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DP3DRAGONpuck®Data SheetPicture for Datasheet is missingBenefitsCompact High-Flux LED light source with high light intensity¾Flat design for wide range of novel applications¾ApplicationsSpecialized spot lighting¾Reading lights ¾Small signals¾Technical FeaturesOperation only with OPTOTRONIC® constantcurrent devices (see page 3)¾Dimensions: H: 12 mm, Ø: 35 mm¾Assembly with M3 screw on metallic heat sink ¾Factory installed 200 mm / AWG22 double polecable¾Protection class IP 22 according to DIN EN60529¾Proofed according to IEC 60068-2 (shock andvibration)¾To obtain maximum LED lifetime please readthe recommended procedures concerning thermal management before beginning design and construction of luminaires.¾Color Power [W]*Radiance Angle [°]*Wavelength [nm] Color Temp [K]*Lum. Intensity[cd]*Current [mA]*Product Number of LEDsTechnical Operating Datawhite 3,6206500 K 410350DP3-W2B-8653white 3,6165400 K 900350DP3-W3F-8543white 3,6204700 K 410350DP3-W2B-8473white 3,6162700 K 630350DP3-W3F-7273red 2,420616 nm 500350DP3-A23red 2,416616 nm 215350DP3-A13yellow 2,416589 nm 215350DP3-Y13green 3,616531 nm 850350DP3-T23verde 3,616505 nm 295350DP3-V13blue 3,620468 nm 115350DP3-B23blue3,616468 nm95350DP3-B13All Data are related to the entire moduleDue to the special conditions of the manufacturing processes of LED the typical data of technical parameters can only reflect statistical figures and do not necessarily correspond to the actual parameters of each single product which could differ from the typical data.*)+)Preliminary DataDrawingDrawing is missingOperating Temperature at Tc-Point [ °C ] *Storage Temperature[ °C ] *Product Reverse Voltage[ V dc ] *Minimum and Maximum RatingsMax. Current [ A dc ] *DP3-W2B-86524-3085-3085......0,5DP3-W3F-85424-3085-3085......0,5DP3-W2B-84724-3085-3085......0,5DP3-W3F-72724-3085-3085......0,5DP3-A224-3085-3085......0,5DP3-A124-3085-3085......0,5DP3-Y124-3085-3085......0,5DP3-T224-3085-3085......0,5DP3-V124-3085-3085......0,5DP3-B224-3085-3085......0,5DP3-B124-3085-3085......0,5Exceeding maximum ratings for operating and storage temperature will reduce expected life time or destroy the LED Module.Exceeding maximum ratings for operating current will cause hazardous overload and will likely destroy the LED Module. Several modules may be connected in series up to the maximum voltage of 100 V DC (outside SELV limits).The temperature of the LED module must be measured at the Tc-point according to EN60598-1 in a thermally constant status with a temperature sensor or a temperature sensitive label. For exact location of the Tc-point see drawing below.*)The module is designed to work with current sources. The maximum output voltage may not exceed 100 V DC. Reverse operation is not allowed and may destroy the module.Safety InformationThe LED module itself and all its components must not be mechanically stressed.¾Assembly must not damage or destroy conducting paths on the circuit board.¾Serial connection is highly recommended as safe electrical operation mode.Parallel connection is not recommended. Unbalanced voltage drop can cause hazardous overload and damage the LED module.Correct electrical polarity needs to be observed. Wrong polarity may destroy the module.¾¾¾Recommended power supply:¾OT 9/200-240/350 or OT 9/100-120/350(E): 350 mA constant current operation¾OT 9/10-24/350 DIM, OT 9/10-24/350 DIM(E): 350 mA constant current PWM dimming, 1..10V interface ¾OT 9/200-240/350 DIM: 0-350 mA constant current operation, 1..10 V interface (dimming), strain relief ¾Maximum number of DP3 for OT9: White/Blue/Green: 2; Red/Yellow: 3¾OT 18/200-240/700 DIM: 0-500 mA constant current operation, 1..10 V interface (dimming), strain relief. The OT18 comes with preset limitation to 500mA, thus giving 12W due to SELV (<=25V)¾Maximum number of LEDs for OT18: White/Blue/Green: 2; Red/Yellow: 3¾Pay attention to standard ESD precautions when installing the module.¾The module, as manufactured, has no conformal coating and therefore offers no inherent protection against corrosion.¾Damage by corrosion will not be honored as a materials defect claim. It is the user's responsibility to provide suitable protection against corrosive agents such as moisture and condensation and other harmful elements.Installation of LED modules (with power supplies) needs to be made with regard to all applicable electrical and safety standards. Only qualified personnel should be allowed to perform installations.¾The LED Module incorporates no protection against short circuits, overload or overheating. Therefore it is absolutely necessary to operate the modules with a electronically stabilised power supply offering protection against the above mentioned safety risks.For dimming applications attention should be paid to specific references in "OPTOTRONIC ® Technical Guide".OSRAM OPTOTRONIC ® power supplies are specifically designed with protection features for safe operation.When using power supplies other than OPTOTRONIC ® the following basic safety features are required, in addition to any other application specific concerns and local safety codes:Short circuit protection ¾Overload protection Overheat protection¾¾Assembly Information¾The mounting of the module is facilitated by means of a M3 screw which fits to a threaded hole in the rear of the DRAGONpuck® housing. Do not exceed a torque of 40 Ncm.¾The module should be in good thermal contact with the designed metallic mounting surface. Use of an appropriate heat sink compound is recommended to eliminate air gaps.¾To obtain maximum LED-lifetime please read carefully the recommended procedures concerning thermal management in ourapplication note "Lifetime of LED-modules" before beginning construction of luminaires. This application note is available from your OSRAM representative.Productgroup Productname EAN *S-Unit *Ordering GuideDRAGONpuck®DP3-W2B-865400832103340616DRAGONpuck®DP3-W3F-8544008321214508DRAGONpuck®DP3-W2B-847400832103336916DRAGONpuck®DP3-W3F-7274008321214447DRAGONpuck®DP3-A2400832114953416DRAGONpuck®DP3-A1400832103318516DRAGONpuck®DP3-Y1400832103342016DRAGONpuck®DP3-T2400832114951016DRAGONpuck®DP3-V1400832103334516DRAGONpuck®DP3-B2400832114947316DRAGONpuck®DP3-B1400832103320816EAN: Ordering number per single module S-Unit: Modules per shipping unit*) Note: Typical performance data are subject to change without any further notice, particularly as LED technology evolves.Related and Further InformationThe new dimension of light ¾153 S006 GBOPTOTRONIC® Data Sheets ¾ OPTOTRONIC® Technical Guide ¾130 T008 GBOSRAM LED systems¾/led-systemsApplication Note: Life Expectancy¾/led-systems-downloadsSales and Technical SupportSales and technical support is given by the local OSRAM subsidiaries.On our world wide homepage all OSRAM subsidiaries are listed with complete address and phone numbers.OSRAM GmbH Hellabrunner Strasse 1D - 81536 München Germany +49 (0)89 6213-0。

