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High Power LightingSolutions GuideBY Jacken Zhang (K3672)2008/8/71Lighting of The World2008/8/72Lighting History2008/8/732008/8/74Light source efficiency>10015206020080光效2008/8/75LED Lighting Products2008/8/76Brands with LightingLED DriversDC to DC section2008/8/771: Step-down LED driver—CAT4201•6-28V 宽电压工作范围•最多可驱动1W*7颗LED•Buck工作方式，高效率•电流设定恒流精度高•封装小，空间利用率高•可并联使用，驱动功率可倍增•驱动电流0~350m A2008/8/782008/8/79—ZXLD13602008/8/710—ZXLD1320•4-18V 宽电压工作范围•Buck 工作方式，高效率•电流设定恒流精度高•封装小，空间利用率高•最大驱动电流1.5A4:Step-up LED driver—CAT4240•升压工作方式•最多可驱动1W*6颗LED•BOOST工作方式，高效率•电流设定FB=300mV,低功耗•封装小，空间利用率高•驱动电流0~350m A2008/8/7112008/8/712•3-18V 升压工作模式•可驱动3颗LED•BOOST 工作方式,高效率•2*2*0.8 QFN 小封装5:High Brightness White LED Driver—TPS61165新的升降压Cuk拓扑电路2008/8/7132008/8/7146: 1A Step-up LED driver—ZXLD13212008/8/715• 4.5-52V 宽电压工作范围•Boost 工作方式，高效率•电流设定恒流精度高•封装小，空间利用率高•驱动电流无限制7: 4-52V Step-up LED driver—TPS402112008/8/716• 1.8-5.5V 电压工作范围•Buck-Boost 工作方式，高效率•电流设定恒流精度高•封装小，空间利用率高•驱动电流较大8: Low voltage Buck-boost LEDdriver—TPS630002008/8/7179: 700mA Buck-boost LEDdriver—ZXLD13222008/8/718特征•最大电流1.5A,最大输入电压40V •SOP8封裝•过流过热保护•升压和降压均可实现.10: 1.5A/40V LED driver—NCP3065参考应用图表-NCP30652008/8/7192008/8/72011:1.5A/40V DC/DC converter—NCP3063•该方案同时实现升降压,满足电源输入的宽范围.•过压保护•恒流调节12: Constant voltage & constant currentdevice---TSM1051TSM10512008/8/72113:1A/25v No inductor LED Driver—CAT4101•驱动脚最高耐压25V•最大驱动电流可达1A•外置电阻调节电流•电路简洁,无干扰•PWM控制2008/8/72214:3-CH 25V/175mA RGBLED Driver—CAT4103•每通道最高耐压可达25V•每通道电流外置电阻调节•四线信号控制,全彩变化•每通道最大电流175mA•电路简洁,应用便利2008/8/7232008/8/724RouterRouter 广告屏幕Block DiagramRouterRouter RouterRouter ……1234576150……1234576150……1234576150Lamp serialLampVinGNDBinLin Din CinBout Lout Dout CoutVoutGNDControl System2008/8/72515:4-Bit Power-LED Driver —STP04CM596SDISDO\OE LE CLKVinVddRG RBMax500mAR-EXT•每通道最高耐压16V •外置电阻调节电流•四线信号控制,全彩变化•每通道驱动电流80-500mA•电路简洁,应用便利2008/8/72616: 24-Bit Constant current LEDsink driver—STP24DP05•每通道最高耐压7V •外置电阻调节RGB 电流•四线信号控制,全彩变化•每通道驱动电流5-80mA17: Low Cost Analog LEDdriver--NCP4001特征•最大电流1.5A,最大输入电压40V•SOP8封裝•过流过热保护•升压和降压均可实现. 2008/8/727手电筒Block DiagramBatteryLED Driver NCP1421LED DriverNCP1400CAT4139TPS61160TPS610812008/8/72818:Low Voltage LED driver--NCP11002008/8/72919:Low Voltage High CurrentLED driver--NCP14212008/8/730洗墙灯 Block DiagramControl SystemPower AC/DCLampHigh High current current LED LED Driver Driver3 3 bits bits LED LED Driver DriverHigh High current current LED LED Driver DriverHigh High current current LED LED Driver Driver2008/8/7Next Lamp31Applications•洗墙灯 •投射灯 •埋地灯 •GPS屏 •大功率手电筒 •汽车照明 •交通灯 •矿灯照明 •LED装饰照明 •其他应用2008/8/7 32LED Drivers AC to DC section2008/8/7331: 1-5W AC/DC LED driver —ACT352008/8/734Green Power特点: 特点: 1:2008/8/71: 1:前端反饋，無須光耦 前端反饋，無須光耦 2: 2:用更便宜的小封裝三极管来替代大功率 用更便宜的小封裝三极管来替代大功率 MOSFET MOSFET 3: BC 端有更高的耐压值 ,更安全 3:三极管 三极管 BC 端有更高的耐压值 ,更安全 4: 贴片小封装 ,可节省更多空间 4:SOT23-6 SOT23-6 贴片小封装 ,可节省更多空间 5: 5:可實現恒壓，也可實現恒流 可實現恒壓，也可實現恒流 6: 6:后端輸出電壓在空載或負載無變化 后端輸出電壓在空載或負載無變化 7: 7:短路保護，過負載保護，過熱保護 短路保護，過負載保護，過熱保護特点 :: 特点352: <15w Integrated MOSFET LED driver—NCP1014/272008/8/7363: Off-line high voltage vonverters —Viper17/27特点 :: 特点1: 800v 1:集成 集成 800vMOSFET MOSFET 2: 封装 2:DIP7 DIP7 封装 3: 3:可實現恒壓设计 可實現恒壓设计 也可實現恒流设计 也可實現恒流设计 4: 4:短路保護，過負載保護， 短路保護，過負載保護， 過熱保護 過熱保護2008/8/7374: Transition-Mode PFC controller —L65622008/8/7385: Green Mode Power switch —FSD210/2112008/8/7396: PWM Current-Mode controller —NCP1377特点 :: 特点1: 1:Operation Operationfrequency frequencyup up to to300kHz 300kHz 2: 2:DIP7,SOP8 DIP7,SOP8package package 3: 3:No Noaudible audiblenoise noise 4: 4:OVP OVP& &OCP OCP 5: Internal 5: Internaltemperature temperature Shutdown Shutdown2008/8/7407: PFC High Power LED driver—NCP16512008/8/7418:High Voltage High brightness LED Driver ---FP6700特点 ::PIN 2008/8/7 特点 PINTO TOPIN PIN替代 替代HV9910 HV991042Some products2008/8/743相关资源LEDPTTC 保护器件2008/8/7 442008/8/7谢 謝 ！！！45。

UniPi technical documentation REV 1.1Contents Overview (2)Description (3)GPIO port map (4)Power Requirements (5)Connecting Raspberry Pi to UniPi (5)Building blocks (5)Relays (5)Digital Inputs (5)5-12V Step-up (internal 12V power supply) (6)Jumper settings (6)Analog Inputs (6)EEPROM (7)Analog Output (7)1Wire sensors (8)UART (8)I2C ports (9)Technical parameters (10)Onboard I2C ICs (10)Relays (10)Digital Inputs (10)Analog Output (10)Power Requirements (10)Dimensions (10)Revision History (11)Changes (11)OverviewUniPi is an add-on board for the Raspberry Pi (RPi). It features many components such as 12 (+2) digital inputs with LED signalization, two 0-10V analog inputs, one 0-10V analog output, changeover relays, single channel 1wire master controller and a real-time clock module.The two digital inputs 13,14 and the I2C_0 bus are meant to connect via the P5 header of RPi B (only) which is no longer available on newer Raspberry Pis (B+ and newer).We provide basic open-source Python library for interfacing the UniPi available on GitHub which is recommended to use.There are also many platforms and libraries that are compatible with UniPi:•REX – Industrial PLC automation tool•FHEM – Home automation GNU/GPL v.2 Perl server•Wyliodrin – Online visual programming service•HomeSeer – Another home automation system•Others… See www.unipi.technologyUniPi is fully compatible with Raspberry Pi (models A, A+, B, B+, B+ model 2) and mounting-hole compatible with BeagleBone Black. However we do not provide support for BeagleBone.Please note the UniPi is only compatible with Raspberry Pi model B rev 2. Connecting model B rev. 1 is also possible provided checking the Raspberry Pi official documentation.DescriptionMajor building blocks of UniPi:•Relays: 8 relays 250VAC@5A or 24VDC@5A – control switching elements•UART port: Standard serial port to connect serial console or many other devices (NFC readers, … )•1Wire port: Provides 1Wire bus interface to connect 1Wire devices such as temperature and humidity sensors•I2C port: For connecting other extension modules for example relay or analog output modules•I2C configuration pins: To connect the I2C_0 bus from the RPi (only for advanced users) •RTC (Real Time Clock) module: Provides real time in case of internet or power outage (backup battery not included in the package).•Power 5V: 2.1mm connector for power supply•RPI connector: 26-pin connector for Raspberry Pi•Digital inputs: 12(+2) galvanically isolated digital inputs for reading signals from external devices•12V out: Power supply 12V@200mA - only for use with digital inputs of the UniPi•Configurable ports: To configure digital inputs for use with external power source•Analog in: Two 0-10V analog inputs for reading analog signals from external devices•Analog out: One 0-10V analog output for proportional controlling•AO trimmer: For precise adjustment of the analog outputFigure 1 - The UniPiUniPi GPIO port mapTable 1 – Raspberry Pi P1 header mapTable 2 – Raspberry Pi P5 header mapUniPi RPi BCM Function DescriptionI13 GPIO31 Digital Input Digital InputI14 GPIO30 Digital Input Digital InputI2C0_SCL GPIO29 I2C0_SCLExternal I2C_1I2C0_SDA GPIO28 I2C0_SDATable 3 – MCP23008 pin mapPower RequirementsThere are two options of powering the UniPi board and Raspberry Pi:•Single power source (RPi and UniPi are powered from the same power source)•jumper JP1 mounted•5V DC 2A through the UniPi power connector (1.5A for UniPi + RPi requirements)•Please note that UniPi can only provide 750mA to the RPi (max 1.1A in newest versions of UniPi)•Raspberry Pi micro USB power connector not used•Dual power source (separate power source for each UniPi and Raspberry Pi)•jumper JP1 dismounted•Raspberry Pi powered from the micro USB port according to the RPi requirements•5V DC 1.5A through the UniPi power connectorAttention:•Powering the UniPi from the Raspberry Pi is not recommended and could damage the Raspberry Pi.•When using the Raspberry Pi in heavy load and multiple peripherals connected we recommend dual power source solution.Connecting Raspberry Pi to UniPiBefore the first use plug in a CR2032 battery to the battery holder.Connecting UniPi to Raspberry Pi is straight forward:1.Make sure you have properly configured the power jumper – see powering requirements2.Screw the spacers to the mounting holes of the UniPi3.Connect the provided flat cable to the RPi connector4.Screw the Raspberry Pi to the UniPi5.Connect the other end of the flat cable to the RPi (make sure it is not twisted)6.Plug in the power supplyBuilding blocksRelaysMaximum relay switching power is limited to 250V AC/5A or 24V DC/5A, voltages over this limit must be switched using external relay or contactor.Relays are controller by the MCP23008 (address 0x20), see map of MCP’s GPIO to relays in Table 3 . Each relay has a LED indicating its state.There are three contacts for each relay named CO (change-over or C=connected), NO (normally opened), NC (normally closed). By default contacts CO and NC are connected (NO is not connected), by switching the relay on, CO gets connected to NO (NC is disconnected).Digital InputsThese inputs can be triggered by 5-24V DC voltage with minimum pulse length of 5ms. For easy visual reading of their states all inputs are equipped with LED.When using the GPIOs make sure to set a software pull-up resistor on each GPIO to make it work properly otherwise state of the GPIO cannot be read properly.5-12V Step-up (internal 12V power supply)All inputs are primarily set to be driven by the internal 12V power supply. The 12V line is wired out via the orange connector marked as 12V. Do not exceed 200ma current draw.Jumper settingsIn case of using external power source, inputs must be configured by JP2 - JP5 jumpers. The configuration must be done before powering up the UniPi. Using the external power supply and proper jumper configuration provides galvanic isolation for its inputs.Jumper configuration when using external power source:•JP2o Switching this jumper to the side of the JP2 label causes the P02 (green connector) to act as an input for ground from the external power source. Otherwise P02 isconnected to the internal 12V.o This step must be done as first when changing jumper settings.o Please note that after this step, the GND of UniPi is connected to P02! Make sure to proceed with JP3 settings after this step.•JP3o When switched to the side of the JP3 label, inputs I01 and I02 act as inputs for signal from the connected peripheral device via the external power source.o The ground of power supply for this inputs must be connected to the P02.o Please note that to set I01 and I02 for ext. power source make sure to switch JP2 first and then JP3, after that you can safely connect the peripheral device.• JP4o When switched to the side of the JP4 label, inputs I03 and I04 act as inputs for signal from the connected peripherals via the external power source.o The ground of power supply for this inputs must be connected to P01.•JP5o When switched to the side of the JP5 label, inputs I05 - I14 act as inputs for signal from the connected peripherals via the external power source.o The ground of power supply for this inputs must be connected to P01.o Please note that I13 and I14 are wired out via the P5 header of Raspberry Pi (models before the PLUS versions).Analog InputsUniPi features two analog 0-10V input channels (via the MCP3422, address 0x68) marked as AI1 and AI2. Each channel has its own + and – (e.g. AI1+ and AI1-). The + connector expects positive voltage from the connected device and – expects the negative pole (the GND). The guaranteed accuracy is 5% however 1% is commonly reachable.To correctly calculate the input voltage, a coefficient of the resistor divider has to be taken into account. The coefficient of each channel is saved in EEPROM as single precision binary floating point format binary32 (IEEE 754). Before version 1.1 the coefficient is not saved in the EEPROM and thus must be calculated during conversion in software (Typically the value is around 5.56). See chapter EEPROM for more details. 1EEPROMUniPi features onboard EEPROM (24C02) for storing important information with 2k bit memory organized into single block of 256 * 8-bit. We reserve address space 0xe0 – 0xff the rest is left for user space. The rest of unused reserved bytes are nulled.1Table 4 - memory organizationStarting address Number of bytes Example Description0xe0 2 fa-55 UniPi identification0xe2 2 1.1 UniPi version0xf0 4 0x40b089c5 (5.516818) AI1 coefficient0xf4 4 0x40b08b44 (5.517) AI2 coefficientAnalog OutputAnalog output is driven by the GPIO 18 PWM signal and is designed to run at 400Hz. The GPIO port is galvanically isolated from the rest of the output. The maximum current driven from this output is 20mA. This output is meant to control 3rd party devices that can adjust its power according to the 0-10V. The precision of AO in UniPi v1.0 is +-5% but also depends of the Raspberry Pi CPU usage. External voltage must be connected to the AOV connector with maximum voltage of 35V DC. Make sure to adjust output voltage using the blue trimmer (labeled as R49) before connecting devices to avoid causing damage.Behavior of the AO has changed since the UniPi version 1.1 (incl.). Before that 100% duty cycle on PWM meant to output 0V, and 0% DC (or permanent low) meant 10V. But after the version 1.1 (including v 1.1) the process is different and more logic meaning 100% duty cycle is 10V and 0% is 0V. 11Wire sensorsUniPi features single channel 1Wire master controller (DS2482-100, address 0x18). The 1Wire bus is wired out via the RJ45 connector (see Table 5 for detailed description). The data line is ESD protected and the 5V power current is limited to 200mA.Table 5 - 1Wire RJ45 connectorUARTThe UART interface of Raspberry Pi is wired out via the RJ11 connector labeled UART. See Table 6 - UART RJ11 connector. This port does not have any protection, so make sure to be careful when connecting devices. Operating voltage of this port is 3V3.Table 6 - UART RJ11 connectorI2C portsRaspberry Pi has two I2C interfaces. The I2C _1 of the RPi is connected via the main P1 connector and does not need any special modification. All the onboard ICs are connected to this bus. The second I2C bus, I2C_0, is wired out via the P5 connector which needs to be soldered from the bottom of the Raspberry Pi. Please check our online tutorial for further information.The I2C _1 is by default wired out via the onboard RJ11 connector labeled I2C and features ESD protection. UniPi also features optional I2C port (labeled I2C_1) on the edge of the board but does not have any connector by default.Please note that the I2C_0 has been reserved for special purpose starting with RPi models + and thus is no longer recommended to use.1Table 7 - I2C RJ11 connectorUniPi Technical parametersOnboard I2C ICsAll onboard I2C chips are connected to the main bus.Table 8 - I2C chip addressesRelays•Version 1.0: 8x Omron G5LA-1-E: 250V AC/5A or 24V DC/5A•Version 1.1: 8x Finder 36.11.9.005.4001Digital Inputs•12(+2)x 5-24V DCAnalog Output•Maximum supply voltage: 35V•Maximum output current: 20mAPower Requirements•The main UniPi power connector is standard 2.1mm inner diameter, 5.5mm outer diameter •5V DC 2A in single power supply mode (JP1 connected)o Attention: UniPi can supply only 750mA (1.1A in newest version) to the RPi •When JP1 disconnectedo5V DC 1.5A for UniPio5V DC min 1A for Raspberry Pi (according to the RPi manual)DimensionsWidth: 198mmHeight: 86mmDepth: 16mm (without the RPi, cable and spacers)Weight: 0.21kgUniPi Revision HistoryRevision Release date Author1.0 6. 11. 2014 Tomas Hora1.1 4. 3. 2015 Tomas Hora & Imas NVChanges1 Introduced in version 1.1Thanks to Imas NV, Turnhout, Belgium for correction.Raspberry Pi is a trademark of the Raspberry Pi Foundation.。

