SK-A2917-FREQ中文资料

特性 ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ ▪ 应用SOP14CMT2159A带微能量收集FSK/OOK 编码发射器术语本文所用到的术语描述如下：AN 应用笔记PA 功率放大器BOM 物料清单PC 个人计算机BSC 中心基本距离PCB 印刷电路板BW 带宽PLL 锁相环DC 直流PN 相位噪声EEPROM电可擦除可编程只读存储器RBW 分辨带宽ESD 静电释放RCLK 参考时钟ESR 等效串联电阻RF 射频GUI 图形用户界面RFPDK RF产品开发套件IC 集成电路RoHS 危害物质限用指令LDO 低压差稳压器RSSI 接收信号强度指示器Max 最大Rx 接收，接收器MCU 微控制器单元SOP 小外形封装Min 最小Tx 发射，发射器MOQ 最小起订量Typ 典型NP0 具有温度补偿特性XOSC 晶体振荡器OBW 占用带宽XTAL/Xtal 晶体OOK 开关键控目录1.电气特性 (4)1.1推荐运行条件 (4)1.2绝对最大额定值 (4)1.3发射器规格 (5)1.4晶体振荡器 (6)1.5DC-DC特性 (6)2.管脚描述 (7)3.典型性能 (8)4.典型应用 (9)5.功能描述 (11)5.1概述 (11)5.2调制，频率及数据率 (12)5.3RFPDK及内建EEPROM (12)5.4功率放大器 (13)5.5Ramping (13)5.6运行状态 (14)5.7编码器 (15)5.7.11920编码结构 (15)5.7.21527编码结构 (16)5.7.32262编码结构 (17)5.8LED发射指示 (18)6.订购信息 (19)7.封装外形 (20)8.顶部丝印 (21)9.其它文档 (22)10.文档变更记录表 (23)11.联系方式 (24)1. 电气特性V1接5V，T OP= 25 °C，F RF = 433.92 MHz，输出功率是+10 dBm，匹配与50 Ω阻抗，除非另行声明，所有结果是在CMT2159A-EM V1.0上测试得到。

In the laboratory of Hella KGaA Hueck & Co., the daily routine of testing diverse samples used in the automotive industry is now greatly simplified and far more efficient with the employment of METTLER TOLEDO’s XP26 microbalance. Peter Broske, head of the mea-surement and test centre in the chemical analytics division of Hella KGaA Hueck & Co. is very enthusiastic about this new purchase.Diverse Tasks, One GoalHella KGaA Hueck & Co. runs its worldwide single chemical laboratory in Lippstadt, Ger-many. The site copes with an entire spectrum of the most diverse samples. The items which land on Peter Broske’s desk include complete headlight assemblies, complex electronicHella KGaA Hueck & CoTesting diverse samples used in the automotive industry Fogging tests (differential weighing application)XP26 Micro BalanceTurning Up the Lights for a Real Problem SolverAcademia Solutions Laboratory Case StudyAutomotive SolutionsMettler-Toledo AGLaboratory DivisionIm LangacherCH-8606 Greifensee, Switzerland Subject to technical changes.© Mettler-Toledo AG 07/09Printed in SwitzerlandGlobal MarCom Switzerlandcomponents, circuit boards, single microchips, granules, production containers and samples for air and water analysis for environmental protection and safety at work. Apart from in-process quality control, the lab also conducts analysis along-side the development of new prod-ucts. It is also the central point of contact for troubleshooting within production, processes and in the field. Efficient operations, high throughput, user-friendliness and flexible deployment of the relevant equipment are therefore essential. In addition, the automotive industry sets tight constraints in respect to accuracy, reproducibility and dead-line adherence, in order to greatly reduce the risk of handling errors. Peter Broske explains how well the XP26 microbalance from METTLER TOLEDO meets these requirements and shares some practical exam-ples with us.Difficult Sample Handling Solved by Smart SolutionsFogging tests are now standard Peter Broske, head of the measurement and test centre in the chemical analytics division of Hella KGaA Hueck & Co The microbalance in its surroundings at the analytical laboratory at Hella.practice in the automotive industry, which is still by far the primary customer segment for Hella. These tests involve studying the emission of water, organic solvents, addi-tives and plasticisers from compo-nents and assemblies. To perform the test the sample is heated andthe volatile components are con-densed onto a thin piece of cooled aluminum foil. These delicate foils are 50 - 80 mm in diameter and must not be bent or folded while determining tare weight, sample taking or back weighing. “The sensitivity and the size of the foil is the problem here”, explained Broske, just one crease or fold is enough to destroy the airtight seal between the sample and the sample holder. The luminous re-flectance of the folded edges would prevent any subsequent visual inspection of the condensates intended to determine their reflec-tance or impede any direct analysis under the FTIR microscope. This problem was solved thanks to the XP microbalance’s large weighing chamber and the hanging support of the weighing pan, situated at the rear of the weighing chamber”.The grid-type weighing pan can be easily removed and replaced with ErgoClips. The ErgoClip is a modi-fied weighing pan tailor-made to the individual needs of frequently used tare containers (e.g. volumet-ric flasks or Eppendorf tubes). Inthe case of fogging tests on alumi-num foil, Mr. Broske helped to find an optimum solution with his own modified version of the ErgoClipmicro basket. Mr. Broske also ben-efits from the balance’s application software: “The differential weighing application in the balance enables us to rule out any errors occurringduring manual notation of the tareweights. That’s a major plus!”Full Independency Thanks to METTLER TOLEDO Mr. Broske sums up the advan-tages of the XP microbalance:n Large weighing area and high degree of flexibility, thanks to SmartGrid and the ErgoClips n High accuracy for small samples and up to 52 grams with the possibility of directly weighing into various tare vessels n Differential weighing application accelerates work rate and lowers error riskn Short settling times and stable results within seconds thanksto the well-protected weighingchamber with external/internaldraft shields and unique hanging SmartGrid weighing pan n Automatic door opening facili-tates and accelerates operationprocedure He summarizes: “Given the con-stantly growing number and diver-sity of tasks and the required accu-racy and reproducibility, we would have had to outsource tests to oth-er laboratories. But these laborato-ries do not share our material and process know-how. Therefore, notzuviel Text。

Data SheetFujitsu STYLISTIC Q7311Tablet Mobility Meets Notebook ProductivityThe FUJITSU Tablet STYLISTIC Q7311 is a highly durable and secure 2-in-1 detachable that meets the demands of today’s mobile professionals. Its 33.8 cm (13.3-inch) FHD anti-glare display comes with pen and touch support. The latest 11th generation Intel® Core™ i7 vPro® processor technology and Intel® Thunderbolt™ 4 ensure excellent performance, even when you’re on the go.Combined tablet mobility and notebook productivity in one device - whereever you areThe robust IP42 compliant housing with reinforced corners and port caps protects your device from damages, even outside the office.Highly durable IP42 compliant housing with reinforced cornersPort caps that protect the interfaces like the new Intel® Thunderbolt™ 4 from water spills Optional backlit keyboard dock with LAN and charging port Optional TPU cover for more robustness Always connected and instantly readyConvenience at workSign documents legally secure. The pen is automatically charged within seconds when stored in its pen garage, that protects it also from being lost. Ready whenever you need it. 33.8 cm (13.3-inch) Full HD anti-glare touch display Supporting pen with 4K pressure levelsPen garage with inductive charging functionLean, agile and secureMore freedom to work safely from anywhere at anytime without compromises in security and data protection – integrated IR Cam with Windows Hello support, fingerprint sensor and Smartcard reader protect your device like a mansion.Weight starting at 800 grams, the device offers you ultimate portability Fingerprint sensor & IR Camera supporting Windows Hello Smartcard readerKensington lock supportUp to 10 hours battery runtimeIntel® Iris® Xe GraphicsComponentsBase unit STYLISTIC Q7311Operating systemsOperating system pre-installed Windows 11 Pro. Fujitsu recommends Windows 11 Pro for business.Windows 11 HomeWindows 10 Pro. Fujitsu recommends Windows 11 Pro for business.Operating system compatible FREE Upgrade to Windows 11**Upgrade timing may vary by device. Features and app availability may vary by region. Certain features requirespecific hardware (see aka.ms/windows11-spec).Operating system notes Internet connectivityWindows 10 Support: After the end of the product life Fujitsu will continue to test and support all upcoming Window10 releases for a period of maximum 5 years – depending on the available extension of hardware services throughFujitsu Warranty top ups. For details please see “Fujitsu Service Statement for Windows 10 Semi-Annual-ChannelSupport” at .Processor Intel® Core™ i7-1185G7 processor (4 Cores / 8 Threads)Intel® Core™ i5-1145G7 processor (4 Cores / 8 Threads)Intel® Core™ i5-1135G7 processor (4 Cores / 8 Threads) ** Processor only for retail, SMB, education and governmentHard disk drives (internal)SSD PCIe, SSD 512GB Value PCIe G3 M.2 FDE, SEDSSD PCIe, SSD 512GB MS PCIe G3 M.2 FDE, SEDSSD PCIe, SSD 256GB Value PCIe G3 M.2 FDE, SEDSSD PCIe, SSD 1TB Value PCIe G3 M.2 FDE, SEDSSD PCIe, SSD 1TB MS PCIe G3 M.2 FDE, SEDHard disk notes One Gigabyte equals one billion bytes, when referring to hard disk drive capacity.Accessible capacity may vary, also depending on used software.Up to 20 GB of HDD space is reserved for system recoveryInterface add on cards/components(optional)4G/ LTE (optional)(Downlink speed up to 300 Mbit/s, Uplink speed up to 150 Mbit/s)Display33.8 cm (13.3-inch), IPS, FHD, 1,920 x 1,080 pixel, Anti-glare touchscreen, 400 cd/m², 1500:1MultimediaCamera Front: HD Cam (0.9MP) with LEDFront: IR Cam (0.9MP) supporting Windows Hello with LEDRear: 5M with LEDBase unitBase unit STYLISTIC Q7311General system informationChipset Integrated in CPUSupported capacity RAM (min.)8 GBSupported capacity RAM (max.)16 GBMemory notes8 GB onboard or 16 GB onboardDual channel supportLPDDR4x (4,266 MHz)LAN notes Virtual MAC address. LAN connector via optional keyboard docking, cradle or optional USB to LAN adapter. Integrated WLAN Intel WiFi 6 AX201 - WLAN, BT, SRD cat. 1General system informationBIOS version UEFI Specification 2.7BIOS features InsydeH2O BIOSAudio type On boardAudio codec Realtek ALC255Audio features2x digital array microphones, 2x built-in speakers (stereo)Waterproof / Spillproof IP42Disinfectable noMIL-STD tested Yes, selected MIL-STD-810H tests passed.MIL-STD-810H test results are not a guarantee of future performance under identified test conditions.Accidental damage is not covered under standard international limited warranty.DisplayDiagonal Size33.8 cm (13.3-inch)Display Technology IPSDisplay type Anti-glare touchscreenDisplay Resolution type FHDBrightness - typical400 cd/m²Contrast - typical1500:1Viewing angle (h/v) - typical178°/178°Display notes Wide-view high-bright LED display (for enhanced outdoor viewing)Integrated ambient light sensor for automatic backlight adjustment to the working environment.Toughened glassSensors Ambient Light SensorCompassGyroscopeProximityDigitizer / Touch Technology Wacom Digitizer for pen (AES) input plus capacitive 10 finger multi-touch screenPen AES4k pressure levelPen garageinductive chargingAmbient light sensor IntegratedAmbient light sensor notes While enabled, the ambient light sensor automatically adjusts the display backlightGraphicsBase unit STYLISTIC Q7311TFT resolution (HDMI)up to 4,096 x 2,160 @ 60 HzGraphics brand name Intel® Iris® Xe Graphics (with Dual channel memory)Graphics features 4 Display Support (3 external, 1 internal)HDCP supportDirectX® 12OpenGL® 4.5Graphics notes Shared memory depending on main memory size and operating system3D acceleratorInterfacesDC-in1Audio: line-out / headphone 1 (combo port with Audio line-in)Audio: line-in / microphone 1 (combo port with Audio line-out)Internal microphones2x digital array microphonesUSB 2.0 total1USB 3.2 Gen1 (5 Gbps) total 1 x Type-AUSB 4.0 Gen3 (20 Gbps) total 1 x Type-C Intel® Thunderbolt™ 4 (with Power Delivery functionality)USB Type-C 1 USB 4 Gen3 Thunderbolt™4, Power Delivery (15W)HDMI 1 v1.4Ethernet (RJ-45)-Memory card slots 1 (USH-I) SD 3.0 StandardSD/microSD card: 2GBSDHC/microSDHC card: 32GBSDXC/microSDXC card: 2TBSmartCard slot optionalSIM card slot 1 (Nano-SIM, only for models with integrated 4G/LTE module)Interface Module notes LAN and VGA available via conversion cable.Docking connector for Port Replicator 1 (Cradle)Kensington Lock support1Port Replicator interfaces (optional)USB Type-C PR CradleDC-in 1 (19V/90W required) 1 (19V)Power on switch1---Audio: line-in---1Audio: line-in / line-out1---Audio: line-out---1Audio: comments Combo jack for headset usage---USB 3.2 Gen1 (5 Gbps) total---3DisplayPort1x V1.2 1VGA1x1HDMI text1x------Interface Notes3x Type-A - 5V/0.9A, 4.5W1x Type-C - 15W1x Type-C - Up to 60 W (PD v2.0-1.1) power output toclient or 4.5W inputKensington Lock support no1Ethernet (RJ-45)1 1 (10/100/1000)---Notes Number of simultaneous used displays and its possibleresolutions and frequencies depend on mobile systemand display interface type.Please consult always also the manual of the connectedclient.Wireless technologiesAntennas2x dual band for WLAN, 2x for LTE, Bluetooth shared with WLANBluetooth V5.1Integrated WLAN Intel WiFi 6 AX201 - WLAN, BT, SRD cat. 1WLAN encryption WPA/WPA2/WPA3 (Wi-Fi Protected Access)WLAN notes Import and usage according to country-specific regulations.Integrated WWAN LTE Sierra Wireless EM7421 (Cat.7) - UMTS, LTEWWAN notes Including GPS functionalityImport and usage according to country-specific regulations.LTE Connection Manager (if configured with 4G/LTE)GPS Embedded in 4G module if configured with WWANPower supplyAC adapter19 V / 65 W (3.42 A)20 V / 65 W (3.25 A) Type CNotes65W AC Adapter for usage with system/ min. 90W AC Adapter for usage with Cradle Rated voltage range100 V - 240 V (AC Input)Rated frequency range50 Hz - 60 Hz1st battery Li-Ion battery 3-cell, 38 WhBattery features Quick Charge: 80% in 1hRuntime 1st battery10 hBattery notes Battery runtime information is based on worldwide acknowledged BAPCo® MobileMark® 2018. Refer to www.bapco.com for additional details.The BAPCo® MobileMark® Benchmark provides results that enable direct product comparisons betweenmanufacturers. It does not guarantee any specific battery runtime which actually can be lower and may varydepending on product model, configuration, application and power management settings. The battery capacitydecreases slightly with every re-charge and over its lifetime.Dimensions / Weight / EnvironmentalDimensions (W x D x H)315 x 200.9 x 10.5 mm12.4 x 0.79 x 0.42 inchWeight from 0.800 kg slate only, weight of keyboard docking from 0.465 kgWeight (lbs)from 1.75 lbs slate only, weight of keyboard docking from 1.25 lbsWeight notes Weight may vary depending on actual configurationOperating ambient temperature 5 - 35 °C (41 - 95 °F); Packed -10 - 60 °C (14 - 140 °F)Operating relative humidity Running: 20 - 80% (relative humidity); Packed: 20 - 80% (relative humidity)Product STYLISTIC Q7311Germany GSEurope CECBGlobal TCO Certified 8.0EPEAT® Silver (dedicated regions), depending on configurationMicrosoft Operating Systems (HCT / HCL entry / WHQL)MIL-STD-810H testedRoHS (Restriction of hazardous substances)WEEE (Waste electrical and electronic equipment)Russia EACChina CCCCompliance link https:///sites/certificatesAdditional SoftwareAdditional software (preinstalled)Adobe® Reader® (pdf reader)CyberLink YouCam (webcam software)Fujitsu Display ManagerFujitsu DeskUpdate (driver and utility tool)ShockSensor UtilityPower Saving UtilityFujitsu Plugfree Network (network management utility)EasyGuide online user documentationMicrosoft Office (1 month trial for new Microsoft® Office 365 customers. Buy Microsoft Office.)Additional software (optional)Recovery DVD for Windows®Drivers & Utilities DVD (DUDVD) optionalCyberLink PowerDVD BD (playback software for Blu-ray Disc™)CyberLink PowerDVD DVD (playback software for DVD)CyberLink YouCam (webcam software)Nero (backup and burning software)ManageabilitySecurityPhysical Security Kensington Lock supportSystem and BIOS Security Absolute Persistence® technology capable BIOSEraseDiskTrusted Platform Module (TPM 2.0)User Security Hard disk passwordUser and supervisor BIOS passwordEmbedded fingerprint sensor (optional)Smartcard reader (optional)SystemLock BIOS SmartCard securityAuthConductor Client Basic (secure authentication solution)Packaging informationWarranty Warranty period2 years (for countries within EMEIA)Warranty type Bring-in Service / Collect & Return Service (depending on country)Product Support - the perfect extension Recommended Service 9x5, Onsite Response Time: Next Business DaySpare Parts availabilityat least 5 years after shipment, for details see https:///Recommended AccessoriesThunderbolt™ 4 Port ReplicatorFirst Thunderbolt™ Port Replicator on the market providing enhancedsecurity and full support of Intel® AMT (vPro®).The universal port can easily connect almost everything with a single cable and high speed-data transfer. This smart workspace solution keeps your desk clean and tidy.Order Code: FPCPR401BPUSB Type-C Port Replicator 2Connect to your peripherals. Adapt to the task on demand. The universal USB Type-C interface supports you to get your peripheral devicesconnected easily. Multiply your USB ports to connect your peripherals as well as your external display via HDMI, DisplayPort or VGA.You also can charge your external USB devices without the need of any additional charger.Order Code:S26391-F3327-L100STYLISTIC Q7311, Q7310 andSTYLISTIC Q5010 Family Cradle Flexibility, expandability, desktop replacement, investment protection – to name just a few benefits of Fujitsu’s docking options.Order Code: S26391-F3397-L100USB Type-C AC AdapterRecharge your notebook or tablet at work, at home or on the road with this USB Type-C power source easily. Order Code: S26391-F3326-L502LAN Conversion Cable (USB toLAN) for STYLISTIC Q The FUJITSU USB Type-A to LAN Conversion Cable enables you to connect your compatible STYLISTIC Tablet to a wired network connection. GBit-LAN via USB conversion cable is limited to 480 Mbit/s due to USB 2.0specification. (Picture similar to product)Order Code:S26391-F3398-L840Tablet Stand for STYLISTIC QdevicesThe tablet stand is designed for STYLISTIC devices like latest STYLISTIC Q7312 and can be used universally. Fits for STYLISTIC Q5 and Q7 and the Type-C as well as the Thunderbolt ™ 4 port replicator can be fixed on the stand.Order Code: FPCSK769BPAES PenTake your creativity to the next level, with the most natural pen experience with the AES Pen with replacement stylus tips. With pen nibs that are very thin, you can experience the writing and signing behavior of an ink pen. The pen fits in the device’s integrated pen garage.Order Code:S26391-F3389-L500Car Adapter USB-C-QCOne Car Adapter fits all.Independent of your mobile device charging method this car adapter will fulfill all major requirements and standards for fast charging vendorbrand-independent notebooks and all mobile devices. The Car Adapter USB-C-QC supports USB PD with PPS, Quick Charge (QC), Apple- and Samsung charge.Order Code: S26391-F2613-L630CANVAS HANSEN 14The PLEVIER CANVAS HANSEN 14 leather and canvas case is a compact and classic carrier for on the go. Available for notebooks up to 14 inches with two compartments and two accessory sections, protection for your device ensured. A subtle design canvas and nappa leather shade.Order Code:S26391-F1193-L67Bumper Case KitThe protective bump case kit is designed to prevent damages to yourSTYLISTIC Q7. Openings of the cover allow you to access all ports andbuttons whilest the hand strap on the back of the case gives you a firm grip while working with your tablet outside the office. The integrated stand solution enhances your productivity.Order Code: S26391-F3396-L200Folio Cover STYLISTIC Q7311/Q7310The Folio Cover for the STYLISTIC Q7311 and Q7310 is a thin, tailored protective sleeve for your Fujitsu tablet. It keeps the device safe from damage on the go, and brings a touch of style to your daily work. It can even be used as a stand if you need to display a presentation or watch a clip and fits even the device is connected to its keyboard dock.Inclination stand style 120 to 150 degreeOrder Code:S26391-F3509-L100Wireless Mouse WI860 BTCThe Wireless Mouse WI860 BTC can be paired with up to 3 different clients, 2x Bluetooth and 1x wireless USB Type-C dongle.With the blue optical sensor, it works on nearly all surfaces with an 3-step adjustable DPI selector (800/1600/2400).The mouse charges wirelessly through Qi or by USB Type-C cable.A utility button on the side is programmable. The default functions are optimized for Teams calls.Order Code:S26381-K474-L100Order Code: FPCKG453BPContactAddress: x-xx-x, street, city, state, ZIP code, country Phone: xx-xxxx-xxxx Fax : xx-xxxx-xxxxEmail:********************.com Website: /[country]2023-08-02 CE-ENdelivery subject to availability. Any liability that the data and illustrations are complete, actual or correct is excluded. Designations may be trademarks and/or copyrights of the respective manufacturer, the use of which by third parties for their own purposes may infringe the rights of such ownerMore informationAll rights reserved, including intellectual property rights. Changes to technical data reserved. Delivery subject to availability. Any liability that the data and illustrations are complete, actual or correct is excluded.Designations may be trademarks and/or copyrights of the respective manufacturer, the use of which by third parties for their own purposes may infringe the rights of such owner.For further information see /terms_of_use.html Copyright © Fujitsu Technology Solutions。

