3D7323M-8中文资料

A/D 转换芯片ADC0832的应用作者：杜洋 2005年10月11日ADC0832是美国国家半导体公司生产的一种8位分辨率、双通道A/D 转换芯片。

由于它体积小，兼容性强，性价比高而深受单片机爱好者及企业欢迎，其目前已经有很高的普及率。

学习并使用ADC0832可是使我们了解A/D 转换器的原理，有助于我们单片机技术水平的提高。

ADC0832具有以下特点：· 8位分辨率；· 双通道A/D 转换；· 输入输出电平与TTL/CMOS 相兼容； · 5V 电源供电时输入电压在0~5V 之间； · 工作频率为250KHZ ，转换时间为32μS ； · 一般功耗仅为15mW ；· 8P 、14P —DIP （双列直插）、PICC 多种封装；· 商用级芯片温宽为0°C to +70°C ，工业级芯片温宽为−40°C to +85°C ；芯片顶视图：（图1、图2）图1 图2ww w .t ai -ya n.c o m /bb s 电子工程技术论坛：ＩＣ资料查询网站：电子器件采购平台： /bbs芯片接口说明：·CS_ 片选使能，低电平芯片使能。

· CH0 模拟输入通道0，或作为IN+/-使用。

· CH1 模拟输入通道1，或作为IN+/-使用。

· GND 芯片参考0电位（地）。

· DI 数据信号输入，选择通道控制。

· DO 数据信号输出，转换数据输出。

· CLK 芯片时钟输入。

· Vcc/REF 电源输入及参考电压输入（复用）。

ADC0832与单片机的接口电路：图3ww w .t a i -y a n .c o m /bb s 电子工程技术论坛：ＩＣ资料查询网站：电子器件采购平台： /bbsADC0832为8位分辨率A/D 转换芯片，其最高分辨可达256级，可以适应一般的模拟量转换要求。

MAX038芯片中文资料及在波形发生器中的应用(1)简介：波形发生器的应用范围很广。

在分析检测设备、超声设备、医疗设备及通讯设备中广泛应用。

函数发生器作为信号激励源，其参数精度是设计时应考虑的重要因素 ...波形发生器的应用范围很广。

在分析检测设备、超声设备、医疗设备及通讯设备中广泛应用。

函数发生器作为信号激励源，其参数精度是设计时应考虑的重要因素。

常用的波形产生电路有RC震荡电路、LC震荡电路、文氏震荡电路以及由555芯片构成的震荡电路等，但这些震荡电路由于核心芯片、选频及限幅元件特性的限制，在幅频精度方面或多或少的存在着不稳定或实现电路复杂等情况。

如果需要实现波形变换、幅频大小调整以及提高幅频的稳定度，设计的外围电路将会变得更为复杂。

由MAX038设计组成的波形产生电路能够输出幅频精度很高且易于调整的波形信号，在电路参数要求苛刻的工作场合能够得到较好的应用。

1 芯片功能介绍1．1 MAX038芯片的性能特点MAX038CPP芯片采用20引脚DIP封装，引脚图如图1所示。

各引脚功能简述如下：REF：芯片内部2．5 V参考电压输出；GND：模拟地；A1，A0：输出波形选择，TTL／CMOS兼容；COSC：内部震荡器外接电容；FADJ，DADJ：输出频率、占空比调节；IIN：震荡频率控制器电流输入；PDI，PDO：内部鉴相器输入、输出；SYNC：同步信号输出，允许内部震荡器与外电路同步；DGND，DV+：内部数字电路电源；V+，V-：MAX038电源(+5 V，-5 V)；OUT：波形输出端。

MAX038芯片附加少许外围电路就能够产生三角波、锯齿波、正弦波、方波、矩形脉冲波形。

该芯片具有如下的功能特点：(1)输出频率范围：0．1～20 MHz，最高可达40 MHz：(2)输出波形占空比(15％～85％)独立可调，占空比可由DADJ端调整，如果DADJ 端接地，则输出占空比为50％；(3)具有低输出阻抗的输出缓冲器，输出阻抗的典型值为0．1 Ω；(4)备有TTL兼容的独立同步信号SYNC(方波输出，固定占空比为50％)，方便组建频率合成器系统；(5)低温度漂移。

Data SheetADuM1400/ADuM1401/ADuM1402 Rev. L | Page 21 of 31ABSOLUTE MAXIMUM RATINGSAmbient temperature = 25°C, unless otherwise noted. Table 13.ParameterRating Storage Temperature (T ST )−65°C to +150°C Ambient Operating Temperature (T A )1−40°C to +105°C Ambient Operating Temperature (T A )2−40°C to +125°C Supply Voltages (V DD1, V DD2)3−0.5 V to +7.0 V Input Voltage (V IA , V IB , V IC , V ID , V E1, V E2)3, 4−0.5 V to V DDI + 0.5 V Output Voltage (V OA , V OB , V OC , V OD )3, 4−0.5 V to V DDO + 0.5 V Average Output Current per Pin 5Side 1 (I O1)−18 mA to +18 mA Side 2 (I O2)−22 mA to +22 mA Common-Mode Transients 6−100 kV/µs to +100 kV/µs 1 Does not apply to ADuM1400W , ADuM1401W , and ADuM1402W automotive grade versions.2 Applies to ADuM1400W , ADuM1401W , and ADuM1402W automotive grade versions.3 All voltages are relative to their respective ground.4 V DDI and V DDO refer to the supply voltages on the input and output sides of a given channel, respectively. See the PC Board Layout section.5 See Figure 4 for maximum rated current values for various temperatures.6 This refers to common-mode transients across the insulation barrier. Common-mode transients exceeding the Absolute Maximum Ratings may cause latch-up or permanent damage.Stresses at or above those listed under Absolute Maximum Ratings may cause permanent damage to the product. This is a stress rating only; functional operation of the product at these or any other conditions above those indicated in the operational section of this specification is not implied. Operation beyond the maximum operating conditions for extended periods may affect product reliability. ESD CAUTION Table 14. Maximum Continuous Working Voltage 1ParameterMax Unit Constraint AC Voltage, Bipolar Waveform565 V peak 50-year minimum lifetime AC Voltage, Unipolar WaveformBasic Insulation1131 V peak Maximum approved working voltage per IEC 60950-1 Reinforced Insulation560 V peak Maximum approved working voltage per IEC 60950-1 and VDE V 0884-10 DC VoltageBasic Insulation1131 V peak Maximum approved working voltage per IEC 60950-1 Reinforced Insulation560 V peak Maximum approved working voltage per IEC 60950-1 and VDE V 0884-10 1 Refers to continuous voltage magnitude imposed across the isolation barrier. See the Insulation Lifetime section for more details. Table 15. Truth Table (Positive Logic)V Ix Input 1V Ex Input 1, 2 V DDI State 1 V DDO State 1 V Ox Output 1 Notes HH or NC Powered Powered H LH or NC Powered Powered L XL Powered Powered Z XH or NC Unpowered Powered H Outputs return to the input state within 1 µs of V DDI power restoration. XL Unpowered Powered Z X X Powered Unpowered Indeterminate Outputs return to the input state within 1 µs of V DDO power restoration if the V Ex state is H or NC. Outputs return to a high impedance statewithin 8 ns of V DDO power restoration if the V Ex state is L.1V Ix and V Ox refer to the input and output signals of a given channel (A, B, C, or D). V Ex refers to the output enable signal on the same side as the V Ox outputs. V DDI and V DDO refer to the supply voltages on the input and output sides of the given channel, respectively.2 In noisy environments, connecting V Ex to an external logic high or low is recommended.ADuM1400/ADuM1401/ADuM1402 Data SheetRev. L | Page 30 of 31OUTLINE DIMENSIONSCONTROLLING DIMENSIONS ARE IN MILLIMETERS;INCH DIMENSIONS (IN PARENTHESES)ARE ROUNDED-OFF MILLIMETER EQUIVALENTS FOR REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN PLIANT TO JEDEC STANDARDS MS-013-AA03-27-2007-B Figure 24. 16-Lead Standard Small Outline Package [SOIC_W] Wide Body (RW-16) Dimensions shown in millimeters and (inches) ORDERING GUIDEModel1, 2, 3, 4Number of Inputs, V DD1 Side Number of Inputs, V DD2 Side Maximum Data Rate (Mbps) Maximum Propagation Delay, 5 V (ns) Maximum Pulse Width Distortion (ns) Temperature Range Package Description Package Option ADuM1400ARW4 0 1 100 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1400BRW4 0 10 50 3 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1400CRW4 0 90 32 2 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1400ARWZ4 0 1 100 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1400BRWZ4 0 10 50 3 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1400CRWZ4 0 90 32 2 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1400WSRWZ4 0 1 100 40 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM1400WTRWZ4 0 10 34 3 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM1401ARW3 1 1 100 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1401BRW3 1 10 50 3 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1401CRW3 1 90 32 2 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1401ARWZ3 1 1 100 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1401BRWZ3 1 10 50 3 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1401CRWZ3 1 90 32 2 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1401WSRWZ3 1 1 100 40 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM1401WTRWZ3 1 10 34 3 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM1402ARW2 2 1 100 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1402BRW2 2 10 503 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1402CRW2 2 90 32 2 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1402ARWZ2 2 1 100 40 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1402BRWZ2 2 10 503 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1402CRWZ2 2 90 32 2 −40°C to +105°C 16-Lead SOIC_W RW-16 ADuM1402WSRWZ2 2 1 100 40 −40°C to +125°C 16-Lead SOIC_W RW-16 ADuM1402WTRWZ2 2 10 343 −40°C to +125°C 16-Lead SOIC_W RW-16 EVAL-ADuMQSEBZ Evaluation Board 1Z = RoHS Compliant Part. 2 W = Qualified for Automotive Applications. 3 Tape and reel are available. The addition of an -RL suffix designates a 13” (1,000 units) tape and reel option. 4 No tape and reel option is available for the ADuM1400CRW or ADuM1402BRW models.。