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函数发生器模式可产生多种规则波形，如正弦、三角形、锯齿、矩形、脉冲、梯形和折线波、以及混合以上波形的组合波形，并将编辑好的波形叠加到输出电压或电流之上。

预设函数会为用户提供所有必须的参数，如基准、周期数、波形幅值、时间等一套完整的配置参数。

优威L5系列相机说明书UML5更多产品资讯请访问优威视讯官方网站：/优威UOV i s i o n目录1 关于本机 (1)1.1 产品介绍 ......................................................... 1 1.2 产品结构 ......................................................... 3 1.3 相关按键功能说明 ......................................... 6 2 相机快速使用 (7)2.1 安装电池 ......................................................... 7 2.2 安装SIM 卡 .................................................... 8 2.3 安装SD 卡 .................................................... 10 2.4 添加相机到云平台 ........................................11 2.5 测试相机与云平台的连接 ........................... 12 2.6 工作模式 ....................................................... 13 3 高级设置 (14)3.1 菜单设置 ....................................................... 14 3.2 程序升级 ....................................................... 18 3.3 外接电源 ....................................................... 18 3.4 太阳能充电 ................................................... 18 4 安装提示 .................................................................. 18 附录一: 技术规格 ....................................................... 20 附录二: 配件清单 . (22)优威UOV i s i o n1 关于本机 1.1 产品介绍⚫ LTE 4G/3G/2G 通讯功能，全网通制式 ⚫ 云端图像管理平台，安全便捷⚫ 最大50Mbps 高速上传高清原图与视频⚫▲可远程查看设备工作状态信息，包括电量、SD 卡容量、信号强度、流量卡流量、GPS 、服务器空间容量等信息，可对接第三方信息化系统⚫ ▲支持上传原文件、压缩视频，缩略图等，并支持断点续传⚫ ▲天线数量两根，以便有更好的信号 ⚫ ▲支持GPS 自动定位⚫ ▲最大支持3K （2560*1920）有声视频 ⚫ 自适应各种环境光线，保证图像品质⚫ ▲自动同步日期、时间及GPS 信息，免去繁锁的设置 ⚫ ▲换弹匣式的整体安装及更换电池方式，不受安装高度角度影响，更换电池方便快捷⚫ 支持拍照、录像、拍照+录像的工作模式⚫ ▲2.4寸高清屏，且可旋转，安装时方便查看监测区域 ⚫ ▲相机录像与拍照同步启动，启动时间小于0.5秒，完美解决录像中无动物问题⚫▲相机录像时同时完成拍照，省去拍照工作时间，缩短相机每次启动的工作时长，从而节省功耗优威UOV i s i o n⚫ IP68防水防尘设计，强抗冷热冲击性能，超强稳定性， ⚫ 镜头F=1.8大光圈镜头,FOV=58度及90度可选，宽光谱兼容性，高低温无变焦⚫ 超低功耗设计方案，100uA 超低待机电流⚫ ▲兼容12节AA 电池及6节18650，多种电压电池均可使用，支持太阳能充电⚫ 采用多区大感应面、高灵敏度、强抗干扰性PIR ，多级信号放大过滤设计， 有效避免误触发⚫ ▲支持PIR+移动智能双重检测，有效避免误触发⚫ ▲支持850nm 灯,无红曝940nm 灯，白光LED 灯，补光灯数量60个⚫ 自动调节曝光度，避免近距离过曝 ⚫ 高快门速度，有效抑制运动模糊 ⚫ PIR 灵敏度可调节：高、一般、低 ⚫ 一体式高稳定性IR-CUT 日夜切换器，提升彩色与黑白图像质量⚫ ▲最大可支持128GB SD 存储卡，兼容各种品牌 ⚫ 高品质录音设计，-38dB 灵敏度MIC⚫ 可显示丰富的照片信息,包括拍摄日期、时间、温度、月相、设备名称、经纬度等⚫ 专利仿生迷彩，防划伤脱落，强抗紫外防氧化变色 ⚫工作温度-30至+80摄氏度优威UOV i s i o n1.2 产品结构正面视图1：LTE 天线 2：镜头3：MIC4：环境光感应器 5：PIR 传感器6：红外灯优威UOV i s i o n操作页面视图7：USB 接口 8：SD 卡槽 9：开关 10：显示屏 11：按键优威UOV i s i o n内部及底部视图12：DC 接口 13：固定支架螺丝孔 14：电池仓 15：SIM 卡槽优威UOV i s i o n1.3相关按键功能说明威MENU2 相机快速使用 2.1 安装电池电池仓在相机内部，有两种规格：AA 电池仓、18650电池仓（相机只附带一种规格电池仓）AA 电池仓上半部分AA 电池仓底面AA 电池仓两端各位一组，每一组上方装4颗，下方装2颗，共6颗电池一组。