A product of SEGGER Microcontroller GmbH & Co. KG Flasher ARMManual Rev. 18User guide of the stand-aloneJTAG programmer for ARM CoresDocument: UM08007Date: August 6, 20092Flasher ARM (UM08007)© 2004-2009 SEGGER Microcontroller GmbH & Co. KG DisclaimerSpecifications written in this document are believed to be accurate, but are not guar-anteed to be entirely free of error. The information in this manual is subject to change for functional or performance improvements without notice. Please make sure your manual is the latest edition. While the information herein is assumed to be accurate, SEGGER Microcontroller GmbH & Co. KG (the manufacturer) assumes no responsibility for any errors or omissions. The manufacturer makes and you receive no warranties or conditions, express, implied, statutory or in any communication with you. The manufacturer specifically disclaims any implied warranty of merchantability or fitness for a particular purpose.Copyright noticeYou may not extract portions of this manual or modify the PDF file in any way without the prior written permission of the manufacturer. The software described in this doc-ument is furnished under a license and may only be used or copied in accordance with the terms of such a license.© 2008 SEGGER Microcontroller GmbH & Co. KG, Hilden / GermanyTrademarksNames mentioned in this manual may be trademarks of their respective companies.Brand and product names are trademarks or registered trademarks of their respec-tive holders.Contact addressSEGGER Microcontroller GmbH & Co. KGIn den Weiden 11D-40721 HildenGermanyTel.+49 2103-2878-0Fax.+49 2103-2878-28Email: support@ Internet: RevisionsThis manual describes the Flasher ARM device.For further information on topics or routines not yet specified, please contact us.Revision Date By Explanation18090727AG Chapter "Working with Flasher ARM" * Section "Supported microcontrollers" updated. * Section "JTAG speed" removed. * Section "target interfaces" added.Chapter "Remote control" * Section "Overview" updated.Chapter "Performance" * Section "Performance of MCUs with internal flash memory" updated.17090616AG Chapter "Working with Flasher ARM" * Section "Multiple file support" added.16090519AG Chapter "Remote control" * Section "ASCII command interface" spelling corrections.15090515AGChapter "Remote control" * Section "ASCII command interface" updated.314090508AG Chapter "Remote control"* Section "ASCII command interface" updated.13090506AG Chapter "Remote control"* Section "ASCII command interface" updated.12090122AG Chapter "Working with Flasher ARM"* Section "Supported microcontrollers" updated.11090114AG Chapter "Working with Flasher ARM"* Section "LED status indicators" upadted. 10081211KN Several corrections.9081113AG Chapter "Working with Flasher ARM"* Section "Supported microcontrollers" updated.8081105AG Chapter "Remote control"*Section "ASCII command interface" updated.7081031AG Chapter "Remote control"* Section "Handshake control" updated.* Section "ASCII command interface" updated.6081030AG Chapter "Working with Flasher ARM"* Section "Supported microcontrollers" corrected. Chapter "Remote control"* Section "ASCII command interface" updated.5080929AG Chapter "Working with Flasher ARM"* Section "Supported microcontrollers" updated. Chapter "Working with Flasher ARM"* Section "MSD mode" updated.Chapter "Support and FAQs"* Section "Contacting support" updated. Chapter "Remote control"* Section "ASCII command interface" updated.4080926AG Chapter "Working with Flasher ARM"* Section "Supported microcontrollers" updated.3080912AG Chapter "Remote control" added.Chapter "Background information"* Section "Flasher ARM firmware" removed.2080827AG Several corrections.1080820AG Several improvements/corrections.0071204AG Initial version.Revision Date By ExplanationFlasher ARM (UM08007) © 2004-2009 SEGGER Microcontroller GmbH & Co. KG4Flasher ARM (UM08007)© 2004-2009 SEGGER Microcontroller GmbH & Co. KG5 About this documentThis document describes the Flasher ARM. It provides an overview over the major features of the Flasher ARM, gives you some background information about JTAG, ARM general and describes Flasher ARM related software packages available from Segger. Finally, the chapter Support and FAQs on page51 helps to troubleshoot com-mon problems.Typographic conventionsThis manual uses the following typographic conventions:Style Used forBody Body text.Keyword Text that you enter at the command-prompt or that appears on the display (that is system functions, file- or pathnames).Reference Reference to chapters, tables and figures or other documents.GUIElement Buttons, dialog boxes, menu names, menu commands.Table 1.1: Typographic conventionsFlasher ARM (UM08007)©2004-2009 SEGGER Microcontroller GmbH & Co. KG6Flasher ARM (UM08007)© 2004-2009 SEGGER Microcontroller GmbH & Co. KGEMBEDDED SOFTWARE (Middleware)emWinGraphics software and GUIemWin is designed to provide an effi-cient, processor- and display control-ler-independent graphical userinterface (GUI) for any application thatoperates with a graphical display.Starterkits, eval- and trial-versions areavailable.embOSReal Time Operating SystemembOS is an RTOS designed to offerthe benefits of a complete multitaskingsystem for hard real time applicationswith minimal resources. The profilingPC tool embOSView is included. emFileFile systememFile is an embedded file system withFAT12, FAT16 and FAT32 support.emFile has been optimized for mini-mum memory consumption in RAM andROM while maintaining high speed.Various Device drivers, e.g. for NANDand NOR flashes, SD/MMC and Com-pactFlash cards, are available.emUSBUSB device stackA USB stack designed to work on anyembedded system with a USB clientcontroller. Bulk communication andmost standard device classes are sup-ported.SEGGER TOOLSFlasher Flash programmer Flash Programming tool primarily for microcon-trollers.J-Link JTAG emulator for ARM cores USB driven JTAG interface for ARM cores.J-Trace JTAG emulator with trace USB driven JTAG interface for ARM cores with Trace memory. supporting the ARM ETM (Embed-ded Trace Macrocell).J-Link / J-Trace Related Software Add-on software to be used with SEGGER’s indus-try standard JTAG emulator, this includes flashprogramming software and flash breakpoints.SEGGER Microcontroller GmbH & Co. KG developsand distributes software development tools and ANSIC software components (middleware) for embeddedsystems in several industries such as telecom, medi-cal technology, consumer electronics, automotiveindustry and industrial automation.SEGGER’s intention is to cut software development-time for embedded applications by offering compact flexible and easy to use middleware,allowing developers to concentrate on their application.Our most popular products are emWin, a universal graphic software package for embed-ded applications, and embOS, a small yet efficient real-time kernel. emWin, writtenentirely in ANSI C, can easily be used on any CPU and most any display. It is comple-mented by the available PC tools: Bitmap Converter, Font Converter, Simulator andViewer. embOS supports most 8/16/32-bit CPUs. Its small memory footprint makes itsuitable for single-chip applications.Apart from its main focus on software tools, SEGGER develops and produces programmingtools for flash microcontrollers, as well as J-Link, a JTAG emulator to assist in develop-ment, debugging and production, which has rapidly become the industry standard fordebug access to ARM cores.Corporate Office: United States Office:7Table of Contents1 Introduction (9)1.1Flasher ARM overview (10)1.1.1Features of Flasher ARM (10)1.1.2Working environment (10)1.2Specifications (11)1.2.1Specifications for Flasher ARM (11)1.2.2Flasher ARM Download speed (11)2 Working with Flasher ARM (13)2.1Operating modes (14)2.1.1J-Link mode (14)2.1.2Stand-alone mode (17)2.1.3MSD mode (18)2.2Multiple File Support (19)2.3Target interfaces (20)2.4Supported microcontrollers (21)2.5Support of external flashes (27)2.6Supported ARM Cores (28)3 Remote control (29)3.1Overview (30)3.2Handshake control (31)3.3ASCII command interface (32)3.3.1Introduction (32)3.3.2General command and reply message format (32)3.3.3Communication port settings (32)3.3.4Commands to Flasher (32)3.3.5Reply from Flasher ARM (36)4 Performance (39)4.1Performance of MCUs with internal flash memory (40)5 Hardware (41)5.1JTAG Connector (42)5.1.1Pinout (42)5.1.2Target board design for JTAG (43)5.1.3Target power supply (43)5.2Using the JTAG connector with SWD (44)5.2.1Pin Out (44)5.3RESET, nTRST (45)5.4Adapters (46)5.4.1J-Link JTAG Isolator (46)5.4.2Pinout (46)5.5How to determine the hardware version (47)6 Background information (49)6.1Flash programming (50)6.1.1How does flash programming via Flasher ARM work ? (50)6.1.2Data download to RAM (50)Flasher ARM (UM08007)© 2004-2009 SEGGER Microcontroller GmbH & Co. KG8Flasher ARM (UM08007)© 2004-2009 SEGGER Microcontroller GmbH & Co. KG6.1.3Available options for flash programming (50)7 Support and FAQs (51)7.1Contacting support..................................................................................527.2Frequently Asked Questions. (53)8 Glossary (55)9 Literature and references (59)9 Chapter 1IntroductionThis chapter gives a short overview about the Flasher ARM.Flasher ARM (UM08007)©2004-2009 SEGGER Microcontroller GmbH & Co. KG10CHAPTER 1IntroductionFlasher ARM (UM08007)© 2004-2009 SEGGER Microcontroller GmbH & Co. KG 1.1Flasher ARM overviewFlasher ARM is a programming tool for microcontrollers with on-chip or external Flash memory and ARM core. Flasher ARM is designed for programming flash targets with the J-Flash software or stand-alone. In addition to that Flasher ARM has all of the J-Link functionality. For more information about J-Link please refer to the J-Link / J-Trace User Guide which can be downloaded at .Flasher ARM connects via USB or via RS232 interface to a PC, running Microsoft Win-dows 2000, Windows XP, Windows 2003 or Windows Vista. Flasher ARM has a built-in 20-pin JTAG connector, which is compatible with the standard 20-pin connector defined by ARM.1.1.1Features of Flasher ARM •Three boot modes: J-Link mode, stand-alone mode, MSD mode •Stand-alone JTAG programmer (Once set up, Flasher can be controlled without the use of PC program)•No power supply required, powered through USB •Support for ARM7/ARM9/Cortex-M3•Supports internal and external flash devices •64 MB memory for storage of target program •Can be used as J-Link (JTAG emulator) with a download speed of up to 720Kbytes/second •Programming speed between 30-300 Kbytes/second depending on target hard-ware •Serial in target programming supported •Data files can updated via J-Flash •Target interface: JTAG/SWD1.1.2Working environmentGeneralFlasher ARM can be operated from a PC with an appropriate software like J-Flash or in stand-alone mode.Host SystemIBM PC/AT or compatible. CPU: 486 (or better) with at least 182MB of RAM, running Microsoft Windows 2000, Windows XP, Windows 2003 or Windows Vista. It needs to have an USB or RS232 interface available for communication with Flasher ARM.Power supplyFlasher requires 5V DC, min. 100mA via USB connector. If USB is not connected, the USB connector is used to power the device. Supply voltage is the same in this case.Please avoid excess voltage.Installing Flasher ARM PC-software J-FlashThe latest version of the J-Flash software, which is part of the J-Link software and documentation package, can be downloaded from our website: . For more information about using J-Flash please refer to the J-Flash User Guide which is also available for download on our website.111.2Specifications1.2.1Specifications for Flasher ARM1.2.2Flasher ARM Download speedThe following table lists Flasher ARM performance values (Kbytes/second) for writing to memory (RAM) via the JTAG interface:Note:The actual speed depends on various factors, such as JTAG, clock speed,host CPU core etc.Power SupplyUSB powered, 100mA for Flasher ARM. 500mA if target is powered by Flasher ARMUSB Host Interface USB 2.0, full speed RS232 Host Interface RS232 9-pinTarget InterfaceJTAG 20-pin (14-pin adapter available)Max. JTAG Transfer Rate up to 12 MHz Supported Target Voltage 1.8 - 5V Target supply voltage 5VTarget supply current Max. 400mA Operating Temperature +5°C ... +60°C Storage Temperature-20°C ... +65 °C Relative Humidity (non-condensing)<90% rHSize (without cables)121mm x 66mm x 30mm Weight (without cables)120gSupported OSMicrosoft Windows 2000Microsoft Windows XPMicrosoft Windows XP x64Microsoft Windows 2003Microsoft Windows 2003 x64Microsoft Windows VistaMicrosoft Windows Vista x64Hardware ARM7Memory download Flasher ARM Rev. 1720 Kbytes/s (12MHz JTAG)12CHAPTER 1Introduction13 Chapter 2Working with Flasher ARMThis chapter describes functionality and how to use Flasher ARM.14CHAPTER 2Working with Flasher ARM2.1Operating modesFlasher ARM is able to boot in 3 different modes:•J-Linkmode•Stand-alone mode•MSD (Mass storage device) modeIf Flasher ARM can enumerate on the USB port, Flasher ARM boots in "J-Link mode".In this mode Flasher ARM can be used as a J-Link. When supply power is enabled and Flasher ARM cannot enumerate, the "stand-alone mode" is started. In this mode Flasher ARM can be used as a stand-alone flash programmer. When the Start/Stop button is kept pressed when power supply is enabled, Flasher ARM boots in "MSD mode". In this mode Flasher ARM boots as a mass storage device.2.1.1J-Link modeWhen you want to use Flasher ARM for the first time you need to install the J-Link ARM related software and documentation pack. After installation, connect Flasher ARM to the host PC via USB. For more information about how to install the J-Link ARM related software and documentation pack please refer to the J-Link / J-Trace User Guide , chapter Setup which can be downloaded from /download_jlink.html.2.1.1.1Connecting the target systemPower-on sequenceIn general, Flasher ARM should be powered on before connecting it with the target device. That means you should first connect Flasher ARM with the host system via USB / RS232 and then connect Flasher ARM with the target device via JTAG. Power-on the device after you connected Flasher ARM to it. Flasher ARM will boot in "J-Link mode".Verifying target device connection with J-Link.exeIf the USB driver is working properly and your Flasher ARM is connected with the host system, you may connect Flasher ARM to your target hardware. Then start the J-Link command line tool JLink.exe , which should now display the normal Flasher ARM related information and in addition to that it should report that it found a JTAG target and the target’s core ID. The screenshot below shows the output of JLink.exe .2.1.1.2Setting up Flasher ARM for stand-alone modeIn order to set up Flasher ARM for the "stand-alone mode" it has to be in "J-Link mode". When the correct connection of Flasher ARM to the host PC is verified start the J-Flash software. For more information about J-Flash, please refer to theJ-Flash15 User Guide. The J-Link related software and documentation package contains the J-Flash software. When J-Flash is started, open an appropriate J-Flash project file and an appropriate data file for the target you want to program with Flasher ARM.16CHAPTER 2Working with Flasher ARM Now, choose File->Download to emulator from the menu in order to download the target configuration as well as the data file to the Flasher ARM.17 After the download, you should see in the J-Flash Log window that the Flasher.cfg and the Flasher.dat files have been successfully downloaded.From now on, Flasher ARM can be used in "stand-alone mode" for stand-alone pro-gramming.2.1.2Stand-alone modeIn order to use Flasher ARM in "stand-alone mode", it has to be configured first, as described in Setting up Flasher ARM for stand-alone mode on page14. To boot Flasher ARM in the "stand-alone mode", only the power supply to Flasher ARM has to be enabled (Flasher ARM should not be connected to a PC). In the "stand-alone mode" Flasher ARM can be used as a stand-alone flash programmer.Note:Flasher ARM can only program the target device it was configured for. In order to program another target device, you have to repeat the steps described in Setting up Flasher ARM for stand-alone mode on page14.2.1.2.1LED status indicatorsProgress and result of an operation is indicated by Flasher ARM’s LEDs:Status of LED MeaningGREEN, high frequency flashing (10 kHz)Enumerating Flasher ARM. This only hap-pens before the first programming opera-tion is performed.GREEN, after programming operation has been started Connect to target and perform init sequence.18CHAPTER 2Working with Flasher ARM2.1.3MSD modeWhen pressing the Start/Stop button of Flasher ARM while connecting it to the PC,Flasher ARM will boot in the "MSD mode". This mode can be used to downdate a Flasher ARM firmware version if a firmware update did not work properly and it can be used to configure Flasher ARM for the "stand-alone mode", without using J-Flash.If Flasher ARM has been configured for "stand-alone mode" before, there will be four files on the MSD, FLASHER.CFG , FLASHER.DAT , FLASHER.LOG , SERIAL.TXT .FLASHER.CFG contains the configuration settings for programming the target device and FLASHER.DAT contains the data to be programmed. FLASHER.LOG contains all log-ging information about the commands, performed in stand-alone mode. The SERIAL.TXT contains the serial number, which will be programmed next. Currently, J-Flash does not support to configure Flasher ARM for automated serial number pro-gramming.If you want to configure multiple Flasher ARM for the same target you do not have to use J-Flash all the time. It is also possible to copy the FLASHER.CFG and the FLASHER.DAT files from a configured Flasher ARM to another one. To copy these files boot Flasher ARM in "MSD mode".GREEN, slow blinking (1 kHz)Erasing/Programming/Verifying opera-tion is in progress.GREEN Operation successful / Ready.REDOperation failed.Status of LEDMeaning192.2Multiple File SupportIt is also possible to have multiple data files and config files on Flasher ARM, to make Flasher ARM more easy to use in production environment. To choose the correct con-figuration file and data file pair, a FLASHER.INI file is used. This init file contains a [FILES] section which describes which configuration file and which data file should be used for programming. A sample content of a FLASHER.INI file is shown below: [FILES]DataFile = "Flasher1.dat"ConfigFile = "Flasher1.cfg"Using this method all configuration files and data files which are used in the produc-tion only have to be downloaded once. From there on a configuration file / data file pair can be switched by simply replacing the FLASHER.INI by a new one, which con-tains the new descriptions for the configuration file and data file. The FLASHER.INI can be replaced in two ways:1.Boot Flasher ARM in MSD mode in order to replace the FLASHER.INI2.If Flasher ARM is already integrated into the production line, runs in stand-alonemode and can not be booted in other mode: Use the file I/O commands providedby the ASCII interface of Flasher ARM, to replace the FLASHER.INI. For moreinformation about the file I/O commands, please refer to File I/O commands onpage34.20CHAPTER 2Working with Flasher ARM2.3Target interfacesSince Flasher ARM is compatible to J-Link it also supports the same target interfaces.Currently the following target interfaces are supported:•JTAG•SWDFor more information about the target interfaces itself and the maximum speeds that can be used for each target interface, please refer to UM08001, chapter "Working with J-Link and J-Trace", section "JTAG interface" and UM08001, chapter "Working with J-Link and J-Trace", section "SWD interface".Note:Flasher ARM currently does not support SWO.212.4Supported microcontrollersThe following table lists all the devices which are currently supported by Flasher ARM.Manufacturer DevicesAnalog Devices ADuC7020x62Analog Devices ADuC7021x32Analog Devices ADuC7021x62Analog Devices ADuC7022x32Analog Devices ADuC7022x62Analog Devices ADuC7024x62Analog Devices ADuC7025x32Analog Devices ADuC7025x62Analog Devices ADuC7026x62Analog Devices ADuC7027x62Analog Devices ADuC7028x62Analog Devices ADuC7030Analog Devices ADuC7031Analog Devices ADuC7032Analog Devices ADuC7033Analog Devices ADuC7060Analog Devices ADuC7128Analog Devices ADuC7129Analog Devices ADuC7229x126Atmel AT91FR40162Atmel AT91SAM7A3Atmel AT91SAM7S32Atmel AT91SAM7S321Atmel AT91SAM7S64Atmel AT91SAM7S128Atmel AT91SAM7S256Atmel AT91SAM7S512Atmel AT91SAM7SE32Atmel AT91SAM7SE256Atmel AT91SAM7SE512Atmel AT91SAM7X128Atmel AT91SAM7X256Atmel AT91SAM7X512Atmel AT91SAM7XC128Atmel AT91SAM7XC256Atmel AT91SAM7XC512Freescale MAC7101Freescale MAC7106Freescale MAC7111Freescale MAC7112Freescale MAC7116Freescale MAC7121Freescale MAC7122Freescale MAC7126Freescale MAC7131Freescale MAC7136Table 2.2: Supported microcontrollers22CHAPTER 2Working with Flasher ARMManufacturer DevicesFreescale MAC7141Freescale MAC7142Luminary LM3S101Luminary LM3S102Luminary LM3S301Luminary LM3S310Luminary LM3S315Luminary LM3S316Luminary LM3S317Luminary LM3S328Luminary LM3S601Luminary LM3S610Luminary LM3S611Luminary LM3S612Luminary LM3S613Luminary LM3S615Luminary LM3S617Luminary LM3S618Luminary LM3S628Luminary LM3S801Luminary LM3S811Luminary LM3S812Luminary LM3S815Luminary LM3S817Luminary LM3S818Luminary LM3S828Luminary LM3S2110Luminary LM3S2139Luminary LM3S2410Luminary LM3S2412Luminary LM3S2432Luminary LM3S2533Luminary LM3S2620Luminary LM3S2637Luminary LM3S2651Luminary LM3S2730Luminary LM3S2739Luminary LM3S2939Luminary LM3S2948Luminary LM3S2950Luminary LM3S2965Luminary LM3S6100Luminary LM3S6110Luminary LM3S6420Luminary LM3S6422Luminary LM3S6432Luminary LM3S6610Luminary LM3S6633Luminary LM3S6637Luminary LM3S673023Manufacturer DevicesLuminary LM3S6918Luminary LM3S6938Luminary LM3S6952Luminary LM3S6965NXP LPC1111NXP LPC1113NXP LPC1311NXP LPC1313NXP LPC1342NXP LPC1343NXP LPC1751NXP LPC1752NXP LPC1754NXP LPC1756NXP LPC1758NXP LPC1764NXP LPC1765NXP LPC1766NXP LPC1768NXP LPC2101NXP LPC2102NXP LPC2103NXP LPC2104NXP LPC2105NXP LPC2106NXP LPC2109NXP LPC2114NXP LPC2119NXP LPC2124NXP LPC2129NXP LPC2131NXP LPC2132NXP LPC2134NXP LPC2136NXP LPC2138NXP LPC2141NXP LPC2142NXP LPC2144NXP LPC2146NXP LPC2148NXP LPC2194NXP LPC2212NXP LPC2214NXP LPC2292NXP LPC2294NXP LPC2364NXP LPC2366NXP LPC2368NXP LPC2378NXP LPC238724CHAPTER 2Working with Flasher ARMManufacturer DevicesNXP LPC2388NXP LPC2468NXP LPC2478NXP LPC2917NXP LPC2919NXP LPC2927NXP LPC2929ST STM32F101C6ST STM32F101C8ST STM32F101CBST STM32F101R6ST STM32F101R8ST STM32F101RBST STM32F101RCST STM32F101RDST STM32F101REST STM32F101T6ST STM32F101T8ST STM32F101V8ST STM32F101VBST STM32F101VCST STM32F101VDST STM32F101VEST STM32F101ZCST STM32F101ZDST STM32F101ZEST STM32F102C6ST STM32F102C8ST STM32F102CBST STM32F103C6ST STM32F103C8ST STM32F103R6ST STM32F103R8ST STM32F103RBST STM32F103RCST STM32F103RDST STM32F103REST STM32F103T6ST STM32F103T8ST STM32F103V8ST STM32F103VBST STM32F103VCST STM32F103VDST STM32F103VEST STM32F103ZCST STM32F103ZDST STM32F103ZEST STR710FZ1ST STR710FZ2ST STR711FR025Manufacturer DevicesST STR711FR1ST STR711FR2ST STR712FR0ST STR712FR1ST STR712FR2ST STR715FR0ST STR730FZ1ST STR730FZ2ST STR731FV0ST STR731FV1ST STR731FV2ST STR735FZ1ST STR735FZ2ST STR736FV0ST STR736FV1ST STR736FV2ST STR750FV0ST STR750FV1ST STR750FV2ST STR751FR0ST STR751FR1ST STR751FR2ST STR752FR0ST STR752FR1ST STR752FR2ST STR755FR0ST STR755FR1ST STR755FR2ST STR755FV0ST STR755FV1ST STR755FV2ST STR910FAM32ST STR910FAW32ST STR910FAZ32ST STR911FAM42ST STR911FAM44ST STR911FAM46ST STR911FAM47ST STR911FAW42ST STR911FAW44ST STR911FAW46ST STR911FAW47ST STR911FM32ST STR911FM42ST STR911FM44ST STR911FW32ST STR911FW42ST STR911FW44ST STR912FAW32ST STR912FAW4226CHAPTER 2Working with Flasher ARMManufacturer DevicesST STR912FAW44ST STR912FAW46ST STR912FAW47ST STR912FAZ42ST STR912FAZ44ST STR912FAZ46ST STR912FAZ47ST STR912FM32ST STR912FM42ST STR912FM44ST STR912FW32ST STR912FW42ST STR912FW44TI TMS470R1A64TI TMS470R1A128TI TMS470R1A256TI TMS470R1A288TI TMS470R1A384TI TMS470R1B512TI TMS470R1B768TI TMS470R1B1MTI TMS470R1VF288TI TMS470R1VF688TI TMS470R1VF689Toshiba TMPM330272.5Support of external flashesFlasher ARM supports the programming of CFI compliant, external NOR flashes. For a list of all supported flash devices, please refer to the J-Flash User Guide (UM08003), chapter Supported Flash Devices.28CHAPTER 2Working with Flasher ARM2.6Supported ARM CoresFlasher ARM has been tested with the following cores, but should work with any ARM7/9, Cortex-M0/M1/M3 core. If you experience problems with a particular core, do not hesitate to contact Segger.•ARM7TDMI (Rev 1)•ARM7TDMI (Rev 3)•ARM7TDMI-S (Rev 4)•ARM920T•ARM922T•ARM926EJ-S•ARM946E-S•ARM966E-S•Cortex-M0•Cortex-M1•Cortex-M3。