GrandMA 3D中文说明书内容1引言52系统要求3安装63.1奶奶办公桌或奶奶onPC版本3.2的IP 73.3连接奶奶办公桌3.4 1姥姥或奶奶2模式4数据94.1主/从94.2坐标系统5个快速启动6计划表面6.1菜单栏6.2工具栏6.3（第一阶段视图，三维对象视图）主要的Windows6.3.1第一阶段检视6.3.2鼠标+键盘操作6.3.3安排（对齐对象）的对象6.3.4复制（复制的三维物体）6.3.5三维对象—6.4资产（信息窗）6.5属性6.6媒体数据库6.7材料6.8移动Pathes6.9会议6.10状态栏7灯具类型8三维建模和导入8.1三维模型8.2参数8.2.1轴8.2.2旋转轴8.2.3线性轴8.2.4束光.8.3自动导入8.4分配模型夹具类型8.5三维建模清单8.6创建一个三维模型9视频创建10常见问题11个键盘快捷键12指数马照明科技有限公司Dachdeckerstr。

16 D - 97297Waldbüttelbrunnwww.malighting.de1引言：奶奶3D是一个独特的新的用户界面，三维可视化创建利用与奶奶产品范围结合的阶段布局。

系列I和系列第二站的支持。

该软件被设计成一个灯光设计师的预编程工具。

它简化了创建显示，以节省时间和金钱的过程。

奶奶3D包括一个基本图形元素库。

使用多个窗口前/侧/顶视图可以在同一时间打开和更新。

所有的舞台元素被定位在X / Y / Z方向，也可能是周围的各种轴旋转。

习俗这些元素的表面纹理，可以导入位图格式，或可能选择从一个图书馆。

灯笼，灯具或移动灯的设置，可以简单地检索到的奶奶控制台或电子转帐的奶奶onPC每放映文件。

有没有需要设置的DMX线，DMX地址或单个装置的操作模式，因为这些细节，都已经预先调整中的奶奶。

当切换到3D渲染模式，奶奶3D软件变得极其—强大的可视化实时渲染设施。

所有绘图元素，装置及灯笼与表面纹理，作为一种虚拟现实。

1AllenĆBradleyGray Encoder (12Ć24 VDC)Input Module (Cat. No. 1771-DL)Product Data The Gray Encoder (12-24 VDC) Input Module converts an 8-bit Gray codefrom an absolute encoder to an 8-bit binary number for input to anAllen-Bradley programmable controller.The module also has a 120 V AC zero-speed triac switch which is on whilethe Gray encoder is in motion. The switch turns off after a selectable delaywhen the module detects that motion has stopped. You can use this switchas a safety interlock to open the drive circuit after motion stops or if theencoder should fail.The Allen-Bradley 8-bit Gray Encoder (Bulletin 845A-SJZ3DN6DW iscompatible with this encoder module.The encoder module is shipped with wiring arm (cat. no. 1771-WB).Description2The module receives its inputs from an encoder that detects rotational position, 0-360°, and converts position values to a corresponding 8-bit Gray code, 0-255. The encoder transmits coded position values to the module over a multiconductor cable (figure 1).Figure 1Block Diagram of Encoder and ModuleModule OutputsThe module converts 8-bit Gray code to 8-bit binary, and places these values on the backplane of the I/O chassis. The processor or remote I/O adapter reads these values in the same manner it reads data from a discrete I/O module. Values are read into the processor’s input image table word address corresponding to the module’s location in the I/O chassis: upper byte for slot 1, lower byte for slot 0.Zero Speed SwitchThe encoder module has a zero-speed triac switch (between terminals 11 and 12) which remains on until the module detects that motion has stopped.An adjustable time delay opens the switch after a delay. You adjust the delay time between 0.3 and 6.0 seconds using the trim pot located under the zero-speed indicator on the front of the module: counter-clockwise for shorter delay, clockwise for longer delay. It is factory set for 6.0 seconds.Module Inputs3The switch is rated at 0.5 A at 120 V AC, 47-63 Hz. Use this switch only toopen a “sealed-in” circuit (figure 2) such as for a motor starter. Do not useto initiate a “sealed-in” circuit.Figure 2Zero Speed Switch CircuitYou may need additional surge suppression to protect the triac switch fromthe motor starter. A load with large inductive characteristics can generatevoltage transients which exceed the switch’s internal surge current rating.Since switching frequency and load impedance vary with application, wecannot specify a particular suppressor for your motor starter. The tablebelow offers some suggestions for selecting a suppressor.The module has a 1 A fuse located on the circuit board inside the module.This fuse is in series with the triac switch, and will blow if the maximumsurge current exceeds 2 A for 10 ms.4Electrostatic DamageUnder some conditions, electrostatic discharge can degrade performance or damage the module. If you observe the following precautions you can guard against electrostatic damage.Touch a grounded object to discharge yourself before handling themodule.Do not touch the backplane connector or connector pins.When replacing the fuse, do not touch other circuit components inside the module. If available, use a static-safe work station.Replacing the FuseReplace the fuse as follows:Remove cover by unscrewing four corner screws.Remove the circuit board and turn it over.Locate the fuse on the lower side, and replace.Re-assemble in reverse order.Status IndicatorsThe front panel of the encoder module contains nine red LED status indicators.The top indicator lights when the zero-speed triac switch is ON. Each of the remaining eight indicators corresponds to a single Gray code bit, and lights when the logic state of the bit is OFF.The encoder module requires 120 mA from the I/O chassis power supply. Total this amount with the current requirements of other modules in the chassis to guard against overloading the backplane and backplane power supply.Backplane Power5Customer Power SupplyThe module also requires a 12 to 24 VDC power supply which you connect to the wiring arm and absolute encoder (figure 3). The encoder driving circuit sinks 15 mA at 24 VDC or 6 mA at 12 VDC per Gray code input.Multiply this by eight for each encoder powered by this supply. Some absolute encoders may require an additional 5 VDC supply.Figure 3Wiring Diagram Use Belden 9556 multiconductor shielded cable (or equivalent) to connectthe encoder to the module’s wiring arm (figure 3). Ground the cable at oneend, only. We recommend that you ground it at an I/O chassis mountingstud. Wrap the drain wire and shield together and connect both to themounting stud. Limit the cable length to 50 feet.Wiring6WARNING: Remove power from the 1771 I/O chassisbackplane and wiring arm before removing or installing an I/Omodule.Failure to remove power from the backplane or wiring armcould cause module damage, degradation of performance, orinjury.Failure to remove power from the backplane could causeinjury or equipment damage due to possible unexpectedoperation.Plastic keying bands are shipped with each I/O chassis. These bands help ensure that only a selected type of module can be placed in a particular module slot. They also help to align the module with the backplane connector.Each module is slotted at its rear edge. The position of the keying bands on the upper backplane connector must correspond to these slots to allow insertion of the module. For the 1771-DL Gray Encoder Module, position the keying bands as follows:Between 4 and 6Between 24 and 26Keying7Input G one 8Ćbit Absolute Gray Encoder Digital Resolution G 1 part in 256HighĆtrue Logic G from a 7406, 7407, or equivalent TTL circuit with an open collector output G module sources current to user device Logic State G logic 1: 10Ć27 VDC G logic 0 : 0Ć2 VDC Input Sourcing Current G 6 mA per bit at 10 VDC G 15 mA per bit at 27 VDC Input Filter Time Delay G 1 millisecond (max.)Backplane Current G 120 mA at 5 VDC ZeroĆSpeed Triac SwitchG output voltage:120 VAC (92Ć138 VAC,47Ć63 Hz)G output time delay:adjustable from 0.3 to 6.0seconds(factory set at 6 seconds)G continuous output current:0.5 A (max.)G maximum surge current:2 A for 10 msG minimum load current:50 mAG ON state" voltage drop:2V at 100 mA load currentG OFF state" leakage current:5 mA (max.)G output fuse:8 AG, 1 A normal blowEnvironmental ConditionsG operating temperature:0 to 60° C (32 to 140° F)G storage temperature:-40 to 85° C (-40 to 185° F)G relative humidity:5 to 95% (without condensation)Keying Band PositionsG between 4 and 6G between 24 and 26© 1986 Allen-Bradley CompanyPLC is a registered trademark of Allen-Bradley CompanySpecifications8With offices in major cities worldwideWORLD HEADQUARTERS Allen-Bradley 1201 South Second Street Milwaukee, WI 53204 USA Tel: (1) 414 382-2000Telex: 43 11 016FAX: (1) 414 382-4444EUROPE/MIDDLE EAST/AFRICA HEADQUARTERS Allen-Bradley Europe B.V .Amsterdamseweg 151422 AC Uithoorn The Netherlands Tel: (31) 2975/43500Telex: (844) 18042FAX: (31) 2975/60222ASIA/PACIFIC HEADQUARTERS Allen-Bradley (Hong Kong)Limited Room 1006, Block B, Sea View Estate 28 Watson Road Hong Kong Tel: (852) 887-4788Telex: (780) 64347FAX: (852) 510-9436CANADA HEADQUARTERS Allen-Bradley Canada Limited 135 Dundas Street Cambridge, Ontario N1R 5X1Canada Tel: (1) 519 623-1810FAX: (1) 519 623-8930LATIN AMERICA HEADQUARTERS Allen-Bradley 1201 South Second Street Milwaukee, WI 53204 USA Tel: (1) 414 382-2000Telex: 43 11 016FAX: (1) 414 382-2400As a subsidiary of Rockwell International, one of the world’s largest technology companies — Allen-Bradley meets today’s challenges of industrial automation with over 85 years of practical plant-floor experience. More than 11,000 employees throughout the world design, manufacture and apply a wide range of control and automation products and supporting services to help our customers continuously improve quality, productivity and time to market. These products and services not only control individual machines but integrate the manufacturing process, while providing access to vital plant floor data that can be used to support decision-making throughout the enterprise.Publication 1771-2.29 — June 1986Supersedes Publication 1771-941 — September 1981PN 955099-78Printed in USA。