Mercedes BenzUnimog∙Edad: 37 – 96 meses∙Peso máximo: 30 kilos∙Este producto contiene partes pequeñas que deben ser ensambladas solo por un adulto. ∙Asegúrese de cargar la batería por 8b horas antes del primer uso.Mercedes‐Benz”, , y el diseño del producto adjunto están sujetos a protección de propiedad intelectual propiedad de Daimler AG.Son utilizados por Pinghu City Xiao Ming Xing Children's Products Co., Ltd. bajo licencia.Pinghu City Julong Children’s Commodity Factory es una fábrica de productos para niños que integra Investigación & Desarrollo, ingeniería, producción, control de calidad y ventas. Los productos principales son autos eléctricos y bicicletas para niños y otros productos. La compañía tiene varias líneas de producción profesional, con una producción anual que alcanza los cientos miles de vehículos.La compañía tiene un equipo profesional de ingeniería de Investigación & Desarrollo, el cual ha estado trabajando por muchos años, con completos equipos de prueba para asegurar la calidad de los productos fabricados por la compañía, los que cumplen completamente con los requerimientos de las normas nacionales.Modelo Batería: 12V7Ah (o 12V10Ah o 12V14Ah)Peso máximo: 30 kilosVelocidad: 3‐5 km/hCargador: DC 12V1000mAEdad: 37‐96 mesesTamaño Vehículo: 1080x800x880 mmTiempo Normal de Carga: 8‐12 horasFusible: WHPTCMotor: Motor de Dirección: 12V380#6600Motor Conducción: 12V 390#16000∙Después del uso del producto, regularmente debe revisar (se sugiere una vez cada dos semanas) los elementos principales, incluida la batería, dispositivo de carga, cables, revestimiento exterior, cambiador de circuito y válvula de cambio. Se debe revisar si las abrazaderas están sueltas. En caso de daños, se debe detener el uso del producto hasta que este solucionado.∙El vehículo debe limpiarse con un paño de algodón húmedo (sin gotas de agua). También se puede utilizar limpiador de muebles sin cera para mantener la superficie brillante y limpia. No utilice disolventes químicos para limpiar las partes plásticas del juguete para evitar que estas se disuelvan. El auto no puede ser limpiado con agua y jabón, ya que el agua dañará el motor y la batería, provocando cortocircuito del sistema eléctrico.∙Después de usarlo por un periodo de tiempo, favor lubrique las piezas de hierro para evitar la corrosión. El auto debe permanecer lejos de altas temperaturas y humedad, ya que las partes plásticas podrían derretirse. Cuando cargue, favor manténgase alejado de materiales inflamables para evitar fuego.∙Al detener el uso por un largo periodo de tiempo, favor corte el poder. Todos los cambiadores de circuito deben estar en “OFF” o “STOP”. La estructura y sistema de cables no pueden ser alterados sin autorización. La mantención y reemplazo de las partes cruciales debe ser supervisado por profesionales.∙En áreas donde el suministro de energía es inestable, se recomienda instalar un regulador de energía para proteger la batería. Cuando se recarga no utilice cables no incluidos con el productoN° NOMBRE N° NOMBRE N° NOMBRE1 Armazón 6 Asiento 11 Caja engranaje x2 (ox4)2 Reflector Trasero 7 Parabrisas 12 Arandela3 Defensa 8 Manubrio 13 Tuerca M10 x44 Respaldo asiento 9 Cubierta rueda x4 14 Amortiguador5 Sujetador bajo asiento 10 Rueda x4 15Asegúrese que todas las partes indicadas estén incluidas en la caja.Recomendamos guardar el embalaje hasta que la unidad este completamente ensamblada, para asegurar que no se pierden piezas.El armado del vehículo toma aproximadamente 30 minutos.Armado debe ser realizado por un adulto.ADVERTENCIA: Los niños pueden resultar lesionados por piezas pequeñas, bordes y puntas afiladas del vehículo desarmado o por elementos eléctricos.ADVERTENCIA: RIESGO DE ASFIXIA‐ partes pequeñas. No apto para niños.Herramientas requeridasDestornillador Phillips (no incluido), Alicate (no incluido)Llave Hexagonal (incluida), Llave Tubo (incluida)Opcional: Caja de Cambios *2 o Caja de Cambios *4Instale los amortiguadores delanteros y el eje delantero▪Instale el armazón en una superficie plana antes de armar.▪Retire el tornillo y la tuerca de la parte inferior de los amortiguadores. Coloque la parte inferior amortiguadores en el conducto “U” del eje. Vuelva a colocar el tornillo en los amortiguadores ajuste la tuerca con la llave hexagonal.▪Repita al otro lado.▪El tubo cuadrado del eje debe coincidir con el conducto, mientras que el orificio debe coincidir con el eje de dirección. Atornille la parte superior de los amortiguadores en el armazón con tornillos 4*12. ▪Inserte arandela 10MM en el eje de dirección. Deslice el resorte en el conducto del eje de direcciónInstale la caja de cambio delantera y la rueda delantera▪Inserte la caja de cambios en el eje delantero. Inserte el cableado de la caja de cambios en la interfaz de la caja de batería. (Nota: La caja de cambios está dividida en FL/FR). (Este paso es indicado para caja de cambios *4)▪Deslice la rueda, arandela 10MM en el eje delantero,atornille la tuerca con la llave de tubo. (Nota: Laprotuberancia de la rueda debe coincidir debecoincidir con la caja de cambios).▪Coloque la tapa de la rueda en la rueda, presionefirmemente hasta que encaje en su lugar.▪Repita al otro lado.Instale amortiguadores traseros▪ Retire el tornillo y la tuerca de la parte inferior de losamortiguadores. Coloque la parte inferioramortiguadores en el conducto “U” del eje.▪ Vuelva a colocar el tornillo en los amortiguadoresajuste la tuerca con la llave hexagonal.▪ Repita al otro lado.Instale las ruedas traseras▪ Inserte el eje trasero en el orificio del soporteposterior.▪ Inserte arandela 12MM , caja de cambios, rueda,arandela 10MM, tuerca en el eje trasero. ((Nota: Lacaja de cambios está dividida en FL/FR. Laprotuberancia de la rueda debe coincidir debecoincidir con la caja de cambios).▪ Repita al otro lado.▪ Coloque la tapa de la rueda en la rueda, presionefirmemente hasta que encaje en su lugar.▪ Repita al otro lado.Instale el sujetador bajo el asiento▪ Coloque la parte inferior del sujetador bajo el asientoen el armazón del auto, presione hacia abajo.▪ Atornilleambos lados del sujetador con tornillos4*12 MM.Instale la defensa▪Coloque la defensa en las ranuras del armazón, presione hasta que encaje en su lugar. ▪Atornille ambos lados de la defensa en el armazón del vehículo con tornillos 4*12MM.Instale el asiento▪Nota: Conecte la interfaz de los cables de la caja de cambios antes de instalar el asiento. La interfaz NO está dividida en L/R. ▪Atornille el cinturón de seguridad en el medio del sujetador bajo el asiento con tornillos 4*12MM. ▪Inserte el respaldo del asiento en las ranuras del armazón, presione firmemente hasta que encaje en su lugar. ▪Deslice el asiento en el conducto del respaldo del asiento. Atornille el asiento en el sujetador bajo el asiento con tornillos 4*12MMInstalación reflectores traseros▪Conecte la interfaz del reflector al conector en la parte trasera. ▪Inserte las barras en el soporte del reflector, presione firmemente hasta que encaje en su lugar. (Figura 1). ▪Coloque toda la barra trasera en las ranuras del armazón del vehículo, presione firmemente hasta que encaje en su lugar. (Figura 2). (Nota: Tenga cuidado con el cable de luz). ▪Conectelainterfaz delcable de luz en el conector bajo el armazón del auto.Instale el manubrio▪Conecte la interfaz del manubrio a l conector de la base fija de la barra de dirección.▪Presione el conector enchufado y la interfaz en la base.▪Inserte el manubrio en la base fija de la barra de dirección, empuje hacia abajo el manubrio hasta que haga click y se fije en su lugar.Instale el parabrisas▪Posiciones el parabrisas en las ranuras del armazón.Con suavidad presiones hasta que haga click y se fije en su lugar.Conecte el poder▪Abra el capo, enchufe la interfaz de la batería al conector. (Figura 1).▪Cierre el capo, atornille al armazón con tornillos 4+12MM (Figura 2)ADVERTENCIAAsegúrese que el vehículo este totalmente detenido antes de cambiar la marcha adelante/reversa para evitar daños en la caja de cambios.Instrucciones de UsoEncendido: Presione el botón de encendido para prender el vehículo.Presione el botón de encendido nuevamente para apagar el vehículo.Pedal: Presione el pedal para avanzar. Libere el pedal para detenerse.Adelante/Reversa: Presione el botón D para moverse hacia adelante. Presione el botón a R para iren reversa. Presione P para detenerse.Izquierda/Derecha: Utilice el manubrio para girar hacia la derecha o izquierda.Botón Luces: Presione el botón de luces para apagarlas o encenderlas.Bocina: Presione el botón de la derecha para hacerla sonar.Música: Presione el botón de la izquierda para cambiar entre los canales de música.Botón 2/4W: Presione el botón para cambiar la tracción de dos ruedas a todas las ruedas. (Estebotón solo está disponible en tracción total)Utilice el Control Remoto 2.4 GInstale o cambie las baterías: Presione hacia abajo la tapa ubicada en el control remoto para abrirla. Instale dos baterías AAA en la polaridad correcta (+,‐) cierre la cubierta.Primer uso: Empareje el Vehículo con el Control Remoto.Mantenga presionadas los Botones de Avance y Retroceso por 3 segundos.El indicador de luz parpadea. Encienda el vehículo. El indicador de velocidad se iluminará. Emparejamiento correcto.Si empareja de manera errónea, el indicador de velocidad no se encenderá, apague el auto y repita los pasos.El vehículo debe estar emparejado al reemplazar las baterías antes de usarlo.Uso generalBotón S: Botón de velocidad – Selecciona 3 velocidad diferentes.Baja Velocidad – Indicador de Velocidad 1 luz LEDMedia Velocidad – Indicador de Velocidad 2 luz LEDAlta Velocidad – Indicador de Velocidad 3 luz LEDConsejos: Cada velocidad elegida tienen un inicio lento.Botón P: Detiene el vehículo – Indicar de Velocidad parpadea.Adelante: Mueve el vehículo hacia adelante.Reversa: Mueve el vehículo hacia atrás.Izquierda: Mueve el vehículo hacia la dirección izquierda.Derecha: Mueve el vehículo hacia la dirección derecha.1010Precauciones:∙ El control remoto solo funciona en un rango de 15m del vehículo.∙ El control remoto solo debe ser usado por un adulto. Mantenga fuera del alcance de los niños. ∙ Lea cuidadosamente el manual antes de usar. Adultos deben estar familiarizados con laoperación antes que los niños utilicen el vehículo.∙ El control remoto tiene configuración de ahorro de energía. Cuando no se usa, este se apagarádespués de 15 segundos.∙ NUNCA utilice en o cerca de carreteras, agua, terrenos empinados. Utilice en terrenos lisos. ∙ Mantenga el control remoto lejos del agua u otros líquidos, ya que podría dañarse. ∙ No reutilice baterías. Cambie ambas baterías al mismo tiempo.∙ Asegúrese que las baterías estén bien instaladas antes de encender.∙ Retire las baterías del control durante periodos largos de inactividad.∙ Las baterías deben ser reemplazadas cuando el control remoto funcione a menos de 3 m delvehículo.Presione el botón en el manubrio, hará un sonido o reproducirá música.11 111. Apague el poder cuando se agote la batería.2. Tome la manilla que esta en el medio de la parte trasera, levante el vehículo en 45 grados yarrastre.3.Cuando arrastre el vehículo que no esté con niños.4. Solo debe ser realizado por un adulto.。

福田汽车配件电子图册用户使用手册（客户端用）1软硬件安装环境及网络设置说明1.1硬件要求客户端最低配置：CPU：1.6及以上，内存1G及以上分辨率：1024*768及以上1.2软件要求客户端要求：操作系统：win7/windowsXP软件要求：1、浏览器IE8.0及以上版本；2、C3D浏览插件。

C3D浏览插件下载步骤如下：1、成功登陆客户端后，点击菜单上的【帮助】下拉菜单中的【软件下载】(登陆系统方法参考步骤2.1)2、弹出如下窗口；按操作系统选择点击所需的插件：32位操作系统选择Cortona3d，Cortona2DViewer64位操作系统选择Cortona3d_x64，Cortona2DViewer_x64将下载下来的ZIP压缩解压，解压为Cortona3d.msi，Cortona2DViewer.msi或Cortona3d_x64.msi，Cortona2DViewer_x64.msi。

3、运行软件：点击所需的安装插件出现下述界面后，点击运行即可。

4、此步骤必须进行，目的：可以查看电子图册的图形。

2用户登录2.1用户登录说明：用户登录电子图册的方法操作步骤如下：1、打开IE浏览器，输入Portal站点（客户端）网址：2、输入：用户名、口令和选择品牌(欧曼)后，点击“登录”按钮即可；（所有已经申请的服务站的用户名已经下发，对于没有申请的，请尽快申请）怀来诚信的用户名是：shiwenhua密码：KBHCOM(注意不要改密码)3、密码认证通过后，系统跳转到福田汽车服务技术文件开发系统－电子图册用户界面主页；3菜单栏管理菜单栏包括【文件】、【选项】、【辅助功能】、【系统管理】、【操作技巧】和【帮助】3.1【选项】菜单栏；3.1.1【选项】菜单栏-密码变更说明：修改当前登录用户的密码操作步骤如下：1、用户登录系统后，执行菜单【选项】-【密码变更】；弹出写改密码窗口如下图2、在弹出的修改密码对话框中，输入旧密码和两次新密码，执行“确认”按钮；提示密码修改成功，完成密码修改。