韩国韩荣数码温度控制器|光电传感器|旋转编码器|接近传感器|计数器|按钮开关|蜂鸣器|信号灯温度控制器是利用感温液体热胀冷缩及液体不可压缩的原理而实现自动调节。

当控制温度升高时感温液体膨胀产生的推力将热媒关小，以降低输出温度；当控制温度降低时感温液体收缩，在复位装置的作用下将热媒开大，以提高输出温度，从而使被控制的温度达到和保持在所设定的温度范围内。

深圳市凯斯机电应用技术XXX（bbb://aaacase-tradeaaa）作为韩国韩荣系列数码温控器华南区的代理商，可以为您提供各种型号，各种规格，各种用途的数码温度控制器，专用温度控制器，温度控制器，普通温度控制器。

韩国韩荣温控器产品包括：可编程温度.湿度控制器、PID 温度控制器、一般型温度控制器、专用温度控制器、温度指示器、温度控制器的周边机器。

可编程温度.湿度控制器：可编程温度.湿度控制器|可编程温度控制器A：可编程温度.湿度控制器：TH500系列可编程温度、湿度控制器：适用触感面板的彩色LCD画面、300模式（总6000段）、接点输入(D.I)8点，数码输出(D.O)20点、基本搭载通信功能(RS232及RS485/422）。

测定范围：温度：-100.0 ~ 200.0 °C、0.000 ~ 5.000 V ( -100.0 ~ 200.0 °C) 。

湿度：-100.0 ~ 200.0 °C ( 0.0 ~ 100.0 % RH ) 、0.000 ~ 5.000 V ( 0.0 ~ 100.0 % RH ) 。

指示精度：温度( ± 0.1 % of F.S ) 、湿度( ± 1 % of F.S )。

取样周期：温/ 湿度500 ms 。

TH300系列可编程温度、湿度控制器：应用触摸屏的彩色LCD画面、300模式(共6000段) 、接点输入(D.I)4点，数码输出(D.O)12点、通讯功能(RS232及RS485/422) 根据型号选择。

机载激光雷达选择参考目前市场上销售的机载激光雷达来自多个厂家，有多种品牌和种类。

那么，如何从中选择技术先进、性价比好、故障少又售后服务完善的设备呢？一、机载激光雷达系统生产厂家介绍目前提供机载激光雷达设备的厂家主要有：徕卡、Optech（加拿大）、IGI、天宝、TopEye和Riegl。

这些厂家的特点是什么呢？（a）自己生产机载激光扫描仪，然后购买其他厂家的GPS/IMU及硬件和软件，集成机载激光雷达。

这类厂家有徕卡，Optech（加拿大），Topeye（瑞典）和Riegl（奥地利）。

在这些生产激光扫描仪的厂家中，生产规模最大的和研究能力最强的是Riegl公司，他向许多厂家提供了一系列产品，如：LMS-Q系列机载激光扫描仪：LMS-Q240, LMS-Q280, LMS-Q120i，LMS-Q160(超轻型，防摔型，无人机专用)等。

新型的具备数字化全波形数据获取和实时处理能力的VQ系列机载激光扫描仪：VQ180, VQ280, VQ480，LMS-Q560和VQ680i等。

目前，徕卡只生产一种激光扫描仪，而其他厂家也大多只生产两款机载激光扫描仪作为自己的系统集成使用。

Optech虽然能够生产具备数字化全波形数据的激光扫描仪，但不是标准配置，用户需要另外付费。

但即便如此，也已经落后Riegl公司六年。

这里还要指出的是：徕卡公司在2005年前一直使用的是加拿大Applanix POS系统，由于美国的禁运政策，向中国出口的POS系统都进行了许多修改，性能明显下降，并且伴随不稳定的情况。

为了保证激光雷达性能的可靠性，徕卡在2004年后测试了许多不同公司（包括Honeywell）的POS系统。

在２００５年７月又从加拿大TerraMatics公司（1998年成立）购买了其POS系统的IP（知识产权），避开北美区域，由自己（在瑞士）来研发和委托生产型号为iPAS 的POS系统。

