Deb - SEDEX - supplementary sharp tool policy - Creatives chinese translation draft 18-2-2011

HIGH QUALITY COLOR A3 MULTIFUNCTION PRINTER DELIVERING VALUE, EFFICIENCY AND EASE OF USECanon imageRUNNER C3125iThis flat configuration is for illustration purpose only. For a complete list of options and the exact compatibility, please refer to the Online Product Configurator or consult your sales representative.*Copy Tray-J2 requires 3 Way Unit-D1MAIN CONFIGURATION OPTIONSiR C3125iCABINET TYPE-R•Raises the device, no additional media supplyCASSETTE FEEDING UNIT-AP1• Supports up to A3• Media weight 52 – 220 GSM •2 x 550 sheets (80 gsm)UTILITY TRAY-B1COPY TRAY-J2*INNER 2WAY TRAY-J1• Separates copies, prints and faxes •Adds a second internal output trayINNER FINISHER – K1• 2-tray, 600 -sheet capacity • Corner and double stapling up to 50 sheets (80 gsm)•Supports Eco stapling 4 sheets (80 gsm) and Staple On Demand 40 sheets (80 gsm)MAIN UNITMachine type A3 Color Laser MultifunctionalCore functions Print, Copy, Scan, Send and Optional Fax Processor Canon Dual Custom Processor (Shared) Control Panel12.7 cm (5 inch) TFT LCD WVGA Color Touch panel Memory Standard: 2.0GB RAMInterface Connection NETWORKStandard: 1000BaseT/100Base-TX/10Base-T,Wireless LAN (IEEE802.11b/g/n)Optional: NFCOTHERSStandard: USB 2.0 (Host) x 2, USB 2.0 (Device) x 1Optional: Copy Control InterfacePaper Supply capacity (A4, 80gsm)Standard: 1,200 Sheets100-sheets Multi-purpose tray x 1, 550-sheets Paper cassette x 2Maximum: 2,300 Sheets(with optional Cassette Feeding Unit-AP1)Paper output capacity (A4, 80gsm)Standard: 250 Sheets Maximum: 700 Sheets(with Inner Finisher-K1 and Copy Tray-J2)Finishing capabilities Standard model: Collate, GroupFinisher model (Inner Finisher-K1): Collate, Group,Offset, Staple, Eco Staple, Staple On Demand Supported Media Types Multi-purpose Tray:Thin, Plain, Heavy*, Recycled, Coated*, Color,Tracing, Bond, Transparency, Label, Pre-punched,Envelope* SRA3 is unsupported for Coated (257-300gsm) andHeavy (257-300gsm) paper.Paper Cassette (Upper/Lower Cassette):Thin, Plain, Heavy, Recycled, Color, Bond,Transparency, Pre-punched, Envelope**Lower Cassette: Envelope Feeder Attachment A is required. Supported media sizes Multi-purpose tray:Standard size: SRA3, A3, A4, A4R, A5, A5R, A6R,B4, B5, B5R, Envelope [COM10 No.10, Monarch,ISO-C5, DL]Custom size: 98.4 x 139.7 mm to 320.0 x 457.2 mmPaper Cassette (Upper Cassette):Standard size: A4, A5, A5R, A6R, B5Custom size: 105.0 x 148.0 mm up to 297.0 x215.9 mmEnvelope: ISO-C5Paper Cassette (Lower Cassette):Standard size: A3, A4, A4R, A5, A5R, A6R, B4,B5, B5RCustom size: 105.0 x 148.0 mm up to 304.8 x 457.2 mmEnvelope: [COM10 No.10, Monarch, DL]**Envelope Feeder Attachment A is required. Supported media weights Multi-purpose tray: 52 to 300 gsm** SRA3 is unsupported for Coated (257-300gsm) andHeavy (257-300gsm) paper.Paper Cassette (Upper/Lower Cassette):52 to 220 gsmDuplex: 52 to 220 gsmWarm-Up Time From Sleep Mode: 10 Seconds or LessFrom Power On: 19 Seconds or Less**Time from device power-on, until copy ready(not print reservation)Dimensions (W x D x H)565 x 664 x 880 mmInstallation Space (W x D)1241 x 1217 mm*with Cassette open + 100 mm gap around the main body Weight Approx. 