factsheet V.1.00 - 2014The Dreamoc HD3 is a 3 sided holographic display, which lets you combine a physical product with 3D holographic content. The Dreamoc is equipped with a key protected backdoor, from where you have access to the media playerand the chamber inside of the Dreamoc.• 3 sided viewing• Combine physical objects with holographic content • High quality 3 mm glass optic• Dirt resistant coating on optic• Automatic and manually control spotlight• Remote Up/Download of content via FTP• Bright and sharp picture quality • Easy change of content• Key protected backdoor• Seven push botton for easy operation • Built-in loudspeakers• HDMI input for interactivity• Programmable on/off timer• Power Consumption: 50W (Max)< 1W (Deep st.by.) < 5W (St.by.)• Power input: 90~264 Vac, 50/60Hz• Screen size: 23”, 16:9• Resolution: Full HD 1920 X 1080p• Content:WMV, MP4, AVI, MPEG1/2/4, H.264, VC-1 • Sound out: 2 x 10W• Spotlight: adjustable from 0 to 8W or automatic control by movie• Input: 1 x HDMI , 1 x SD slot• SD card: Minimum class 4 - maximum 32Gbyte • Network: RJ452 / Dreamoc HD3 Factsheet are supportedWxHxD: 560 x 342 x 420 mm Weight: 18 ±1.0 kg Freight measurements WxHxD: 680 x 440 x 540 mm Weight:22 ±1.0 kgDIMENSIONS: All figures are in mm42Dreamoc HD3 left side - measurementsDreamoc HD3 top - measurementsDreamoc HD3 Factsheet / 360±5205±5350±560±5280±5500±5Power on / offMenuVolume up / downSD card in / out200120Dreamoc HD3 front - object reference4 / Dreamoc HD3 FactsheetInput / select500StandbySpotlight up / downDreamoc HD3 display - containing:• SD card with demo movie Quick GuideMirror Box - containing:• Mirrors (optic)• Plastic bag containing rubber gloves, Quick Guide and cleaning clothAccessory Box - containing:•Two keys for the Dreamoc HD3 backdoor(same code for all Dreamoc HD3 locks)• Optic Lock• Spare screws for optic lock• Power adapter ( LITEON / Adapter 65W/19V / PA- 1650-64 / Power DC Jack19V )• Euro power cable 1,5 m • Unbraco keyOptimal for transportation if you use the Dreamoc in various locations. The flightcase has wheels and an expandable handle, which makes it suitable for personal transport.WxHxD: 630 x 530 x 420 mm Weight: 12 KgWith the Dreamoc Play App your Dreamoc easily becomes an interactive selling or presentation tool. Browse and play Dreamoc content easily through a customizable interface. Available free on App Store.Dreamoc HD3 FlighthcaseDreamoc HD3 Factsheet / 5SCAN THIS QR-CODEAND GET DREAMOC PLAY APP FOR FREEFOR PRODUCT SUPPORT AND TUTORIALS, PLEASE SCAN THIS QR-CODE OR VISIT/HD3Realfiction ApS | Øster Alle 42, 5, 2100 København ØPhone: +45 70 20 64 90***********************The stand places the Dreamoc in the perfect viewing height. Produced in steel.• Very easy to assemble• Adjustable rubber feet for excellent stability • Can easily be covered with foil for visual branding WxHxD: 560 x 1210 x 420 mm Weight: 19 kg Freight measurements WxHxD: 1350 x 630 x 170 mm Weight: 23 kgDreamoc HD3 Stand bottom - measurements121056422002001151806 / Dreamoc HD3 FactsheetSpecifications are subject to changes. We accept no liability for errors and changes.Dreamoc HD3 Stand。