目前国内所销售的徕卡的ALS５０－ii和６０系统基本都是配置iPAS定位系统。

ALWAYS REFER TO ANY NOTIFICATIONS AT THE END OF THIS DOCUMENT REGARDING PRODUCT INSTALLATION, MAINTENANCE OR SUPPORT.(By Others)Series 78USeries 786Series 78TSUPPLY1.0 PRODUCT DESCRIPTIONAvailable Sizes• ½ – 2”/DN15 – DN50Maximum Working Pressure • 400 psi/2758 kPa/27.6 bar Operating Temperature Range• –4°F to +230°F/–20°C to +110°CFunction• Provides simplified coil circuit installation that meets optimal hydronic system design requirements Application• Hot and cold water, including treated and untreated water systems • This KOIL-KIT ™ Coil Pack includes:• (1) Series 78T Ball Valve Union Combination – Sweat x Sweat • (1) Series 78U Union Port Fitting – Sweat x Male Union • (1) TA Series 786H Balancing Valve – Sweat x SweatNOTE• The Series 78T includes a PT port and a blow-down valve. The Series 78U includes a PT port and a manual air vent.2.0 CERTIFICATI N/LISTINGSProduct designed and manufactured under the Victaulic Quality Management System, as certified by LPCB in accordance with ISO-9001:2008.Series 78T/78U Manual Koil-Kit ™ Coil Pack with TA Series 786H Sweat Globe Style Valve08.63System No.Location Submitted ByDateSpec Section Paragraph ApprovedDateSeries 78T Ball Valve Union Combination Body: Dezincification resistant (DZR) brass alloy Union: DZR brass with EPDM O-ring Tailpiece: DZR brassStem: BrassStem O-Ring Seals: EPDMHandle: Steel with vinyl gripSeries 78U Union Port FittingBody: DZR brass alloyUnion: DZR brass with EPDM O-ringSeals: EPDM O-ringTailpiece: DZR brass alloyTA Series 786H Balancing ValveValve Body and Bonnet: AMETAL® DZR brass alloy Sealing (Body/Bonnet): EPDM O-ringValve Plug: AMETAL®Seat Seal: EPDM O-ringSpindle: AMETAL®Slip Washer: Polytetrafluoroethylene (PTFE) Spindle Seal: EPDM O-ringSpring: Stainless steelHand Wheel: Polyamide and TPEMeasuring Points: AMETAL®Measuring Point Seals: EPDMMeasuring Point Caps: Polyamide and TPENOTE• AMETAL® is the dezincification-resistant brass alloy of IMI TA.Series 78T Ball Valve Union CombinationNOTE• Optional tailpieces may be ordered for reductions and for changing end configurations from sweat to threaded or threaded to sweat. If needed, specify optional tailpiece when ordering.Series 78U Union Port FittingNOTE• Optional tailpieces may be ordered for reductions and for changing end configurations from sweat to threaded or threaded to sweat. If needed, specify optional tailpiece when ordering.4.3 OPTIONAL PARTSSeries 78T/78U Union Tailpieces (Optional)Female Tailpiece Sweat Tailpiece Male TailpieceHose End Drain Valve (Optional)A hose end drain valve is factory-installed on the Series 78T.4.5 OPTIONAL PARTSProbe Port (Optional)For Series 78T and Series 78UHandle Extension (Optional)For Series 78T4.7 OPTIONAL PARTSAir VentA manual air vent is factory-installed on the Series 78U. This product can also be mounted on the Series 78T or provided loose for other piping needs.C V /K V values for flow of water at +60°F/+16°C are shown in the table.Formulas for C V and K V valuesΔP = Q 2/C V 2 ΔP = Q 2/K V 2Q = C V × √ΔPQ = K V × √ΔPSeries 78T Ball Valve Union CombinationSeries 78U Union Port FittingFlow CoefficientC v K v Q (Flow)GPM m3/hr ΔP (Pressure Drop)psibarWhere:TA Series 786H Balancing Valve Valve Selection GuideNOTES• Balancing valves should be sized in accordance with the GPM/LPM flows (and not in relation to pipeline size). Sizing balancing valves based on the minimumor maximum flow rates is not recommended. Valves should be sized using the nominal flow rate only. The Minimum Flow is calculated from the minimum open setting of the valve and a minimum pressure drop 1 Ft. WG (= 3 kPa). The Nominal Flow is calculated from the maximum open setting of the valve and the minimum recommended pressure drop, 2 Ft. WG (= 6 kPa). The Maximum Flow is calculated from the maximum open setting of the valve and the maximum pressure drop, 20 Ft. WG (= 60 kPa). A computer program, TA-Select, is available for calculation of valve handwheel pre-set position and other applications.• For information regarding Allen Wrench sizes see the Material Specifications section on page 3.• Measuring Accuracy: The hand wheel zero position is calibrated and must not be changed. Valves have an accuracy of flow measurement of 2% to 3% whenused within their recommended flow range and installed in accordance with the figure below.• For the most accurate results, a Series 734 TA SCOPE or Series 73M CMI should be used. However, any differential pressure meter may be used.The illustration relates to the accuracy of differential pressure measurement and is not an installation requirement.2 D 10 D2 D 5 D 5.2 PERF RMANCETA Series 786H Balancing Valve Cv Values for Various Handle SettingsThe values below may be used when calculating and sizing a piping system.1C V = GPM at a ΔP of 1 psi/7 kPa) through the valve at any given setting.1 psi = 2.31 ft. of H 2O 2Full open valve.For liquids other than water, the flow values from the balancing wheel can be adjusted as follows:Divide the flow rate by the square root of the specific gravity.This applies to liquids having, on the whole, the same viscosity as water, i.e. most water/glycol mixtures and water/brine solutions at room temperature. At low temperatures, the viscosity increases and laminar flow may occur in certain valves. The risk increases with small valves, low settings and low differential pressures.A computer program (Hy-Select) is available for calculation of pre-setting values and other applications. When the flow setting is verified or changed to the final setting, the memory stop should be set. Contact Victaulic for further information. When Δp and the design flow rate are known, use the formula shown to calculate the C V value.A computer program, Hy-Select, is available from Victaulic for calculation of pre-setting values and other applications.5.4 PART CODES08.63 11841 Rev B Updated 04/2020 © 2020 Victaulic Company. All rights reserved.User Responsibility for Product Selection and SuitabilityEach user bears final responsibility for making a determination as to the suitability of Victaulic products for a particular end-use application, in accordance with industry standards and project specifications, and the applicable building codes and related regulations as well as Victaulic performance, maintenance, safety, and warninginstructions. Nothing in this or any other document, nor any verbal recommendation,advice, or opinion from any Victaulic employee, shall be deemed to alter, vary, supersede, or waive any provision of Victaulic Company's standard conditions of sale, installation guide, or this disclaimer.Intellectual Property RightsNo statement contained herein concerning a possible or suggested use of any material, product, service, or design is intended, or should be constructed, to grant any license under any patent or other intellectual property right of Victaulic or any of its subsidiaries or affiliates covering such use or design, or as a recommendation for the use of suchmaterial, product, service, or design in the infringement of any patent or other intellectual property right. The terms “Patented” or “Patent Pending” refer to design or utility patents or patent applications for articles and/or methods of use in the United States and/or other countries.NoteThis product shall be manufactured by Victaulic or to Victaulic specifications. Victaulic recommends all products to be installed in accordance with current IMI TA installation/assembly instructions. Victaulic and IMI TA reserve the right to change productspecifications, designs and standard equipment without notice and without incurring obligations.InstallationReference should always be made to the current IMI TA installation/assembly instructions for the product you are installing. For coupling and strainer installation, reference should always be made to the I-100 Victaulic Field Installation Handbook for the product you are installing. Handbooks are included with each shipment of Victaulic products for complete installation and assembly data, and are available in PDF format on our website at WarrantyRefer to the Warranty section of the current Price List or contact Victaulic for details.TrademarksVictaulic and all other Victaulic marks are the trademarks or registered trademarks of Victaulic Company, and/or its affiliated entities, in the U.S. and/or other countries.7.0 REFERENCE MATERIALS08.16: Victaulic Balancing Valves - TA Series 786H/787H/788/789 and Series 78KH I-KOIL-KIT: Victaulic KOIL-KIT™ Coil Pack Installation and Maintenance Instructions11。