1729674-1Portable Crimp Tools, Premium Crimp Tooling, Not Releasable, Not Adjustable,Fixed In Tool, TE Product Specification (114-), Certification, ManualApplication Tooling>Portable Crimp ToolsCertification:YesSpecification Type:TE Product Specification (114-)Die Sets Type:Fixed In ToolRatchet Configuration:Not Releasable, Not AdjustableTool Grade:Premium Crimp ToolingFeaturesOtherCrimp Form-Wire Barrel Type Open Barrel - F CrimpTool Grade Premium Crimp ToolingRatchet Configuration Not Releasable, Not AdjustableDie Sets Type Fixed In ToolSpecification Type TE Product Specification (114-)Certification YesPower Type ManualTool Type Straight Action Hand ToolProduct ComplianceFor compliance documentation, visit the product page on >EU RoHS Directive 2011/65/EU Out of ScopeEU ELV Directive 2000/53/EC Out of ScopeChina RoHS 2 Directive MIIT Order No 32, 2016Not reviewed for China RoHS complianceEU REACH Regulation (EC) No. 1907/2006Current ECHA Candidate List: JUN 2020(209)Candidate List Declared Against: JUN 2016(169)Does not contain REACH SVHC 1729674-1 ACTIVEAMPTE Internal #:1729674-1Portable Crimp Tools, Premium Crimp Tooling, Not Releasable,Not Adjustable, Fixed In Tool, TE Product Specification (114-),Certification, ManualView on >Halogen Content Not Yet Reviewed for halogen content Solder Process CapabilityNot applicable for solder process capabilityProduct Compliance DisclaimerThis information is provided based on reasonable inquiry of our suppliers and represents our current actual knowledge based on the information they provided. This information is subject to change. The part numbers that TE has identified as EU RoHS compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, mercury, PBB, PBDE, DBP, BBP, DEHP, DIBP, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2011/65/EU (RoHS2). Finished electrical and electronic equipment products will be CE marked as required by Directive 2011/65/EU. Components may not be CE marked.Additionally, the part numbers that TE has identified as EU ELV compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, and mercury, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2000/53/EC (ELV). Regarding the REACH Regulations, TE’s information on SVHC in articles for this part number is still based on the European Chemical Agency (ECHA) ‘Guidance on requirements for substances in articles’(Version: 2, April 2011), applying the 0.1% weight on weight concentration threshold at the finished product level. TE is aware of the European Court of Justice ruling of September 10th, 2015 also known as O5A (Once An Article Always An Article) stating that, in case of ‘complex object’, the threshold for a SVHC must be applied to both the product as a whole and simultaneously to each of the articles forming part of its composition. TE has evaluated this ruling based on the new ECHA “Guidance on requirements for substances in articles” (June 2017, version 4.0) and will be updating its statements accordingly.TE Model / Part #3-1633860-2CRIMPER, WIRE FTE Model / Part #2836262-1OCEAN_2.0_Applicator-S-O42F070OVTE Model / Part #936887-00222759/33-26-7TE Model / Part #2-1579021-8CSV10 4.2 ConnSystTE Model / Part #1437000-9779-2151=DIE 622 FEM SKT USE WTE Model / Part #615571-00222759/33-26-5TE Model / Part #45160DAHT PG 22-16TE Model / Part #66102-2III+ PIN,24-20,TIN-LEAD,STRIPTE Model / Part #CAT-G7534-T111GRACE INERTIA TabTE Model / Part #CAT-G7534-R2435GRACE INERTIA ReceptacleCompatible PartsCustomers Also BoughtTE Model / Part #CB5371-000SST-48-15/FR/97/NMDocumentsProduct DrawingsSAHT FOR GIC 6.2MM PITCH W-W CONTACT L JapaneseDatasheets & Catalog PagesCrimp Term Whitepaper-Use the Right Tool 1-1773953-1 EnglishCRIMPING WHERE FORM MEETS FUNCTION EnglishBottoming DiesEnglishProduct SpecificationsGRACE INERTIA CONNECTOR 6.2MM PITCH JapaneseApplication SpecificationJapanese。