W78E858 Data Sheet8-BIT MICROCONTROLLER Table of Contents-1.GENERAL DESCRIPTION (3)2.FEATURES (3)3.PIN CONFIGURATIONS (4)4.PIN DESCRIPTION (5)5.FUNCTIONAL DESCRIPTION (6)5.1RAM (6)5.2EEPROM (6)5.2.1Byte Write Mode (6)5.2.2Page Write Mode (6)5.2.3Software Protected Data Write (7)5.2.4Command Codes for Software Data Protection Enable/Disable and Software Erase (7)5.3Demo Code: (8)5.4On-chip Flash EPROM (10)5.5Timers 0, 1, and 2 (11)5.6Clock (11)5.7Crystal Oscillator (11)5.8External Clock (11)5.9Power Management (11)5.9.1Idle Mode (11)5.9.2Power-down Mode (11)5.9.3Wake-up Via External Interrupts INT0 to INT9 (12)5.10Reset (14)5.11Pulse Width Modulator System (15)5.11.1PWMCON (91H) (15)5.11.2PWMP (92H) (15)5.12In-system Programming System (16)5.12.1SFRAL (C4H) (16)5.12.2SFRAH (C5H) (16)5.12.3SFRFD (C6H) (16)5.12.4SFRCN (C7H) (17)5.13In-system Programming Mode Operating Table (17)5.13.1CHPCON (BFH) (18)5.14MXPSR (A2H) (18)5.15Interrupt System (18)5.16External Interrupts INT2 to INT9 (19)5.16.1IE_1 (E8H) (19)5.16.2IP1 (F8H) (19)5.16.3IX1 (E9H) (20)5.16.4IRQ1 (C0H) (20)5.16.5Interrupt Priority and Vector Address (20)5.17F04KBOOT Mode (Boot From 4K Bytes LDROM) (21)5.17.1F04KBOOT Mode (21)5.18Security (21)5.18.1Lock Bit (Bit0) (22)5.18.2MOVC Lock (Bit1) (22)5.18.3Scramble Enable (Bit2) (22)5.18.4Oscillator Gain Select (Bit7) (22)5.19Watch Dog Timer (23)5.19.1WDTC (8FH) (23)5.20Programmable Clock-out (24)5.21Reduce EMI Emission (24)6.ELECTRICAL CHARACTERISTICS (25)6.1Absolute Maximum Ratings (25)6.2 D.C. Characteristics (25)6.3 A.C. Characteristics (27)6.3.1Clock Input Waveform (27)6.3.2Program Fetch Cycle (27)6.3.3Data Read Cycle (28)6.3.4Data Write Cycle (28)6.3.5Port Access Cycle (28)6.3.6Flash Mode Timing (28)7.TIMING WAVEFORMS (29)7.1Program Fetch Cycle (29)7.2Data Read Cycle (29)7.3Data Write Cycle (30)7.4Port Access Cycle (30)8.TYPICAL APPLICATION CIRCUITS (31)8.1Expanded External Program Memory and Crystal (31)8.2Expanded External Data Memory and Oscillator (32)9.PACKAGE DIMENSIONS (33)9.140-pin DIP (33)9.244-pin PLCC (33)9.344-pin PQFP (34)10.VERSION HISTORY (35)1. GENERAL DESCRIPTIONThe W78E858 is an 8-bit microcontroller which has an in-system programmable Flash EPROM for firmware updating. The instruction set of the W78E858 is fully compatible with the standard 8052. The W78E858 contains a 32K bytes of main Flash EPROM and a 4K bytes of auxiliary Flash EPROM which allows the contents of the 32KB main Flash EPROM to be updated by the loader program located at the 4KB auxiliary Flash EPROM ROM; 768 bytes of on-chip RAM; 128 bytes of EEPROM, 8 extra power down wake-up through INT2 to INT9; 4 channel 8-bit PWM; four 8-bit bi-directional and bit-addressable I/O ports; an additional 4-bit port P4; three 16-bit timer/counters where the TIMER2 with programmable clock output and 17-bit watchdog timer are built in this device; a serial port. These peripherals are supported by a eight sources two-level interrupt capability. To facilitate programming and verification, the Flash EPROM inside the W78E858 allows the program memory to be programmed and read electronically. Once the code is confirmed, the user can protect the code for security.2. FEATURES•Fully static design 8-bit CMOS micro-controller up to 40 MHz•32K bytes of in-system programmable FLASH EPROM for Application Program (APROM)•4K bytes of auxiliary FLASH EPROM for Loader Program (LDROM)•Low standby current at full supply voltage•256 + 512 bytes of on-chip RAM•128 bytes on-chip EEPROM memory•64K bytes program memory address space and 64K bytes data memory address space•Four 8-bit bi-directional ports•One 4-bit bi-directional port•Extra interrupts INT2 to INT9 at PORT1•Wake-up via external interrupts INT0 − INT9•Three 16-bit timer/counters•One full duplex serial port•Fourteen-sources, two-level interrupt capability•Programmable Timer2 clock output via P1.0•17-bits watchdog timer•Four channels 8-bit PWM•Built-in power management•Code protection•Packaged in PDIP 40 / PLCC 44 / PQFP 443. PIN CONFIGURATIONS4. PIN DESCRIPTION* Note: TYPE I: input, O: output, I/O: bi-directional, H: pull-high, L: pull-low, D: open drain5. FUNCTIONAL DESCRIPTIONThe W78E858 architecture consists of a core controller surrounded by various registers, four 8-bit general purpose I/O ports, one 4-bits general purpose I/O port, 256 bytes data RAM and 512 bytes auxiliary RAM, 128 bytes embedded EEPROM memory, three timer/counters, one serial port, 17-bit watch-dog timer, 8-bit four channels PWM, programmable timer2 clock output, extra external interrupts INT2 to INT9, power-down wake up via external interrupts INT0 − INT9. The CPU supports 111 different op-codes and references both a 64K program address space and a 64 K data storage space.5.1 RAMThe internal data RAM in W78E858is 768 bytes. It is divided into two banks: 256 bytes of data RAM and 512 bytes of auxiliary RAM. These RAM are addressed by different ways.• RAM 00H − 7FH can be addressed directly and indirectly as the same as in 80C51. Address pointers are R0 and R1 of the selected register bank.• RAM 80H − FFH can only be addressed indirectly as the same as in 80C51. Address pointers are R0, R1 of the selected registers bank.•Auxiliary RAM 0000H − 01FFH is addressed indirectly as the same way to access external data memory with the MOVX instruction. Address pointers are R0 and R1 of the selected register bank and DPTR register. By setting ENAUXRAM flag in CHPCON register bit4 to enable on-chip auxiliary RAM 512 bytes. When the auxiliary RAM is enabled, the data and address will not appear on P0 and P2, they will keep their previous status that before the MOVX instruction be executed.Write the page select 00H or 01H to MXPSR register if R0 and R1 are used as address pointer.When the address of external data memory locations higher than 01FFH or disable auxiliary RAM 512 bytes micro-controller will be performed with the MOVX instruction in the same way as in the 80C51. The auxiliary RAM 512 bytes default is disabled after chip reset.5.2 EEPROMThe 128 bytes EEPROM is defined in external data memory space that located in FF80H-FFFFH in standard 8-bit series. It is accessed the same as auxiliary RAM512 bytes, the ENEEPROM flag in CHPCON register bit5 is set. Write the page select 02H to MXPSR register, R0 and R1are used as address pointer. The EEPROM provided byte write, page write mode and software write protection is used to protect the data lose when power on or noise. They are described as below:5.2.1 Byte Write ModeOnce a byte write has been started, it will automatically time itself to completion. A BUSY signal (MXPSR.7) will be used to detect the end of write operation.5.2.2 Page Write ModeThe EEPROM is divided into 2 pages and each page contains 64 bytes. The page write allows one to 64 bytes of data to be written into the memory during a single internal programming cycle. Page write is initiated in the same manner as byte write mode. After the first byte is written, it can then be followed by one to 63 additional bytes. If a second byte is written within a byte-load cycle time (TBLC) of 150us, the EEPROM will stay at page load cycle. Additional bytes can then be loaded consecutively. The page load cycle will be terminated and the internal programming cycle will start if no additional byte is load within 300us from the last byte be loaded. The address bit6 specify the page address. All bytes that are loaded to the buffer must have the same page address. The data for page write may be loaded in any order, the sequential loading is not required.5.2.3 Software Protected Data WriteThe EEPROM provides a JEDED-approved optional software-protected data write. Once this scheme is enabled, any write operation requires a series of three-byte program commands (with specific data to a specific address) to be performed before the data load operation. The three-byte load command sequence begins the page load cycle, without which the write operation will not activated. This write scheme provides optimal protection against inadvertent write cycles, such as cycles triggered by noise during system power-up or power-down. Once enabled, the software data protection will remain enabled unless the disable commands are issued. To reset the device to unprotected mode, a six-byte command sequence is required.The address mapping of the external memory is given as following, if ENAUXRAM or ENEEPROM flags in CHPCON is not set, the CPU will access external memory instead of the on-chip memory. The data, address and read/write strobe signal will appear on relative IO port just like standard 80C52.5.2.4 Command Codes for Software Data Protection Enable/Disable and Software EraseBYTE ENABLE WRITE PROTECT DISABLE WRITE PROTECTSOFTWARE ERASE SEQUENCE ADDRESS DATA ADDRESS DATA ADDRESS DATA 0 Write FFD5H AAH FFD5H AAH FFD5H AAH 1 Write FFAAH 55H FFAAH 55H FFAAH 55H2 Write FFD5H A0H FFD5H 80H FFD5H 80H3 Write - - FFD5H AAH FFD5H AAH4 Write - - FFAAH 55H FFAAH 55H5 Write--FFD5H20HFFD5H10H5.3 Demo Code:EEPROM_BASE EQU FF80Horg 0000hjmp startorg 500hstart:mov chpenr,#87hmov chpenr,#59horl chpcon,#00100000b ; enable eeprommov chpenr,#00hcall enable_protectmov dptr,#EEPROM_BASEmov r0,#40h ; only write up to 64byte/page. Write from FF80h to FFBFh.mov r1,#55h ; write 55 data.call write_eeprom_blockcall enable_protect ; Call it before writingmov dptr,#EEPROM_BASE+40hmov r0,#40h ; Write from FFC0h to FFFFh address.mov r1,#55hcall write_eeprom_blockmov dptr,#EEPROM_BASEmov r0,#80hmov r1,#55hcall read_eeprom_blockjc $errormov chpenr,#87hmov chpenr,#59hanl chpcon,#11011111b ; disable eeprommov chpenr,#00hclr cjmp $end$error:mov chpenr,#87hmov chpenr,#59hanl chpcon,#11011111b ; disable eeprommov chpenr,#00hsetb c$end:sjmp $;-----------------------------------------------------------------disable_protect:mov dptr,#EEPROM_BASE+55hmov a,#aahmovx @dptr,amov dptr,#EEPROM_BASE+2ahmov a,#55hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#80hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#aahmovx @dptr,amov dptr,#EEPROM_BASE+2ahmov a,#55hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#20hmovx @dptr,acall busy_waitingret;----------------------------------------------------------------- eeprom_erase:mov dptr,#EEPROM_BASE+55hmov a,#aahmovx @dptr,amov dptr,#EEPROM_BASE+2ahmov a,#55hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#80hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#aahmovx @dptr,amov dptr,#EEPROM_BASE+2ah ;a5~a0mov a,#55hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#10hmovx @dptr,acall busy_waitingret;----------------------------------------------------------------- enable_protect:mov dptr,#EEPROM_BASE+55hmov a,#aahmovx @dptr,amov dptr,#EEPROM_BASE+2ahmov a,#55hmovx @dptr,amov dptr,#EEPROM_BASE+55hmov a,#a0hmovx @dptr,aret;----------------------------------------------------------------- busy_waiting:$wait1:mov a,mxpsrjnb acc.7,$wait1$wait0:mov a,mxpsrjb acc.7,$wait0ret;----------------------------------------------------------------write_eeprom_block:;input r0:counter;input r1:pattern form;input dptr:eeprom base address$write_loop:mov a,r1movx @dptr,ainc dpldjnz r0,$write_loopcall busy_waitingret;----------------------------------------------------------------read_eeprom_block:;input r0:counter;input r1:pattern form;input dptr:eeprom base address;output setb c --> failpush b$read_loop:movx a,@dptrmov b,amov a,r1cjne a,b,$errorinc dpldjnz r0,$read_loopclr cjmp $end$error:setb c$end:pop bret.end5.4 On-chip Flash EPROMThe W78E858 includes two banks of FLASH EPROM. One is 32K bytes of main FLASH EPROM for application program (APROM) and another 4K bytes of FLASH EPROM for loader program (LDROM) when operating the in-system programming feature. In normal operation, the micro-controller will execute the code from the 32K bytes of APROM. By setting program registers, user can force CPU to switch to the programming mode which will execute the code (loader program) from the 4K bytes of auxiliary LDROM, and this loader program is going to update the contents of the 32K bytes of APROM. After chip reset, the micro-controller executes the new application program in the APROM. This in-system programming feature makes the job easy and efficient in which the application needs to update firmware frequently. In some applications, the in-system programming feature make it possible that end-user is able to easily update the system firmware by themselves without opening the chassis.5.5 Timers 0, 1, and 2Timers 0, 1, and 2 each consist of two 8-bit data registers. These are called TL0 and TH0 for Timer 0, TL1 and TH1 for Timer 1, and TL2 and TH2 for Timer 2. The TCON and TMOD registers provide control functions for timers 0, 1. The T2CON register provides control functions for Timer 2. RCAP2H and RCAP2L are used as reload/capture registers for Timer 2.The operations of Timer 0 and Timer 1 are the same as in the W78C51. Timer 2 is a 16-bit timer/counter that is configured and controlled by the T2CON register. Like Timers 0 and 1, Timer 2 can operate as either an external event counter or as an internal timer, depending on the setting of bit C/T2 in T2CON. Timer 2 has three operating modes: capture, auto-reload, and baud rate generator. The clock speed at capture or auto-reload mode is the same as that of Timers 0 and 1.5.6 ClockThe W78E858 is