67.3 kg without tonerPRINT SPECIFICATIONSPrint Speed (BW/CL)Up to 25/25 ppm (A4, A5, A5R, A6R), Up to 15/15ppm (A3), Up to 20/20 ppm (A4R)Print Resolution (dpi)600 x 600, 1,200 x 1,200Page descriptionlanguagesStandard: UFR II, PCL6, Adobe®PostScript®3TM Direct Print Supported file types: PDF, EPS, TIFF/JPEG, XPS**XPS is supported from LPR command print only.Printing from mobile andcloudAirPrint, Mopria, Google Cloud Print, CanonBusiness Print and uniFLOW OnlineA range of software solutions is available toprovide printing from mobile devices andcloud-based services depending on yourrequirements. Please contact your salesrepresentative for further information.Fonts PCL fonts: 93 Roman, 10 Bitmap fonts, 2 OCRfonts, Barcode fonts*, PS fonts: 136 Roman* Barcode Printing Kit-D1 is requiredPrint Features Secure Print, Header/Footer, Page Layout,Two-sided Printing, Mixed Paper Sizes/Orientations, Toner Reduction, Poster Printing,Print DateOperating System UFRII: Windows®7/8.1/10/Server2008/Server2008R2/Server2012/Server2012 R2/Server2016/Server2019, Mac OS X (10.10 or later)PCL: Windows®7/8.1/10/Server2008/Server2008R2/Server2012/Server2012 R2/Server2016/Server2019PS: Windows®7/8.1/10/Server2008/Server2008R2/Server2012/Server2012 R2/Server2016/Server2019, Mac OS X (10.10 or later)PPD: Windows®7/8.1/10, MAC OS X (10.9 or later)COPY SPECIFICATIONSCopy Speed (BW/CL)Up to 25/25 ppm (A4, A5, A5R, A6R), Up to 15/15ppm (A3), Up to 20/20 ppm (A4R)First-Copy-Out Time (A4)(BW/CL)Approx. 5.9/8.2 seconds or lessCopy resolution (dpi)600 × 600Multiple Copies Up to 999 copiesCopy Density Automatic or Manual (9 Levels) Magnification Variable zoom: 25% - 400% (1% Increments)Preset reduction/enlargement: 25%, 50%, 70%,100% (1:1) / 141%, 200%, 400%Copy Features Preset R/E Ratios by Area, Two-Sided, DensityAdjustment, Original Type Selection, Book to TwoPages, Two-sided Original, Sort, N on 1, Different SizeOriginals, Sharpness, Erase Frame, Copy IDCard, Copy Passport, Color ModeSCAN SPECIFICATIONSType Standard: Duplexing Automatic Document Feeder[2-sided to 2-sided (Automatic with DADF)]Optional: Color Platen (Platen Cover-Y2) Document Feeder PaperCapacity (80 gsm)100 SheetsAcceptable Originals andweightsPlaten: Sheet, Book, and 3-Dimensional objectsDocument Feeder media weight:1-sided scanning: 38 to 128 gsm (BW),64 to 128 gsm (CL)2-sided scanning: 50 to 128 gsm (BW),64 to 128 gsm (CL)Supported media sizes Platen: max. scanning size: 297.0 x 431.8 mmDocument Feeder media size:A3, A4, A4R, A5, A5R, B4, B5, B5R, B6Custom size: 128.0 x 139.7 mm to 297.0 x 431.8 mm Scan Speed(ipm: BW/CL; A4)1-sided Scanning:55/55 (300 x 300 dpi, send),30/30 (600 x 600 dpi, copy),2-sided Scanning:27.5/27.5 (300 x 300 dpi, send),15/15 (600 x 600 dpi, copy)Scan Resolution (dpi)Scan for Copy: up to 600 x 600Scan for Send: (Push) up to 600 x 600,(Pull) up to 600 x 600Scan for Fax: up to 600 x 600Pull Scan Specifications ScanGear MF. For both TWAIN and WIASupported OS: Windows® 7/8.1/10Scan Method Push Scan, Pull Scan, Scan to Network, Scan tomemory media (USB Memory Key), Scan tocloud-based services (uniFLOW)SEND SPECIFICATIONSDestination Standard: E-mail/Internet FAX (SMTP), SMB, FTPOptional: Super G3 FAXAddress Book LDAP (50)/Local (300)/Speed dial (281)Send resolution (dpi)Push: 300 x 300 (Email/SMB/FTP), 192 x 204 (IFAX)Pull: 50 x 50, 75 x 75, 150 x 150, 200 x 200, 300 x300, 400 x 400, 600 x 600 Communication protocol FTP (TCP/IP), SMB (TCP/IP), SMTPFile Format Standard: TIFF, JPEG*, PDF(Compact, Searchable, Encrypted, Digital