Click here for an overview of the wireless components used in a typical radiotransceiver.Maxim > Design Support > Technical Documents > User Guides > APP 3910Keywords: GPS, receiver, GPS receiver, MAX2769, 2769, 1575MHz, Integrated GPS Receiver, Global Positioning System USER GUIDE 3910User's Guide for the MAX2769 GPS ReceiverBy: David Weber, Strategic Applications Engineer Sep 22, 2006Abstract: This note describes the MAX2769, a low-cost, single-conversion, low-IF GPS receiver chip that offers more flexibility and performance than its predecessors. Also included is a test procedure for the MAX2769 evaluation kit (EV kit) and some suggested SPI™ register settings for evaluation purposes.IntroductionThe MAX2769 is a low-cost, single-conversion, low-IF GPS receiver chip that offers more flexibility and performance than its predecessors. This device covers a wide range of GPS applications such as mobile handsets, PDAs and embedded PC, and automotiveapplications. It represents the most flexible, high-performance, low-power GPS receiver on the market.IC FeaturesLow DC Power ConsumptionPower required is typically 16mA to 23mA at 3V. Using SPI control, the device can be placed in idle mode, in which only the clock buffer and temperature sensor are active and the current consumption drops to 0.5mA.Low Associated BOM Cost and Reduced SizeThe MAX2769 is a direct down-conversion design with internal filtering that eliminates the need for external filteringcomponents. An excellent noise figure (NF) of 1.4dB for the cascaded chain (with a 0.8dB typical first-stage NF) allows this device to be used with a passive antenna. No external LNA is required. Because the design removes intermediate frequency filtering and preamplification, the MAX2769 requires less board space to implement a receiver.Flexibility for Applications Involving Active AntennasA designer can use this device with an active antenna, as in an automotive application. For an active-antenna application, a second internal path can be selected, which leads to a different LNA (LNA2) with lower gain (13dB vs. 19dB) and a slightly higher NF (1.1dB vs. 0.8dB). This approach results in a power savings of 16mA to 19mA vs. 23mA to 21mA at 3V in default mode.A voltage is provided at pin 3 specifically to bias the active device. This voltage can be turned off through the SPI interface for passive-antenna applications. If, however, the voltage is enabled, then LNA selection can be done automatically depending on whether there is an active antenna present. In the LNA-gated mode, the receiver is configured to automatically switch between the two LNAs contingent on whether a load current in excess of 1.5mA is detected at the antenna bias pin. A user does not need separate designs for applications using active and passive antennas; the chip automatically selects the appropriate LNAfor any application. If automatic LNA selection is not desired, it can be disabled through the Config1 register <14:13>.Internal Capacitive Load Trimming for Crystal ReferencesWhen using the MAX2769 with a crystal reference, no tuning of external load capacitors is required to match devices—a bank of internal crystal load capacitors can be programmed through the SPI interface to trim the load to yield the correct reference frequency. The internal bank can be programmed over a range of about 11pF to 17pF (settings plus 9pF of parasitic capacitance). A single series capacitor is placed between the crystal and the crystal/reference input. If the desired load value is between 11pF and 17pF, the value of this coupling capacitor can be made large (e.g., 10nF), so as not to affect the programmed value. For crystals with load capacitances below 11pF, the coupling capacitor can be made small to add in series with the internal bank, reducing the load seen at the device. Either way, the final frequency trimming can be done internally through the SPI interface.Reference and IF Frequency FlexibilityThe design accommodates a wide range of reference frequencies between 8MHz and 44MHz with a default setting of16.328MHz. The IF frequency is adjustable in 63 steps between 0 and 12.5MHz, with a default setting of 4.092MHz. (It is recommended that the IF frequency be kept at or below 4.092MHz, as additional steps may need to be taken to assure stability at higher frequencies.) Because of a fractional-N synthesizer that permits small step size while maintaining excellent phase noise, this flexibility does not compromise performance. No other product on the market has this degree of flexibility.IF Filter FlexibilityFiltering at IF is important as it limits the noise bandwidth and improves sensitivity while eliminating interference. TheMAX2769's IF filtering is highly flexible. The design uses a complex polyphase Butterworth configuration that can be set to 3rd or 5th order, and either bandpass or lowpass as the application dictates. The center frequency is also programmable to match the selected IF. The 3dB bandwidths can be selected as 2.5MHz, 4.2MHz, 8.0MHz, or 18MHz. Users can choose a design that optimizes performance for their application. (Note: These are two-sided 3dB bandwidths. When the lowpass option is selected, the bandwidths are cut in half and become 1.25MHz, 2.1MHz, 4.0MHz, and 9MHz. In fact, the highest setting should only be used in a lowpass configuration.) In the predecessor to this part, a 4.8MHz lowpass filter was required to pass the fixed-IF frequency data. In this design, a 2.6MHz bandpass design could be employed, thus reducing the noise bandwidth by nearly3dB and enhancing system sensitivity. Filters (in bandpass mode) are designed to have no more than 1dB droop at F C±1.023MHz.High System Gain with a Wide Range of Level ControlTo use the MAX2769 without an active antenna in a low-signal-strength environment, it is imperative that the receiver have sufficient gain. This device typically has up to 110dB available gain (in analog mode) with 60dB to 65dB of gain adjustment. Access to the Amplified RF Signal for Coexistence FilteringWhile no external filtering is required for stand-alone applications, coexistence with cellular or WiLAN transmissions in close proximity may require additional filtering to prevent overdriving the GPS receiver front-end. On the MAX2769, the RF signal has been made accessible between the first LNA stage output and mixer input (pins 2 and 5 respectively). If filtering is not desired, these ports can be connected through a coupling capacitor. However, filtering introduced at this point has minimal effect on the excellent sensitivity of the receiver. (For example, for typical device parameters, a SAW filter with 1dB insertion loss would degrade cascaded NF (and thus GPS sensitivity) by only about 0.15dB.Flexibility of Output ModesMost GPS devices provide only a single-output mode. The MAX2769's output can be programmed to be analog, CMOS, or limited differential logic in unsigned or complimentary binary format with 1- to 3-bit output from the ADC.Temperature Sensor and Status MonitoringA temperature sensor is included, which can be calibrated externally if desired. While lock-detect status can be obtained at theLD pin, the part can be programmed to instead provide the output signal, the reference clock, or results from a sigma-delta test. It can also be programmed to provide a short to the active antenna or to be an independent test point for voltage.The part is programmed through ten registers across a 3-wire SPI interface. Registers are described in Table 1. For further details, please refer to the MAX2769 data sheet.Table 1. Description of SPI Configuration RegistersCONF1<31:0>0000Configures Rx and IF sections, sets antenna bias and LNA autoselect A2919A3CONF2<31:0>0001Configures AGC and output format055028CCONF3<31:0>0010Configures PGA, and details of AGC, filtering, and data streaming EAFE1DC PLLCONFIG<31:0>0011Sets PLL, VCO, and CLK settings9EC0008DIV<31:0>0100Sets PLL main and reference division ratios0C00080FDIV<31:0>0101Sets PLL fractional division ratios8000070STRM<31:0>0110Configures DSP interface frame streaming8000000CLK<31:0>0111Sets fractional clock divider values10061B2TEST1<31:0>1000Sets up test mode1E0D401TEST2<31:0>1001Sets up test mode14C0002For initial characterization in a MAX2769 EV kit, the parameters listed in Table 2 can be measured with the suggested procedures that follow. The MAX2769 EV kit data sheet should be consulted for more details. Some settings differ from default values to facilitate testing; users are free to select different settings.Table 2. Parameters to be Tested in Suggested ProcedureLNA1 Gain27–2J7–J819dBLNA2 Gain25–2J6–J813dBSystem IP3 withLNA127–18J7–J2-26dBmSystem IP3 withLNA225–18J6–J2-20dBmLNA1 NF (DefaultMode)27–2J7–J80.8dBLNA2 NF25–2J6–J8 1.5dBLNA1 P1dB (Output)27–2J7–J88dBmLNA2 P1dB (Output)25–2J6–J810dBCascaded SystemNF, LNA127–18J7–J2 1.4dBCascaded SystemNF, LNA225–18J6–J2 2.7dBCurrentConsumption (Default Mode,11, 13, 14, 19, 23W19, W20, W11, W1219mA (default mode device only)(36mA at 3V, 140mA at ±5V for entireTEST1:1E0F401TEST2:14C0002Make sure SHDN and IDLE are set to 1, the disabled state for both.3. Measure +3V current consumption at W19 and W20.4. Input a -60dBm, 1575.42MHz CW signal at J7. Measure the signal at J8 and record the LNA1 gain. Take into account the loss on the board traces at 1575MHz around 0.35dB.5. Raise the input level until you get 1dB of compression (P1dB). (This is not a specified parameter, but you should get a number around +8dBm.) Be sure to gain correct any line losses.6. Connect a short, low-loss cable from J8 to J12 to connect the LNA1 output to the mixer. Decrease the input to -110dBm and measure the system gain by monitoring the 4.092MHz output at J2. It should be around 110dB, resulting in a 0dBm output.7. Set the maximum GAININ level by setting <3:27-22> to 63 (CONF2: 85512AC and CONF3: FEFF1DC). Decrease the input to -115dBm and measure the gain—it should be around 115dB. The input level should be adjustable through changes in GAININ. Decrease GAININ to the minimum by setting CONF3: 02FF1DC and once again measure the gain. It should be around 55dB.8. Measure IP3 using LNA1. Combine two input sources (perhaps around -55dBm input), at F1 = 1587.42MHz and F2 = 1599.42MHz (where 2 × F1 - F2 falls in-band at 1575.42MHz) and inject into J7. Measure the strength of the 4.092MHz product at J2 (Q out). Drop both inputs by 1dB, and note that the product drops by 3dB. (If not, you are compressing and need to use a lower input level.) OIP3 = (3 × P OUT - product)/2, soIIP3 = (3 × P OUT - product)/2 - gain. This reduces to (3 × (P IN + gain) - product)/2 - gain =(3 × P OUT - product + gain)/2. With a minimum (55dB) gain, P OUT = 5dBm. A typical 3rd-order product seen on the output spectrum at minimum gain might be -5dBm, in which case IIP3 = (3 × (-55) + 5 + 110)/2 = -25dBm. 9. Measure the LNA1 NF with an NF meter. The NF of the mixer stage can be measured using the gain method: by setting gain to max (see step 8), reducing the spectrum analyzer resolution bandwidth, and measuring the output S/N ratio. You need to have measured the exact system gain. For example, the input noise is -174dBm/Hz. Using an input of -100dBm and assuming around 90dB gain for the mixer stage, the receiver will not be in compression. The input S/N in a 1Hz bandwidth would be -74dB (S = 100dB/Hz, N = 174dBm/Hz). We might measure an output noise floor at J2 of -73dBm/Hz, yielding (with a -10dBm output) an SNR around 63dB. The NF of the system would then be the degradation in the S/N ratio, or 11dB. The result is approximate because measurement precision is poor. However, as the result is large and precision for this value is not critical, this approximate result is sufficient. Once again, subtract the input losses on the board (roughly 0.35dB) from all measured results. Knowing the gain of LNA1, you can then calculate cascaded NF.You could use the gain method or the y-factor method to measure the NF for the entire cascaded chain, but this result would once again be approximate.10. Return to the test register settings from step 2 and use an input level at J12 that is at least 10dB below the value that leads to 1dB compression, typically -110dB. Sweep the input frequency from 1572.9MHz to1577.9MHz to yield a passband of 2.6MHz for the IF bandpass filter. This measurement can be made by using the maximum hold option on the spectrum analyzer.11. Set up the AGC in the autonomous mode (AGC on with independent I and Q), where CONF2<12:11> = 00. Feed a signal into the LNA1 input at -150dBm and select LNA1. Note the tone power at the output while raisingthe input level to -65dBm. It should remain approximately the same (indicating AGC is working).LNA2 Tests12. Switch to LNA2 (CONF1<14:13> = 01). Input a -60dBm, 1575.42MHz CW signal at J6. Measure LNA2 gain atJ8 and record. Raise the input level until you get 1dB compression (P1dB). This is a repeat of steps 4 and 5 withLNA2. (Note again that the cascaded P1dB is determined by the mixer stage.) Cascaded gain is the linear gainmeasured here plus the gain from the mixer-in port to J2 from step 7.13. If an NF meter is available, measure the LNA2 NF between J6 and J8. Then measure the NF following theprocedure in step 9. Be sure that the AGC control is turned off so you can control the output level,CONF2<12:11> = 10.14. With default settings, measure IP3 using LNA2. Combine two sources of -55dBm input at F1 = 1587.42MHzand F2 = 1599.42MHz (where 2 × F1 - F2 falls in-band at 1575.42MHz) and inject into J6. Measure the strengthof the 4.092MHz product at J2 (Q out)—analog mode must be selected. Drop both inputs by 1dB and note thatthe product drops by 3dB. (If not, you are compressing the signal and need to use a lower input level.) CalculateIIP3 as in step 8.Digital TestsDigital measurements should be made at J9 A, B, C, and D. It has been discovered that the 74LV07 driver chip (U28) originally designed onto the board does not properly buffer these signals to allow them to be passed back to the computer on connector JDR1. To use these output signals to drive other circuitry off board, they may need to first be separately buffered.15. Change to a digital output (CONF2<5:4> = 00) so that CONF2 = 855028C, and monitor the signal on anoscilloscope. You should have a square-wave CMOS output (2.8V amplitude) at J9. With CONF2<27> = 1, both Iand Q signals should be present.Appendix: Suggested Register Settings for Initial TestCONF1: Test: A2959A3This register:Enables the chip (default)Disables the idle (default)Sets default current programmingSets non-default LO current programmingSets default mixer current programmingSelects 13MHz passive filter pole at mixer output (default)Selects LNA1 active (default; equivalent to grated mode when there is no current load on the ANT BIAS pin)Enables mixer (default)Turns off bias to external active antenna (default is bias on)Selects F C = 4.092MHzSelects 2.5MHz polyphase IF bandpass filterSelects 26dB IF filter gain (default is 17dB)CONF2: Test: 85502ACThis register:Selects both I and Q channels (default is I only)Sets AGC gain to 170 (default)Sets bit-counter length to 1024 bits (default)Selects sign/magnitude output format (default)Selects 1-bit AGC (default is 1 bit)Selects analog output driver (default is CMOS logic)Disables LO buffer (default)Enables temperature sensor (default)CONF3: Test: EAFF15CThis register:Sets the PGA gain for level/LSB at 58 (default; used only when AGC is disabled and gain is set up over SPI lines) Chooses the nominal ADC input scale (default)Selects the nominal loading for the output driver (default)Enables the ADC (default)Enables the output driver (default)Enables the filter DC-offset cancellation circuitry (default)Enables the IF filter (default)Enables AGC for both channels (default is I enabled only)Enables highpass coupling between the filter and AGC (default)Sets a 50kHz highpass pole corner frequency (default is 20kHz)Selects no DSP interface for data streaming (default)Sets the default data-counter length (16394 bits/frame)Selects 2-bit streaming (default)Enables sync pulse outputs (default)Enables frame sync pulse outputs (default)Disables data sync pulse outputs (default)Disables DSP interface reset (default)PLLCONFIG: Test: 9EC0008This register:Enables the VCO in normal current mode (default)Disables external VCO bias compensation (default)Sets clock output driver to CMOS mode (default)Sets clock frequency to XTAL frequencySelects buffer nominal current of 130mA for crystal (default; range is 130mA to 700mA)Sets capacitive load programming to 3.6pF (default; nominal for C L > 12pF)Selects PLL lock detect as output at LD pin (default)Selects nominal charge-pump operation with 0.5mA current (default)Selects 2ns charge-pump on-time selection (default)Selects integer-N PLL (default)Disables power save (default is power-save enable)Selects low-current mode for prescalar E2Cs (default is high-current mode)DIV: Test: 0C00080This register:Sets N = 1536 for low-side injection (default; LO = 1536 × 1.023MHz = 1571.328MHz)Sets R = 16 (default; step size = 16.368MHz/16 = 1.023MHz)FDIV: Test: 8000070This register:Sets fractional division ratio = 80000 (default)Selects nominal current and filter trim valuesSTRM: Test: 8000000This register:Sets nominal stream interface control to start at a frame given by FRAME_COUNTCLK: Test: 10061B2This register:Sets the L counter to 256Sets the M counter to 1563Selects a fractional clock input to the fractional clock divider to come after the reference divider Selects the serializer clock to come from the reference divider(When integer-N is selected in the PLL Config register, these settings are not used.)TEST1: Test: 1E0F401This register is reserved for TestTEST2: Test: 14C0002This register is reserved for TestThe screen format for setting configurations is shown in Figure 1.Figure 1. The MAX2769 EV kit test software screen format shows suggested settings.Related PartsMAX2769Universal GPS Receiver Free SamplesFree Samples MAX4444Ultra-High-Speed, Low-Distortion, Differential-to-Single-Ended LineReceivers with EnableMore InformationFor Technical Support: /supportFor Samples: /samplesOther Questions and Comments: /contactApplication Note 3910: /an3910USER GUIDE 3910, AN3910, AN 3910, APP3910, Appnote3910, Appnote 3910 Copyright © by Maxim Integrated ProductsAdditional Legal Notices: /legal。

FEATURES•Low V DD Use:(V DS = 3.5 V)•Driving Battery•Low Noise Figure:NF1 = 2.0 dB TYP. (f = 470 MHz)NF2 = 0.8 dB TYP. (f = 55 MHz)•High Power Gain:G PS = 19.0 dB TYP. (f = 470 MHz)•Suitable for use as RF amplifier in CATV tuner.•Automatically Mounting:Embossed Type Taping•Small Package: 4 Pins Super Mini MoldABSOLUTE MAXIMUM RATINGS (T A = 25 °C)Drain to Source Voltage V DSX18VGate1 to Source Voltage V G1S±8*1VGate2 to Source Voltage V G2S±8*1VGate1 to Drain Voltage V G1D18VGate2 to Drain Voltage V G2D18VDrain Current I D25mATotal Power Dissipation P D130*2mWChannel Temperature T ch125°CStorage Temperature T stg–55 to +125°C*1: R L≥ 10 kΩ*2: Free airPRECAUTION:Avoid high static voltages or electric fields so that this device would not suffer from any damage due to those voltage or fields.Document No. PU10033EJ01V0DS (1st edition) (Previous No. P10585EJ2V0DS00)Date Published October 2001 CP(K)Printed in JapanNEC Corporation 1993 NEC Compound Semiconductor Devices 2001The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version.Not all devices/types available in every country. Please check with local NEC Compound Semiconductor Devices representative for availability and additional information.The mark shows major revised points.ELECTRICAL CHARACTERISTICS (T A = 25 °C)CHARACTERISTIC SYMBOL MIN.TYP.MAX.UNIT TEST CONDITIONSDrain to Source Breakdown Voltage BV DSX18V V G1S = V G2S = –2 V, I D = 10 µA Drain Current I DSX0.1 5.0mA V DS = 3.5 V, V G2S = 3 V, V G1S = 0.5 V Gate1 to Source Cutoff Voltage V G1S(off)–1.00+1.0V V DS = 3.5 V, V G2S = 3 V, I D = 10 µA Gate2 to Source Cutoff Voltage V G2S(off)00.5 1.0V V DS = 3.5 V, V G1S = 3 V, I D = 10 µA Gate1 Reverse Current I G1SS±20nA V DS = 0, V G2S = 0, V G1S = ±6 V Gate2 Reverse Current I G2SS±20nA V DS = 0, V G1S = 0, V G2S = ±6 VForward Transfer Admittance|y fs|141823mS V DS = 3.5 V, V G2S = 3 V, I D = 7 mA f = 1 kHzInput Capacitance C iss 2.4 2.9 3.4pFV DS = 3.5 V, V G2S = 3 V, I D = 7 mA Output Capacitance C oss0.9 1.2 1.5pFf = 1 MHzReverse Transfer Capacitance C rss0.010.03pFPower Gain G ps161922dB V DS = 3.5 V, V G2S = 3 V, I D = 7 mA Noise Figure 1NF1 2.0 3.0dB f = 470 MHzNoise Figure 2NF20.8 2.3dB V DS = 3.5 V, V G2S = 3 V, I D = 7 mA f = 55 MHzI DSX ClassificationRank U1EMarking U1EI DSX (mA)0.1 to 5.02Data Sheet PU10033EJ01V0DSData Sheet PU10033EJ01V0DS3TYPICAL CHARACTERISTICS (T A = 25 ˚C)TOTAL POWER DISSIPATION vs.AMBIENT TEMPERATURET a – Ambient Temperature – °C P D – T o t a l P o w e r D i s s i p a t i o n – m W0DRAIN CURRENT vs.DRAIN TO SOURCE VOLTAGE V DS – Drain to Source Voltage –V I D – D r a i n C u r r e n t – m ADRAIN CURRENT vs.GATE1 TO SOURCE VOLTAGE V G1S – Gate1 to Source Voltage – V I D – D r a i n C u r r e n t – m AFORWARD TRANSFER ADMITTANCE vs.GATE1 TO SOURCE VOLTAGEV G1S – Gate1 to Source Voltage – V |y f s | – F o r w a r d T r a n s f e r A d m i t t a n c e – m SFORWARD TRANSFER ADMITTANCE vs.DRAIN CURRENTI D – Drain Current – mA|y f s | – F o r w a r d T r a n s f e r A d m i t t a n c e – m SINPUT CAPACITANCE vs.GATE2 TO SOURCE VOLTAGEV G2S – Gate2 to Source Voltage – VC i s s – I n p u t C a p a c i t a n c e – p F25507510012505101520255101520250816243240816243240I D = 7 mA(at V DS = 3.5 V, V G2S = 3 V)f = 1 MHz–1.00 1.0 2.0 3.0 4.01.02.03.04.05.00130 mW1002004Data Sheet PU10033EJ01V0DSI OUTPUT CAPACITANCE vs.GATE2 TO SOURCE VOLTAGEV G2S – Gate2 to Source Voltage – V C o s s – O u t p u t C a p a c i t a n c e – p F–1.0POWER GAIN AND NOISE FIGURE vs.GATE2 TO SOURCE VOLTAGEV G2S – Gate2 to Source Voltage – VG P S – P o w e r G a i n – d B00 1.0 2.0 3.0 4.0–1.0–201.02.03.04.000.51.01.52.02.5N F – N o i s e F i g u r e – d B–1001020I D = 7 mA(at V DS = 3.5 V, V G2S = 3.0 V)f = 470 MHzPSNF105D = 7 mA(at V DS = 3.5 V, V G2S = 3.0 V)f = 1 MHzData Sheet PU10033EJ01V0DS5G PS AND NF TEST CIRCUIT AT f = 470 MHzV G1S V DS50 Ω1φ φL 2: 1.2 mm U.E.W 5 mm 1TL 3: REC 2.2 Hφ φµNF TEST CIRCUIT AT f = 55 MHzG1S6Data Sheet PU10033EJ01V0DSM8E 00. 4 - 0110T he information in this document is current as of October, 2001. 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一汽大众控制单元编码-- 奥迪大众控制单元编码 --编码原则:A:用设备读出旧电脑（或找一相同配置车辆读出电脑版本号）B:将电脑版本号 1 字不漏记录到维修日志C:根具电脑版本号和索引号寻找代换的电脑注意：已经爆炸的气囊电脑不可以二次使用B:根据车辆配置或老的脑版本号记录用控制器编码功能写如代换电脑注意: 25-IMMOBILIZER 电脑的 CODING 号码代表的是通讯波特率不需要进行控制器编码提示：换电脑零件号9位，索引号1-3位必须一样,硬件名称，制造商代码,硬件版本号最好相同WSC:维修站号码，不用理会它，这样同样的CODING号码才能编入。