designed to use with either a crystal oscillator or an external clock. Internally, the clock is divided by two before it is used by default. This makes the W78E858 relatively insensitive to duty cycle variations in the clock.5.7 Crystal OscillatorThe W78E858 incorporates a built-in crystal oscillator. To make the oscillator work, a crystal must be connected across pins XTAL1 and XTAL2. In addition, a load capacitor must be connected from each pin to ground, and a resistor must also be connected from XTAL1 to XTAL2 to provide a DC bias when the crystal frequency is above 24 MHz.5.8 External ClockAn external clock should be connected to pin XTAL1. Pin XTAL2 should be left unconnected. The XTAL1 input is a CMOS-type input, as required by the crystal oscillator. As a result, the external clock signal should have an input one level of greater than 3.5 volts.5.9 Power Management5.9.1 Idle ModeThe CPU will enter to idle by setting the IDL bit in the PCON register. In the idle mode, the internal clock to the processor is stopped. The peripherals and the interrupt logic continue to be clocked. The processor will exit idle mode when either an interrupt or a reset occurs.5.9.2 Power-down ModeWhen the PD bit of the PCON register is set, the processor enters the power-down mode. In this mode all of the clocks, including the oscillator are stopped. There are two ways to exit power-down mode, one is by a chip reset and another is via external interrupts wake up if the related control flags are enabled.5.9.3 Wake-up Via External Interrupts INT0 to INT9If the external interrupts INT0 to INT9 are enabled, the W78E858 can be awakened from power down mode with the external interrupts if the EA flag in IE register and related interrupt enable is set before enter power down mode. To ensure that the oscillator is stable before the controller starts, the internal clock will remain inactive for some oscillator periods. This is controlled by a on-chip delay counter. The delay time is software selectable and the reset default value is 1536 periods. By setting the PS2 − PS0 bits in AUXR register the delay periods is given as below: PS2 PS1 PS0 DELAY PERIODSDELAY TIME (20 MHZ)0 0 0 192 0.0096 mS 0 0 1 384 0.0192mS 0 1 0 768 0.0384 mS 0111536 0.0768 mS 1 0 0 3072 0.1536 mS 1 0 1 6144 0.372 mS 1 1 0 12288 0.6144 mS 1 1 1245761.2288 mS5.10 ResetThe external RST signal is sampled at S5P2. To take effect, it must be held high for at least two machine cycles while the oscillator is running. An internal trigger circuit in the reset line is used to deglitch the reset line when the RA80xx is used with an external RC network. The reset logic also has a special glitch removal circuit that ignores glitches on the reset line. During reset, the ports are initialized to FFH, the stack pointer to 07H, PCON (with the exception of bit 4) to 00H, and all of the other SFR registers except SBUF to 00H. SBUF is not reset.W78E858 Special Function Registers and Reset ValuesF8+IP10000000FFF0+B00000000CHPENR00000000F7E8+IE_100000000IX100000000EFE0+ACC00000000E7D8+P411111111DFD0+PSW00000000D7C8 +T2CON00000000T2MODXxxxxx0xRCAP2L00000000RCAP2H00000000TL200000000TH200000000CFC0+IRQ100000000SFRAL00000000SFRAH00000000SFRFD00000000SFRCN00000000C7B8+IP000000CHPCON0xx00000BFB0+P311111111B7A8+IE01000000AFA0+P211111111MXPSR0xxxxx00A798+SCON00000000SBUFxxxxxxxx9F90+P111111111PWMCONxxxx0000PWMP00000000DAC000000000DAC100000000DAC200000000DAC3000000009788+TCON00000000TMOD00000000TL000000000TL100000000TH000000000TH100000000AUXRxxxx0110WDTC000xx0008F80+P011111111SP00000111DPL00000000DPH00000000PCON0011000087Note: the SFRs marked with a plus sign(+) are both byte and bit-addressable.5.11 Pulse Width Modulator SystemThe pulse width modulator system of W78E858 contains four PWM output channels with a common 8-bit counter. These channels generate pulses of programmable length and interval. The prescaler and counter are common to four PWM channels.5.11.1 PWMCON (91H)BIT NAME FUNCTIONReverse7 − 4 -3 PWM3 Enable P1.7 as PWM clock output.2 PWM2 Enable P1.6 as PWM clock output.1 PWM1 Enable P1.5 as PWM clock output.0 PWM0 Enable P1.4 as PWM clock output.5.11.2 PWMP (92H)The prescaler is loaded with the complement of the PWMP register during counter overflow. The repetition frequency is defined by 8-bit prescaler which clocks the counter. The prescaler division factor = (PWMP + 1). Reading the PWMP gives the current reload value. The actual count of the prescaler can’t be read.The PWM counter is enabled with any bit PWMENn (n = 0, 1, 2, 3) of the PWMCON register. Output to the port pin is separately enabled by setting the PWMENn bits in the PWMCON register. The PWM function is reset by a chip reset. In idle mode, the PWM will function as configurated in PWMCON. In power-down state of the PWM will freeze when the internal clock stops. If the chip is awakened with an external interrupt, the PWM will continue to function its state when power-down was entered.The repetition frequency is given by:FoscFpwm =[255 x (1+PWMP)]An oscillator frequency of 24 MHz results in a repetition range of 367.65 Hz to 94.12 KHz. The high/low ratio of PWMn is DACn/(255-DACn) for DACn values except 255. A DACn value 255 results in a high PWMn output.5.12 In-system Programming SystemThe W78E858 provided in-system programming function for new firmware updated. After the related register and flags are set, user can start timer and force the CPU enter idle mode, then W78E858 will perform the in-system program mode function specify in SFRCN register, the destination data and address will come from the related SFR.The CHPCON is read only by default. Firmware designer must write 87H, 59H sequentially to this special register CHPENR to enable the CHPCON write attribute, and write other value to disable CHPCON write attribute. This register protects from writing to the CHPCON register carelessly.5.12.1 SFRAL (C4H)The programming low-order byte address of FLASH EPROM in-system programming mode5.12.2 SFRAH (C5H)The programming high-order byte address of FLASH EPROM in-system programming mode5.12.3 SFRFD (C6H)The programming data for on-chip FLASH EPROM in-system programming mode5.12.4 SFRCN (C7H) BIT NAMEFUNCTION7 - Reserve.6 WFWIN On-chip FLASH EPROM bank select for in-system programming.= 0: 32K bytes FLASH EPROM bank is selected as destination for re-programming.= 1: 4K bytes FLASH EPROM bank is selected as destination for re-programming.5 OEN FLASH EPROM output enable. 4 CENFLASH EPROM chip enable.3 − 0CTRL[3:0] The flash control signals5.13 In-system Programming Mode Operating TableMODE CTRL<3:0> WFWINOEN CEN SFRAL SFRAH SFRFD Erase 32K APROM 0010 0 1 0 X X X Erase 4K LDROM 0010 1 1 0 X X X Program 32K APROM0001 0 1 0 Address Address Data In Program 4K LDROM 0001 1 1 0 Address Address Data In Read 32K APROM 0000 0 0 0 Address Address Data Out Read 4K LDROM00001AddressAddressData Out5.13.1 CHPCON (BFH)BIT NAME FUNCTION7SWRESET (F04KMODE) When this bit is set to 1, and both FBOOTSL and FPROGEN are set to 1. Itwill enforce microcontroller reset to initial condition just like power on reset.This action will re-boot the microcontroller and start to normal operation.To read this bit can determine that the F04KBOOT mode is running.6 - Reserve. 5 ENEEPROM Enable on-chip 128 bytes EEPROM. 4 ENAUXRAM Enable on-chip 512 bytes auxiliary RAM. 3 − 2- -1 FBOOTSL The loader program location selection. = 0: loader program in 32K memory bank.= 1: loader program in 4K memory bank. 0 FPROGENIn system programming enable flag.= 1: enable. The CPU switches to the programming flash mode afterentering the idle mode and waken up from interrupt. The CPU willexecute the loader program while in on-chip programming mode. = 0: disable. The on-chip FLASH EPROM read-only. In-systemprogrammability is inhibit.5.14 MXPSR (A2H)BIT NAME FUNCTION7 BUSYEEPROM BUSY signal.1: EEPROM is writing.6-2 - Reserved.1-0 ADDRPNT Address pointer by MOVX instruction0: read or write lower 256 byte Auxiliary RAM by pointer of R0 or R1 register1: read or write Higher 256 byte Auxiliary RAM by pointer of R0 or R1register2: 128 byte EEPROM by pointer of R0 or R1 register5.15 Interrupt SystemExternal events and the real-time-driven on-chip peripherals require service by the CPU asynchronous to do execution of any particular section of code. To tie the asynchronous actives of these functions to normal program execution, a multiple-source, two-priority-level, nested interrupt system is provided. The W78E858 acknowledges interrupt requests from fourteen sources as below:• INT0 and INT1 • Timer0 and Timer1 • UART serial I/O•INT2 to INT9 (at Port1)5.16 External Interrupts INT2 to INT9Port1 lines serve an alternative purpose at eight additional interrupts INT2 to INT9. When enabled, each of these lines may "wake-up" the device from power-down mode. Using the IX1 register, the each pin may be initialized to either active HIGH or LOW. IRQ1 is the interrupt request flag register. Each flag, if the interrupt is enabled will be set on an interrupt request but must be cleared by software, i.e. via the interrupt software or when the interrupt is disable.The Port1 interrupts are level sensitive. A Port1 interrupt will be recognized when a level (HIGH or LOW depending on Interrupt Polarity Register IX1) on P1.x is held active for at least one machine cycle. The interrupt request is not served until the next machine cycle.5.16.1 IE_1 (E8H)BIT NAME FUNCTION7 EX9 Enable external interrupt 96 EX8 Enable external interrupt 85 EX7 Enable external interrupt 74 EX6 Enable external interrupt 63 EX5 Enable external interrupt 52 EX4 Enable external interrupt 41 EX3 Enable external interrupt 30 EX2 Enable external interrupt 25.16.2 IP1 (F8H)BIT NAME FUNCTION7 PX9 External interrupt 9 priority level6 PX8 External interrupt 8 priority level5 PX7 External interrupt 7 priority level4 PX6 External interrupt 6 priority level3 PX5 External interrupt 5 priority level2 PX4 External interrupt 4 priority level1 PX3 External interrupt 3 priority level0 PX2 External interrupt 2 priority level5.16.3 IX1 (E9H)BIT NAME FUNCTION7 IL9 External interrupt 9 polarity level6 IL8 External interrupt 8 polarity level5 IL7 External interrupt 7 polarity level4 IL6 External interrupt 6 polarity level3 IL5 External interrupt 5 polarity level2 IL4 External interrupt 4 polarity level1 IL3 External interrupt 3 polarity level0 IL2 External interrupt 2 polarity level5.16.4 IRQ1 (C0H)BIT NAME FUNCTION7 IQ9 External interrupt 9 request flag6 IQ8 External interrupt 8 request flag5 IQ7 External interrupt 7 request flag4 IQ6 External interrupt 6 request flag3 IQ5 External interrupt 5 request flag2 IQ4 External interrupt 4 request flag1 IQ3 External interrupt 3 request flag0 IQ2 External interrupt 2 request flag5.16.5 Interrupt Priority and Vector AddressPRIORITY INTERRUPT VECTOR SOURCE PRIORITY INTERRUPT VECTOR SOURCE1 INT0 0003H External 08 TF1 001BH Timer 12 INT5 0053H External 59 SINT 0023H UART3 TF0 000BH Timer 0 10 TF2 002BH Timer 24 INT6 005BH External 611 INT3 0043H External 35 INT1 0013H External 112 INT8 006BH External 86 INT2 003BH External 213 INT4 004BH External 47 INT7 0063H External 714 INT9 0073H External 95.17 F04KBOOT Mode (Boot From 4K Bytes LDROM)The W78E858 boots from APROM program (32K bytes bank) by default after chip reset. On some occasions, user can force the W78E858 to boot from the LDROM program (4K bank) after chip reset. The setting for this special mode is as follow.5.17.1 F04KBOOT ModeRST P4.3 P2.7 P2.6 MODE H ↓ X L LFO4KBOOT H ↓L X XFO4KBOOTNote: In application system design, user must take care the P2, P3, ALE, EA and PSEN pin status at reset to avoidW78E858 entering the programming mode or F04KBOOT mode in normal operation. 5.18 SecurityDuring the on-chip FLASH EPROM programming mode, the FLASH EPROM can be programmed and verified repeatedly. Until the code inside the FLASH EPROM is confirmed OK, the code can be protected. The protection of FLASH EPROM and those operations on it are described below:The W78E858 has several special setting registers in FLASH EPROM block. Those bits of the security register can’t be changed once they have been programmed from high to low. They can only be reset through erase-all operation. The security register is located at the FFFFH on the same bank with 4K LDROM i.e., P3.6 must set high at writer mode.5.18.1 Lock Bit (Bit0)This bit is used to protect the customer's program code in the W78E858. It may be set after the programmer finishes the programming and verifies sequence. Once these bits are set to logic 0, both the FLASH EPROM data and all data in FLASH EPROM block can’t be accessed again.5.18.2 MOVC Lock (Bit1)When this bit is program to "0", the MOVC instruction will be disable when the program counter more than 7FFFh or EA pin is forced low.5.18.3 Scramble Enable (Bit2)This bit is used to protect the customer's program code in the W78E858. If this bit is set to logic 0, the dump ROM code are scrambled by a scramble circuit and the dump ROM code will become a random ROM code.5.18.4 Oscillator Gain Select (Bit7)If this bit is set to logic 0 (for 24 MHz), the EMI effect will be reduce. If this bit is set to logic 1 (for 40 MHz), the W78E858 could to use 40 MHz crystal, but the EMI effect is major. So we provide the option bit which could be chose by customer.。