Signature)*Single Page OnlyUniversal Send Features Original Type Selection, Two-sided Original,Different-size Originals, Density Adjustment,Sharpness, File Name, Subject/Message, Reply-to,E-mail Priority, TX Report, Original ContentOrientationFAX SPECIFICATIONSMaximum Number ofConnection Lines1Modem Speed Super G3: 33.6 kbpsG3: 14.4 kbpsCompression Method MH, MR, MMR, JBIGResolution (dpi)400 x 400 (Ultra Fine), 200 x 400 (SuperFine), 200 x 200 (Fine/Photo), 200 x 100(Normal)Sending/Receiving Size Sending: A3, A4, A4R, A5*2, A5R*2, B4, B5*1, B5R*2 Receiving: A3, A4, A4R, A5R, B4, B5, B5R*1 Sent as B4*2 Sent as A4FAX memory Up to 512 pagesSpeed dials Max. 281Group dials/destinations Max. 299 dialsSequential broadcast Max. 310 addressesMemory backup YesFax Features Direct Send, TX Report, SequentialBroadcastingSECURITYSPECIFICATIONSAuthentication and Access Control Standard:Department ID Authentication (Department ID and PIN Login, Function Level Login), uniFLOW Online Express (PIN Login, Card Login, Card and PIN Login)Document Security Print Security (Secure Print, uniFLOW SecurePrint*), Scan Security (Encrypted PDF, DeviceSignature PDF), Send Data Security(Restricted E-mail/File send functions,Confirming FAX number, Allow/Restrict FaxDriver Transmissions, Allow/Restrict Sendingfrom History)*Requires uniFLOW Online / uniFLOW Network Security IPSec, IEEE802.1X authentication, SNMPv3,Firewall Functionality (IP/MAC AddressFiltering), Enabling/Disabling Remote UI, G3FAX separation from LAN, USB Port separationfrom LANDevice Security Standard: Storage Initialize, Job LogConceal Function, Protecting MFDSoftware IntegrityDevice Management and Auditing Standard: Administrator Password, DigitalCertificate and Key Management, SecurityPolicy SettingENVIRONMENTALSPECIFICATIONSOperatingEnvironmentTemperature: 10 to 30 ºCHumidity: 20 to 80% RH (Relative Humidity)Power source110-127V 60Hz 15A220-240V 50/60Hz 10APower consumption Maximum: Approx. 1,5 kW or LessAverage: Approx. 412.0W (120V); 431.0 W (230V)(while printing/copying)Standby: Approx. 35.1 (120V) 34.3 W (230V)*1Sleep mode: Approx. 2W*2, Approx. 1W*3*1 Reference value: measured one unit*2 Wireless LAN power serve mode OFF*3 Wireless LAN power serve mode ON*2,*3S leep mode is not available in all circumstances due tocertain settings.Typical Electricity Consumption (TEC): 0.29 kWh** As per US ENERGY STAR Version 3.0Noise levels (BW/CL)Sound Power Level (LWA,m)(1-sided/2-sided)Active (BW): 6.1/6.4 B*1, Kv 0.3/0.3 B*1Active (CL): 6.2/6.4 B*1, Kv 0.3/0.3 B*1Sound Pressure (LpAm)Bystander's position: (1-sided/2-sided)Active (BW): 47/50 dB*1,Active (CL): 48/50 dB*1,Standby: No noise*2*1R eference value: measured only one unit withISO7779, described with ISO9296:2017*2N o noise means that the emission sound pressurelevel of each bystander position is lower than theabsolute standard with the background noise ofISO 7779.Standards Blue AngelCONSUMABLESToner Cartridge/s GPR-53 TONER BK/C/M/YToner (EstimatedYield @ 5% Coverage)GPR-53 TONER BK: 36,000 pagesGPR-53 TONER C/M/Y: 19,000 pagesGPR-53L TONER C/M/Y: 8,500 pagesSOFTWARE ANDPRINTERMANAGEMENTTracking andreportingUniversal Login Manager (ULM):Manage your costs easily by using the embeddedreporting capability to identify and control costson a user-based level by device.uniFLOW Online Express*: Combining with ULMyou can gain further control and highlightexpenditures per users/department and pinpointwhere costs can be scaled down from a centralcloud based location.