KISSsoft Tutorial: Shaft editor, step by step__________________________________________________________________________________________For release03/2008Last modification 01/04/2008 16:36:00__________________________________________________________________________________________1 Starting the shaft editor1.1 GeneralIn this tutorial, the use of the graphical shaft editor is explained step by step for a given example. The calculation of the modelled shaft is not covered here but in the tutorials No. 005 and 007. General information on the shaft editor is given in the tutorial No. 006.All tutorials are available at http://www.kisssoft.ch/english/downloads/index.php .1.2 Starting KISSsoftStep 1:After having installed and released KISSsoft as test or commercial version (see installation instructions), start KISSsoft by clicking Start > Programs > KISSsoft 03-2008 in the Windows task bar (see Figure 1.2-1).Step 2:Start the shaft calculation module by double-clicking the item Shaft calculation [W010] in the Modules tree window (see Figure 1.2-2).Step 3:Single-click the Elements overview tab in the lower right corner of the Modules tree window to gain control over the five shaft-modelling categories: Outer contour , Inner contour , Forces , Bearing and Cross sections (see Figure 1.2-2).Step 4:By single-clicking the Shaft editor tab next to the Basic Data tab you get a graphical overview of your shaft-modelling efforts (see Figure 1.2-2).K I S S s o f t T u t o r i a l 006a : S h a f t e d i t o r , s t e p b y s t e pFigure 1.2-1; Starting KISSsoftFigure 1.2-2; Starting the shaft calculation module1.3Example problemThe shaft with the properties as depicted in Figure 1.3-1 is to be modelled (blue faces: loads, yellow faces: bearings).Figure 1.3-1; Example shaftShaft elements:1 Notch effect due to interference fit2 Keyway3 Line load4 Keyway5 Radius6 Coupling (source of power)7 Radius 8 Radial bore9 Radius 10 Cylindrical gear (drain of power)11 Longitudinal bore2Modelling the shaft geometry2.1Entering shaft sections2.1.1External contourThe shaft is modelled as a series of cones / cylinders. Right-click the Outer contour item in the Elements overview window and choose the Cylinder element from the list. Define the length(l=80mm) and diameter (d=40mm) of the first cylindrical section in the Element editor window. Also, define surface roughness to be R z=8.0. Repeat these steps for all cylindrical sections knowing that every new cylindrical element is appended to the right (positive y-direction) of the preceding one.Figure 2.1-1; Definition of first cylindrical elementFigure 2.1-2; Parameterizing the cylindrical elementRepeat for the three remaining sections, using the dimensions shown in the table below: Section No. Length [mm] Diameter [mm] Surface quality [-]2 40 55 N73 80 50 N74 35 35 N7The model should now look like as shown below. Right-click to open the context menu: Choose Fit window to resize the drawing according to window frame.Figure 2.1-3; Shaft model after adding the external contours2.1.2Internal contourA bore with diameter d i=5mm from y=100mm to the right end of the shaft is to be included in the model. Since geometry elements are added from the left to the right first a bore from y=0mm to y=100mm with diameter equal zero has to be introduced. To do so select the Inner contour item in the Elements overview window and define a new bore hole. Continue with length and bore diameter via the Element editor window as depicted in Figure 2.1-5.Figure 2.1-4; Definition of first bore holeFigure 2.1-5; Shaft with bore hole2.2Defining notches2.2.1Entering radiiRadii are present on the right end of the first shaft section and on the left end of the third and fourth section. In order to define the radius on the right side of the first shaft section right-click the first element in the list of Outer Contour elements and choose Radius right from the list. Use the Elements overview window to enter the radius of the newly introduced element (see Figure 2.1-2):Figure 2.2-1; Steps for adding a radiusThis procedure is now repeated for the two remaining radii. For the second radius, the third shaft section is to be selected and a radius on the left with r=1mm is to be added. For the third radius, the fourth section is to be selected and a radius on the left with r=4mm is added. The model should now look as follows:Figure 2.2-2; Shaft model after adding the radii2.2.2Entering the longitudinal groove / keywayIn order to define a longitudinal groove on the right side of the first shaft section right-click the first element in the list of Outer Contour elements and choose Key from the list. Use the Elements overview window to enter the parameters of the newly introduced element: length of the groove and the position of its left end with respect to the element’s left end (groove length: 22mm, reference measure: 2mm):Figure 2.2-3; Steps for adding a keyThis is now repeated for the second longitudinal groove / keyway (for the cylindrical gear): select the third shaft section and introduce a longitudinal groove with reference measure 10mm and length 60mm. Groove width and depth are chosen according to DIN 6885.1 (Standard). The model should now look as follows:Figure 2.2-4; Shaft model after adding longitudinal grooves / keyways2.2.3Adding an interference fitThe coupling on the left end of the shaft uses not only a key but also an interference fit to introduce the torque. This interference fit will result in a notch effect as well. Add the interference fit element by right-clicking on the first Outer contour element and select Interference fit from the list. Now, define the position of the left end of the interference fit (pos=0mm), the length (l=40mm) and choose the type of interference from the drop-down list in the Element editor window.Figure 2.2-5; Element editor for the interference fit2.2.4Adding the radial boreIn the middle of the second shaft section a radial bore has to be applied (e.g. for lubrication purposes). Model this element by right-clicking the second element in the Outer contour tree and choose Cross hole from the list. The Element editor enables you to set the parameters to Diameter d=5mm and Reference measure pos=20mm.Figure 2.2-6; Element editor for the radial bore (cross hole)The model should now look as follows:Figure 2.2-7; Shaft model after adding the interference fit and radial bore.2.3Introducing loadsIn this step the external forces acting on the shaft are modelled. The shaft is driven by a coupling on its left end. The shaft drives an external application with the helical gear according to a power of 75kW. In the middle of the shaft a line-load is added. The speed of the shaft is defined in the Basic data tab of the shaft analysis module, not in the Shaft editor tab. Add a load by right-clicking on the Forces item in the Elements overview window. The following load elements are to be introduced to the overall shaft model:1.Coupling/Motor1.1.Power P = 75kW (driven)1.2.Length of load application l = 40mm1.3.Center point for load application y = 20mm (with respect to shaft’s origin)2.Centrical load2.1.Shearing force in x-direction F x = 2kN2.2.Shearing force in z-direction F z = 200N2.3.Length of load application l = 30mm2.4.Center point for load application y = 100mm (with respect to shaft’s origin)3.Cylindrical gear3.1.Power P = 75kW (driving)3.2.Reference diameter d = 120mm3.3.Helix angle (left-hand) â = 15°3.4.Pressure angle á = 20°3.5.Position of cylindrical gear y = 160mm (with respect to shaft’s origin)3.6.Facewidth b = 70mm3.7.Position of contact ápos = 180°Figure 2.3-1; Adding a force element (centrical load)Figure 2.3-2; Load parameters: Coupling (left) and Cylindrical gear (right).The direction of the force due to the power transmitted by the helical gear is defined by the fields Position of contact and Pressure angle. The Position of contact and the system’s coordinatesare defined as follows:Figure 2.3-3; Definition of shaft’s coordinate systemFigure 2.3-4; Position of contact áposAfter adding the force elements, the model should look as follows:Figure 2.3-5; Shaft model after adding the load elements2.4Adding the bearingsThe two bearings are added by selecting the item Bearing in the Elements overview window. You can choose between Bearing (in general) and Roller bearing. General bearings allow for the definition of degrees of freedom where roller bearings incorporate constraints based on their mechanical properties (e.g. additional axial forces). The y-position (centre of the bearing), the type, size (internal diameter) and name of the bearing have to be defined in the Element editor window. Furthermore, it has to be defined whether the bearing will take axial forces and from which side. The following load elements are to be introduced to the overall shaft model:1.Bearing (SKF *6208)1.1.Position y = 65mm (with respect to shaft’s origin)1.2.Type of bearing: Fixed bearing adjusted on the left side1.3.Type: Deep groove ball bearing (single row)1.4.Inside diameter d = 40mm2.Bearing (SKF *6207)2.1.Position y = 216mm (with respect to shaft’s origin)2.2.Type of bearing: Fixed bearing adjusted on the right side2.3.Type: Deep groove ball bearing (single row)2.4.Inside diameter d = 35mmFigure 2.4-1; Adding a roller bearing (left bearing)After adding the bearings, the model should look like as follows:Figure 2.4-2; Shaft model after adding the bearing elements2.5SectionsKISSsoft provides two definition of sections for strength calculations: the limited and the free section. While for a limited section the calculation module returns the actual notch factors for the given y-coordinate it is up to the user’s demands to alter these parameters arbitrarily for the free section.2.6Notes2.6.1Using grip pointsThe positions of forces, bearings and sections can be shifted by click&drag with the mouse. The forthcoming release will provide grip points which allow for an instantaneous changing of length and diameter of shaft sections.2.6.2Bearing calculationChoose your desired bearing calculation via the drop-down list Roller bearing in the Basic data input window (see Figure 2.6-1).Figure 2.6-1; Basic data: Roller bearing drop-down listThere are three different bearing calculations available:1.Classical calculation with or w/o consideration of pressure angleThese two options comprise the features well-known from KISSsoft Rel. 04/06: Bearings are considered constraints for displacement and rotation with optional offset, adjustment, stiffness and clearance.2.Calculation of the stiffness based on inner geometryThis method evaluates service life like in the classical roller calculation but with respect to roller geometry, number of rollers, radii of raceways, etc. The bearing’s stiffness andoffset are computed based on nonlinear material laws.3.Calculation according to DIN/ISO 281 Annex 4The guideline DIN ISO 281-4:2003 Dynamic load ratings and rating life covers modified service life calculations with respect to the bearing’s inner geometry. Also, stiffness and offset are computed based on nonlinear material laws.。