例：这里是一个C5 98年和2001年的气囊电脑大家可以看到索引号 J 和 G 电脑的管脚都不一样(如果没有索引号哪就是水货电脑不可以CODING)4B0 959 655 J Airbag Audi [不检测安全带开关]:00204 (电脑有50个管脚)4B0 959 655 J Airbag Audi [要检测安全带开关]:00101 (电脑有50个管脚)4B0 959 655 G Airbag Front+Seite 2001 Coding:00004 (电脑有84个管脚)4B0 959 655 G Airbag Front+Seite 2001 Coding:00104 (电脑有84个管脚)4B0 959 655 G Airbag Front+Seite 2001 Coding:00106 (电脑有84个管脚)4B0 959 655 G Airbag Front+Seite 2001 Coding:00204 (电脑有84个管脚)4B0 959 655 G Airbag Front+Seite 2001 Coding:00206 (电脑有84个管脚)*************************************************************** *****************************上海大众 B51CD 909 601 AOL AIRBAG VW51 123646Q0 909 601 AXG AIRBAG VW5:0004 225993A0 907 389 ABS ITTAE 20 [上海大众] 045053A0 907 389 ABS ITTAE 20 [一汽大众] 036043A0 907 389 ABS ITTAE 20 [奇瑞ABS+] 036046Q0 909 601 E AIRBAG 123436Q0 907 397 E ABS 00010974B0 959 655 G Airbag Fron+Seite 2001 000044B0 959 655 G Airbag Fron+Seite 2001 00104************************************************************** 发动机电脑电脑内进汽负压传感器AUDI part no. 4A0 907 473 D Maade in GermanyII 04.05.1995MOTORSTEUERGERAT MMPFI V6-ZYLHELLA...Part NO.5DA 007 193-024A0 953 234 IMMO AUZ9Z0 S3 32 95 28 D76 000004D0 907 379 D ABS BOSCH 5 7402 00024--8A0 959 655 B Airbag V AUDI D00 007664A0 820 043 H Klima-Vollautomat D05 000604A1 919 033 HD C4-kombiinstrument d20 1995-04 00062*************************************************************** **发动机电脑电脑内进汽负压传感器手动变速器 1994年IMMO 与众不同 ST93c46x16 在PCB背面 IMMO 数据定义4A0 953 234 IMM AUZ9Z0R6601234 D69 Coding: 00000 WSC 000004A0907473D 2,6L MPFI HS D01 CODING:000604D0907379D ABS BOSCH 5 7402 CODING:061698A0959655A AirBag IV AUDI D00 CODING:010224A0820043G Klima-Vollautomat D05 CODING:00060*************************************************************** **1G0 953 257 IMMO VWZ3Z0A1235467 10400 (用01配钥匙) 4A0 953 234 IMMO AUZ9Z0 S3 32 95 28 D76 00000 (用01配钥匙)330 953 253 IMMO VWZ9Z0W1234567 00000 (用21配钥匙) 3BD 920 820 A B5-KOMBIINSTR VDO-V26 (仪表) 05145 (用21配钥匙)3BD 920 806 B KOMBI+WEGFAHR SP VDO VOL 05125 (用21配钥匙)4609188DA C5-Kombininstr Un4 D-9280AC5 02042 (用21配钥匙)4B0 962 258 E Zentrdverrie.1 DWA D34 [中文显示仪表]04683用21配钥匙*************************************************************** ****2001 C501-01 ENGINE3B0 909 552 AD 2.4L V6/5VCODING:04552VIN:VBA24 B2130 17825 IMMAUZ720Y167561202-01 AT4B0 927 156 AL AE5 01V 2.4L 5V ROWCODING:0001317-01 仪表&IMMO4B0 962 258 E Zentrdverrie.1 DWA D34 (中文显示仪表) CODING:04683VIN:VBA24 B2130 17825 IMMAUZ720Y167561217-10-09 -Adaotoution 1270 改公里数可用17-10-04 语言选择不可用 ,可见是固定语言显示03-01 ABS/ASR3B0 614 111 ABS/ASR 5.3 FrontCODING:0003108-空调 4B0 820 043 AF A6-Klimavoll automatn D65 CODING:001602002 款 GOLF 全车电脑版本号17-仪表与IMMO1J0 920 826 A KOMBI+WEGFAHRS. BPV V09 CODING:01112 WSC:00000VIN: WVWZZ Z1JZ2 D1910 77IMMO SN: VWZ6Z 0A378 861101-发动机I06A 906 033 AF SIMOS33 1.6l 2V 00AT4083 CODING:00033 WSC:31414VIN: WVWZZ Z1JZ2 D1910 77IMMO SN: VWZ6Z 0A378 861102-自动波01M 927 733 JH AG4 Getriebe 01M 4830 CODING:00000 WSC:0000046-中控与舒适系统1C0 959 799 B 1C Komfortgerβ HL0 0003 CODING:00259 WSC:314141C1959801A 1C Tsteuer.FS KL0 00021C1959802A 1C Tsteuer.BF1C0959811A 1C Tsteuer.HL HL0 00021C0959812A 1C tsteuer.HR03-ABS系统1C0 907 379 J ABS FRONT MK60 0103 CODING:0001025 WSC:3141415-气囊系统1C0 909 605 A 27 AIRBAG VW51 01 02 CODING:12855 WSC:31414*****************************************************气囊电脑 6QO-909-605A零件号索引号控制器编码VEHICLE EQUIPMENT PART # INDEX CODE# Driver"s,Pass. A/B 1J0 909 603 AN 16718 Driver"s,Pass. A/B 6Q0 909 601 0C 12355Only Driver"s A/B 1J0 909 603AP 16720Only Driver"s A/B 6Q0 909 601 OB 12354 Dr"s,Pass.+Side A/B 1J0 909 608 AR 16722 Driver"ss+Side A/B 1J0 909 608 AS 16723C 00067J 00074Dr"s,Pass.+Side A/B+ 1J0 909 609 A 00065 Elec. Belt TensionerDr"s,Pass.+Side A/B+ 6Q0 909 605A 02 12338 Elec. Belt TensionerDr"s,Pass.+Side+Head 6Q0 909 605F 02 12338 A/B+Elec. Belt Tens.Dr,s+Side A/B+Elec. 1J0 909 609 B 00066Belt TensionerDr"s+Side A/B+Elec. 6Q0 909 605A 01 12337 Belt TensionerDr"s,Side,Head A/B+ 6Q0 909 605F X1 12337 Elec. Belt TensionerDr"s,Pass.,A/B with 6Q0 909 605A 03 12339 Kneebar,Side A/B+Elec. Belt TensionerDr"s,Pass.,A/B with 6Q0 909 605F 03 12339 Kneebar,Side+Head A/BElec. Belt Tensioner 6Q0 909 601 OM 12365 Dr"s,Pass. A/B withKneebarDr"s,Pass. A/B with 6Q0 909 605A OM 12345 Kneebar,Side A/B+Elec. Belt TensionerDr"s,Pass. A/B with 6Q0 909 605F X4 22580 Kneebar,Side+Head A/B+Elec. Belt Tensioner***************************************************** 上海大众菠萝全车电脑版本号15 6Q0909601E 07 AIRBAG VW5 0007CODING:1234317 6Q0 920 800 & ........... VDO V13CODING:0014119 6N0 909 901 14 CE CANcoding:0001409 6Q1 937 049C 00.BN -SG 1S32coding:2561201 036 906 034DM m......4MZ 4449coding:0007101 06A 906 032 JCME7.5.104686coding:0007103 6Q0 907 379 E 0103 ABS MK60coding:00010972002上海大众 B5 V6 2.8L 自动波全车电脑版本号底盘型号: 3B - B5 VW Passat可测试系统地址码: 01,02,03,08,15,17,19,36,46,55,56地址码:01 - 发动机零件号码: 3B0 907 551 CP 2.8L V6/5V G 0001Coding 号: 08051 维修站号码: 00000底盘号码: LSVCE 29F42 12345 67 IMMO SN: VWZ7Z 0A412 3456地址码:02 - 自动波零件号码: 8D0 927 156 DJ AG5 01V 2.8l5V RdW 1111Coding 号: 00113 维修站号码: 66187地址码:03 - ABS /ESP零件号码: 1J0 907 379 Q ABS/EDS 20 IE CAN 0001Coding 号: 13604 维修站号码: 00000地址码:08 - 空调系统冷气/暖气零件号码: 3B1 907 044 J CLIMATRONIC B5GP 0003Coding 号: 17000 维修站号码: 66187TDC: 00603 - Footwell/defroster Flap Positioning Motor (V85) 37-10 - Faulty - IntermittentTDC: 01271 - Positioning Motor for Temperature Flap (V68) 37-10 - Faulty - IntermittentTDC: 01272 - Positioning Motor for Central Flap (V70)37-10 - Faulty - IntermittentTDC: 01274 - Air Flow Flap Positioning Motor (V71)37-10 - Faulty - IntermittentTDC: 01341 - Control Module in Instrument Panel On Comfort CAN (J285)27-10 - Implausible Signal - Intermittent地址码:15-Airbags 气囊系统零件号码: 1C0 909 605 B XJ AIRBAG VW51 04 02 * XJ为软件索引号Coding 号: 22602 维修站号码: 66187地址码:17-仪表与IMMO零件号码: 3BD 920 806 C KOMBI+WEGFAHRSP VDO V01Coding 号: 07125 维修站号码: 11111底盘号码: LSVCE 29F42 12345 67IMMO SN: VWZ7Z 0A412 3456TDC: 01316 - ABS Control Module49-00 - 没有通讯地址码:19-网关零件号码: 6N0 909 901 Gateway K<->CAN 0001Coding 号: 00004 维修站号码: 01313 /ENGINE+AT+AIRBAG0 - IMMO2 仪表啥也不管理 /IMMO3 仪表为默认只管理发动机和自动波+1 - Automatic Transmission 自动变速器+2 - ABS Brakes 防报死系统+4 - Airbags 气囊+7 - Steering 方向助力 (所以啊上海大众菠萝的网关CODING 是00014)ABS Brakes, and Airbags, (1+2+4 = 7) = 00007.如果把这车的CODING号码改为00006 就会多出TDC:01316如果把这车的CODING号码改为00014 就会多出TDC:01316 和TDC:01309TDC: 01316 - ABS Control Module49-00 - 没有通讯TDC: 01309 - Power Steering Control Module (J500)49-00 - 没有通讯地址码:36- 司机侧座椅调节零件号码: 3B1 959 760 D Sitzverstellung 0101Coding 号: 0000000 维修站号码: 00000TDC:01008 - Note: Emergency OFF Switch is Active!000 - - - Intermittent地址码:55-射灯控制零件号码: 4B0 907 357 LEUCHTWEITEREGLER D004Coding 号: 00015 维修站号码: 66187*************************************************************** ***上海大众时代娇子ABS控制单元coding为02802，普通奇瑞的ABS为01901宝来汽车电脑器件型号01- 发动机：06A906032EQ 1.6L 5V MQ2004680CODING:00031 WSC:00000VIN：LFVBA 11JX2 30499 94 IMMO_SN：VWZ7Z 0B642 230915-安全气囊：1C0909601 2K AIRBAG VW 510006 //怪不的你在例外1贴讲K81不可编码少了2K啊!CODING:12875 WSC:1031503 -ABS电脑：1C0907379L 0101ABS FRON 7MK60CODING:0001025 WSC:00000 //注意:CODING号码为7位的是KWP2000通讯协议25-IMMOBILZER 电子防盗：Bitte Adresse 17 engeben (这句话的意思是:转到地址17诊断)1998年以后的车辆一般已经没有单独的25系统，整合到17-仪表&IMMO46-中控与适系统：1C0959799 2M Komfortgerat HLO 00001 CODING:00259 WSC: 000001C1959801A 1M TJrsteuer FS KLO 000917-组合仪表（防盗）电脑版本：1J5920806b komb1+wegfarlrsp vdo v02coding: 01102 wsc: 00000VIN：LFVBA 11JX2 30499 94 IMMO_SN：VWZ7Z 0B642 230919 - 网关： 6N0909901 Gateway k<-> can 0001coding:00006 wsc:00000AUDI A4 1.808 -空调系统4A0 820 043DCODING 000400006000061polo 波罗 1.4L MT 全车电脑版本号01-ENGINE //01-10-d 188 (含 EPC 电子油门控制)036 906 034 DM MARELLI 4MV 4837Coding: 00071 WSC 12345VIN: LSVFA49J732012842 IMMO ID:VWZ7Z0C683158503 - ABS 6Q0 907 379 L ABS FRONT MK60 0101Coding: 0001097 WSC 1234508 - 空调 6Q0 820 045 Klimaanlage X0840该空调是没有CODING 和WSC 的我去维修站多次用VAS5051+VAS5052验证过的2 Faults Found:01596 - Motor for Outside/Recirculated Air Flap (V154)30-10 - Open or Short to B+ - Intermittent01596 - Motor for Outside/Recirculated Air Flap (V154)41-10 - Blocked or No Voltage - Intermittent15 - AIRBAG 6Q0 909 601 E 07 AIRBAG VW5 0007Coding: 12343 WSC 1234517 - 仪表/IMMO 6Q0 920 800 KOMBI+WEGFAHRSP VDO V16Coding: 00141 WSC 57952LSVFA49J732012842 VWZ7Z0C683158519 - 网关 6N0 909 901 14 GATEWAY CAN 1S33Coding: 00014 WSC 1234525 - IMMOBILIZER(因为该车无电子防盗实际上这是17仪表抢答的)Controller: Bitte AdressComponent: e 17 eingeben46-J393(T23+T12C)舒适系统 6Q0 959 433 G 4W Komfortgera 0002Coding: 00064 WSC 12345 (coding 为00264 可多控制后面2个门)J386(T12d+T8h+t12e)左前门: 6Q2959802A 4W Tusteuer.FS KLO 0001J387(T8i +T6p+T12f)右前门: 6Q2959801A 4W Tusteuer.BF KLO 000156 - 收放机6QD 035 152 Radio 5GD 0001Coding: 00001 WSC 1234509 - 电源与继电器管理 6Q1 937 049 C 00 BN-SG. 1S33Coding: 25612 Code: WSC 1234544 - 转向助力 6Q0 423 156 Q LenkhilfeTRW V250Coding: 10140 Code: WSC 1234503 - ABS 6Q0 907 379 L ABS