碟管式膜组件手册　适用型号：DTRO/HPDTRO/DTNF目录1.膜组件的型号与命名 (3)1.1 型号构成 (3)1.2 组件压力等级分类 (3)1.3 组件型式及类别代号 (3)1.4 组件性能特点代号 (3)1.5 有效膜面积 (3)1.6 原液过流金属部件材质代号 (4)1.7 组件型号命名示例 (4)2.膜组件的安装尺寸与结构 (5)2.1 膜组件安装尺寸 (5)2.2 膜组件组成清单 (6)2.3 膜组件结构描述 (7)2.4 膜组件内部水流方向 (8)3.膜组件的使用 (9)3.1. 运行参数要求 (9)3.2. 使用注意事项 (10)4.膜组件的维护 (11)4.1 检查扭矩 (11)4.2 化学清洗 (12)4.3 清洗药剂 (12)4.4 清洗程序 (13)4.5 膜的保存 (14)4.6 膜组件的在线保存 (14)4.7 膜片的保存 (14)5.膜组件的维修 (15)5.1. 膜壳泄漏 (15)5.2. 膜组件维修 (15)5.3. 维修注意事项 (20)6. 质量保证及售后服务 (21)1. 膜组件的型号与命名1.1型号构成碟管式膜组件的型号由组件压力等级代号、组件型式及类别代号、膜性能特点代号、膜面积及原液过滤部件材质代号等五个部分构成。