InstallationConnect the Switch to Your Network During initial setup, you must connect the switch to a network that you can access with a local WiFi connection to use the Insight mobile app, or to the Internet to use the Insight Cloud Portal.For Gigabit connections, use Category 5e (Cat 5e) or higher-rated Ethernet cables terminated with RJ-45 connectors.To use an SFP port, you must insert a 1G SFP transceiver module, which is available from NETGEAR.To use an SFP+ port, you must insert either a 10G SFP+ or 1G SFP transceiver module, which is available from NETGEAR. ¾To connect the switch:1. Connect devices to the network ports on the switch.2. Connect the switch to a network.3. Power on the switch and wait for two or three minutes.The Power LED lights green, indicating that switch completed its startup process and is available on the network.The switch receives an IP address from a DHCP server (or a router that functions as a DHCP server) in your network. If your network does not include a DHCP server, the switch uses 192.168.0.239 as its default IP address.4. To check the port connections from the switch to the powered-ondevices that you connected, do the following:• Make sure that the Ethernet cables are plugged in correctly.• Check the left LED for each port on the switch.The left port LED lights solid green to indicate a valid connection to a powered-on device and blinks green to indicate traffic on this port.Package ContentsUnpack the box and verify the contents:• Switch model GC752X or GC752XP • Power cord (localized to the country of sale)• Rack-mount kit• Four rubber footpads for tabletop installation • Installation guideInsightGC7252XPAccess the Switch for ConfigurationThe NETGEAR Insight app lets you use your mobile device to discover,configure, manage, and monitor your switch. You can use this app to access the switch with a local WiFi connection or you can log in to the Insight Cloud Portal. The Cloud Portal lets you configure, manage, and monitor the switch from your PC, Mac, or tablet for a larger-screen experience.Local WiFi access . When you use the Insight mobile app for initialconfiguration, the switch must be connected to a WiFi access point (because the switch does not provide WiFi capacity). Connect your mobile device to that access point’s WiFi network.Cloud access from a mobile device . After initial configuration, as long as your switch is on a network with an Internet connection, you can access the switch through the cloud using the Insight mobile app.Insight Cloud Portal . The Insight Cloud Portal is available for Insight Premium subscribers to setup, manage, and monitor their Insight devices. A seven-day free trial of Insight Premium and the Insight Cloud Portal are included with each 24-port or larger Insight Smart Cloud Switch. Visit https:///#/login.NETGEAR Insight Managed52-Port Gigabit Ethernet Smart Cloud Switch with 2 SFP 1G & 2 SFP+ 10G Fiber Ports (GC752X)52-Port Gigabit Ethernet PoE+ Smart Cloud Switch with 2 SFP 1G & 2 SFP+ 10G Fiber Ports (GC752XP)Sample connectionFebruary 2018© NETGEAR, Inc., NETGEAR and the NETGEAR Logo are trademarks of NETGEAR, Inc. Any non‑NETGEAR trademarks are used for reference purposes only.NETGEAR, Inc.350 East Plumeria DriveSan Jose, CA 95134, USANETGEAR INTL LTDBuilding 3, University Technology Centre Curraheen Road, Cork, IrelandNote: You might be prompted to connect the switch to power and to an uplink. Since you already did this (Connect the Switch to Your Network ), tap the NEXT button.The NETGEAR Insight app discovers the switch and registers it on the network that you named in Step 6.If you are using the local WiFi access method and the app does not discover the switch, make sure that your mobile device and the switch are connected to the same WiFi network.9. Select the switch to configure and manage it.You can use the NETGEAR Insight app to access the switch later to view or change the configuration settings.For more information about how to connect a NETGEAR Insight managed switch to an existing network, visit https:///000044341.Note: We do not recommend using the switch’s local browser–basedmanagement interface to configure the switch offline. Changes made using this method are not pushed to the cloud, so they are not reflected in the Insight app or the Insight Cloud Portal, and might create conflicts with the Insight-managed network to which the switch is connected. If you cannot connect your switch to a network with Internet access, and you want to use the local-only browser interface to access the switch, see the user manual.To download the user manual, visit /support/product/GC752X or /support/product/GC752XP .Configure the Switch Using the NETGEAR Insight App¾To configure the switch:1. On your iOS or Android mobile device, visit the app store, search forNETGEAR Insight, and download the app.2. Connect your mobile device to the WiFi network of the access pointthat is connected to the switch.For initial configuration, you must use local WiFi access. After youcomplete initial configuration and discover the switch, you can use cloud access if the switch is connected to the Internet. 3. Open the NETGEAR Insight app on your mobile device.4. If you did not set up a NETGEAR account yet, tap CREATE NETGEARACCOUNT and follow the onscreen instructions.5. To log in to your NETGEAR account, tap LOG IN and enter yourcredentials.6. Name your network and specify a device admin password that appliesto all devices that you add to this network.7. Tap the NEXT button.8. To add the switch to your account, use one of the following options:• Enter the serial number.• Scan the serial number bar code.• Tap Switch as the device type and follow the prompts to scan thenetwork or scan the QR code.PoE Troubleshooting for Model GC752XPHere are some tips for correcting simple problems that might occur:• Make sure that the PoE Max LED is off. The switch provides a total powerbudget of 505 watts. If the PoE Max LED is solid amber, disconnect one or more powered devices (PDs) to prevent PoE oversubscription. Start by disconnecting the PD from the highest-numbered port.Note: You can manually override the amount of power that is reserved for each PoE port and attached PD by using the Insight mobile app or the Insight Cloud Portal.• Check the right LED for the port on the switch that is connected to apowered PD. The right port LED on the switch lights solid green to indicate that PoE is being delivered to the PD. If the right port LED lights solid amber, a PoE fault occurred.SupportThank you for purchasing this NETGEAR product. You can visit/support to register your product, get help, access the latest downloads and user manuals, and join our community. We recommend that you use only official NETGEAR support resources.Si ce produit est vendu au Canada, vous pouvez accéder à ce document en français canadien à /other/.(If this product is sold in Canada, you can access this document in Canadian French at /other/.)For the current EU Declaration of Conformity, visit/app/answers/detail/a_id/11621/.For regulatory compliance information, visit /about/regulatory/.See the regulatory compliance document before providing power to the switch.InsightInsight。

INSTRUCTION BOOKLET Nintendo of America Inc.P.O. Box 957, Redmond, WA 98073-0957 U.S.A.60292APRINTED IN USABefore you begin, make sure your DS hardware is shut down and then insert the When you turn the power on, the screen toTop Screen Touch ScreenFrom the main menu, you can choose to access:Records. Use on the +Control Pad to makeChoose whether or not you can instantly drop a Tetrimino by pressing Up on the +Control Pad. Enter here to play any of the six game modes (see pages 12-21 for more info).three modes to choose from. Players can join inthe fun even if they don’t have their own GameRead this section to learn the basic rules of Tetris. The rules for Touch and Catch mind that the game screen will change depending on the mode you are playing.t o C l e a r BDrop Tetriminos to formcomplete horizontal lines.When you form a line, itPress START during a single player game to access the pause menu. Either press START or choose Continue toControl falling Tetriminos to create horizontal linesWhere to Drop Tetriminos*In Marathon and Line Clear, theaction on the top screen willprogress as you clear lines.Move the Tetriminos in the massive stack to clear them away! Make the basket ofballoons on the top of the stack touch the ground to win.Clear a line.Tetriminos fall.Another line is cleared! Follow the directions on the top screen to complete the puzzles!In Marathon Mode, your goal is to complete missions before all of your hearts turn white. If you fail to complete it in time, you’ll get hit with a pile of new lines. If the blocks reach the top of the screen, your game is over. Also, if you clear a mission, some of the blocks on your screen will be cleared away.Marathon Mode RulesThe Tetriminos you can pick from.E n e r g yIf you hit an enemy, your energy gauge will go EnemyEnergyCoreIn this mode, you’ll play a standard game of TetrisThe number on the blocks tells you which player sent them.*If you are playing with DS Download Play, shutting down your system will cause you to lose the game data. If this happens, please follow the steps to download the game Switch items on or off. Only P 1 can control this option.Choose teams here. When the same players have selected the same icon, items will have no effect and they will not have targets placed on them. If all players have the same icon, an error message will appear and teams will be reselected.Mushroom Boo Banana Lightning Shell StarmanItem Name Use the Hold QueueGame-Selection Screen Game List Screen The icon on the DS and game menu screens shows that there is a wireless function associated with an activity. Choose menus with this icon to engage in wireless activities. Please do not choose this option in The icon that appears when you are connected to a wireless signal indicates the strength of the signal. The stronger the signal, the smoother your wireless play will be.Nintendo Wi-Fi Connection allows multiple Tetris DS owners to play together over theyou used to connect to Nintendo Wi-Fi Connection theplease refer to the Nintendo Wi-Fi Connection instruction booklet.Connect to Nintendo Wi-Fi Connection to start playing. You can choose either Worldwide(see pages 32-33) or a friend battle (see pages 34-35).Check your Friend Codes or register a friend code to your Friend Roster hereIn this mode, you and another player will face off in a standard game of Tetris. In this mode, two players will face off in the same playing field and attempt to In this mode, you and three other players will face off in a standard game of Tetris. Items will appear (see page 26).Once a game has ended, the results screen will be displayed. If every player chooses to continue before t s S c r e e nThe nickname you use will be seen by others when playing age, e-mail or home address when communicating with others.r e e nThe results screen will be displayed when the game ends. If each of the players selects continue within the time limit, another game will start. However, if even oneConnecting to NintendoIf you and a friend can agree to a time to meet on Nintendo Wi-Fi Connection, while you are connected you will automatically be registered on each other’s Friend Rosters. Also, if you connect at different times, the player who connected later will have their Friend Roster updated. The player who was connected first will have to。

第五章零件表2011/075-1DocuCentre-IV 3060G零件表Version 1.05 零件表5.1 序文5.1.1 零件表的使用方法.....................................................35.1.2 使用零件表的注意事项.................................................35.1.3 Plate 的构成.........................................................45.1.4 术语·符号的说明.....................................................45.1.5 零件向导的使用方法...................................................55.2 Parts List 1. IIT/UIPL 1.1 Platen/IIT Cover....................................................7PL 1.2 CCD Lens Assenbly/Platen Glass......................................8PL 1.3 Full/Half Rate Carriage/Carriage Cable..............................9PL 1.4 Full Rate Carriage..................................................10PL 1.5 Half Rate Carriage..................................................11PL 1.6 Motor/Transport PWB.................................................12PL 1.7 W70 Control Panel...................................................13PL 1.8 Option..............................................................142. ROSPL 2.1 ROS.................................................................153. DRIVEPL 3.1 Main Drive (1 of 2).................................................16PL 3.2 Main Drive (2 of 2).................................................174. NOHADPL 4.1 NOHAD...............................................................186. TRANSFERPL 6.1 Transfer............................................................197. FUSING UNITPL 7.1 Fusing Unit.........................................................208. XERO/DEVEPL 8.1 Drum Unit, Toner Cartridge..........................................21PL 8.2 Toner System........................................................229. FEEDER/TRAY 1/2PL 9.1 Tray 1/2 Assembly...................................................23PL 9.2 Tray 1/2 (1 of 2)...................................................24PL 9.3 Tray 1/2 (2 of 2)...................................................25PL 9.4 Tray Feeder 1/2 Assembly............................................26PL 9.5 Feeder 1/2 Assembly (1 of 2)........................................27PL 9.6 Feeder 1/2 Assembly (2 of 2)........................................28PL 9.7 Tray 1/2 Feed Roll, Nudger Roll, Retard Roll........................2910. TRAY MODULE (2TM)PL 10.1 Tray Module (2TM)..................................................30PL 10.2 Tray 3/4 (1 of 2)..................................................31PL 10.3 Tray 3/4 (2 of 2)..................................................32PL 10.4 Tray 3/4 Feeder Assembly, T/A Roll 3/4.............................33PL 10.5 Tray 3/4 Feeder Assembly (1 of 2)..................................34PL 10.6 Tray 3/4 Feeder Assembly (2 of 2)..................................35PL 10.7 Tray 3/4 Feed Roll, Nudger Roll, Retard Roll.......................36PL 10.8 Tray 3/4 Paper Size Sensor.........................................37PL 10.9 Electrical.........................................................38PL 10.10 Cover.............................................................39PL 10.11 L/H Cover Assembly................................................4011. TRAY MODULE (TTM)PL 11.1 Tray Module (TTM) (Option) (APO/GCO Only)..........................41PL 11.2 Tray 3/4 Assembly (Option) (APO/GCO Only)..........................42PL 11.3 Tray 3 Assembly (1 of 2) (Option) (APO/GCO Only)...................43PL 11.4 Tray 3 Assembly (2 of 2) (Option) (APO/GCO Only)...................44PL 11.5 Tray 4 Assembly (1 of 2) (Option) (APO/GCO Only)...................45PL 11.6 Tray 4 Assembly (2 of 2) (Option) (APO/GCO Only)...................46PL 11.7 Tray 3/4 Feeder Assembly, T/A Roll Assembly (Option) (APO/GCO Only)47PL 11.8 Tray 3/4 Feeder Assembly (1 of 2) (Option) (APO/GCO Only)..........48PL 11.9 Tray 3/4 Feeder Assembly (2 of 2) (Option) (APO/GCO Only)..........49PL 11.10 Tray 3/4 Feed/Nudger/Retard Roll (Option) (APO/GCO Only)..........50PL 11.11 Transport Assembly (Option) (APO/GCO Only)........................51PL 11.12 Tray 3/4 Switch Assembly (Option) (APO/GCO Only)..................52PL 11.13 Wire Harness (Option) (APO/GCO Only)..............................53PL 11.14 TM Drive (1 of 2) (Option) (APO/GCO Only).........................54PL 11.15 TM Drive (2 of 2) (Option) (APO/GCO Only).........................55PL 11.16 Cover (Option) (APO/GCO Only).....................................56PL 11.17 L/H Cover Assembly (Option) (APO/GCO Only)........................5712. MOBILE STANDPL 12.1 Mobile Stand (Option) (APO/GCO Only)...............................5813. MSIPL 13.1 MSI Assembly.......................................................59PL 13.2 Lower Frame Assembly...............................................60PL 13.3 MSI Tray Assembly..................................................6114. L/H COVERPL 14.1 L/H Cover Assembly, Duplex Unit....................................62PL 14.2 L/H Chute Assembly.................................................63PL 14.3 L/H Frame Assembly.................................................64PL 14.4 Duplex Assembly....................................................652011/075-2Version 1.0DocuCentre-IV 3060G零件表15. REGISTRATIONPL 15.1 Registration (1 of 2).............................................66PL 15.2 Registration (2 of 2).............................................6717. EXITPL 17.1 Exit 1............................................................68PL 17.2 Exit 2, Face Up Tray ..............................................69PL 17.3 Exit 2 Chute Assembly .............................................70PL 17.4 Exit 2 Transport Assembly (1 of 2)................................71PL 17.5 Exit 2 Transport Assembly (2 of 2)................................72PL 17.6 Exit 2 Guide Assembly .............................................73PL 17.7 Face Up Tray Assembly .............................................7418. ELECTRICALPL 18.1 Electrical (1 of 2)...............................................75PL 18.2 Electrical (2 of 2)...............................................76PL 18.3 AC Chassis Assembly ...............................................77PL 18.4 IOT Wire Harness ..................................................78PL 18.5 FAX Unit ..........................................................7919. COVERPL 19.1 Cover-Front, Left .................................................80PL 19.2 Cover-Rear, Right .................................................8135. ESSPL 35.1 ESS (1 of 3)......................................................82PL 35.2 ESS (2 of 3)......................................................83PL 35.3 ESS (3 of 3)......................................................8451. DADFPL 51.1 DADF Accessory ....................................................85PL 51.2 DADF Cover,PWB ....................................................86PL 51.3 DADF Base Frame ...................................................87PL 51.4 Document Tray,Top Cover ...........................................88PL 51.5 DADF Motor,Wire Harness ...........................................89PL 51.6 DADF Rear Belt,Solenoid ...........................................90PL 51.7 DADF Front Belt ...................................................91PL 51.8 Regi./Retard/Invert/Out Chute .....................................92PL 51.9 Roll,Sensor Bracket ...............................................93PL 51.10 Document Tray ....................................................94PL 51.11 Top Cover ........................................................95PL 51.12 Upper Feeder .....................................................96PL 51.13 Regi. Chute ......................................................97PL 51.14 Retard Chute .....................................................98PL 51.15 Invert Chute .....................................................99PL 51.16 Out Chute ........................................................100PL 51.17 Sensor Bracket ...................................................10198. Screws98.1 Screws ...............................................................10299. Adjustment/Consumables Area Code List99.1 Paper ................................................................10399.2 Environment ..........................................................10399.3 Consumables ..........................................................10499.4 Electrical Adjustment ................................................10499.5 Mechanical Adjustment ................................................10599.6 Originals ............................................................10699.7 Accessories Related ..................................................10699.8 Fax ..................................................................10799.9 DMP/Network Functions Related ........................................1075.3 Parts NavigationNavi 1.1 Processor + Option ...............................................109Navi 2.1 Processor (1 of 2)...............................................109Navi 2.2 Processor (2 of 2)...............................................110Navi 2.3 IIT/UI ...........................................................1102011/075-3DocuCentre-IV 3060G零件表5.1 序文Version 1.05.1.1 零件表的使用方法第5章零件表包含关于备用零件的信息。