*Installation, activation and registration requiredRemote managementtoolsiW Management Console:Server-based software for centralisedmanagement of afleet of devices (includes monitoring orconsumables,status monitoring and alerts, distribution of address books,configuration settings, firmware and MEAP applications,meter capture and reporting, driver and resourcemanagement)imageWARE REMOTE:Compatible with imageWARE services viaembedded RDS (Enables meter capture, automaticconsumables management, remote diagnostics andreporting for service providers to offer efficient, fast andproactive maintenance)Content Delivery System:Allows the Remote distribution of firmware, iRoptions and MEAP applications; Remote UserInterface (RUI) Web based interface to eachdevice that helps to provideremote device management and controlCustomization options Application LibraryScanning software ScanGear MF Scanner DriverOptimization tools Canon Driver Configuration ToolPAPER SUPPLY OPTIONSCassette Feeding Unit-AP1Paper Capacity: 550 sheets x 2 (80 gsm) Paper Type: Thin, Plain, Recycled, Color, Heavy, Bond, Transparency, Pre-punchedPaper Size: A3, A4, A4R, A5, A5R, A6R, B4, B5 ,B5R, Custom Size: 105.0 x 148 mm to 304.8 x 457.2 mm Paper Weight: 52 to 220 gsmPower Supply: From the Main Unit Dimensions (W x D x H): 565 x 615 x 248 mm Weight: Approx. 16 kgOUTPUT OPTIONSInner Finisher-K1Tray Capacity (with 80gsm paper):Number of Trays: 2Lower Tray1: A4, A5, A5R, B5: up to 500 sheetsSRA3, A3, A4R, B4, B5R: up to 250 sheetsA6R: up to 30 sheetsUpper Tray2: A4, A5, A5R, B5: up to 100 sheetsSRA3, A3, A4R, A6R, B4, B5R: up to 50 sheetsPaper Weight:Lower Tray1: 52 to 256 gsmUpper Tray2: 52 to 300 gsmStaple Position: Corner, DoubleStaple Capacity:A4/B5: 50 sheets (52 to 90 gsm)A3/B4/A4R: 30 sheets (52 to 90 gsm)Eco Staple:A3/A4/B4/B5: 5 sheets (52 to 64 gsm)4 sheets (65 to 81.4 gsm)3 sheets (82 to 105 gsm)Staple On Demand: approx 40 sheets (80 gsm)Power Supply: From the main unitDimensions (W x D x H): 634 mm × 525 mm × 188 mm(when the extension tray and rotary tray are extended)Weight: Approx. 8 kgSoftware & SolutionsCompatibilityInner 2way Tray-J1Paper Capacity (with 80 gsm paper)-Upper tray:SRA3, A3, A4, A4R, A5, A5R, A6R, B4, B5, B5R,Custom size (98.4 x 139.7 mm to 320.0 x 457.2mm): 100 sheets-Lower tray:A4, A5, A5R, A6R, B5, B5R: up to 250 sheetsSRA3, A3, A4R, B4, Custom Size (98.4×139.7 to320.0×457.2 mm ): up to 100 sheetsPaper Weight: 52 to 300 gsmDimensions (W x D x H): 426 x 407 x 76 mmWeight: 0.7 kg*Requires 3 Way Unit-D1Copy Tray-J2Capacity: 100 sheets (80 gsm)* A4, B5, B5R, A5RDimensions (W x D x H): 444 × 373 × 176 mm(attached to the main unit,when the extensiontray is extended)Weight: Approx. 0.5 kg*Requires 3 Way Unit-D1HARDWAREACCESSORIEScard readers IC Card Reader Attachment-B2COPY CARD READER-F1COPY CARD READER ATTACHMENT-H3others UTILITY TRAY-B13 Way Unit-D1SYSTEM ANDCONTROLLEROPTIONSprint accessories PS Printer Kit-BK1barcode printing BARCODE PRINTING KIT-D1system accessories COPY CONTROL INTERFACE KIT-D1NFC KIT-D1fax accessories SUPER G3 FAX BOARD-AV3OTHER OPTIONSaccessibilityaccessoriesADF ACCESS HANDLE-A1staple cartridge STAPLE-P1Canon U.S.A., Latin America GroupOne Canon ParkMelville, NY 11747/Color_imageRUNNER。