FRONT MK60 0101Coding: 0001097 WSC 12345--------------------------------------------------------------------------------桑塔纳2000时代骄子安全气囊1C0 909 601 2N AIRBAG VW51 0008CODING:12878 WSC:01234同 2003 年4月以后的捷达春天等是同一个只是CODING:01901 号码不同奇瑞的 ABS+ 也是这个东东:CODING:01901看ABS 泵标签有 330 614 111 字样C5 发动机 4D0 907 551 AH CODING 号码01 - ENGINE 发动机系统4D0 907 551 AH 2.8L V6/5V MOTR HS D04Coding: 06201 WSC 06335TDC 16825 - EVAP Emission Control Sys: Incorrect Flow宝来汽车电脑版本号01- 发动机：06A 906 032JB 1.6L 5V AT AG4 4629 CODING:00033 WSC:0000002-自动变速箱零件号码01M 927 733 KK 组件AG4 GETRIEBE 01M 4989 Coding 号00000 维修站号码0000017-组合仪表（防盗）电脑版本：1J5920806C komb1+wegfaHrsp vdo v02 coding: 01102 wsc: 0000046-舒适系统零件号码 1C0 959 799 组件1M KOMFORTGER atHLO 0002 Coding 号00259 维修站号码00000斯科达法比亚气囊电脑VAG NUMBER Index CODING=========== ===== =====1J0 909 603 AS AIRBAG 167231J0 909 603 AT AIRBAG 167242002 Jetta 1.8T 电脑版本号2002 Jetta 1.8T金德 k81/PC2000 for Windows XP 双模式01 --发动机 : 06A 906 032 HF 1.8L R4/5VT G 0004 Coding: 07550 WSC 13622VIN:3VWSE69M62M112530IMMO SN:VWZ7Z0A418528402 -- 自动波09A 927 750 T AG5 Getriebe 09A 019303 -- ABS: 1C0 907 379 K ASR FRONT MK60 0103Coding: 0018945 WSC 0002817 -- 仪表/IMMO : 1J5 920 926 AX KOMBI+WEGFAHRSP VDO V11Coding: 07204 WSC 225853VWSE69M62M112530 VWZ7Z0A418528419 -- 网关 6N0 909 901 Gateway K<->CAN 0001Coding: 00006 WSC 2258546 -- 中控与舒适系统 1C0 959 799 C 1H Komfortger醫 HLO 0003Coding: 00257 WSC 0002856 -- 收放机 3B7 035 180 Radio NP2 0055Coding: 00031 WSC 00028美规原装奥迪A6.2.8L 手动自动两用波箱电脑型号发动机电脑:4D0907551AH 2.8L V6/5V MOTRAT D02CODING:06252波箱电脑:4B09271156G AG501V 2.8L5V USA 8509CODING:00001ABS电脑 :8E0614111M ABS/EDS5.3 OUATTRO D31CODING:06169仪表电脑:4B0919930RX C5-KOMBIINSTR VDO D15CODING:07262空调电脑:4B0820043G A6-KLIMAVOLL AUTOMAT:D61CODING:00160中央控制门锁:4B0962258C CENTRALLOCK/ALARM D30CODING:15885宝来1.6L A/T发动机的CODING：00033 ABS：0001025 A/T：00000 仪表：01102 音响：00001 舒适性系统：00259 捷达：1.6l A/T发动机的CODING：04030 A/T：03604 SRS：00065 防盗：09600 捷达都市先锋发动机：04003 A/T：00000 ABS：03604一汽新A6address 01Protocol: KW1281Controller: 3B0907 551 CKComponent: 2.8L V6/5V 0002Coding: 08502Shop #: WSC 00000Address 03Protocol: KW1281Controller: 3B0 614 111Component: ABS/ASR 5.3 FRONT D00Coding: 00032Shop #: WSC 00000Skipping Address 15-AirbagsAddress 17Protocol: KW1281Controller: 4C0 920 930 BComponent: C5-KOMBIINSTR. VDO D12Coding: 00162Shop #: WSC 000002001.5 VW Passat 1.8T w/ engine code AWM.CODING:12878 WSC:01234同 2003 年4月以后的捷达春天等是同一个只是CODING:01901 号码不同奇瑞的 ABS+ 也是这个东东:CODING:01901看ABS 泵标签有 330 614 111 字样C5 发动机 4D0 907 551 AH CODING 号码01 - ENGINE 发动机系统4D0 907 551 AH 2.8L V6/5V MOTR HS D04Coding: 06201 WSC 06335TDC 16825 - EVAP Emission Control Sys: Incorrect Flow宝来汽车电脑版本号01- 发动机：06A 906 032JB 1.6L 5V AT AG4 4629CODING:00033 WSC:0000002-自动变速箱零件号码01M 927 733 KK 组件AG4 GETRIEBE 01M 4989Coding 号00000 维修站号码0000017-组合仪表（防盗）电脑版本：1J5920806C komb1+wegfaHrsp vdo v02coding: 01102 wsc: 0000046-舒适系统零件号码 1C0 959 799 组件1M KOMFORTGER atHLO 0002 Coding 号00259 维修站号码00000斯科达法比亚气囊电脑VAG NUMBER Index CODING=========== ===== =====1J0 909 603 AS AIRBAG 167231J0 909 603 AT AIRBAG 167242002 Jetta 1.8T 电脑版本号2002 Jetta 1.8T金德 k81/PC2000 for Windows XP 双模式01 --发动机 : 06A 906 032 HF 1.8L R4/5VT G 0004Coding: 07550 WSC 13622VIN:3VWSE69M62M112530IMMO SN:VWZ7Z0A418528402 -- 自动波09A 927 750 T AG5 Getriebe 09A 019303 -- ABS: 1C0 907 379 K ASR FRONT MK60 0103Coding: 0018945 WSC 0002817 -- 仪表/IMMO : 1J5 920 926 AX KOMBI+WEGFAHRSP VDO V11Coding: 07204 WSC 225853VWSE69M62M112530 VWZ7Z0A418528419 -- 网关 6N0 909 901 Gateway K<->CAN 0001Coding: 00006 WSC 2258546 -- 中控与舒适系统 1C0 959 799 C 1H Komfortger醫 HLO 0003Coding: 00257 WSC 0002856 -- 收放机 3B7 035 180 Radio NP2 0055Coding: 00031 WSC 00028美规原装奥迪A6.2.8L 手动自动两用波箱电脑型号发动机电脑:4D0907551AH 2.8L V6/5V MOTRAT D02CODING:06252波箱电脑:4B09271156G AG501V 2.8L5V USA 8509CODING:00001ABS电脑 :8E0614111M ABS/EDS5.3 OUATTRO D31CODING:06169仪表电脑:4B0919930RX C5-KOMBIINSTR VDO D15CODING:07262空调电脑:4B0820043G A6-KLIMAVOLL AUTOMAT:D61CODING:00160中央控制门锁:4B0962258C CENTRALLOCK/ALARM D30CODING:15885宝来1.6L A/T发动机的CODING：00033 ABS：0001025 A/T：00000 仪表：01102 音响：00001 舒适性系统：00259 捷达：1.6l A/T发动机的CODING：04030 A/T：03604 SRS：00065 防盗：09600 捷达都市先锋发动机：04003 A/T：00000 ABS：03604一汽新A6address 01Protocol: KW1281Controller: 3B0 907 551 CKComponent: 2.8L V6/5V 0002Coding: 08502Shop #: WSC 00000Address 03Protocol: KW1281Controller: 3B0 614 111Component: ABS/ASR 5.3 FRONT D00Coding: 00032Shop #: WSC 00000Skipping Address 15-AirbagsAddress 17Protocol: KW1281Controller: 4C0 920 930 BComponent: C5-KOMBIINSTR. VDO D12Coding: 00162Shop #: WSC 000002001.5 VW Passat 1.8T w/ engine code AWM.4B0-906-018-CL using a 2001.5 VW Passat 1.8T w/ engine code AWM.Audi DTC Table - General4B0-906-018-CL数据流 Diagnostic Trouble Code (DTC) table VW TECHNICAL LIBRARY【01-发动机】 4B0 906 018 CL 1.8L R4/5VT G 0001Coding: 16551 WSC 00008WVWPD63B61P269969 VWZ7Z0A35518632 Faults Found:17524 - Oxygen (Lambda) Sensor Heating: B1 S1: Open CircuitP1116 - 35-00 - -18034 - Powertrain Data Bus: Missing Message from TCUP1626 - 35-10 - - - IntermittentReadiness: 0110 1101【02 - 自动波】 4B0 927 156 DA AG5 01V 1.8l5VT RdW 1313 Coding: 00013 WSC 000082 Faults Found:18158 - Supply Voltage too LowP1750 - 35-10 - - - Intermittent18249 - Engine Control Module / Transmission Control Module IncompatibleP1841 - 35-00 - -【03 -ABS 】3B0 614 111 ABS/ASR 5.3 FRONT D00Coding: 00021 WSC 000281 Faults Found:18257 - Please check DTC Memory of Transmission Controller P1849 - 35-00 - -Skipping Address 15-Airbags【17 -仪表&IMMO】3B0 920 925 B KOMBI+WEGFAHRSPVDO V13Coding: 07235 WSC 00008WVWPD63B61P269969 VWZ7Z0A35518633 Faults Found:00779 - Outside Air Temp Sensor (G17)30-10 - Open or Short to B+ - Intermittent01316 - ABS Control Module49-10 - No Communications - Intermittent01315 - Transmission Control Module49-10 - No Communications - Intermittent【25 - IMMOBILIZER】Controller: Bitte Adress e 17 eingeben 请转到地址17-仪表与防盗No Faults Foundor DTCs not supported by controlleror a communication error ocurred【46 - 中控与舒适系统】1C0 959 799 C 08 Komfortger醫HLO 0001Coding: 00257 WSC 00008谁来区分不同处？奥迪A6 2.8L VIN：LFVBA24BX2300155201）3B0 907 551 BF 2.8L V6/5V G01 001CODING：04552 WSC：0000002）4B0 927 156 AJ AG5 01V 2.8L5V USA 3132CODING：00004 WSC：0000003）3B0 614 111 ABS/ASR 5.3 FRONT D00CODING：00031 WSC：0000015）4B0 959 655 G Airbag Fronttseite 2001CODING:00004 WSC:0000035)4B0 962 258 J Central Lock/Alarm D35 CODING:06731 WSC:0000045?)4B0 907 357 LEDCHTWETTEREGLER D004 CODING:00005 WSC:0000036)4B0 959 608 Sitzmamnory R1 F 000 CODING:00000 WSC:0000056)4C0 035 186 Radio D02CODING:0020766)4B0 919 283 ParkingSystem A6 Row D18 CODING:0110617)4C0 920 930 A Ch-kOMRIINSTR VDO D12 CODING:00162-------- --------08)4B0 820 043 AF A6-Klimavnllautomat D65 coding:00160奥迪A6 2.4L VIN:VBA24B013014521 ?15?? 01)3B0 907 552 AD 2.4L V6/5V G 0000 CODING:04552------------ -------------02)4B0 927 156 AL AG5 01V 2.4L5V RHW 2526 CODING:0001303)3B0 614 111 ABS/ASR 5.3 FRONT D00 CODING:0003115)4B0 959 655G Airbag Fronttseite 2000 CODING:0000435)4B0 962 258 E Zentralverrieg.DWA D34 CODING:0468345)4B0 951 178 A (?Unnenmumueberw) D04 CODING: 0000136)4B0 959 760 A Sitzmemnry D0556)4C0 035 186 Radio D02CODING:0020766)4B0 919 283 Parkingsystem A6 ROW D18 CODING:0010617)4C0 920 930 A C5-KOMHI INSTR VDO D09 CODING:00062--------- ---------08)4B0 820 043 AF A6-Klimavcllautomat D65 CIDING:00160大众奥迪1.8L奥迪 A6 1.8L VIN：VBA14B22301545501）4R0 906 018 CA 1.8L R4/5VT 0003 CODING：04502--------- -----------03）3B0 614 111 ABS/ASR 5.3 FRONT D00 CODING：0002215）4B0 959 655G Airbag Frongt+Seite 2001 CODING:0000435)4B0 962 258J Central lock/Alarm D35 CODING:0000156)4C0 035 186 RadioCODING:0020117)4C0 920 900A C5-KOMRI INSTR VDO D12 CODING:00144---------- -----------08)4B0 820 043H A6-Klimauollautomat D64 CODING:00140宝来 1.8L VIN：LFVBA21J22302392801）06A 906 032 LD 1.8L R4/5VT 0001 CODING：04530-------- ---------02）01M 927 733 LL AG4 Getribe 01M 4956 coding:0000003)1c0 907 379K ASR PRONT MK60 0103 CODING:002150515)1C0 909 601 2K Airbag VW51 0004 CODING:1287546)1C0 959 799C 18 Komfortger BF HLO 0003 CODING:0025956)3BD 035 186 Radio 5GD 0001 CODING:0040317)1J5 920 826A KO MRITWEGFAHRSP VDO V04CODING:0512208)3B1 907 044C CLIMATRONIC C 2.0.0 CODING:0110019)6N0 909 901 Gateway k<->CAN 0000 CODING:00006又一个1.8L VIN：VBA14B22301545501）06A 906 032 LF 1.8L R4/5VS MOTR 0001 CODING:04530-------- --------02)01M 927 733 KJ AG4 Getriehe 01M 4952 CODING:0000003)1C0 907 379 K ASR FRONT MK60 0103 CODING:001331315)1C0 909 601 2k Airbag VW51 0006 CODING:1287536)3R1 959 760 Sitzverstellung 0101 CODING:000000046)1C0 959 799 C 1H Komfortger gt hlw 0003 coding:002591c1 959 801a 1C1 959 802A1C0 959 811A 1C0 959 812A56)3BD 035 186 RADIO 5GD 0001 CODING:0040317)1JD 920 826 KOMRI+MEGAHRSP VDO V02 CODING:0510208)3B1 907 044C CLJMATRONIC C2.0.019)6N0 909 901 Gateway k<->CAN 0001 CODING:00006。