各部分之间以连字符“—”连接。

五个部分的表述格式为：1.2组件压力等级分类按膜组件的压力等级分为：常压碟管式膜组件、中压碟管式膜组件、高压碟管式膜组件。

其代号由该组件英语首字母表示，具体表示见表1。

表1 组件耐压等级代号名称代号常压组件(运行压力≤75bar) NP中压组件(运行压力≤90bar) MP高压组件(运行压力≤160bar) HP1.3组件型式及类别代号根据膜组件的结构形式分为：碟管式膜组件。

其类别代号由该组件英文名称大写的缩写字母表示，具体表示见表2。

表2 组件类别代号型式及类别名称型式及类别代号碟管式膜组件DT1.4组件性能特点代号组件的分离性能特点代号见表3。

DHP10Q0168前言为使WP10系列柴油机在使用、维护等工作上的方便特汇编本图册以供我方与用户在使用中查阅参考。

该图册基本上按组绘出了各个零件的图形相互关系。

图序号、件号、数量、中文名称、英文名称等列于明细表栏内。

随着技术和生产的不断发展柴油机的变形将增多故本图册的内容将有所更新。

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FOREWORDThis illustrated parts manual is specially prepared for customers to facilitate the use of WP10series diesel engine in operation and tenance.It only includes the main models manufactured in the works at present,with regard to other models,the customers may refer to this catalogue.The illustrations are grouped under the heading of each assembly and numbered individually.Part.No.,Quantity,Model,English designation,Chinese designation and so on are written in the parts listWith the development of technology and production,the versions of the diesel engine will be increased, so the catalogue will be revised.Please pay attention to our revised edition.If you want to get the most newly information about the products,please visit the Website:.目录CONTENTS机体结合组(Engine Block Group) (1)气缸体预装配(Pre-assembled cylinder block) (3)正时齿轮室组件() (5)曲轴结合组(Crankshaft Group) (7)曲轴总成(Crankshaft assembly) (9)活塞连杆结合组(Piston and Connecting Rod Group) (11)连杆总成(Connecting rod assembly) (13)活塞环组件(Piston ring assembly) (15)气缸盖结合组(Cylinder head assembly) (17)气缸盖分总成(Cylinder head subassembly) (19)配气机构结合组(Valve Train Group) (21)凸轮轴总成(Camshaft assembly) (25)EVB排气摇臂组件(EVB Exhaust Rocker Arm Set) (27)进气门摇臂总成(Intake valve rocker arm) (29)中间齿轮总成(Intermediate gear assembly) (31)机油泵结合组(Oil pump assembly) (33)机油泵中间齿轮组件(Oil Pump Idle Gear Assembly) (35)机油冷却器结合组(Oil cooler assembly) (37)共轨系统结合组() (39)电控单元组件() (41)高压油泵结合组(High pressure pump assembly) (43)高压油管组件(High pressure pipe assembly) (45)端盖结合组() (47)油气分离器结合组(Oil-gas Separator Group) (49)油气分离器总成(Oil-gas separator assembly) (51)油尺结合组(Dipstick Group) (53)油标尺总成(Oil dipstick assembly) (55)加油管结合组(Oil Tilling Tube Group) (57)飞轮壳结合组(Flywheel Housing Group) (59)机油冷却器盖组件() (61)飞轮结合组(Flywheel Group) (63)曲轴皮带轮结合组(Crankshaft Pulley Group) (65)气缸盖罩组件() (67)出水管结合组(Water Outlet Pipe Group) (69)节温器结合组(Thermostat Group) (71)水泵结合组(Water pump assembly) (73)水管接头结合组(Water Pipe Connector Group) (75)风扇及轮毂结合组(Fan and Hub Group) (77)涨紧轮及皮带结合组() (79)机油集滤器结合组(Oil Suction Strainer Group) (81)机油滤清器结合组(Oil filter assembly) (83)机油滤清器总成(Oil filter assembly) (85)燃油滤清器结合组(Fuel Filter Group) (87)燃油精滤器组件() (89)精滤器(Fine filter) (91)燃油粗滤器组件() (93)燃油粗滤器(Primary fuel filter) (95)低压油管结合组(Low Pressure Oil pipe Group) (97)电控线束及传感器结合组(Electronic Control System Harness and Sensor Group) (99)电控线束及传感器结合组(Electronic Control System Harness and Sensor Group) (101)转速传感器组件() (103)机油压力传感器组件(Oil Pressure Sensor Set) (105)喷油器结合组(Injector assembly) (107)发电机结合组(Generator Group) (109)发电机支架结合组(Generator Bracket Group) (111)空调压缩机结合组(Air Conditionning Compressor Group) (113)起动机结合组(Starter Motor Group) (115)进气管结合组(Intake Manifold Group) (117)进气管总成(Air inlet pipe assembly) (119)排气管结合组(Exhaust Manifold Group) (121)增压器结合组(Turbocharger assembly) (123)增压器润滑油管结合组(Turbocharger Oil pipe Group) (125)压气机管路结合组(Compressor Pipeline Group) (127)中冷器结合组(Intercooler assembly) (129)空压机结合组(Air Compressor Group) (131)空压机总成(Air compressor assembly) (133)液压泵结合组(Hydraulic Pump Group) (135)油底壳结合组(Oil Pan Group) (137)油底壳总成(Oil pan assembly) (139)发动机支架结合组(Engine Bracket Group) (141)直送零件结合组() (143)WP多级复合沙尘滤() (145)零件箱总成(Parts Kit Assembly) (147)16孔诊断接口插接件(方形)() (149)双油门踏板传感器插接件(主机厂用)(Dual accelerator pedal sensor connecting part) (151)V4插接件(主机厂用)() (153)起动机接插件总成() (155)电磁风扇线圈2插件() (157)燃油水寒宝(Fuel System Protector) (159)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1615000101856气缸盖螺栓Cylinder head bolt 26126000107353复合垫圈Washer 3614600700111主油道后螺塞Plug 4900039892881碗形塞Corehole plug 5615000101001后油封Rear oil seal 66126000701601六角螺塞Hexagon plug 76140700681安全阀弹簧Safety valve spring 86140700691安全阀Safety valve 96126300100156气缸套Cylinder liner 109000386242822内六角圆柱头螺钉Inner hexagon screw 116126*********喷嘴总成Nozzle assembly 12900030980156密封垫圈Seal washer 13900039626216空心螺栓Hollow bolt 14900039620501内六角螺塞Inner hexagon plug15AZ150********主油道限压阀总成Pressure limiting valve assembly ofmain oil passage16900038024935六角头螺栓Hexagon bolt 1718825008322自锁垫圈Washer 186126000139182下止推片Thrust washer(lower) 196126000139172上止推片Thrust washer(upper) 20814000100322密封圈Seal washer 21815000100467主轴瓦组件Main Bearing Set 226126000139351气缸体预装配Pre-assembled cylinder block 23900039016046圆柱销Straight pin 24900039096266弹性圆柱销Spring dowel pin 256126000108931气缸盖螺栓Cylinder head bolt 2661500010185S7气缸盖螺栓Cylinder head bolt 27612600012189S7预涂胶紧定螺钉图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1900039821214碗形塞Corehole plug 26126000134372拉铆钉Tensioned rivet 36126000137471气缸体Cylinder block 4900039892153碗形塞Corehole plug 5900039892894碗形塞Corehole plug 66126000137901曲轴箱Crankshaft case 76140102174主轴承螺栓Main bearing bolt 861401011410主轴承螺栓Main bearing bolt 96126000100513内螺纹圆柱销Inner hexagon pin 106126000109901凸轮轴衬套Camshaft bushing 11615600100296凸轮轴衬套Camshaft bushing 12900039892041碗形塞Corehole plug 13900039892106碗形塞Corehole plug正时齿轮室组件()正时齿轮室组件()图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1610000101341密封圈Seal washer 22887300611O型密封圈O shaped seal washer 36126000121221正时齿轮室Timing gear case 4900039014182圆柱销Straight pin 5900114300083六角法兰面承面带齿螺栓Hexagon Flange Bolt 66126000134836六角法兰面承面带齿螺栓Hexagon Flange Bolt 7900039620512六角螺塞Hexagon plug 86126000107352复合垫圈Washer 9615000100371前油封Oil seal(front)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16126000203731曲轴总成Crankshaft assembly图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1900039014181圆柱销Straight pin 26126000208651曲轴Crankshaft 36126000203116堵塞Plug46126000200401平键Flat key56126000200361曲轴正时齿轮Timing gear of crankshaft 66126000203351法兰Flange图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation 18156003001212活塞销挡圈Piston pin retainer 2615600300136活塞销Piston pin36126000300206连杆上瓦Connecting Rod Upper Shell 4615600300336连杆下瓦Connecting Rod Lower Shell 5615000300096连杆总成Connecting rod assembly 66126000300686活塞Piston76126000300536活塞环组件Piston ring assembly图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1615000300771连杆衬套Connecting rod bushing 2615000300081连杆体Connecting rod body 3615000300221连杆盖Connecting rod cover 4815000300232连杆螺栓Connecting rod bolt活塞环组件(Piston ring assembly)活塞环组件(Piston ring assembly)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16126000300351梯形桶面环Taper-sided ring 26126000300361扭曲锥面环Conical ring 36126000300371螺旋撑簧油环Spiral spring oil ring图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation 1900114300284六角法兰面承面带齿螺栓Hexagon Flange Bolt 26126000403841后吊板Rear hanger plate 36126000404534气缸盖主螺栓Cylinder head main bolt 46120004003414带肩螺母Nut5612000400274夹紧块Clamping block 661260004011412气门阀杆密封套Seal washer of valve stem 76126000403626气缸盖分总成Cylinder head subassembly 86126000403556气缸盖衬垫Cylinder head gasket 96120004002310夹紧块Clamping block 1061260004045220气缸盖主螺栓Cylinder head main bolt 116126*********前吊板Front hanger plate图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16126000402356喷油器衬套Injector bushing 26126000402406密封圈Seal washer 36126000402286拉铆钉Tensioned rivet 49000398929424碗形塞Corehole plug 5615600400576进气门座Intake valve seat 6815600400376排气门座Exhaust valve seat 76126000403616气缸盖Cylinder head 8900039897216碗形塞片Corehole plug 9900039892776碗形塞片Corehole plug 10900039897256碗形塞片Corehole plug 1161260004011312气门导管Valve guide图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation19001135006712六角头螺栓Hexagon bolt26126000500286支撑臂Carrying arm36126000500273气门摇臂座总成Valve rocker arm seat assembly 46126000501776进气门摇臂总成Intake valve rocker arm 56150005010512气门帽Valve cap66150005002524气门锁夹Valve collet76150005010912气门弹簧上座Valve spring seat(upper) 86150005000112气门内弹簧Inner valve spring 96150005000212气门外弹簧Outer valve spring 106140500176进气门弹簧下座Intake valve spring seat(lower) 116126000500736进气门Intake valve 1261260005021012推杆Push rod 136150005003212气门挺柱Tappet 146126000500871凸轮轴总成Camshaft assembly 156140500531凸轮轴正时齿轮Camshaft timing gear 16612600050145S4六角头螺栓Hexagon bolt 1761560050059S4六角头螺栓Hexagon bolt 18615600500451垫片Gasket 19615600500581轴Shaft 20615600500531中间齿轮总成Intermediate gear assembly 2190003802399S2六角头螺栓Hexagon bolt 226140501331凸轮轴止推片Camshaft thrust 23615600500441中间齿轮轴Intermediate gear shaft 246126000500411螺纹接头Screw joint 256126000500391空心螺栓Hollow bolt 2661260005004213密封垫圈Seal washer 276126000501231EVB进油长管EVB fuel inlet pipe assembly(long)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation 286126000501071空心螺栓接头Hollow bolt adapter 29900039320231波形弹性垫圈Wave spiral washer 306126000500885进油短管总成Fuel inlet pipe assembly(short) 316126000500404空心螺栓接头Hollow bolt adapter 326126000500256排气门Exhaust valve 33615000400146排气门弹簧下座Exhaust valve spring seat(lower) 346126*********EVB排气摇臂组件EVB Exhaust Rocker Arm Set 356126000500386调节螺栓总成Adjustment bolt assembly 3621300500656气门间隙调整螺母Valve adjusting nut 37900038024111六角头螺栓Hexagon bolt凸轮轴总成(Camshaft assembly)凸轮轴总成(Camshaft assembly)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16126000500241凸轮轴Camshaft 2900039014091圆柱销Straight pin图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation121300500656气门间隙调整螺母Valve adjusting nut 26126000500596排气门摇臂组件Exhaust valve rocker arm 36126000500436气门间隙调节螺钉Valve Adjusting Bolt图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation121300500656气门间隙调整螺母Valve adjusting nut 26140500486进气摇臂Intake Rocker Arm 36140500106气门间隙调整螺钉Valve Adjusting Bolt图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1615600500521中间齿轮Intermediate gear 2615600500511衬套Bushing图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16140700551机油泵垫片Oil pump gasket 26126000704841机油泵Oil pump36126000704111六角法兰面承面带齿螺栓Hexagon Flange Bolt 4900114300081六角法兰面承面带齿螺栓Hexagon Flange Bolt 56126000703641机油泵中间齿轮组件Oil Pump Idle Gear Assembly 66140701551密封圈Seal washer761407561中间齿轮轴Intermediate gear shaft 890003802578S1六角头螺栓Hexagon bolt机油泵中间齿轮组件(Oil Pump Idle Gear Assembly)机油泵中间齿轮组件(Oil Pump Idle Gear Assembly)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation 1900033114102向心球轴承Centripetal ball bearing 2900039347321带凸齿的孔用挡圈Circlip with Teeth for Hole 36140700611机油泵中间齿轮Oil pump intermediate gear 461407491中间隔圈Spacer ring图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation1814000100322密封圈Seal washer 2615000103341机油冷却器Oil cooler 3900039320234波形弹性垫圈Wave spiral washer 490003862419S4内六角圆柱头螺钉Inner hexagon screw图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16126000806611支架Bracket 2900039311223弹簧垫圈Spring washer 3900038025233六角头螺栓Hexagon bolt 46126300800381共轨管Common rail pipe 5900039320233波形弹性垫圈Wave spiral washer 6900038024373六角头螺栓Hexagon bolt 76126000806601螺钉Screw 86126300801101电控单元组件96126390000504六角头螺栓Hexagon bolt 106126000806591螺钉Screw图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation 1900038623272内六角圆柱头螺钉Inner hexagon screw 26126300800071电控单元ECU36126300802311ECU接地线ECU earthing line 46126300801041ECU线束支架ECU harness wiring bracket 5900039320082波形弹性垫圈Wave spiral washer 69000387123221型六角螺母Hexagon nut(I)图序号件号数量中文名称英文名称Pos.Teile.Number Amount Denomination Designation16126000804521喷油泵齿轮Injection pump gear 26126000804001密封圈Seal washer 390003813532S7双头螺柱Stud46126000804861喷油泵法兰Injection pump flange59000388845272型全金属六角锁紧螺母Prevailing Torque Type All-metalHexagon Nut,66126390000472空心螺栓Hollow bolt 76126000802464密封垫圈Seal washer 86126000703091润滑油进油管组件Oil inlet pipe assembly 96126000806741共轨喷油泵Injection pump高压油管组件(High pressure pipe assembly)。