MONOLITHIC TRIPLEFIXED DELAY LINE(SERIES 3D7323)FEATURESPACKAGES87651234I1I2I3GND VDD O1 O2 O3 3D7323M DIP 3D7323H Gull-Wing 12348765I1I2I3GND VDD O1 O2 O3 3D7323Z SOIC (150 Mil) 1413121110981234567I1N/C I2N/C I3N/C GND VDD N/C O1 N/C O2 N/C O3 3D7323 DIP 3D7323G Gull-Wing3D7323K Unused pins removed• All-silicon, low-power CMOS technology • TTL/CMOS compatible inputs and outputs• Vapor phase, IR and wave solderable• Auto-insertable (DIP pkg.)• Low ground bounce noise• Leading- and trailing-edge accuracy • Delay range: 6 through 6000ns • Delay tolerance: 2% or 1.0ns • Temperature stability: ±3% typ (-40C to 85C) • Vdd stability: ±1% typical (4.75V to 5.25V)•Minimum input pulse width: 20% of total delay • 14-pin DIP available as drop-in replacement forhybrid delay linesFUNCTIONAL DESCRIPTIONThe 3D7323 Triple Delay Line product family consists of fixed-delayCMOS integrated circuits. Each package contains three matched,independent delay lines. Delay values can range from 6ns through6000ns. The input is reproduced at the output without inversion,shifted in time as per the user-specified dash number. The 3D7323is TTL- and CMOS-compatible, capable of driving ten 74LS-typeloads, and features both rising- and falling-edge accuracy.The all-CMOS 3D7323 integrated circuit has been designed as areliable, economic alternative to hybrid TTL fixed delay lines. It isoffered in a standard 8-pin auto-insertable DIP and a space saving surface mount 8-pin SOIC. PIN DESCRIPTIONSI1 Delay Line 1 Input I2 Delay Line 2 Input I3 Delay Line 3 Input O1 Delay Line 1 Output O2 Delay Line 2 Output O3 Delay Line 3 Output VDD +5 Volts GND Ground N/C No ConnectionTABLE 1: PART NUMBER SPECIFICATIONSPART NUMBER DELAYINPUT RESTRICTIONSDIP-8 3D7323M 3D7323H SOIC-8 3D7323Z DIP-14 3D7323 3D7323G DIP-14 3D7323KPER LINE (ns) Max OperatingFrequencyAbsolute Max Oper. Freq. Min Operating Pulse WidthAbsolute Min Oper. P.W.-6 -6 -6 -6 6 ± 1.0 55.5 MHz 125.0 MHz 9.0 ns 4.0 ns -8 -8 -8 -8 8 ± 1.0 41.6 MHz 111.0 MHz 12.0 ns 4.5 ns -10 -10 -10 -10 10 ± 1.0 33.3 MHz 100.0 MHz 15.0 ns 5.0 ns -15 -15 -15 -15 15 ± 1.0 22.2 MHz 100.0 MHz 22.5 ns 5.0 ns -20 -20 -20 -20 20 ± 1.0 16.7 MHz 100.0 MHz 30.0 ns 5.0 ns -25 -25 -25 -25 25 ± 1.0 13.3 MHz 83.3 MHz 37.5 ns 6.0 ns -30 -30 -30 -30 30 ± 1.0 11.1 MHz 71.4 MHz 45.0 ns 7.0 ns -40 -40 -40 -40 40 ± 1.0 8.33 MHz 62.5 MHz 60.0 ns 8.0 ns -50 -50 -50 -50 50 ± 1.0 6.67 MHz 50.0 MHz 75.0 ns 10.0 ns -100 -100 -100 -100 100 ± 2.0 3.33 MHz 25.0 MHz 150.0 ns 20.0 ns -200 -200 -200 -200 200 ± 4.0 1.67 MHz 12.5 MHz 300.0 ns 40.0 ns -500 -500 -500 -500 500 ± 10.0 0.67 MHz 5.00 MHz 750.0 ns 100.0 ns -1000 -1000 -1000 -1000 1000 ± 20 0.33 MHz 2.50 MHz 1500.0 ns 200.0 ns -6000 -6000 -6000 -6000 6000 ±1200.05 MHz0.42 MHz9000.0 ns1200.0 nsNOTE: Any delay between 10 and 6000 ns not shown is also available. 2006 Data Delay DevicesAPPLICATION NOTESOPERATIONAL DESCRIPTIONThe 3D7323 triple delay line architecture isshown in Figure 1. The individual delay lines are composed of a number of delay cells connected in series. Each delay line produces at its output a replica of the signal present at its input, shifted in time. The delay lines are matched and share the same compensation signals, which minimizes line-to-line delay deviations over temperature and supply voltage variations.INPUT SIGNAL CHARACTERISTICSThe Frequency and/or Pulse Width (high or low) of operation may adversely impact the specified delay accuracy of the particular device. The reasons for the dependency of the output delay accuracy on the input signal characteristics are varied and complex. Therefore a Maximum and an Absolute Maximum operating inputfrequency and a Minimum and an Absolute Minimum operating pulse width have been specified.OPERATING FREQUENCYThe Absolute Maximum Operating Frequency specification, tabulated in Table 1, determines the highest frequency of the delay line input signal that can be reproduced, shifted in time at the device output, with acceptable duty cycle distortion.The Maximum Operating Frequencyspecification determines the highest frequency of the delay line input signal for which the output delay accuracy is guaranteed.To guarantee the Table 1 delay accuracy for input frequencies higher than the Maximum Operating Frequency , the 3D7323 must be tested at the user operating frequency.Therefore, to facilitate production and device identification, the part number will include a custom reference designator identifying the intended frequency of operation. Theprogrammed delay accuracy of the device is guaranteed, therefore, only at the user specified input frequency. Small input frequency variation about the selected frequency will only marginally impact the programmed delay accuracy, if at all. Nevertheless, it is strongly recommended that the engineering staff at DATA DELAY DEVICES be consulted.OPERATING PULSE WIDTHThe Absolute Minimum Operating Pulse Width (high or low) specification, tabulated in Table 1, determines the smallest Pulse Width of the delay line input signal that can bereproduced, shifted in time at the device output, with acceptable pulse width distortion.The Minimum Operating Pulse Width (high or low) specification determines the smallest Pulse Width of the delay line input signal for which the output delay accuracy tabulated in Table 1 is guaranteed.To guarantee the Table 1 delay accuracy for input pulse width smaller than the Minimum Operating Pulse Width , the 3D7323 must be tested at the user operating pulse width. Therefore, to facilitate production and device identification, the part number will include aO1I1Dela y Dela y Dela yO2I2O3I3Temp & VDD Compensatio VDDGND Figure 1: 3D7323 Functional DiagramAPPLICATION NOTES (CONT’D)custom reference designator identifying the intended frequency and duty cycle of operation. The programmed delay accuracy of the device is guaranteed, therefore, only for the user specified input characteristics. Small input pulse width variation about the selected pulse width will only marginally impact the programmed delay accuracy, if at all. Nevertheless, it is strongly recommended that the engineering staff at DATA DELAY DEVICES be consulted. POWER SUPPLY AND TEMPERATURE CONSIDERATIONS The delay of CMOS integrated circuits is strongly dependent on power supply and temperature. The monolithic 3D7323 programmable delay line utilizes novel and innovative compensation circuitry to minimize the delay variations induced by fluctuations in power supply and/or temperature.The thermal coefficient is reduced to 300 PPM/C, which is equivalent to a variation , over the -40C to 85C operating range, of ±3% from the room-temperature delay settings and/or1.0ns, whichever is greater. The power supply coefficient is reduced, over the 4.75V to 5.25V operating range, to ±1% of the delay settings at the nominal 5.0VDC power supply and/or2.0ns, whichever is greater. It is essential that the power supply pin be adequately bypassed and filtered. In addition, the power bus should be of as low an impedance construction as possible. Power planes are preferred.DEVICE SPECIFICATIONSTABLE 2: ABSOLUTE MAXIMUM RATINGSPARAMETER SYMBOL MIN MAXUNITSNOTES DC Supply Voltage V DD -0.3 7.0 VInput Pin Voltage V IN -0.3V DD+0.3 VInput Pin Current I IN -1.0 1.0 mA25C Storage Temperature T STRG -55 150 CLead Temperature T LEAD300 C10secTABLE 3: DC ELECTRICAL CHARACTERISTICS(-40C to 85C, 4.75V to 5.25V)PARAMETER SYMBOLMINMAXUNITSNOTES Static Supply Current* I DD 5mA High Level Input Voltage V IH 2.0 VLow Level Input Voltage V IL0.8V High Level Input Current I IH -1 1 µA V IH = V DDLow Level Input Current I IL -1 1 µA V IL = 0VHigh Level Output Current I OH-4.0mAV DD = 4.75VV OH = 2.4V Low Level Output Current I OL 4.0 mAV DD = 4.75VV OL = 0.4V Output Rise & Fall Time T R & T F 2 ns C LD = 5 pf*I DD(Dynamic) = 3 * C LD * V DD * F Input Capacitance = 10 pf typical where: C LD = Average capacitance load/line (pf) Output Load Capacitance (C LD) = 25 pf maxF = Input frequency (GHz)SILICON DELAY LINE AUTOMATED TESTINGTEST CONDITIONSINPUT: OUTPUT:Ambient Temperature: 25o C ± 3oC R load : 10K Ω ± 10%Supply Voltage (Vcc): 5.0V ± 0.1V C load : 5pf± 10% Input Pulse: High = 3.0V ± 0.1V Threshold: 1.5V (Rising & Falling) Low = 0.0V ± 0.1V Source Impedance: 50Ω Max. 10K Ω470Ω5pfDevice Under Test Digital Scope Rise/Fall Time: 3.0 ns Max. (measuredbetween 0.6V and 2.4V ) Pulse Width: PW IN = 1.25 x Total DelayPeriod: PER IN = 2.5 x Total DelayNOTE: The above conditions are for test only and do not in any way restrict the operation of the device.Figure 2: Test SetupFigure 3: Timing Diagramt PLHt PHLPER INPW INt RISEt FALL0.6V0.6V1.5V 1.5V2.4V 2.4V 1.5V1.5VV IHV ILV OHV OLINPUT SIGNALOUTPUT SIGNAL。