Handling PrecautionsAllow the drive to reach room temperature before installing it in the computer.Do not open the E S D bag until youÕre ready to install the drive. Handle the drive by its sides. Do not touch the circuit board (electronics). Do not connect/disconnect any drive cables while your computer is turned on.Do not drop, jar, or bump the drive.1PreIn s tallatio nT hank yo u fo r se le c ting a Maxto r hard d rive sto rag e p ro d uc t.Maxto r's g o al is to p ro vid e yo u w ith the m o st up -to -d ate p ro d uc t p o ssib le ,and w e are c o nstantly e nhanc ing o ur so ftw are and d o c um e ntatio n to b e tte r m e e t yo ur ne e d s .Ple ase visit o ur w e b -site at to vie w the late st that Maxto r has to o ffe r!System /OS Requirem ents¥ A full version of your operating system (OS) is required for a new hard drive installation(see kit package for details)Tools for InstallationThe following tools are needed to install your new M axtor hard drive:¥Small Phillips head screw driver ¥Small pair of pliers or tweezers ¥Your computer user manual ¥Operating system softwareBackup Your DataM axtor highly recommends that you make a backup copy of your files before installing the new M axtor hard drive.Please refer to your computer user manual for more information.2D r ive J um p e r S e t u p Configure the Drive J um persIf specific jumper options are needed for your system configuration, refer to the illustrations and definitions provided in this section.SCSI ID J umper SettingsM axtor SCSI drives typically ship from the factory with jumpers set to SCSI ID 6, and termination power jumped.SCSI ID 7 is usually reserved for the SCSI host adapter.3D rive InstallInstalling Drive Inside of Y our Com puter SystemM ake sure your com puter is pow ered dow n before installing the drive.The following illustrations are of typical computer systems and hard drive mounting styles.Your computer may have a different mounting style. Please refer to your computer user manual for more information.B e sure to secure the drive to the device bay with all four screws.The drive should be oriented with its printed circuit board facing down.Installing 5.25-inch Mounting BracketsIf the hard drive will be installed in a 5.25-inch device bay, attach mounting brackets (available separately) to the hard drive as shown in the figure below.Mounting ScrewsMounting ScrewsMounting BracketNote:M axtor LVD SCSI drives do not support on-board termination. M axtor recommends the use of Active LVD terminators and 68-pin twisted pair cabling.S CS I hos t adapter manufacturers us ually s upply proper cabling and termination with the purchase of an LVD S CS I hos t adapter.A ttention:The R ear J umper O ption Connector is an O E M specific con-nector. M ost installations will never use the jumper options on this connector. Always configure the drive using the jumpers at the Front J umper O ption Connector .Other J umper SettingsTP - Termination Pow er (12 Pin O ption Connector)Pins 11-12 T ermination power ensures that there is a sufficient power level along the entire SCSI bus. It is recommended that the final device on the SCSI bus have the Termination Power jumper installed. All devices in between the host and final device typically have no jumper on Termination Power.Note that Termination Power is not the same as on-board termination, which this drive does not support.S S - S tagger S pinPins 13-14 For most configurations