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Texas Instruments •108 Wild Basin, Suite 350•Austin, TX 78746/stellarisCopyright © 2008–2010 Texas Instruments, Inc. All rights reserved. Stellaris andStellarisWare are registered trademarks of Texas Instruments. ARM and Thumb areregistered trademarks, and Cortex is a trademark of ARM Limited. Other names andbrands may be claimed as the property of others.PB-LM3S6965EK-04February 9, 2010The Stellaris® LM3S6965 Ethernet Evaluation Kit is a compact and versatile evaluation platform for theStellaris LM3S6965 ARM® Cortex™-M3-based microcontroller. The evaluation kit uses the LM3S6965microcontroller’s fully integrated 10/100 Ethernet controller to demonstrate an embedded web server.Features The LM3S6965 evaluation board can be used as an evaluation platform or as a low-cost in-circuit debug interface (ICDI). In debug interface mode, the on-board microcontroller is bypassed, allowing connection of the debug signals to an external target. The kit is also compatible with high-performanceexternal JTAG debuggers.This evaluation kit enables quick evaluation, prototype development, and creation of application-specific designs for Ethernet networks. The kit also includes extensive source-code examples, allowing you to start building C-code applications quickly.The evaluation kit includes the following features: Stellaris LM3S6965 microcontroller with fully-integrated 10/100 embedded Ethernet controller Simple setup: USB cable provides serial communication, debugging, and power OLED graphics display User LED, navigation switches, and select pushbuttons Magnetic speaker LM3S6965 I/O available on labeled break-out pads Standard ARM® 20-pin JTAG debug connector withinput and output modesUSB interface for debugging and power supply MicroSD card slotKit ContentsThe evaluation kit contains everything needed todevelop and run applications for Stellarismicrocontrollers including:LM3S6965 evaluation board (EVB)Retracting Ethernet cable, USB cable, and 20-pinJTAG/SWD cableCD containing:–Complete documentation–Evaluation version of the software tools–Quickstart guide and source code–StellarisWare® Peripheral Driver Library andexample source 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玩转f#的⼀个实例——解拼图游戏起因起因是这样的：前⼀阵逛抖⾳，买了个预售的拼图游戏。

据说是国内团队开发的，⾮常有趣。

⼤概长这样：拼图设计上故意空出三个空位，拼图的格⼦上印有1-12⽉的⽉份，1-31号的⽇期，以及周⼀到周⽇的星期。

空出的三个空位，可以正好⽤来匹配⽉份-⽇期-星期的组合。

这个可以使得你每天都可以有⼀道新的谜题可玩，好⼏年都不带重样的。

可是呢，这是个预售商品，⼤概研发团队找的⽣产⼚商⽣产⼒不⾜吧。

下单后要⼀个半⽉才发货。

实属令⼈抓腮。

正好最近在折腾F#，⼲脆我来验证下是不是每种情况都有解吧。

于是，开⼯。

思路暂时不需要太复杂的算法，就⽤最简单的DFS就可以了。

我们从左到右，从上到下搜索棋盘格，只要这个格⼦应放但未放⼊积⽊，我们就尝试放⼀个形状进去，然后继续搜索。

如果⽆法放⼊我们就继续试其他形状。

如果所有积⽊的所有形状都试过了我们就回溯。

这样可以保证了搜索到某个点时，它之前的所有⾏、它同⼀⾏左侧的所有点都已经填满了积⽊。

只需要搜完整个地图，说明全部积⽊都放进去了。

因为是函数式编程，上述的过程也被转换成了递归。

具体步骤：1. 将积⽊保存为⼤⼩仅为长*宽的点阵，有⽊头的为1，空⽩的为0。

并把积⽊编上从0到10的号。

2. 针对每个积⽊，通过旋转、翻转，产⽣出它的所有的变形形状，并且剔除重复的形状，作为该积⽊应该尝试的所有形状列表。

每个形状记录第⼀⾏最左侧那块积⽊的位置（相对当前积⽊区域的x坐标）。

后⾯的搜索要⽤到。

3. 地图抽象为7⾏6列的矩阵。

不可达的区域定义为-100，需要空出来的⽉份、⽇期、星期三个格⼦定义为100，未放置任何积⽊的定义为-1，放置了积⽊的格⼦记录为这个积⽊的编号（0-10）4. 针对棋盘开始搜索，从（0，0）处依次向右、向下搜索。