_______________General DescriptionThe MAX3238 true RS-232 transceiver achieves a 1µA supply current with Maxim’s revolutionary AutoShutdown Plus™ feature. When the device does not sense a valid signal transition on either the receiver or transmitter inputs within 30sec, the on-board power supply and drivers shut down. This occurs if the RS-232cable is disconnected or if the transmitters of the con-nected peripheral are inactive. The system turns on again when a valid transition is applied to any RS-232receiver or transmitter input, saving power without changes to the existing BIOS or operating system. The MAX3238 5-driver/3-receiver complete serial port is a 3V-powered EIA/TIA-232 and V.28/V.24 communica-tions interface intended for notebook or subnotebook computer applications. A proprietary, high-efficiency,dual charge-pump power supply and a low-dropout transmitter combine to deliver true RS-232 performance from a single +3.0V to +5.5V supply. A guaranteed data rate of 250kbps provides compatibility with popu-lar software for communicating with personal comput-ers. The MAX3238 requires only 0.1µF capacitors in 3.3V operation. It is ideal for 3.3V-only systems, mixed 3.3V and 5.0V systems, or 5V-only systems that require true RS-232 performance.Receiver R1 has an extra, always-active output (in addi-tion to its standard output), which allows external devices, such as a modem, to be monitored without for-ward biasing the protection diodes in circuitry that may have V CC completely removed.The MAX3238 is available in a space-saving SSOP package.________________________ApplicationsNotebook, Subnotebook, and Palmtop ComputersHigh-Speed Modems Battery-Powered Equipment Hand-Held Equipment Peripherals PrintersAutoShutdown Plus i s a trademark of Maxim Integrated Products.____________________________Featureso 1µA Supply Current Achieved with AutoShutdown Plus o Guaranteed Data Rate: 250kbps o 1µA Low-Power Shutdowno Receivers Active in AutoShutdown Plus Mode o Flow-Through Pinouto Meets EIA/TIA-232 Specifications Down to 3.0V o Guaranteed 6V/µs Slew RateMAX3238+3.0V to +5.5V , 1µA, up to 250kbps, True RS-232 Transceiver with AutoShutdown Plus________________________________________________________________Maxim Integrated Products1__________________Pin Configuration19-1144; Rev 1; 10/02Typical Operating Circuit appears at end of data sheet.For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .M A X 3238+3.0V to +5.5V , 1µA, up to 250kbps, TrueRS-232 Transceiver with AutoShutdown Plus 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = +3.0V to +5.5V; C1–C4 = 0.1µF (tested at 3.3V ±5%), C1–C4 = 0.22µF (tested at 3.3V ±10%), C1 = 0.047µF and C2–C4 = 0.33µF (tested at 5.0V ±10%); T A = T MIN to T MAX ; unless otherwise noted. Typical values are at T A = +25°C.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.V CC ...........................................................................-0.3V to +6V V+ (Note 1)...............................................................-0.3V to +7V V- (Note 1)................................................................+0.3V to -7V V+ + |V-| (Note 1).................................................................+13V Input VoltagesT_IN, FORCEOFF , FORCEON..............................-0.3V to +6V R_IN.................................................................................±25V Output VoltagesT_OUT...........................................................................±13.2V R_OUT, INVALID ....................................-0.3V to (V CC + 0.3V)Short-Circuit DurationT_OUT (one at a time)............................................Continuous Continuous Power Dissipation (T A = +70°C)SSOP (derate 9.52mW/°C above +70°C)....................762mW Operating Temperature RangesMAX3238CAI ......................................................0°C to +70°C MAX3238EAI....................................................-40°C to +85°C Storage Temperature Range ............................-65°C to +160°C Lead Temperature (soldering, 10s) ................................+300°CNote 1:V+ and V- can have a maximum magnitude of +7V, but their absolute difference can not exceed +13V.MAX3238+3.0V to +5.5V , 1µA, up to 250kbps, True RS-232 Transceiver with AutoShutdown Plus_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS (continued)(V CC = +3.0V to +5.5V; C1–C4 = 0.1µF (tested at 3.3V ±5%), C1–C4 = 0.22µF (tested at 3.3V ±10%), C1 = 0.047µF and C2–C4 = 0.33µF (tested at 5.0V ±10%); T A = T MIN to T MAX ; unless otherwise noted. Typical values are at T A = +25°C.)Note 2: A transmitter/receiver edge is defined as a transition through the transmitter/receiver input logic thresholds.______________________________________________________________Pin Description7.5-5.0-7.5100030005000TRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCE-2.55.0LOAD CAPACITANCE (pF)T R A N S M I T T E R O U T P U T V O L T A G E (V )200040002.5014420100030005000SLEW RATEvs. LOAD CAPACITANCE612S L E W R A T E (V /µs )LOAD CAPACITANCE (pF)200040001087020100100030005000SUPPLY CURRENT vs. LOAD CAPACITANCEWHEN TRANSMITTING DATA3060S U P P L Y C U R R E N T (m A )LOAD CAPACITANCE (pF)200040005040__________________________________________Typical Operating Characteristics(V CC = +3.3V, 250kbps data rate, 0.1µF capacitors, all transmitters loaded with 3k Ω, T A = +25°C, unless otherwise noted.)M A X 3238+3.0V to +5.5V , 1µA, up to 250kbps, TrueRS-232 Transceiver with AutoShutdown Plus 4_______________________________________________________________________________________Positive Terminal of Voltage-Doubler Charge-Pump CapacitorC1+28+5.5V Generated by the Charge PumpV+27+3.0V to +5.5V Supply Voltage V CC 26NAME FUNCTION1C2+Positive Terminal of Inverting Charge-Pump Capacitor 2GND GroundPIN3C2-Negative Terminal of Inverting Charge-Pump Capacitor 4V--5.5V Generated by the Charge Pump 14FORCEOFFForce-Off Input. Drive low to shut down transmitters, receivers (except R1OUTB), and on-board supply. This overrides AutoShutdown Plus and FORCEON (Table 1).13FORCEONForce-Off Input. Drive high to override AutoShutdown Plus, keeping transmitters and receivers on (FORCEOFF must be high) (Table 1).8, 9, 11R_IN RS-232 Receiver Inputs (R1IN–R3IN)5, 6, 7, 10, 12T_OUT RS-232 Transmitter Outputs (T1OUT–T5OUT)25C1-Negative Terminal of Voltage-Doubler Charge-Pump Capacitor 18, 20, 21R_OUT TTL/CMOS Receiver Outputs (R3OUT–R1OUT)17, 19, 22, 23, 24T_IN TTL/CMOS Transmitter Inputs (T5IN–T1IN)16R1OUTB Noninverting Complementary Receiver Output. Always active.15INVALID Output of the Valid Signal Detector. A logic “1” indicates if a valid RS-232 level is present on receiver inputs.MAX3238+3.0V to +5.5V , 1µA, up to 250kbps, True RS-232 Transceiver with AutoShutdown Plus_______________________________________________________________________________________5_______________Detailed DescriptionDual Charge-Pump Voltage ConverterThe MAX3238’s internal power supply consists of a reg-ulated dual charge pump that provides output voltages of +5.5V (doubling charge pump) and -5.5V (inverting charge pump), regardless of the input voltage (V CC )over the 3.0V to 5.5V range. The charge pumps operate in a discontinuous mode: if the output voltages are less than 5.5V, the charge pumps are enabled; if the output voltages exceed 5.5V, the charge pumps are disabled.Each charge pump requires a flying capacitor (C1, C2)and a reservoir capacitor (C3, C4) to generate the V+and V- supplies.RS-232 TransmittersThe transmitters are inverting level translators that con-vert CMOS-logic levels to 5.0V EIA/TIA-232 levels. The MAX3238 transmitters guarantee a 250kbps data rate with worst-case loads of 3k Ωin parallel with 1000pF ,providing compatibility with PC-to-PC communication software (such as LapLink™). Transmitters can be par-alleled to drive multiple receivers. F igure 1 shows a complete system connection.LapLink is a trademark of Traveling Software.When FORCEOFF is driven to ground, the transmitters and receivers are disabled and the outputs go high impedance, except for R1OUTB. When the Auto-Shutdown Plus circuitry