合金压铸外壳，具有防潮、防霉、防盐雾措施，可满足野外操作使用。

1.频率范围:3.0000～15.9999MHZ2.工作种类:上边带话、下边带话、报3.频率稳定度:±２×１０-64.存贮波道:２４个5.电源:直流１２Ｖ，负极接地6.消耗:收信状态小于450mA，发讯状态小于4.5A7.调谐时间:< 3秒8.调谐精度:< 29.外形尺寸:226(W)×80(H)×265（D）mm3 (不含电池箱)10.重量:主机小于4.2Kg11.输出功率:大功率20W，小功率5W12.互调失真:≤－２０ｄＢ13.无用边带抑制:≤－４０ｄＢ14.载频抑制:≤－４０ｄＢ15.话路输入电平:≤－３５ｄＢｍ16.灵敏度:上、下边带话≤１μＶ（S+N/N=12dB）报≤ 0.5μＶ（S+N/N=12dB）17.选择性:上、下边带话6dB带宽≥2.3KHz,40dB 带宽≤4.5KHz18.中、像频抑制:≥75ｄＢ19.ＡＧＣ:从天线端输入12μＶ信号增大80dB，输出变化小于6dB20.失真:≤ 8％21.音频响应:４００～２７００Ｈｚ，不劣于６ｄＢ22.音频输出:额定输出１０ｍＷ，最大输出１００ｍＷXD-D11型20W短波单边带跳频自适应电台XD-D11型20W短波单边带跳频自适应电台可用于背负行进间通信或固定台，配保密机可进行语音保密通话;配125W功率放大器，可作车载台移动通信，具有数传接口。

iPod弹出基座蓝光家庭影院LG XCanvas Hb954tbw参考
价格：1000美元以上
佚名
【期刊名称】《数码》
【年(卷),期】2009(000)006
【摘要】记得上期刚刚介绍了LG XCanvas家庭影院组合系统，那香槟酒高脚杯的华丽设计，非常吸引推崇时尚品位的年轻人，但那时还仅仅仅DVD.
【总页数】2页(P26-27)
【正文语种】中文
【中图分类】TN946.7
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