12345678OUTV+NCIN+BUF INPRE OUTGNDIN–D PACKAGE(TOP VIEW)NC – No internal connectionINA270-Q1,INA271-Q1 SBOS401B–JULY2007–REVISED FEBRUARY2010 VOLTAGE-OUTPUT UNIDIRECTIONAL-MEASUREMENT CURRENT-SHUNT MONITORSCheck for Samples:INA270-Q1,INA271-Q1FEATURES APPLICATIONS•Power Management•Qualified for Automotive Applications•Automotive•Wide Common-Mode Range:–16V to80V•Telecom Equipment•CMRR:120dB•Notebook Computers•Accuracy:•Battery Chargers–±2.5-mV Offset(Max)•Cell Phones–±1%Gain Error(Max)•Welding Equipment–20-m V/°C Offset Drift(Max)–55-ppm/°C Gain Drift(Max)•Bandwidth:Up to130kHz•Two Transfer Functions Available:–14V/V(INA270)–20V/V(INA271)•Quiescent Current:900m A(Max)•Power Supply:2.7V to18V•Provision for FilteringDESCRIPTION/ORDERING INFORMATIONThe INA270and INA271family of current-shunt monitors with voltage output can sense voltage drops across current shunts at common-mode voltages from–16V to80V,independent of the supply voltage.The INA270 and INA271pinouts readily enable filtering.The INA270and INA271are available with two output voltage scales:14V/V and20V/V.The130-kHz bandwidth simplifies use in current-control loops.The INA270and INA271operate from a single2.7-V to18-V supply,drawing a maximum of900m A of supply current.They are specified over the extended operating temperature range of–40°C to125°C and are offered in an SO-8package.ORDERING INFORMATION(1)T A GAIN PACKAGE(2)ORDERABLE PART NUMBER TOP-SIDE MARKING14INA270AQDRQ1INA270–40°C to125°C SOIC–D Reel of250020INA271AQDRQ1INA271(1)For the most current package and ordering information,see the Package Option Addendum at the end of this document,or see the TIweb site at .(2)Package drawings,thermal data,and symbolization are available at /packaging.Please 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.Copyright©2007–2010,Texas Instruments Incorporated Products conform to specifications per the terms of the Texas−16V to +80INA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010This integrated circuit can be damaged by ESD.Texas Instruments recommends that all integrated circuits be handled with appropriate precautions.Failure to observe proper handling and installation procedures can cause damage.ESD damage can range from subtle performance degradation to complete device failure.Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.FUNCTIONAL BLOCK DIAGRAMABSOLUTE MAXIMUM RATINGS (1)over operating free-air temperature range (unless otherwise noted)VALUEV SSupply voltage18V Differential analog input voltage range (V IN+–V IN–)–18V to 18V Common-mode analog input voltage range–16V to 80VV O Analog output voltage range (OUT and PRE OUT)(GND –0.3)V to (V++0.3)VI I Input current (any pin)5mA q JA Package thermal impedance (2)(3)97.1°C/W T J Maximum junction temperature 150°C T A Operating free-air temperature range –40to 125°C T stg Storage temperature range–65to 150°C Human-Body Model HBM)2000V ESDElectrostatic discharge ratingMachine Model (MM)100V Charged-Device Model (CDM)1000V(1)Stresses beyond those listed under "absolute maximum ratings"may cause permanent damage to the device.These are stress ratings only,and functional operation of the device at these or any other conditions beyond those indicated under "recommended operating conditions"is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)Maximum power dissipation is a function of T J (max),q JA ,and T A .The maximum allowable power dissipation at any allowable ambient temperature is P D =(T J (max)–T A )/q JA .Operating at the absolute maximum T J of 150°C can affect reliability.(3)The package thermal impedance is calculated in accordance with JESD 51-7.2Submit Documentation Feedback Copyright ©2007–2010,Texas Instruments IncorporatedINA270-Q1,INA271-Q1 SBOS401B–JULY2007–REVISED FEBRUARY2010RECOMMENDED OPERATING CONDITIONSMIN MAX UNITV S Supply voltage 2.718VT A Operating free-air temperature–40125°CELECTRICAL CHARACTERISTICSV S=5V,V CM=12V,V SENSE=100mV,PRE OUT connected to BUF IN(unless otherwise noted)PARAMETER TEST CONDITIONS T A(1)MIN TYP MAX UNIT Input(V S–0.2)/V SENSE Full-scale input voltage V SENSE=V IN++V IN–25°C0.15VGainV CM Common-mode input voltage Full range–1680VV IN+=–16V to80V25°C80120CMRR Common-mode rejection dBV IN+=12V to80V Full range10012025°C±0.5 2.5V OS Offset voltage,RTI(2)mVFull range±3Input offset voltageΔV OS/ΔT Full range 2.520m V/°C temperature coefficientOffset voltage power-supplyPSR V S=2.7V to18V,V CM=18V Full range5100m V/V rejectionI IB Input bias current IN–pin Full range±8±16m AZ O Output impedance(3)PRE OUT pin25°C96kΩBuffer input bias current25°C–50nABuffer input bias current25°C±0.3nA/°C temperature coefficientOutput(V SENSE≥20mV)(4)INA27014G Gain25°C V/VINA27120G BUF Output buffer gain25°C2V/V25°C±0.2±1 Total gain error V SENSE=20mV to100mV%Full range±2Total gain errorFull range50ppm/°C temperature coefficient25°C±0.75±2.2 Total output error(5)%Full range±1±3 Nonlinearity error V SENSE=20mV to100mV25°C±0.002%Z O Output impedance OUT pin25°C 1.5ΩMaximum capacitive load No sustained oscillation25°C10nF Voltage Output(6)Swing to V+power-supply rail R L=10kΩto GND Full range V+–0.05V+–0.2VV GND+V GND+ Swing to GND R L=10kΩto GND Full range V0.0030.05(1)Full range is–40°C to125°C.(2)RTI=referred to input(3)Initial resistor variation is±30%with an additional–2200-ppm/°C temperature coefficient.(4)For output behavior when V SENSE<20mV,see Application Information(5)Total output error includes effects of gain error and V OS.(6)See Typical Characteristics curve Output Swing vs Output Current and Accuracy Variations as a Result of VSENSE and Common-ModeVoltage in the Application Information section.Copyright©2007–2010,Texas Instruments Incorporated Submit Documentation Feedback3INA270-Q1,INA271-Q1SBOS401B–JULY2007–REVISED ELECTRICAL CHARACTERISTICS(continued)V S=5V,V CM=12V,V SENSE=100mV,PRE OUT connected to BUF IN(unless otherwise noted)PARAMETER TEST CONDITIONS T A(1)MIN TYP MAX UNIT Frequency ResponseBW Bandwidth C L=5pF25°C130kHzf m Phase margin C L<10nF25°C40°SR Slew rate25°C1V/m sV SENSE=10mV to100mV,t s Settling time(1%)25°C2m sC L=5pFNoise,RTI(7)V n Voltage noise density25°C40nV/√Hz Power SupplyV OUT=2V25°C700900I Q Quiescent current m AV SENSE=0V Full range350950(7)RTI=referred to input4Submit Documentation Feedback Copyright©2007–2010,Texas Instruments IncorporatedG a i n (d B )Frequency (Hz)G a i n (d B )Frequency (Hz)101001k10k C o m m o n -M o d e a n d P o w e r -S u p p l y R e j e c t i o n (d B )Frequency (Hz)100kCOMMON-MODE AND POWER-SUPPL Y REJECTION10203040506070V O U T (V )V DIFFERENTIAL (mV)80901001101201304.03.53.02.52.01.51.00.50050100150200250300350T o t a l O u t p u t E r r o r(%e r r o r o f t h e i d e a l o u t p u t v a l u e )V SENSE (mV)TOTAL OUTPUT ERROR vs V SENSE400450500.O u t p u t E r r o r ()%Co Mo (mmo de Voltage V)n-INA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010TYPICAL CHARACTERISTICST A =25°C,V S =12V,V CM =12V,V SENSE =100mV (unless otherwise noted)Copyright ©2007–2010,Texas Instruments Incorporated Submit Documentation Feedback 5I Q (µA )Output Voltage (V)O u t u t V o l t g e (V )p a Outp t ren )u ur t (C mA POSITIVE OUTPUT VOLTAGE SWINGSupply Voltage (V)O u t p u t S h o r t -C i r c u i t C u r r e n t (m A )OUTPUT SHORT -CIRCUIT CURRENTI Q (µA )V CM (V)QUIESCENT CURRENTFrequency (Hz)G a i n (d B )−PREOUT OUTPUT RESISTANCE R PREOUT (k )W 88888999991010101010111111111112INA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010TYPICAL CHARACTERISTICS (continued)T A =25°C,V S =12V,V CM =12V,V SENSE =100mV (unless otherwise noted)6Submit Documentation Feedback Copyright ©2007–2010,Texas Instruments Incorporated50m V /d i v10µs/divSMALL-SIGNAL STEP RESPONSE10-mV TO 20-mV INPUT500m V /d i v10µs/divLARGE-SIGNAL STEP RESPONSE10-mV TO 100-mV INPUTINA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010TYPICAL CHARACTERISTICS (continued)T A =25°C,V S =12V,V CM =12V,V SENSE =100mV (unless otherwise noted)Copyright ©2007–2010,Texas Instruments Incorporated Submit Documentation Feedback 7−16V to +80INA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010APPLICATION INFORMATIONBasic ConnectionFigure 1illustrates the basic connection of the INA270and INA271.The input pins,IN+and IN–,should be connected as closely as possible to the shunt resistor to minimize any resistance in series with the shunt resistance.Power-supply bypass capacitors are required for stability.Applications with noisy or high-impedance power supplies may require additional decoupling capacitors to reject power-supply noise.Minimum bypass capacitors of 0.01m F and 0.1m F in value should be placed close to the supply pins.Although not mandatory,an additional 10-mF electrolytic capacitor placed in parallel with the other bypass capacitors may be useful in applications with particularly noisy supplies.Figure 1.INA270Basic ConnectionsPower SupplyThe input circuitry of the INA270and INA271can accurately measure beyond its power-supply voltage,V+.For example,the V+power supply can be 5V,whereas the load power-supply voltage is up to 80V.The output voltage range of the OUT terminal,however,is limited by the voltages on the power-supply pin.Selecting R SThe value chosen for the shunt resistor,R S ,depends on the application and is a compromise between small-signal accuracy and maximum permissible voltage loss in the measurement line.High values of R S provide better accuracy at lower currents by minimizing the effects of offset,while low values of R S minimize voltage loss in the supply line.For most applications,best performance is attained with an R S value that provides a full-scale shunt voltage range of 50mV to 100mV.Maximum input voltage for accurate measurements is (V S –0.2)/Gain.Transient ProtectionThe –16-V to 80-V common-mode range of the INA270and INA271is ideal for withstanding automotive fault conditions ranging from 12-V battery reversal up to 80-V transients,since no additional protective components are needed up to those levels.In the event that the INA270and INA271are exposed to transients on the inputs in excess of their ratings,external transient absorption with semiconductor transient absorbers (zeners or Transzorbs)are necessary.8Submit Documentation Feedback Copyright ©2007–2010,Texas Instruments IncorporatedINA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010Use of MOVs or VDRs is not recommended except when they are used in addition to a semiconductor transient absorber.Select the transient absorber such that it will never allow the INA270and INA271to be exposed to transients greater than 80V (that is,allow for transient absorber tolerance,as well as additional voltage because of transient absorber dynamic impedance).Despite the use of internal zener-type ESD protection,the INA270and INA271are not suited to using external resistors in series with the inputs,since the internal gain resistors can vary up to ±30%,but the internal resistors are tightly matched.If gain accuracy is not important,then resistors can be added in series with the INA270and INA271inputs,with two equal resistors on each input.Output Voltage RangeThe output of the INA270and INA271is accurate within the output voltage swing range set by the power-supply pin,V+.The INA270and INA271readily enable the inclusion of filtering between the preamp output and buffer input.Single-pole filtering can be accomplished with a single capacitor because of the 96-k Ωoutput impedance at PRE OUT on pin 3(see Figure 2a).The INA270and INA271readily lend themselves to second-order Sallen-Key configurations (see Figure 2b).When designing these configurations consider that the PRE OUT 96-k Ωoutput impedance exhibits an initial variation of ±30%with the addition of a –2200-ppm/°C temperature coefficient.A.The INA270and INA271can be easily connected for first-order or second-order filtering.Remember to use the appropriate buffer gain (INA270=1.4,INA271=2)when designing Sallen-Key configurations.Figure 2.First-Order or Second-Order FilteringCopyright ©2007–2010,Texas Instruments Incorporated Submit Documentation Feedback 9G =V –V OUT1OUT2100 mV – 20 mV V RTI (refe red to inp OS r ut) =V OUT1G – 100 mV ((INA270-Q1,INA271-Q1SBOS401B –JULY 2007–REVISED FEBRUARY 2010Accuracy Variations as a Result of V SENSE and Common-Mode VoltageThe accuracy of the INA270and INA271current-shunt monitors is a function of two main variables:V SENSE (V IN+–V IN–)and common-mode voltage,V CM ,relative to the supply voltage,V S .V CM is expressed as (V IN++V IN–)/2;however,in practice,V CM is seen as the voltage at V IN+because the voltage drop across V SENSE is usually small.This section addresses the accuracy of these specific operating regions:Normal Case 1:V SENSE ≥20mV,V CM ≥V S Normal Case 2:V SENSE ≥20mV,V CM <V SLow V SENSE Case 1:V SENSE <20mV,–16V ≤V CM <0Low V SENSE Case 2:V SENSE <20mV,0V ≤V CM ≤V S Low V SENSE Case 3:V SENSE <20mV,V S <V CM ≤80V Normal Case 1:V SENSE ≥20mV,V CM ≥V SThis region of operation provides the highest accuracy.Here,the input offset voltage is characterized and measured using a two-step method.First,the gain is determined by Equation 1.(1)Where:V OUT1=Output voltage with V SENSE =100mV V OUT2=Output voltage with V SENSE =20mVThen the offset voltage is measured at V SENSE =100mV and referred to the input (RTI)of the current-shunt monitor,as shown in Equation 2.(2)In Typical Characteristics ,the Output Error vs Common-Mode Voltage curve shows the highest accuracy for thethis region of operation.In this plot,V S =12V;for V CM ≥12V,the output error is at its minimum.This case is also used to create the V SENSE ≥20mV output specifications in Electrical Characteristics .Low V SENSE Case 1:V SENSE <20mV,–16V ≤V CM <0;and Low V SENSE Case 3:V SENSE <20mV,V S <V CM ≤80VAlthough the INA270family of devices are not designed for accurate operation in either of these regions,some applications are exposed to these conditions.For example,when monitoring power supplies that are switched on and off while V S is still applied to the INA270or INA271,it is important to know what the behavior of the devices is in these regions.As V SENSE approaches 0mV,in these V CM regions,the device output accuracy degrades.A larger-than-normal offset can appear at the current-shunt monitor output with a typical maximum value of V OUT =60mV for V SENSE =0mV.As V SENSE approaches 20mV,V OUT returns to the expected output value with accuracy as specified in Electrical Characteristics .Figure 3illustrates this effect using the INA271(Gain =20).10Submit Documentation Feedback Copyright ©2007–2010,Texas Instruments Incorporated分销商库存信息:TIINA270AQDRQ1INA271AQDRQ1。