senses that all receiver and transmitter inputs are inactive for more than 30sec, the transmitters are disabled and the outputs go into a high-impedance state, but the receivers remain active.When the power is off, the MAX3238 permits the out-puts to be driven up to ±12V.The transmitter inputs do not have pull-up resistors.Connect unused inputs to GND or V CC .RS-232 ReceiversThe receivers convert RS-232 signals to CMOS-logic output levels. All receivers have inverting three-state outputs and are inactive in shutdown (FORCEOFF )(Table 1). The MAX3238 also features an extra, always-active noninverting output, R1OUTB. This extra output monitors receiver activity while the other receivers are high impedance, allowing Ring Indicator to be moni-tored without forward biasing other devices connected to the receiver outputs. This is ideal for systems where V CC is set to 0V in shutdown to accommodate peripher-als, such as UARTs (Figure 2).Table 1. Output Control Truth TableFORCEONF O R C E O F FAUTOSHUTDOWNPLUS*OPERATION STATUS T_OUTR_OUTR1OUTBX 0XShutdown (Forced Off)High-Z High-Z Active11X Normal Operation (Forced On)Active Active Active01<30sec*Normal Operation(AutoShutdown Plus)Active Active Active01>30sec*Shutdown(AutoShutdown Plus)High-Z Active ActiveX = Don’t Care*Time since last receiver or transmitter input transition.M A X 3238+3.0V to +5.5V , 1µA, up to 250kbps, TrueRS-232 Transceiver with AutoShutdown Plus 6_______________________________________________________________________________________AutoShutdown Plus Mode1µA supply current is achieved with Maxim’s AutoShutdown Plus feature, which operates when FORCEOFF is high and F ORCEON is low. When the MAX3238 senses no valid signal transitions on all receiver and transmitter inputs for 30sec, the on-board power supply and drivers are shut off, reducing supply current to 1µA. This occurs if the RS-232 cable is dis-connected or if the connected peripheral transmitters are turned off. The system turns on again when a valid transition is applied to any RS-232 receiver or transmit-ter input. As a result, the system saves power without changes to the existing BIOS or operating system. The INVALID output is high when the receivers are active.Since INVALID indicates the receiver inputs’ condition,it can be used in any mode (Figure 3).Figure 1. Interface Under Control of PMUFigure 2. The MAX3238 detects RS-232 activity when the UART and interface are shut down.MAX3238+3.0V to +5.5V , 1µA, up to 250kbps, True RS-232 Transceiver with AutoShutdown Plus_______________________________________________________________________________________7Tables 1 and 2 and Figure 3 summarize the MAX3238’s operating modes. FORCEON and FORCEOFF override the automatic circuitry and force the transceiver into its normal operating state or into its low-power standby state. When neither control is asserted, the IC enters AutoShutdown Plus mode and selects between these states automatically, based on the last receiver or transmitter input edge received.When shut down, the device’s charge pumps turn off,V+ decays to V CC, V- decays to ground, and the trans-mitter outputs are disabled (high impedance). The time required to exit shutdown is typically 25µs (Figure 4b).Software-Controlled ShutdownIf direct software control is desired, use INVALID to indicate DTR or Ring Indicator signal. Tie FORCEOFF and F ORCEON together to bypass the AutoShutdown feature so the line acts like a SHDN input.__________Applications InformationCapacitor SelectionThe capacitor type used for C1–C4 is not critical for proper operation; polarized or nonpolarized capacitors can be used. The charge pump requires 0.1µF capaci-tors for 3.3V operation. F or other supply voltages, see Table 3 for required capacitor values. Do not use val-ues smaller than those listed in Table 3. Increasing the capacitor values (e.g., by a factor of 2) reduces ripple on the transmitter outputs and slightly reduces power consumption. C2, C3, and C4 can be increased without changing C1’s value. However, do not increase C1without also increasing the values of C2, C3, C4,and C BYPASS ,to maintain the proper ratios (C1 to the other capacitors).Table 2. I N V A L I D Truth TableFigure 3a. INVALID Functional Diagram, INVALID LowFigure 3b. INVALID Functional Diagram, INVALID HighFigure 3c. AutoShutdown Plus LogicFigure 3d. Power-Down LogicLNoH Yes I N V A L I D OUTPUTRS-232 SIGNAL PRESENT ATANY RECEIVER INPUTWhen using the minimum required capacitor values,make sure the capacitor value does not degrade excessively with temperature. If in doubt, use capaci-tors with a larger nominal value. The capacitor’s equiv-alent series resistance (ESR), which usually rises at low temperatures, influences the amount of ripple on V+and V-.M A X 3238+3.0V to +5.5V , 1µA, up to 250kbps, TrueRS-232 Transceiver with AutoShutdown Plus 8_______________________________________________________________________________________Figure 4a. Receiver Positive/Negative Thresholds for INVALIDFigure 4b. AutoShutdown Plus and INVALID Timing DiagramPower-Supply DecouplingIn applications that are sensitive to power-supply noise,decouple V CC to ground with a capacitor of the same value as capacitors C2, C3, and C4. Connect the bypass capacitor as close to the IC as possible.Transmitter Outputs whenExiting ShutdownF igure 5 shows two transmitter outputs when exiting shutdown mode. As they become active, the outputs are shown going to opposite RS-232 levels (one trans-mitter input is high, the other is low). Each transmitter is loaded with 3k Ωin parallel with 2500pF. The transmitter outputs display no ringing or undesirable transients as they come out of shutdown. Note that the transmitters are enabled only when the magnitude of V- exceeds approximately 3V.High Data RatesThe MAX3238 maintains the RS-232 ±5.0V minimum transmitter output voltage even at high data rates.F igure 6 shows a transmitter loopback test circuit.Figure 7 shows a loopback test result at 120kbps, and Figure 8 shows the same test at 250kbps. For Figure 7,all transmitters were driven simultaneously at 120kbps into RS-232 loads in parallel with 1000pF. For Figure 8,a single transmitter was driven at 250kbps, and all transmitters were loaded with an RS-232 receiver in parallel with 1000pF.Interconnection with 3V and 5V LogicThe MAX3238 can directly interface with various 5V-logic families, including ACT and HCT CMOS. See Table 4 for more information on possible combinations of interconnections.MAX3238+3.0V to +5.5V , 1µA, up to 250kbps, True RS-232 Transceiver with AutoShutdown Plus_______________________________________________________________________________________9V CC = 3.3V C1 - C4 = 0.1µF5µs/div2V/div2V/divT2OUTT1OUTFigure 5. Transmitter Outputs when Exiting Shutdown or Powering UpTable 4. Logic Family Compatibility with Various Supply VoltagesSYSTEM POWER-SUPPLY VOLTAGE(V)V CC SUPPLY VOLTAGE(V)COMPATIBILITY3.3 3.3Compatible with all CMOS families.55Compatible with all TTL and CMOS families.5 3.3Compatible with ACT and HCT CMOS, and with AC, HC, or CD4000 CMOS.Figure 6. Loopback Test CircuitM A X 3238+3.0V to +5.5V , 1µA, up to 250kbps, TrueRS-232 Transceiver with AutoShutdown Plus 10______________________________________________________________________________________V CC = 3.3V C1 - C4 = 0.1µF C LOAD = 1000pF2µs/div5V 0V0V 0V+5V 5V -5V Figure 8. Loopback Test Result at 250kbpsV CC = 3.3V C1 - C4 = 0.1µF C LOAD = 1000pF2µs/div+5V-5V Figure 7. Loopback Test Result at 120kbps ___________________Chip InformationTRANSISTOR COUNT: 1404MAX3238+3.0V to +5.5V , 1µA, up to 250kbps, True RS-232 Transceiver with AutoShutdown Plus______________________________________________________________________________________11__________Typical Operating CircuitMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.12__________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600©2002 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.M A X 3238+3.0V to +5.5V , 1µA, up to 250kbps, TrueRS-232 Transceiver with AutoShutdown PlusPackage Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)。