this option is not utilized.M ost current SCSI host adapters offer a Start Unit command enable or disable, which supersedes the functionality of the SS jumper setting. W hen the Delay Spin (DS) jumper isenabled on the drive, the Start Unit command from the SCSI host adapter will send Start Unit commands to all devices on the bus at pre-determined intervals. This can help prevent power supply overload when running several devices on the SCSI bus.W P - W rite ProtectionPins 11-12 B y factory default, the drive is shipped with no jumper on these pins, and the drive can be written to unless protected by application software. W ith the pins jumped, the drive can be used as a read-only device. This feature prevents accidental overwrites and is useful for frequently accessed archives and reference files.Force S E Ð Force S ingle Ended O perationPins 17-18 By factory default, the drive is shipped with no jumper on these pins. W ith most system configurations, it is not necessary to use this jumper. LVD drives are multi-mode capable. They will automatically detect the presence of a sin-gle-ended bus and revert to single-ended mode.DS - Delay S pin Disable Delay S pin: No jumper across pins 15-16 (factory default). Disabling Delay Spin allows the drive to spin up when the system is powered up.Enable Delay S pin: J umper across pins 15-16 This setting will prevent the drive from spinning up until it receives a Start Unit command from a SCSI host adapter. M ost SCSI host adapters have the Start Unit command enabled by default in the host adapter BIOS. Enabling Delay Spin is only necessary when you are starting multiple devices at power on.S CS I IDPin numbers 1-8 are typically referred to in pairs as A0 (pins 1and 2), A1 (3,4), A2 (5,6), A3 (7,8). The jumper pairs will allow configuration of SCSI ID's 0 to 15. All SCSI devices must have an individual ID on the SCSI bus (there is no M aster/Slave set-ting). SCSI ID 7 is usually reserved for the SCSI host adapter.Fault LED and B usy O ut J umpersTypical installations do not require the use of the Fault LED and Busy Out jumpers. The Busy Out signal is usually supplied through the PCI bus to the PC motherboard's Busy indicator LED. If connecting the Busy Out jumper for a drive installed in an external case, please refer to the wiring documentation sup-plied by the manufacturer of the case. Connection of the Fault LED is not recommended in internal or external installations.Computer with available 3.5-inch device bayComputer with available 5.25-inch device bayD I e v i r D O t i B D I 1t i B D I 2t i B D t i B D I 0D I F F O F F O F F F O 1D I N O F F O F F F O 2D I F F O N O F F F O 3D I N O N O F F F O 4D I F F O F F O N F O 5D I N O F F O N F O 6D I F F O N O N F O 7D I T SO H I S C S R O F D E V R E S E R 8D I F F O F F O F F O N O 9D I N O F F O F F O N O 01D I F F O N O F F O N O 11D I N O N O F F O N O 21D I F F O F F O N O N O 31D I N O F F O N O N O 41D I F F O N O N O N O 51D I NO NO NO NO Pin 2Pin 1Pin 17Pin 18SCSI ID 3SCSI ID 2SCSI ID 1SCSI ID 0BUSY LED -/+WRT PROTECT STAGGER SPIN DELAY SPINSINGLE ENDEDFAULT LED GROUND GROUND BUSY LED GROUND TERM POWERSCSI ID 3SCSI ID 2SCSI ID 1SCSI ID 0NOT USED+5 VPin 1Pin 2Pin 11Pin 124 Pin PowerConnector12 Pin Option Connector68 Pin SCSIConnectorPin 168-pin Connector68-pin Drive ConnectorDC Power ConnectorUltra LVD/SE CablePower Supply Cable(3-Pin or 