注意这⾥的坐标采取(x,y)形式，也就是列在前，⾏在后。

1. 遇到已经放⼊积⽊、不可达区域、需要空出来的格⼦则直接跳过，递归搜索下⼀个点。

2. 遇到空⽩格⼦（为-1的格⼦）则针对该点遍历所有积⽊的所有形状。

2021年浙江省高校招生职业技能理论考试文秘类专业全真押题密卷(一)一㊁单项选择题(本大题共24小题,每小题2分,共48分)1.C2.B3.C4.B5.B6.A7.A8.D9.B10.C11.D 12.B 13.C 14.A 15.C 16.D 17.A 18.B19.C20.B21.A 22.D 23.A 24.C二㊁多项选择题(本大题共9小题,每小题3分,共27分)25.A B C E26.B E27.B C D E28.B E29.A B C D 30.C E31.A B C32.A B D 33.B C D三㊁分析题(本大题共3小题,每小题15分,共45分)34.(1)秘书小陈的准备工作既有正确的地方,也有错误的地方㊂(2分)(2)签到的准备工作包括:①选择合适的签到方法㊂(1分)会务工作人员代签到,适用于内部小型会议;与会者在签到表上签到,同样适用于小型会议;簿式签到,适用于富有纪念意义的小型会议;证卡签到,适用于大中型会议;电子计算机签到,适用于大型会议㊂(3分)②准备签到物品㊂(1分)要提前布置好签到台,根据不同的签到方式准备不同的签到物品㊂如签到表格㊁纪念簿或签到机㊂(1分)③人员礼仪培训㊂(1分)统一着装;当与会人员到达会场时,应起身微笑相迎: 您好,欢迎您! (1分)当向客人递笔时,应脱下笔套,笔尖对自己,将笔双手递上㊂(1分)(3)案例中,秘书小陈为到会的领导和嘉宾安排簿式签到是正确的,但是为内部员工安排会务工作人员代签到是错误的㊂(1分)因为本次会议的参会人数有300余人,在规模上属于中型会议,应该选择适合于大中型会议的证卡签到㊂(1分)小陈在会前提前准备好签到物资,并对礼仪人员进行了培训,要求统一着装,热情礼貌迎宾,递笔时脱下笔帽,双手递笔都是正确的㊂(1分)但是笔尖不能对着与会者,应该对着自己㊂(1分)35.(1)在预约接待工作中,文员的工作流程是:接待准备㊁热情待客㊁礼貌引导㊁室中接待㊂(4分)(2)案例中,小王在接待工作中的不足之处体现在:①离开办公室时没有把桌面上的文件㊁资料等收起放好㊂(1分)②路上小王走在客人的右前方,一边走一边想着刚刚还在处理的文件,是错误的㊂(1分)引导来宾途中,应配合来宾的步调,在来宾左前方稍前处引导,并可与来宾进行适当的寒暄㊁交谈㊂(1分)③到了会客室门口,小王拉开门先走进去再请客人进门,是错误的㊂(1分)到达接待场所,应向客人说明 就在这里 ,或先敲门,或直接为来宾推拉门,面对来宾,请来宾先入内㊂(1分)④小王安排客人坐在靠近门口的沙发上,是错误的㊂(1分)文员将来宾引领入座,座次的安排,一般是采用 面门定位 法,即以面对大门为参照物,座次的高低是 先远后近 ;(1分)如果与门等距离,按照国际惯例是 以右为尊 ,若来宾是内宾,有时也可以按照我国 以左为尊 的传统来排列座位㊂(2分)⑤小王背对着客人和总经理退出会客室,是错误的㊂(1分)退出接待室关门时不要背对来宾,应以正面倒走方式退出㊂(1分)36.(1)李丽整理归档文件的做法是错误的㊂(1分) (2)归档文件的整理单位应为自然件,一般以每份文件为一件㊂(1分)正文㊁附件为一件;文件正本与定稿(包括法律法规等重要文件的历次修改稿)为一件;(1分)转发文与被转发文为一件;原件与复制件为一件;(1分)正本与翻译本为一件;中文本与外文本为一件;(1分)报表㊁名册㊁图册等一册(本)为一件(作为文件附件时除外);简报㊁周报等材料一期为一件;(1分)会议纪要㊁会议记录一般一次会议为一件,会议记录一年一本的,一本为一件;(1分)来文与复文(请示与批复㊁报告与批示㊁函与复函等)一般独立成件,也可为一件;(1分)有文件处理单或发文稿纸的,文件处理单或发文稿纸与相关文件为一件㊂(1分)(3)案例中,李丽直接将每一份文件归为一件,使有些文件彼此间相互脱离,在检索上没有太大价值,会增加不必要的编目工作,影响工作效率㊂(2分)应该将‘关于购买A58建设器材的请示“和附件‘A58建设器材说明材料“为一件;(1分)‘关于同意购买A58器材的批复“可以独立为一件,也可和‘关于购买A58建设器材的请示“附件‘A58建设器材说明材料“为一件;(1分)‘A58器材购销合同“独立为一件; (1分)‘2020年终奖制度定稿“和‘2020年终奖制度讨论稿“为一件㊂(1分)四㊁写作题(本大题共1小题,30分)37.复函的评分标准如下:(1)标题㊂由 发文单位+事由+文种 组成,文种名词应点明是复函㊂(5分)(2)主送单位㊂标题下空一行顶格写明收文单位的全称或规范化的简称,其后用冒号㊂(3分)(3)正文㊂正文主要包括缘由㊁事项和结语三部分㊂①缘由:先引述来函的日期㊁标题㊁文号,告知收文情况㊂(5分)②事项:答复对方提出的问题㊂(9分)③结语:往往用 特此函复 或 此复 等作为结语㊂(3分)(4)落款㊂在正文末的右下方写明发文单位名称,再下一行右下方写明发文日期(日期为2020年2月15日以后皆可)㊂(5分)参考范文:ˑˑ房屋租赁公司关于商请减免房屋租金的复函星星科技公司:贵公司2020年2月15日‘关于商请减免房屋租金的函“(星科 2020 1号)已收悉㊂经研究,函复如下:一㊁根据‘房屋租赁合同“(编号:10)及合同法的相关规定,因不可抗力不能履行合同的,根据不可抗力的影响,部分或者全部免除责任,但法律另有规定的除外㊂我方同意免除你方不履行合同责任㊂二㊁为响应政府号召,我方同意减免你方50%的房屋租金㊂减免日期为:2020年2月15日至复工前一日㊂复工日期以相关部门的通知为准㊂三㊁请贵方在收到复函后三日内来我司重新补签租赁合同履行的相关事宜㊂此复㊂ˑˑ房屋租赁公司2020年2月18日2021年浙江省高校招生职业技能理论考试文秘类专业全真押题密卷(二)一㊁单项选择题(本大题共24小题,每小题2分,共48分)1.A2.B3.D4.B5.D6.C7.A8.B9.A 10.A 11.D 12.A 13.A 14.D 15.D 16.B17.C18.B19.D 20.A 21.C 22.D 23.B24.C二㊁多项选择题(本大题共9小题,每小题3分,共27分)25.A B E26.A B C D 27.B C D E28.A C D29.A B D 30.A B C D 31.A B C E 32.A B C D E 33.A B C D三㊁分析题(本大题共3小题,每小题15分,共45分)34.(1)王丽在此次会前准备工作中存在明显的不足㊂(1分)(2)会议指示标识的类型:①标识牌(指示牌)㊂(1分)在入口处㊁签到处㊁接待处㊁贵宾室㊁洗手间等区域设置指示标识,方便与会者前往㊂(2分)②区域图㊂(1分)大㊁中型会议应事先根据与会人员的分类划出各区域的平面图,张贴于会场入口或签到处,使参会人员入场㊁退场井然有序㊂(2分)表彰㊁总结类型的大会,应将被表彰㊁奖励的人员或代表安排在前几排,并在区域图上明确标出㊂(2分) (3)会议指示标识的制作方法:不太重要的会议指示标识可以由会议主办方自己设计和制作;(2分)重要的㊁大型的会议指示标识可以请专业的公司设计和制作㊂(2分)指示标识无论由谁设计㊁制作,都要力求简单㊁醒目㊁实用㊂(1分)(4)案例中,王丽应在会场和相关服务区摆放醒目的标识牌,让与会者能够准确又快速地找到会场及座位㊂(1分)35.(1)小王在采购固定资产的工作中没有严格按照采购流程来操作㊂(1分)(2)固定资产采购流程:①根据年度预算,对行政类固定资产有需求的部门填写固定资产采购申请表,并由主管部门审核㊂(2分)②由办公室会同财务部门审核,核实型号及控制价,并报告总经理或其授权人核准采购㊂(2分)③由办公室组织,选择适当的采购方式(招标㊁比价采购)确定供应商㊂(2分)④由办公室与供应商签订采购合同,合同需经财务部门核准备案㊂(2分)⑤由办公室根据合同采购,会同需求部门验收入库,并填写入库单㊁固定资产卡片㊂(2分)⑥办公室根据入库单㊁报销发票,并经财务部门审核,总经理或其授权人核准付款㊂(2分) (3)案例中,小王直接选定张某作为供应商,没有选择适当的采购方式确定供应商,有违采购流程㊂(2分) 36.(1)批复由标题㊁正文㊁落款组成㊂(1分)批复的标题由 发文单位+事由+文种 组成㊂(1分)批复的正文由批复引据和批复事项组成㊂(1分)批复引据一般引述下级单位的来文日期㊁标题和文号,告知对方收文情况,然后以 经研究,批复如下 等过渡语引出批复事项㊂(1分)批复事项应当具体明确,态度要鲜明坚决,便于下级单位执行㊁办理,切忌模棱两可㊂(1分)(2)公文中的错误之处:①文种错误㊂(1分)应将标题改为 ˑˑ市文化局关于举办第十八届摄影艺术展的批复 或 ˑˑ市文化局关于同意举办第十八届摄影艺术展的批复 ㊂(1分)②批复引据不规范㊂(1分)应将 你们的报告收到了 改为 你馆2020年ˑ月ˑ日‘关于举办第十八届摄影艺术展的请示“(ˑ文馆 2020 ˑ号)已收悉 ㊂(1分)③批复意见不明确㊂(1分)应将 对是否举办第十八届摄影艺术展的问题,你们看着办 改为 经研究,同意你们举办第十八届摄影艺术展 或 经研究,批复如下:同意你们举办第十八届摄影艺术展 ㊂(1分)④批复应一事一批㊂(1分)应删除 此外 一句㊂(1分)⑤结尾用语错误㊂(1分)应将 就此回复 改为 特此批复 或 此复 ㊂(1分)四㊁写作题(本大题共1小题,30分)37.通报的评分标准如下:(1)标题㊂由 发文单位+事由+文种 组成㊂(5分)(2)主送单位㊂在标题下空一行顶格写,一般用泛称㊂(3分)(3)正文㊂由主要事实㊁事实评析㊁决定和要求三个部分组成㊂①主要事实:介绍先进事迹,概述事实发生的时间㊁地点㊁单位或个人㊁经过㊁结果㊂(8分)②事实评析:分析先进事迹的性质和意义㊂要恰如其分,不能夸大其词㊂(5分)③决定和要求:表彰决定㊁希望与号召㊂要有的放矢,文字表述要简略㊁概括,针对性强㊂(5分) (4)落款㊂署名并写上成文日期,署名需用全称㊂(4分)参考范文:兰州市见义勇为工作领导小组办公室关于表彰彭东升同志见义勇为先进事迹的通报各街道办事处,市直属部门:2021年1月2日上午11时许,甘肃移动兰州分公司定西南路网格长彭东升在东方红广场发现一辆停在路边的出租车,当时正有人尝试将瘫坐在驾驶室的出租车司机搀扶出来,出租车司机面部发紫,失去意识,呼吸微弱㊂危急时刻,彭东升没有丝毫犹豫,与路人联合将出租车司机抱出驾驶室,凭借自己学过的急救知识,立即俯身对出租车司机进行了一番基本身体状况检查,并随即跪地对出租车司机进行心肺复苏,同时提醒路人赶紧拨打120求助㊂五分钟后,出租车司机脸色有所好转,渐渐开始恢复了呼吸,但彭东升没有停止按压,一直坚持到救护车赶到现场,并配合医护人员将其抬上救护车㊂因连续做了10多分钟高强度的心肺复苏动作,严寒中的彭东升早已汗流浃背㊂正是彭东升在关键时刻的临危不乱,正是他在生死关头的紧急施救,才为出租车司机赢得了黄金抢救时间,目前该出租车司机在医院进行救治㊂彭东升同志的感人事迹赢得了社会的高度评价和广泛赞誉㊂为弘扬正气,表彰先进,大力倡导社会主义文明新风,经研究,决定对彭东升同志进行通报表彰,奖励人民币200元㊂希望全市公民以身边的典型为榜样,学习彭东升同志见义勇为的高尚品质㊂兰州市见义勇为工作领导小组办公室2021年1月5日2021年浙江省高校招生职业技能理论考试文秘类专业全真押题密卷(三)一㊁单项选择题(本大题共24小题,每小题2分,共48分)1.A2.A3.B4.C5.B6.A7.B8.D9.A 10.B11.C 12.B 13.D 14.C 15.C 16.B17.B18.C 19.B 20.C 21.B 22.B 23.A 24.B二㊁多项选择题(本大题共9小题,每小题3分,共27分)25.A C E26.A D 27.B C D 28.A D 29.C D 30.A B C D E31.A B C32.B C E33.A B D三㊁分析题(本大题共3小题,每小题15分,共45分)34.(1)按照议案的轻重缓急编排处理先后次序,重要的议案或事项,必须放在整个议程的前面;(2分)保密性强的议题一般放在后面㊂(1分) (2)尽量将同类性质的问题集中排列在一起,以便于讨论,也便于相关人员到会和退席㊂(2分) (3)注意议题所涉及的各种事务的习惯性顺序和本公司章程有无对会议议程顺序的明确规定㊂(2分) (4)合理分配各项议案或事项的时间,为重要的事项留出足够的时间㊂(1分)必要时标出各议案的时间分配,以便与会者和会议主持人控制时间㊂(2分) (5)每次会议议程不必太杂,内容不必太多,以提高会议的效率㊂(1分)会议时间超过两小时或者涉及的内容太多,可以安排中间休息时间或安排一系列的短时间会议㊂(2分)(6)议程的目的在于提醒与会者注意,所以,议程应提前3~7天交给与会者,以便与会者早做准备㊂(2分)35.