A card reader for all the popular card typesFully supporting the mainstream SD, microSD and CompactFlash memory cards, the RDF8 card reader can handle virtually any data transfer. You can even plug in three cards at the same time, effortlessly transferring music, videos, images, and other digital files with one compact card reader!USB Type-A for great devicecompatibilityThe RDF8 card reader is equipped with a micro USB(USB 3.1 Gen 1) port and includes a micro USB toUSB Type-A cable to transfer data between your SD,microSD or CompactFlash memory card and yourcomputer.Blazing-fast transfer speedsTaking full advantage of the USB 3.1 Gen 1 interfacefor fast transfers, Transcend's RDF8 card reader willunleash the full potential of your high-speed flashcards. In addition, the RDF8 has an LED indicator toshow card insertion and data transfer activity.Card ReadersRDF8Unleash the full potential of your high-speed memory cards with Transcend's RDF8 card reader. By supporting SDXC/SDHC UHS-I, microSDXC/SDHC UHS-I and CompactFlash memory cards, Transcend's RDF8 card reader combined with the performance boost of advanced USB 3.1 Gen 1 technology is the professional's choice for fast andefficient data transfer.Card ReadersRDF8FeaturesUSB 3.1 Gen 1 interfaceSupports SD, microSD, and CompactFlash cardsCompact and portable designConvenient LED indicatorRecoveRxRecoveRx is a data recovery software formemory cards, USB flash drives, externalhard drives and SSDs.SpecificationsAppearanceDimensions67.6 mm x 45 mm x 15.2 mm (2.66" x 1.77" x 0.60")Weight32 g (1.13 oz)Color Black /WhiteInterfaceUSB Type micro USB to USB Type AConnection Interface USB 3.1 Gen 1HardwareCard Reader Slot(s)SD /microSD /CompactFlashOperating EnvironmentOperating Temperature0°C (32°F) ~ 70°C (158°F)Operating Voltage5VPerformanceNote Speed may vary due to host hardware, software, usage, and storagecapacity.WarrantyCertificate CE /FCC /BSMI /KC /RCM /EACWarranty Two-year Limited WarrantySystem RequirementOperating System Microsoft Windows 7Microsoft Windows 8Microsoft Windows 10Mac OS X 10.2.8 or laterLinux Kernel 2.6.30 or laterCompatibilityMemory Card Supported SDHC (UHS-I) /SDXC (UHS-I) /microSDHC (UHS-I) /microSDXC(UHS-I) /CompactFlash (UDMA7)Ordering Information0MB TS-RDF8K2TS-RDF8W2Product specifications are subject to change without notice. Pictures shown may differ from actual products. Total accessible capacity varies depending on operating environment.。