LM2907 / LM2917频率电压转换器总体描述LM2907系列的单片机,LM2917频率电压转换器与高增益运算放大器/对照设计操作继电器、灯、或其他负荷当输入频率达到或超过选择率。

主要的使用一个电荷泵技术和提供的频率替身的波纹,满低输入保护两种版本(LM2907-8,LM2917-8)和输出摆动到地面输入零频率。

运算放大器/比较器的完全兼容的转速和有一个浮动晶体管为输出。

这一特点允许或者一个地面或供应负荷高达50所麻。

收集器可能采取VCC以上的由一个最大饱和压降低28 V。

这两个基本结构的优惠,包括一个8-pin装置一位地勤参考输入转速和内部关系运算放大器的输出转速和用户的输入。

这个版本是非常适合单身速度或频率转换或完全被缓冲的频率电压转换应用。

更多功能配置提供转速差输入放大器输入。

这版本主要的输入可以漂运算放大器成为适合转速调节的有源滤波器输出。

两个这样的配置有一个活跃的在调节阀连接并联电力的线索。

这调节阀,夹供应稳定频率对当前操作电压和频率都是可能的与任何电源电压和一个合适的电阻。

优势n输出为零频率波动到地面输入护士使用方便;VOUT =鳍x VCC x R1 x C1护士只有一个钢筋混凝土网提供频率两倍n齐纳调节阀晶片上的允许,精确稳定频率电压或电流转换(LM2917)特征参考输入接口n地面转速直接变磁阻磁车站n运算放大器/对照有漂浮的晶体管块和连接图Dual-In-Line和小包裹,顶部轮廓的观点Dual-In-Line块和连接图和小包裹,顶部轮廓视图(继续)绝对最大额定值(注1)如果军事航天指定的设备是必要的,请联系美国国家半导体销售办事处销售者的可用性和规格。

28 V电源电压选择开关电流(马)的25齐纳收藏家28 V电压差动输入电压28 V转速注1:操作的环境温度超过25°C,设备必须derated 150°C的基于最大结温和热阻101°C / W对环境和LM2907-8交界处,79°C LM2917-8 / W交界处,LM2907-14和LM2917-14环境。

TOSHIBA Field Effect Transistor Silicon N Channel MOS Type (π−MOSV)2SK2917Chopper Regulator, DC −DC Converter and Motor Drive Applicationsz Low drain–source ON resistance : R DS (ON) = 0.21 Ω (typ.) z High forward transfer admittance: |Y fs | = 17 S (typ.)z Low leakage current : I DSS = 100 μA (max) (V DS = 500 V) z Enhancement mode : V th = 2.0~4.0 V (V DS = 10 V, I D = 1 mA)Absolute Maximum Ratings (Ta = 25°C)Characteristics Symbol Rating UnitDrain–source voltageV DSS 500 VDrain–gate voltage (R GS = 20 k Ω) V DGR 500 VGate–source voltage V GSS ±30 V DC (Note 1) I D 18Drain currentPulse (Note 1)I DP 72ADrain power dissipation (Ta = 25°C)P D 90 WSingle pulse avalanche energy(Note 2) E AS 915mJ Avalanche currentI AR 18 A Repetitive avalanche energy (Note 3) E AR 9 mJ Channel temperature T ch 150 °C Storage temperature rangeT stg−55~150 °CNote: Using continuously under heavy loads (e.g. the application of high temperature/current/voltage and the significant change intemperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operating temperature/current/voltage, etc.) are within the absolute maximum ratings. Please design the appropriate reliability upon reviewing the Toshiba Semiconductor Reliability Handbook (“Handling Precautions”/Derating Concept and Methods) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).Thermal CharacteristicsCharacteristics Symbol Max UnitThermal resistance, channel to case R th (ch–c) 1.39 °C / W Thermal resistance, channel to ambientR th (ch–a)41.6°C / WNote 1: Ensure that the channel temperature does not exceed 150°C. Note 2: V DD = 90 V, T ch = 25°C (initial), L = 4.8 mH, R G = 25 Ω, I AR = 18 A Note 3: Repetitive rating: pulse width limited by maximum channel temperature This transistor is an electrostatic-sensitive device. Please handle with caution.Unit: mmJEDEC― JEITA ―TOSHIBA 2-16F1B Weight: 5.8 g (typ.)Electrical Characteristics (Ta = 25°C)Characteristics SymbolTest ConditionMin Typ. Max Unit Gate leakage currentI GSS V GS = ±25 V, V DS = 0 V — — ±10μA Gate −source breakdown voltage V (BR) GSS I G = ±10 μA, V DS = 0 V ±30 — — V Drain cut −off currentI DSS V DS = 500 V, V GS = 0 V — — 100μA Drain −source breakdown voltage V (BR) DSS I D = 10 mA, V GS = 0 V 500 — — V Gate threshold voltage V th V DS = 10 V, I D = 1 mA 2.0 — 4.0 V Drain–source ON resistance R DS (ON)V GS = 10 V, I D = 10 A— 0.21 0.27ΩForward transfer admittance |Y fs | V DS = 10 V, I D = 10 A1017—SInput capacitanceC iss — 3720 —Reverse transfer capacitance C rss — 340 — Output capacitanceC ossV DS = 10 V, V GS = 0 V, f = 1 MHz — 1165 —pF Rise timet r — 30 —Turn −on timet on — 70 —Fall timet f — 50 —Switching timeTurn −off timet off— 290 —nsTotal gate charge (gate −sourceplus gate −drain) Q g —80 — Gate −source charge Q gs — 48 — Gate −drain (“miller”) ChargeQ gdV DD ≈ 400 V, V GS = 10 V, I D = 18 A — 32 —nCSource −Drain Ratings and Characteristics (Ta = 25°C)Characteristics SymbolTest ConditionMin Typ. Max UnitContinuous drain reverse current(Note 1)I DR —— — 18 A Pulse drain reverse current(Note 1) I DRP —— — 72 A Forward voltage (diode) V DSF I DR = 18 A, V GS = 0 V ——−2.0VReverse recovery time t rr — 540 — ns Reverse recovery chargeQ rrI DR = 18 A, V GS = 0 VdI DR / dt = 100 A / μs— 5.4 — μCMarkinglead (Pb)-free package or lead (Pb)-free finish.R G = 25 ΩV DD = 90 V , L = 4.8 mH⎟⎠⎞⎜⎝⎛−⋅⋅⋅=DD VDSS VDSS AS V B B I L 21E 2RESTRICTIONS ON PRODUCT USE20070701-EN •The information contained herein is subject to change without notice.•TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property.In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc.• The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.).These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in his document shall be made at the customer’s own risk.•The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations.• The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patents or other rights of TOSHIBA or the third parties.• Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations.。

XN297L 系列产品说明书2.4GHz 单片高速无线收发芯片概述XN297L系列芯片是工作在2.400~2.483GHz世界通用ISM频段的单片无线收发芯片。

该芯片集成射频收发机、频率发生器、晶体振荡器、调制解调器等功能模块，并且支持一对多组网和带ACK的通信模式。

发射输出功率、工作频道以及通信数据率均可配置。

芯片已将多颗外围贴片阻容感器件集成到芯片内部。

主要特性1、功耗较低发射模式（2dBm）工作电流19mA；接收模式工作电流15mA；休眠电流2uA。

2、节省外围器件支持外围5个元器件，包括1颗晶振和4个贴片电容；支持双层或单层印制板设计，可以使用印制板微带天线；芯片自带部分链路层的通信协议；配置少量的参数寄存器，使用方便。

3、性能优异250K / 1M / 2M bps模式的接收灵敏度为-91 / -87 / -83dBm；发射输出功率最大可达13dBm；抗干扰性好，接收滤波器的邻道抑制度高，接收机选择性较好。

其它特性应用方案目录1 命名规则 (4)1.1 XN297L 命名规则 (4)1.2 XN297L 系列产品选择 (4)2 主要电特性 (4)3 极限最大额定值 (3)4 系统结构方框图 (4)5 引脚定义 (5)6 芯片工作状态 (6)6.1 休眠模式 (8)6.2 待机模式-I（STB1） (8)6.3 待机模式-III（STB3） (8)6.4 待机模式-II（STB2） (8)6.5 接收模式 (9)6.6 发射模式 (9)7 数据通信模式 (9)7.1 普通模式 (11)7.2 增强模式 (11)7.3 增强发送模式 (12)7.4 增强接收模式 (12)7.5 增强模式下的数据包识别 (13)7.6 增强模式下的PTX 和PRX 的时序图 (13)7.7 增强模式下的接收端一对多通信 (14)7.8 DATA F I F O (15)7.9 中断引脚 (16)8 SPI 控制接口 (16)8.1 SPI 指令格式 (16)8.2 SPI 时序 (18)9 控制寄存器 (20)10 数据包格式描述 (36)10.1 普通模式的数据包形式 (36)10.2 增强模式的数据包形式 (36)10.3 增强模式的ACK 包形式 (37)11 典型应用电路（参考） (37)12 封装尺寸 (38)13 联系方式 (39)1 命名规则1.1 XN297L 命名规则图1 X N297L系列芯片命名规则1.2 XN297L 系列产品选择表1 XN297L系列产品选择2 主要电特性表2 XN297L系列芯片主要电特性频道的接收灵敏度退化 2dB；发射信号调制精度（EVM）退化10%。

——235TACT Switch TMSharp FeelingSoft Feeling Snap-in TypeSurface Mount TypeRadial TypeTACT Switch TM / Soldering ConditionsTemperature profile■Condition for ReflowAvailable for Surface Mount Type.180150260˚C max. 3s max.230˚CTim e120s max. pre-heatin g3 to 4min.Time inside soldering equipmentTemperature (˚C )40s max.1. Prevent flux penetration from the top side of the TACT Switch TM .2. Switch terminals and a PC board should not be coated with flux prior to soldering.3. The second soldering should be done after the switch is stable with normal temperature.4. Use the flux with a specific gravity of min 0.81. （EC-19S-8 by TAMURA CORPORATION, or equivalents.）Notes1. Please confirm the specifications of our product for the detailed condition.2. Soldering conditions differ depending on reflow soldering machines. Prior verification of soldering condition is highly recommended.Notes■Conditions for Auto-dipAvailable for Snap-in Type and Radial Type.Items ConditionFlux built-upMounting surface should not be exposed to fluxPreheating temperature Ambient temperature of the soldered surface of PC board. 100℃ max.Preheating time 60s　max.Soldering temperature 260℃ max.Duration of immersion 5s max.Number of soldering2times max.SKHH SeriesItems ConditionFlux built-up Mounting surface should not be exposed to flux Preheating temperatureAmbient temperature of the soldered surface of PC board. 110℃ max.Preheating time 60s　max.Soldering temperature 260℃ max.Duration of immersion 5s max.Number of soldering2times max.SKHL Top Push Type, SKQJ SeriesItems ConditionFlux built-up Mounting surface should not be exposed to flux Preheating temperatureAmbient temperature of the soldered surface of PC board. 100℃ max.Preheating time 45s　max.Soldering temperature 255℃ max.Duration of immersion 5s max.Number of soldering2times max.■Manual SolderingItemsConditionSoldering temperature 350℃ max.Duration of soldering 3s max.Capacity of soldering iron60W max.SKHH, SKHW SeriesItemsConditionSoldering temperature 360℃ max.Duration of soldering 3s max.Capacity of soldering iron60W max.SKTD, SKTG, SKQJ, SKSN SeriesItemsConditionSoldering temperature 350℃ max.Duration of soldering 3s max.Capacity of soldering iron20W max.。