(1)接收邮件的程序:签收㊁分类㊁拆封㊁阅函㊁登记㊁呈送㊂(3分)(2)发送邮件的程序:邮件校核㊁上司签发㊁查核邮件㊁邮件装封㊁邮件登记㊁邮件寄发㊂(3分)(3)小陈在收发邮件的工作中,有以下不足之处:①呈交领导处理的邮件不应该按照收件日期的先后顺序进行排列,而应该按照轻重缓急程度对需呈送的邮件作细分,保证重要信函得到优先处理㊂(3分)②邮件拆封之后没有对邮件进行检查和清点㊂(2分)③在拆启邮件及阅函过程中,没有按‘收件登记表“所列的内容将相关信息详细地记录下来㊂(2分)④回复信函之前没有请领导审阅,文员发出的邮件必须经过上司签字之后才能生效㊂(2分) 36.(1)小李的做法是错误的㊂(1分)她不应该在批示文字上盖章,也不应该用蓝色墨水笔填写归档章项目内容㊂(2分)(2)归档章一般应加盖在归档文件首页上端的空白位置㊂(1分)有发文稿纸㊁拟办单等的,可将其放在最前面作为首页,这样可以在上面加盖归档章,以更好地保护文件正本的原始面貌㊂(2分)文件首页确无盖章位置或重要文件须保持原貌的,也可在文件首页前另附纸页加盖归档章㊂(1分)归档章尽量不要压住文件字迹,也不宜与批示文字或收文章等交叉㊂(2分)填写归档章项目时应使用符合档案保护要求的材料,如碳素墨水,也可使用打号机打号,禁止使用圆珠笔㊁铅笔㊁纯蓝墨水等不耐久的书写材料进行填写㊂(3分)归档章的材质和外形,由单位档案部门按照方便使用的原则自行确定㊂(1分) (3)案例中,小李应该在首页另附纸页加盖归档章,并使用碳素墨水等符合档案保护要求的材料进行填写㊂(2分)四㊁写作题(本大题共1小题,30分)37.通报的评分标准如下:(1)标题㊂由 发文单位+事由+文种 组成㊂(5分)(2)主送单位㊂在标题下空一行顶格写,一般用泛称㊂(3分)(3)正文㊂由主要事实㊁事实评析㊁决定和要求三个部分组成㊂①主要事实:介绍先进事迹,概述事实发生的时间㊁地点㊁单位或个人㊁经过㊁结果㊂(8分)②事实评析:分析先进事迹的性质和意义㊂要恰如其分,不能夸大其词㊂(5分)③决定和要求:表彰决定㊁希望与号召㊂要有的放矢,文字表述要简略㊁概括,针对性强㊂(5分) (4)落款㊂署名并写上成文日期,署名需用全称㊂(4分)参考范文:ˑˑ市水利局关于表彰王军同志抗疫先进事迹的通报各部门:新冠肺炎疫情发生后,我局全体人员主动担当㊁迅速响应,下沉到社区抗疫一线,帮助社区开展进出登记㊁体温测量㊁宣传教育㊁消杀灭毒等工作㊂其中,节水服务中心的王军同志,作为一名普通工作人员,在得知社区因人力有限向单位发出增援请求后,主动申请增援㊂他每天早出晚归,从早上七点到晚上八点,始终坚守在社区值班,直至4月底疫情得到控制才撤回㊂王军同志既不是领导干部,也不是共产党员,但在国家遭遇困难时,却能够迎难而上㊁坚守岗位㊁恪尽职守,在党和人民最需要的时候守责负责尽责,在基层一线筑起最牢固的防疫战线,充分体现了无私奉献和担当精神㊂为表彰王军同志在疫情期间的贡献,局党委决定授予王军 抗疫先进个人 荣誉称号,奖励500元奖金㊂希望王军同志在今后的工作中,继续发扬爱岗敬业㊁无私奉献的优秀品质,为我局其他人员树立良好的学习榜样㊂希望全体人员积极向王军同志学习,立足岗位,主动担当,争做优秀水利人㊂ˑˑ市水利局2021年1月5日2021年浙江省高校招生职业技能理论考试文秘类专业全真押题密卷(四)一㊁单项选择题(本大题共24小题,每小题2分,共48分)1.A2.C3.B4.B5.C6.B7.B8.C9.B10.B 11.C 12.B 13.C 14.D 15.C 16.A 17.A 18.C19.C20.B21.C 22.A 23.A 24.D二㊁多项选择题(本大题共9小题,每小题3分,共27分)25.A B D E26.A B E27.A C D 28.A B C D29.B C D E30.C E31.A B D E32.B C33.A C E 三㊁分析题(本大题共3小题,每小题15分,共45分)34.(1)大会秘书组的会议材料准备工作存在一定的问题㊂(1分)(2)准备会议材料的要求:①拟制会议文件目录㊂(1分)②准备文件袋,注明 会议文件 ㊂(1分)③认真校对会议文件㊂(1分)④提前做好分发工作㊂(1分)有些会议文件需要在会议召开之前发给与会者,有些则在会议召开时分发㊂(1分)但无论何时分发,都应尽量提前做好文件分发的准备工作㊂(1分)⑤重要文件要编号登记㊂(1分)⑥清退目录和要求㊂(1分)⑦整理发放文件目录㊂(1分)秘书应将所有的会议资料,如会议报告㊁决议草案㊁讲稿等相关资料,系统整理并制作文件资料目录,统一放在文件袋中,发放给与会人员㊂(2分)⑧认真装发文件㊂(1分)(3)案例中,大会秘书组在会议报到时分发资料,并且准备的文件袋又太小,从而导致会场一片混乱㊂(1分)大会秘书组应该提前整理发放文件目录,准备合适的文件袋,提前做好文件分发的准备工作㊂(1分)35.(1)小林没有按照办公用品采购流程进行采购,如若不及时改正,工作会存在很大问题㊂(1分) (2)办公用品的采购程序一般为:提出购买申请㊁审批㊁采购实施(含选择供应商㊁确定采购方式)㊁签订供货合同㊁货物入库㊁支付货款等㊂(3分)(3)办公用品的申请和订货:①由需要购买办公用品的部门填写公司内部的‘申购单“,说明需要办公用品的理由和具体型号等,经过领导批准后交给文员或采购人员㊂(2分)②由文员或采购人员向供应商发出购买需求,各供应商会返回对应的报价单,经过文员或采购人员的比较㊁筛选,填写正式订购单并签字,说明订购办公用品的详细情况,发送给选定的供应商㊂(2分)该订购单需要公司领导签字批准,并复制一份给财务部,作为付款的通知㊂(2分)(4)案例中,小林在接到任务后,直接打电话给公司的专供供应商进行订货,不符合采购程序,这样做可能造成后续无法正常入库并付款㊂(2分)应该填写‘申购单“,说明需要办公用品的理由和型号,并经领导批准后,再向供应商发出购买需求,填写正式订购单并经领导签字批准,最后发给供应商完成订货㊂(2分)同时复制一份给财务部,作为付款的通知㊂(1分)36.(1)小蔡核发文书的做法存在不妥之处㊂(1分) (2)大部分文件传递前需要经过分发过程㊂分发工作可分为以下几个步骤:①装封㊂(1分)装封时要求在装寄文件的信封或封套上准确填写收文单位的邮政编码㊁地址㊁收件人(部门)名称和发文单位的相关信息㊂(1分)如果文件为密件㊁急件或亲启件,应在信封上加盖密件戳㊁急件戳或写明 亲启 字样㊂(1分)②封口㊂(1分)文件的封口有普通封口和密封两类㊂(1分)对一般的或机密性不强的文件通常采用普通封口的方式,要用胶水封牢;(1分)对机密性较强的文件,如绝密件,应采用密封的方式㊂(1分)现在常用的密封方式是纸封,即在信封上加密封条,或在封口处加盖密封专用章,也可以在用封条的基础上再加盖密封专用章㊂(1分)③发送㊂(1分)根据发文单位及收文对象的具体情况和所发送文件的重要程度㊁数量㊁密级㊁缓急时限等因素,文件的发送可分别采用专人直送㊁邮政系统㊁机要通道㊁文件交换㊁电信系统等方式传递㊂(1分)涉密文件必须通过机要途径传递㊂(1分) (3)案例中,小蔡将文件装入信封,写上收文单位㊁邮政编码㊁地址㊁收件人和发文单位的相关信息是正确的,但还应该在信封上加盖密件戳;(1分)用胶水封牢是错误的,绝密件应采用密封的方式;(1分)用顺丰快递加急寄出是错误的,绝密件应通过机要途径传递㊂(1分)四㊁写作题(本大题共1小题,30分)37.会议通知的评分标准如下:(1)标题㊂由 发文单位+事由+文种 组成㊂标题位于第一行正中;事由一般采用动宾结构来概括,需简洁明确,但又必须准确地反映文章的中心内容㊂(5分)(2)主送单位㊂位于标题下空一行顶格写,后加冒号㊂(3分)(3)正文㊂一般分三个部分,即开头㊁主体㊁结尾㊂①开头:主要写发通知的原因㊁依据和目的,然后用过渡句 现将有关事项通知如下 导出主体内容㊂(3分)②主体:主要写通知的事项,一般采用条款式写明通知的内容㊂会议通知要写明会议召开时间㊁地点,会议内容,参加人员及要求,交通住宿报销情况等㊂(10分)③结尾:写要求或希望㊂(5分)(4)落款㊂在正文末的右下方写明发文单位和发文日期㊂(4分)参考范文:盛光集团关于召开工作会议的通知各部门:为落实公司有关情况,布置相关工作,经研究,决定召开工作会议㊂现将有关事项通知如下:一㊁会议时间2021年6月28日上午9:00 11:00㊂二㊁会议地点公司本部二楼会议室㊂三㊁会议内容1.集团第三季度工作安排;2.各子公司产品促销情况通报;3.关于圣泰健康食品公司筹建方案(征求意见稿)的讨论㊁定稿;4.行政部关于筹建电商发展部的汇报㊂四㊁参加人员公司本部各部门负责人㊁各子公司总经理㊁副总经理㊂五㊁注意事项请与会者准备好以下书面材料:各子公司第三季度工作计划;各子公司产品促销情况报告;关于圣泰健康食品公司筹建方案(征求意见稿)的意见;关于筹建电商发展部的可行性分析报告㊂盛光集团2021年6月20日2021年浙江省高校招生职业技能理论考试文秘类专业全真押题密卷(五)一㊁单项选择题(本大题共24小题,每小题2分,共48分)1.C2.A3.D4.C5.A6.D7.A8.D9.B10.A 11.C 12.C 13.A 14.A 15.A 16.B17.C18.B19.D 20.C 21.B 22.B 23.A 24.B二㊁多项选择题(本大题共9小题,每小题3分,共27分)25.A B C26.A D E27.C D 28.A B C D 29.B C E 30.A B D 31.A B C D 32.A C D E33.A B C D E三㊁分析题(本大题共3小题,每小题15分,共45分)34.(1)拟定会议议程的基本操作步骤:①明确会议的各项议题㊂(2分)会议议题可以由领导提出; (1分)也可以由秘书部门根据领导提出的会议目标和要求,广泛征求意见后提出,报有关领导审定㊂(1分)②确定各项议题的顺序㊂(2分)根据会议议程编制方法,合理安排各项议题的顺序㊂(1分)③拟写会议议程表㊂(2分)(2)会议议程与会议日程的区别与联系:①会议议程是对会议所要通过的文件㊁所要讨论的问题的概略安排,并冠以序号清晰地表达出来㊂(2分)会议日程是对会议期间所有活动的具体安排,是会议议程的具体化㊂(1分)②会议议程和会议日程的功能不同㊂(1分)会议议程的编制,一旦确定,不应再变;(1分)会议日程在时间㊁地点㊁人员等方面如遇变化,可做适当调整㊂(1分)35.(1)小李在固定资产处置工作中存在不妥之处㊂(1分)(2)固定资产处置:①每月,办公室应统计各部门固定资产报废情况,编制月度固定资产报废计划,并填写‘固定资产处置审批单“,经办公室负责人㊁采购部负责人㊁财务主管审核后,提交总经理审批㊂(1分)②固定资产批准报废后,办公室要及时进行实物处理,更新固定资产卡片和固定资产管理台账的相关信息,财务部及时进行财务处理㊂(1分)③对已批准报废的固定资产进行遴选㊂(1分)通过适当维护㊁修理,能够继续使用的物品由办公室负责调剂给有需求的部门使用;(1分)对已批准报废并经遴选后剩下的物品由办公室进行作价处理,但物品需经公司有关部门和领导审核批准后方可进行处理㊂(1分)④当固定资产破损或丢失时,固定资产使用部门应填写‘固定资产处置审批单“,提交办公室审核㊂(1分)⑤办公室对固定资产报损或报失情况进行核实后,在‘固定资产处置审批单“内填写调查意见,并签字确认,将‘固定资产处置审批单“送财务部门审核㊂(1分)⑥财务部门对报损㊁报失固定资产的价值进行估算并填写相关数据,报总经理审批㊂(1分)⑦办公室根据审批通过的‘固定资产处理审批单“更新固定资产台账和卡片的相关信息,财务部门根据审批通过的‘固定资产处置审批单“进行报损㊁报失固定资产的账务处理㊂(1分)(3)案例中,小李到了年终才统计各部门固定资产情况,间隔时间太长,应采取月统计;(1分)销售部两台电脑报废,应填写‘固定资产处置审批单“,经相关部门审核后交领导审批;(1分)销售部打印机损坏,应按流程申报维修;(1分)后勤处传真机丢失,应及时报失;(1分)各部门报废的其他办公用品也应按月及时上报,不能堆砌不报㊂(1分)36.(1)签收文书操作步骤如下:①清点㊂(1分)检查㊁核对所收文书的件数是否与传送单或传送文簿上登记的件数相符㊂(2分)②检查㊂(1分)看清来文封面上写的收文单位㊁部门或者人名,是否清晰明确,是否是寄给本单位的,来件的封口有没有破损,来件的信封号和投递单上的号码是否一致㊂(3分)③签字㊂(1分)收发人员在完成检查和清点后,确认。