DEL-TM3DI8i s c l a im e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n sProduct datasheetCharacteristicsTM3DI8module TM3 - 8 inputsMainRange of productModicon TM3Product or component type Discrete input module Range compatibilityModicon M221Modicon M251Modicon M241Discrete input number 8 input conforming to IEC 61131-2 Type 1Discrete input logic Sink or source (positive/negative)Discrete input voltage 24 VDiscrete input current7 mA for inputComplementaryDiscrete I/O number 8Current consumption5 mA at 5 V DC via bus connector at state off 0 mA at 24 V DC via bus connector at state on 0 mA at 24 V DC via bus connector at state off 24 mA at 5 V DC via bus connector at state on Discrete input voltage type DCVoltage state1 guaranteed 15...28.8 V for input Current state 1 guaranteed >= 2.5 mA for input Voltage state 0 guaranteed 0...5 V for input Current state 0 guaranteed <= 1 mA for input Input impedance 3.4 kOhm Response time 4 ms for turn-on 4 ms for turn-off Local signalling Green for input statusElectrical connection Removable screw terminal block pitch 5.08 mm with 11 terminal(s) of 2.5 mm² connection capacity for inputsCable length <= 30 m unshielded cable for regular input Insulation Non-insulated between inputs500 V AC between input and internal logic MarkingCEMounting supportTop hat type TH35-15 rail conforming to IEC 60715Top hat type TH35-7.5 rail conforming to IEC 60715Plate or panel with fixing kit Height 90 mm Depth 84.6 mm Width27.4 mm Product weight0.085 kgEnvironmentStandardsEN/IEC 61131-2EN/IEC 61010-2-201Product certificationsCULus C-TickResistance to electrostatic discharge 4 kV (on contact) conforming to EN/IEC 61000-4-28 kV (in air) conforming to EN/IEC 61000-4-2Resistance to electromagnetic fields10 V/m at 80 MHz...1 GHz conforming to EN/IEC 61000-4-33 V/m at 1.4 GHz...2 GHz conforming to EN/IEC 61000-4-31 V/m at 2 GHz...3 GHz conforming to EN/IEC 61000-4-3Resistance to magnetic fields 30 A/m at 50...60 Hz conforming to EN/IEC 61000-4-8Resistance to fast transients 1 kV for I/O conforming to EN/IEC 61000-4-4Surge withstand1 kV for I/O (DC) in common mode conforming to EN/IEC 61000-4-5Resistance to conducted disturbances,induced by radio frequency fields 10 Vrms at 0.15...80 MHz conforming to EN/IEC 61000-4-63 Vrms at spot frequency (2, 3, 4, 6.2, 8.2, 12.6, 16.5, 18.8, 22, 25 MHz) conforming to Marine specification (LR, ABS, DNV, GL)Electromagnetic emissionRadiated emissions, test level: 40 dBμV/m QP with class A, condition of test: 10 m (radio frequency:30...230 MHz) conforming to EN/IEC 55011Radiated emissions, test level: 47 dBμV/m QP with class A, condition of test: 10 m (radio frequency:230 MHz...1 GHz) conforming to EN/IEC 55011Ambient air temperature for operation -10...55 °C for horizontal installation -10...35 °C for vertical installation Ambient air temperature for storage -25...70 °CRelative humidity 10...95 % without condensation in operation 10...95 % without condensation in storage IP degree of protection IP20 with protective cover in place Pollution degree 2Operating altitude 0...2000 m Storage altitude 0...3000 mVibration resistance3.5 mm (vibration frequency: 5...8.4 Hz) on DIN rail 3 gn (vibration frequency: 8.4...150 Hz) on DIN rail 3.5 mm (vibration frequency:5...8.4 Hz) on panel 3 gn (vibration frequency: 8.4...150 Hz) on panel Shock resistance15 gn (test wave duration:11 ms)Offer SustainabilitySustainable offer status Green Premium productRoHS (date code: YYWW)Compliant - since 1348 - Schneider Electric declaration of conformity Schneider Electric declaration of conformity REAChReference not containing SVHC above the threshold Reference not containing SVHC above the threshold Product environmental profileAvailableProduct environmental Product end of life instructionsAvailableEnd of life manualProduct datasheetDimensions DrawingsTM3DI8Dimensions(*)8.5 mm/0.33 in. when the clamp is pulled out.Product datasheetTM3DI8 Mounting and ClearanceSpacing RequirementsProduct datasheetTM3DI8 Mounting and ClearanceMounting on a RailIncorrect MountingProduct datasheetTM3DI8 Mounting and ClearanceMounting on a Panel Surface(1)Install a mounting stripMounting Hole LayoutProduct datasheetConnections and SchemaTM3DI8Digital Input Module (8-channel, 24 Vdc)Wiring DiagramThe 3 COM terminals are connected internally.(A)Sink wiring (positive logic)(B)Souce wiring (negative logic)DEL-TM3DI8。