PACKAGING INFORMATIONOrderable Device Status (1)Package Type Package Drawing Pins Package Qty Eco Plan (2)Lead/Ball Finish MSL Peak Temp (3)TL441MNSREP ACTIVE SO NS 162000Green (RoHS &no Sb/Br)CU NIPDAU Level-1-260C-UNLIM V62/05603-01XEACTIVESONS162000Green (RoHS &no Sb/Br)CU NIPDAULevel-1-260C-UNLIM(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan -The planned eco-friendly classification:Pb-Free (RoHS),Pb-Free (RoHS Exempt),or Green (RoHS &no Sb/Br)-please check /productcontent for the latest availability information and additional product content details.TBD:The Pb-Free/Green conversion plan has not been defined.Pb-Free (RoHS):TI's terms "Lead-Free"or "Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all 6substances,including the requirement that lead not exceed 0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Pb-Free (RoHS Exempt):This component has a RoHS exemption for either 1)lead-based flip-chip solder bumps used between the die and package,or 2)lead-based die adhesive used between the die and leadframe.The component is otherwise considered Pb-Free (RoHS compatible)as defined above.Green (RoHS &no Sb/Br):TI defines "Green"to mean Pb-Free (RoHS compatible),and free of Bromine (Br)and Antimony (Sb)based flame retardants (Br or Sb do not exceed 0.1%by weight in homogeneous material)(3)MSL,Peak Temp.--The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications,and peak solder temperature.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided.TI bases its knowledge and belief on information provided by third parties,and makes no representation or warranty as to the accuracy of such information.Efforts are underway to better integrate information from third parties.TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.TI and TI suppliers considercertain information to be proprietary,and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s)at issue in this document sold by TI to Customer on an annual basis.OTHER QUALIFIED VERSIONS OF TL441-EP :•Catalog:TL441NOTE:Qualified Version Definitions:•Catalog -TI's standard catalog productPACKAGE OPTION ADDENDUM18-Sep-2008TAPE AND REEL INFORMATION*All dimensions are nominalDevicePackage Type Package Drawing Pins SPQReel Diameter (mm)Reel Width W1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant TL441MNSREP SONS162000330.016.48.210.52.512.016.0Q1*All dimensions are nominalDevice Package Type Package Drawing Pins SPQ Length(mm)Width(mm)Height(mm)TL441MNSREP SO NS162000367.0367.038.0IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,enhancements,improvements and other changes to its semiconductor products and services per JESD46C and to discontinue any product or service per JESD48B.Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All semiconductor products(also referred to herein as“components”)are 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Tektronix,Inc.PO.Box500Beaverton,Oregon97077 00000000000ifTEI-STFIDNIXFDPLOT10401OA06GRAPHICS TABLETUTILITY ROUTINESUSER MANUALThe TEKTRONIX401OA06PLOT10Graphics Tablet Utility Routines Package is the sole property of Tektronix,Inc.The package,or any part thereof,may not be reproduced or used outside the Buyer's organization in any manner without the express written consent of Tektronix,Inc.Copyright©1977,Tektronix,Inc.,Beaverton,Oregon.Printed in the United States of America.Ali rights reserved.Contents of this publication may not be reproduced in any form without permission of the copyright owner.U.S.A.and foreign TEKTRONIX products covered by U.S.and foreign patents and/or patents pending.SECTION1 SECTION2 SECTION3 SECTION4APPENDIX ACONTENTSINTRODUCTION1.1The4953and4954Graphics Tablet............. UPPER LEVEL ROUTINES2.1Tablet Initialization Subroutine:TABINT......... 2,2Multiple Point Subroutine:MULPNT............2.3Single Point Subroutine:ON EPNT.............. LOWER LEVEL ROUTINES3.1Tablet Arming Subroutine:TABARM...........3.2Tablet Disarming Subroutine:TABOFF..........3.3Accepting a Point Subroutine:GETPNT..........EXAMPLESExample1—An Application of ONEPNT.............. Example2—An Application of MULPNT............. Example3—Multiple/Presence Mode on the Tablet..... Example4—Multiple/Presence Mode on a Full-DuplexSystem........................“n'... Example5—Tracking in Single/Presence Mode......... STRAPPING OPTIONS FOR THE4953AND4954 GRAPHICS TABLET INTERFACEASCII CODE CHART 4010A06USE R1-32—12—22-33-1 ..3-24-1 ..4—24-34-4 ..4-5SECTlON1|NTRODUCflON1.0The Graphics Tablet Utility Routines providean easy way of using the TEKTRONIX4953and4954GraphicsTablet in conjunction with a4fllD series Computer DisplayTerminal and a host computer.The software support consistsof six FORTRAN IV subroutines,designed to be used withthe Terminal Control System.TAB/r-initializes the software system.ONEPNT-returns the XY coordinates of asingle point on the Graphics Tabletto the user.MULPNT-returns a properly formatted array ofX and Y coordinates on the GraphicsTablet to the user.TBARMTABARM‘-arms the Graphics Tablet for eithersingle or multiple point input.T6oF‘FTABDGF'-disarms the Graphics Tablet.GeTPrGEIPNT’-accepts the characters output by theGraphics Tablet and returns the headercharacter and tablet coordinatesindicated by the characters.Most users will need only the first three routines fortheir applications.The lower level routines may be used,however,to write routines which suit the user's specialapplications.ONEPNT and MULPNT can serve as examples ofhow these lower level routines may be used.See the systemflow diagram in Figure l.This software package allows the user to control four ofthe five mode options available on the4953/4954.Theyare:multiple point or single point entry;pen orpresence mode;local display or not;and lO or l2bitaddressing.The one option which the software does notallow is whether the pen leaving presence disarms thetablet;these routines always cause the tablet to disarmwhenever the pen leaves presence.The subroutine TABINTcontrols the pen/presence mode,local display/no localdisplay,and10bit/l2bit addressing options,while thesubroutine TABARM controls the single point/multiple pointoption.a401OAOB USE RAPPLICATION PROG RAMMU LPNT ONEPNT TABINT4TABOFF TABARM GETPNTTCS—TCS-OUTPUT INPUTrTHE GRAPHICSTABLETTHE TERMINAL Figure 1Graphics Tablet Utility Routines4010A06USE RThe4953and4954l.l The Graphics Tablet provides the user with an‘“’Graphics Tablets:excellent device for inputting graphics data to acomputer or other data system.When used with the4¢l0series Computer Display Terminal,graphics input and theability to reference coordinates on the terminal screenbecome as easy as using a pencil and paper.By sittingat a desk and moving the"writing pen"of the Tablet overa specially designed surface,the Tablet user may enterfree-hand graphics,input a message,or draw a chart orpicture.The points drawn on the writing surface can beautomatically converted into digital positions on theterminal screen,and the points may be stored by the hostcomputer for later reference.The Tablet can send onepoint at a time or a continuous series of points,dependingupon the mode of operation.Physically,the Graphics Tablet consists of four components.They are:l.The TabletThe Tablet,connected to the Power Module,isavailable in two sizes:The4953Tablet has a flat writing surface withapproximately ll by ll inches of useable area.It\~/possesses a grid of l024by l024points,with100of these points equaling one inch on the Tablet.This grid corresponds exactly to the addressablescreen coordinates on the40l0,40l2,or40l4Terminal.*The4954Tablet has a flat writing surface withapproximately40by30inches of useable area.Itpossesses a grid of4096by3l20points.This gridcorresponds exactly to the viewable,addressablescreen coordinates on the40l4Terminal with EnhancedGraphics Module(see the4014User's Manual).The4954Tablet is also compatible with the viewable,addressable screen coordinates(l024by7805on the40l0,40l2,and40l4Terminals.*4096addressing,associated with the4014Terminal with the Enhanced Graphics Module,is possible on the4953Tablet.The software translates the coordinatesinto those used for the4953(i.e.,l024addressing).4010A06USER@1-32.The Writing Implement This is a pen**,connected to the Power Module,whose tip contains a small electromagnet which enables the Tablet to detect its position on the writing surface,whenever it is in the "presence"of the surface.When in pen mode,the pen must be depressed once for each point sent,whether in single or multiple point mode.When in presence mode,points are digitized and transmitted as fast as the baud rate allows whenever the pen is within l/4inch of the writing surface.3.The Power Module The Power Module is a box containing some control circuitry for the Tablet and the pen,as well as the ON/OFF switch and power supply for all the components.The three red lights on the front of the box indicate when the circuitry is READY to send points,when the DATA is being digitized and transmitted,and when the PEN is depressed.4.The Tablet-to-Terminal Interface This circuit board,inserted into a 40l0-SeriesTerminal,contains most of the control circuitry for the Tablet and pen.The five straps discussed in Appendix A are located here.**An optional flat cursor with a button which substitutes for pen depression1-4is also available;for the purposes of this manual,however,the implement is assumed to be a writing pen.@4010A06USER\//SECTION 2UPPER LEVEL ROUTINESTablet Initialization:2.l TABINT should always be the first Tablet routine .called by the user.It initializes the Graphics TabletSubroutine TABINT Utility Routines Common area.Calling Sequence:rAB/r ('/7,fl,CALL IABiNT (ICOORD,LOCDSP,IPEN)./“3Parameters Entered:ICOORD This argument sets the coordinate system which the user wishes to use*,either 1024by l024or 4096by 4096.Notethat the 4953tablet addresses all of the points in the above coordinate systems,while the 4954Tablet addresses coordinate systems of l024by 780points or 4096by 3l20points:9-addresses 1924space (a range of 9-1923by D-lDZ3points).l —addresses 4096space (a range of 0-4095by 9-4995points).LOCDSP Determines whether points on the Graphics Tablet will be locally displayed on the terminal screen or not:-no local display l -local display is generatedIPEN Determines whether the Tablet is armedin pen mode or presence mode:9-Pen mode:data is sent each time the pen is depressed.l -Presence mode:data is sent whenever the pen is in presence.**NOTE:(l)Local display should not be generated if the header character strap is set to LETTER.See Appendix A.(2)Care must be taken when using multiple/presence mode so as not to overrun the system input buffer.(See Examples 4and 5.)*The terminal interface must be strapped to indicate whether the Tablet in use is a 4953or a 4954for ICOORD to work correctly.See Appendix A.**See the description of the COMSUP strap option in Appendix A.4010A06USER @2-1MuTtipTe Point Subroutine:2-2MULPNT 2.2This subroutine arms the TabTet in muTtipTe point mode and accepts data from the Graphics TabTet untiT either (a)the number of points wanted or more have been enteredand the pen has Teft presence or (b)the user has entered a Tetter from the keyboard besides J,M or 0foTTowed bya CR.(Note:When method (b)is used,the character sent from the keyboard is ngt_returned to the user.)The only points returned by this routine are those with a GS (29)header or a SUB (26)header when no non-SUB header has been received since the Tast GS was received.This fiTtering insures that onTy vaTid points,sent when the pen is depressed,are returned by this subroutine,anditaTTows the user to distinguish when the pen leaves and enterspresence (See ExampTes 2and 4).The user may Teave and enter presence with the pen as often as he wishes untiT the number of vaTid points specified has been received.CaTTing Sequence:CALL MULPNT (NWNT,NGOT,IH,IX,IY)Parameter Entered:NWNT The number of points wanted.Parameters Returned:NGOT The number ofpoints returned.IH An array containing the header characters returned from the TabTet.See Section 3.3and Appendix A for an expianation of the meainings of the header characters.IX An array containing the X-coordinatesinput from the TabTet.IY An array containing the Y-coordinates input from the TabTet..@4010A06USERSingle Point Subroutine:ONEPNT4010A06USE R 2.3ONEPNT arms the Tablet in single point mode, accepts one valid point(with either a GS(29)or SUB(26) header),and disarms the Tablet.The CR strap(See Appendix A)should be IN when using this routine,but ifit is OUT,the user may enter a CR from the keyboard after entering the single point.Calling Sequence:CALL ONEPNT(IX,IY)Parameters Returned:IX The Tablet X-coordinate which hasbeen input.IY The Tablet Y—coordinate which hasbeen input.@2-3SECTION3LOWER LEVEL ROUTINESTablet Arming 3.1This routine arms the Tablet*using information Subroutine:TABARM contained in the Common area of the software in additionto the input parameter,MULT,which specifies single pointor multiple point input.This routine is called bysubroutines MULPNT and ONEPNT.When the user arms theTablet with TABARM,he should use TABOFF(see following)after Tablet input is completed.Calling Sequence:mum f f,3CALL TABARM(MULT)Parameter Entered:MULT Arm for multiple or single point input:D-arm,input one point,disarm.l-arm,input points,disarm when thewriting pen leaves puterecho is not resumed if the EchoSuppression Strap(See Appendix A)is set to IN when the Tablet isdisarmed.Tablet DiSarming 3.2This routine disarms the Graphics Tablet and is Subroutine:TABOFF called by subroutines MULPNT and ONEPNT.If the Tabletinterface board is strapped for the suppression of computerecho,the computer echo will be reenabled at this point(See Appendix A).Calling Sequence:rBoFFCALL TABGFFale Arming the Tablet suppresses data sent to the terminal screen if the Echo Suppression is strapped IN (See Appendix A).3-14010A06USER@Accepting a Point Subroutine:GETPNT *The Header Character Strap:US can be input by the computer system.these header characters to J,M,and 0.3-2 3.3This routine is also called by subroutines MULPNT and ONEPNT.It returns the coordinates of either an inputpoint from the Tablet,or the beam position on the terminal screen,depending on the header character which is returned to the user.Calling Sequence:GETPTCALL GETPNT’(IH,IX,IY)Parameters Returned:IH IXIV The headercharacter of the point.If IH is a Tablet header,then the coordinates will be those of the point input.If IH is a terminal status header,then the coordinates will be the terminal beam position.Terminal status is sent to indicate the writing pen has left presence;if the Tablet is not armed,the terminal status is not sent when the Tablet is next armed.NOTE:If IH is auser keyboard input,then the coordinates returned will be meaningless.The X-coordinate of the point.The Y-coordinate of thepoint.Headers ReturnedBy Subroutine GETPNT Are:ValueInput Characters Meaning 26SUB or J*No change in the header character 29G5or M*Pen Depressed 31US or 0*Pen Released32-63Terminal Status Pen Removed from PresenceGreater than 163,but NOT 74,77,or 79User Keyboard InputThis strap should be set to CONTROL if SUB,GS,and Setting the strap to LETTER will change If the strap is set to LETTER,letter headers will replace the vectors on the terminal screenwhen the Tablet is in local display.See Appendix A.@4010A06USE R‘v'SECTION4EXAMPLESThe foiiowing exampies give the user a set of typicaiappiications for the Graphics Tabiet Uti1ity Routines.Inciuded with each exampie is a description of its purpose.EXAMPLE1An Application of ONEPNTThis example uses ONEPNT in pen mode to accept a pointand then draws a box around that point on the screen usingthe Terminai Contro]System.This method may be used toposition more compiex designs and symbois anywhere on thetermina]screen.CALL INITT(30)OfiLL TADIHT(0.0.0)10CALL ONEPNT(IX.IY)CALL"00008(IX.IY)CRLL HOURIL(°00.-00)ChLL DRUREL(100.0)CGLL000L(0.100)CQLL DR“L(-100.0)CGLL DRUREL(0.-100)OHLL TINPUT(J)(J.50.00)00T010(0.0)OahL FINITT4010A06USER@44,Example2An Application of MULPNTThis program uses MULPNT in pen mode to accept twentypoints and graph them using the Terminal Control System.Since MULPNT returns a header character for each point,the data may be graphed in segments(using either a moveor a draw),depending on when the pen entered and left thepresence of the Tablet.The CR strap on the Tablet maybe either IN gr_OUT.*10MOHHUOOOU Zbfl’lODDDo—cHHHHCDZH*See the note on the CR strap in Appendix A. 4-2@).IX(80J,IY(20))UM.IH,IX,IY)CQLL MOUQBS(CALL DRUfiBS(nIX(I).IYIX(I).IY(I))(I))401OAOB USERExample310Mu1t1pTe/Presence Mode on the TabTetTh1s program shows how to use MULPNT to1mp1ement muTt1p1e/‘presence mode on a han—-dup1ex system*(1.e.,mu1t1p1epo1nts are sent e1ther when the pen is depressed or whenit151h presence).The11m1tat1on15that the user must be careful not to send enough po1nts to overrun the TerminaT ControT System1nput buffer(the size of the1nput buffer depends on1mpTementat10n,but1t1s usuaTTy the same as the system1nput buffer s1ze).The CR strap on the Tablet shoqu be OUT.anENsxon xn<so>.:x(s 1.CALL INITT(so)a xvcso>82th TflfézT526°"64IN93fgufifi‘ggnas;n CALL nixIV).vans:<1x<x>,zv<x)) IF(IHtI).EO.25)aSQBLFINITT(0.010LL nauaasc<1x<11,1v<1)*See the note on the CR strap1n Append1x A. 401OA06USERExamp1e4Muitipie/Presence Mode on a Fu11—Dup1ex SystemThis program shows how to implement muitipie/presencemode on a full—duplex system*whiie placing no restrictionson the user.The fiitering aigorithm in the programgraphs oniy those points whose headers are either a G5or a SUB(when no other header but SUB has been receivedsince the iast GS).The CR strap on the Tabiet must be IN.See Exampie3for an example of multiple/presence mode ona half-dupiex system.C!EXONPLE USING LEUEL TUO ROUTINES AND FILE1/0C t TO'OCCEPT AND CROPH ON INDEFINITE NUNDER OF POINTSC!UITH TODLET IN NULTIPLE/PRESENCE MODECOLL INITT(30)COLL TODINT(0.1,1)COLL OFILE(1.'TDDOT')"RITE(5.10)10FORNOT(1X.'PROCEED-ENTER9FROM KEYDOORD TO END‘)C x OCCEPT POINTS AND URITE THEM TO FILE.20COLL TADARN(1)3.CALL OETPNT(IH,IX.IY)IF(IH.EO.33)00TO5.URITE(1.40)IH.IX,IY4.FORNOT(315)IF(IN.0E.38.0ND.IH.LE.83)GO TO I.GO TO3.50CALL TADOFFC3CLOSE AND REOPEN FILE TO READ DATAENDFILE1CALL IFILE(1.‘TDDAT‘)C t FILTER OUT EXTRONEOUS POINTS OND GRAPH UOLID,POINTSS.REOD(1.4..END'DO)IH.IX,IYIF(IN.E0.BD)00TO7.iFitIH.EO.!O)00TO DO00TO SO70(IX.IY)CALL NOUADOGO TO30D.IF(I EO.1)GO TO3.CALL DRUADS(IX.IY)00TO GO9.ENDFILE ICALL FINITT(0,0)END*See the note on the CR strap in Appendix A.4-4@4010A06USERExampie5Tracking in SingIe/Presence ModeWhen the COMSUP strap is set to IN(see Appendix),it is possibie in singIe/presence mode to use thescreen alphanumeric cursor to"track“the pen lo-cation.The exampie program shows how to do thisas we11as how to draw at the same time from pointto point on the screen.The move and draw commandsmay be deieted if the drawing is not desired.NOTELoca]dispiay must be selected whencaiiing subroutine TABINT.DIMENSION IH(100).IX(100).IY(100)CRLL INITT(30)CALL TQBINT(0.1.1)DO100I'1,10050CQLL TQBARM(0)CQLL GETPNT(IHIF(IH(I).GT.IF(IHtI).GT.CALL TABOFFIF(I.EO.1)CRLL HOUQBS(CRLL"00089E('CQLL DRUGBSCQLL TOUTPT100CONTINUE150CALL TABOFFENNLFINITT(0.0)4010A06USER@4-5APPENDIX ASTRAPPING OPTIONSFOR THE GRAPHICS TABLETA-14010A06USERSTRAPPING OPTIONSFOR THE GRAPHICS TABLETEight straps on the circuit boards of a40l0—Series Computer Display Terminal equipped with a4953or4954Graphics Tablet should be in specific settings to allow the Graphics Tablet Utility Routines to operate properly.The GIN-mode strap on the TC2board should be set according to Terminal Control System requirements.The seven straps on the Graphics Tablet interface board appear as follows:mg.cams.DELAY IN/OUTESUP IN/OUTCR IN/OUTHEADER CONTROL/LETTERSIZE LARGE/SMALLCOMSUP IN/OUTSTATUS IN/OUTDELAYSet this strap to IN so that the maximum rate of transmissionfrom the Tablet may be lowered via the”pot“next to the strap.The adjustment ranges from about l200baud down to under300baud,while the rate of transmission with the strap OUT is around9600baud;the screen on a4010,40l2,or40l3Terminal may bedamaged by the very short,very bright vectors generated withthe DELAY strap OUT.ESUPSet this strap to IN in order to keep unwanted characters fromappearing on the screen during transmission.@4010A06USERThis strap determines whether a CR is sent following the5(or6)characters sent for each point.The strap should be set asfollows:(a)If the GIN-mode strap on the TC2circuit boardis set to NONE,set CR to OUT.(b)When using single point mode(as in ONEPNT),setthe CR to IN,except in the situation covered in(a).(c)When using multiple point mode(as in MULPNT),setCR to:l)IN-if the computer system is full-duplexand can accept input continuously,except in the situation covered in(a).2)OUT-if the computer system is half-duplexand sends a prompt to indicate it is readyto accept input.HEADERSet this to LETTER when transmitting to a CPU,unless the TerminalControl System input routine TINSTR can accept the control charactersGS,SUB,and US.With the Terminal in LOCAL,this strap may be setto CONTROL for graphics display.See Section 3.3:GETPNT.SIZESet this to SMALL for a4953Tablet,LARGE for a4954Tablet.COMSUPWhen the pen is tracking in presence mode,setting this strapto IN allows the tracking to occur without transmission ofpoints(until the pen is depressed).STATUSSetting this strap to OUT causes transmission of the terminalstatus character to be suppressed when the pen leaves presence.If this option is selected,the source code of subroutine TABARMshould be changed.Line880should become:IF(MULT.NE.O)NPNTS=344010A06USE RASCII CODE CHART(Z)(Z)18685rag1011g 11we)011g11ansHIGH x &Y B4B38281CONTROLGRAPHIC INPUTLOW XLOW Y171(a (a (aNULDLESP@\(0)10(16)20(32)30(48)40(64)50(80)60(96)70(112)a)w (a 1SOHDC1!a1(1)11(17)21(33)31(49)41(65)51(81)61(97)71(113)(a m 1a)STXDC2"br2(2)12(18)22(34)32(50)42(66)52(82)62(98)72(114)(a (a 11ETXDC3#Cs3(3)13(19)23(35)33(51)43(67)53(83)63(99)73(115)(a 1(a01E01DC4$dt4(4)14(20)24(36)34(52)44(68)54(84)64(100)74(116)1211011ENQNAK%(5)15(21)25(37)35(53)45(69)55(85)55(101)75(117)011112)ACKSYN&fvICDflI‘HOOUJZD(DOONQU'l-wah—A6(5)16(22)26(38)36(54).46(70)56(86)66(102)76(118)(a111BELETB/W7(7)17(23)27(39)37(55)47(71)57(87)67(103)77(119)1m(aBSCAN(hx8(8)18(24)28(40)38(56)48(72)58(88)68(104)78(120)1(a (a1HTEM)I|y9(9)19(25)29(41)39(57)49(73)59(121)(89)69(105)79PQRSTU9uVWXYZ1m1mLFSUB'*:A(10)1A(26)2A (42)3A(58)4AZ(74)5A(90)6A(106)7A(122)10111VTESC +;B(11)1B(27)2B(43)3B(59)4B[k{(75)5B(91)GB(107)7B(123)11010FFFS,<C(12)1C(28)20(44)3C(60)4C\II(76)5C(92)6C (108)7C (124)1101CRGS—=D(13)1D (29)20(45)3D(61)4Dm}(77)5D(93)SD(109)7D(125)1111080RS.>/\nNE(14)1E(30)2E(46)3E(62)4E (78)5E (94)6E(110)7E(126)ozZr—xu111131us/1_R183,“F(15)1F(31)2F(47)3F (63)4F (79)5F(95)SF(111)7F(127)@4010A06USER。