4-Pin)Bevel4Cable Hook-up Attach the SCSI and Power CablesIf the M axtor SCSI drive is the only device attached to the SCSI adapter card, attach the drive at the end of the Ultra LV D/SE cable, farthest from the SCSI adapter card. This connector has a beveled edge and will only fit one way. Then attach an external active LVD/SE SCSI terminator.Please refer to the SCSI adapter card user guide for additional recommendations on data cable place-ment and SCSI termination requirements.Attach a power cable to the power connector on the hard drive. This connector is keyed and willonly fit one way. Check all other cable connections before you turn on the computer.Caution:Do not force or rock the connectors into their sockets on the hard drive. Push them in straight until they are seated firmly.5P a r t it io n i n g F o r m a t t i n gMaxtor hard drives can accept nearly all operating systems. Some operating sys-tems have volume size limitations that may require you to partition your drive into multiple volumes. Please refer to your system or SCSI adapter card user guide for information about formatting and partitioning the drive.General Guidelines¥ DOS /W indow s 9X /M E:Use FDISK.EXE to partition and FORM to format the drive.¥ W indow s N T/2000:Boot your system from the installa-tion floppy disks provided with the OS to partition and format the drive.If you do not have the original installa-tion floppies, you can create them using your W indows installation CD.¥ W indow s X P:Boot your system from the W indows XP installation CD to partition and for-mat the drive. If your system is not capable of booting from a CD, you can download bootable W indows XP installation floppies from M icrosoft's website at ¥ Macintosh:Most non-Apple branded hard drives can be formatted using the Drive Setup utility included in Mac OS 8.6 and above. Mac OS versions before 8.6 will require a third-party hard drive utility such as FW B Hard Disk Toolkit () or Intech Hard Disk SpeedTools() to partition and initialize the drive. Please visit the FW B or Intech website for details on these non-Maxtor software products.www.maxtor.c om6P r o d u c t R e g i st r a t io nTake Advantage of the Benefits!By registering your new M axtor prod-uct,youll have the option to receive product updates, special offers, and other valuable information about other data storage solutions from M axtor.S imply point your web browser to:w w go to theproduct registration page, and com-plete the short questionnaire.Changes are periodically made to the information herein Ð which will be incorporated in revised editions of the publication. M axtor may make changes or improvements in the product(s) described in this publication at any time and without notice.Copyright © 2001 M axtor Corporation. All rights reserved. Printed in the U.S.A. 12/01. M axtor ¨is a regis-tered trademark of M axtor Corporation. Other brands or products are trademarks or registered trademarks of their respective holders.Active LVD TerminatorConnect to SCSI Host Adapter CardUltra LVD/SE CableStandard Cabling for Single SCSI Drive in System(Ultra LVD/ SE cable connections)Cable Connections for SCSI Drive。

DARPS 232High precision absolute and relative positionDARPS 232 is a GPS/GLONASS based system which uses simultaneously gathered GPS/GLONASS data from high performance sensors on remote and own vessel to compute distance to target (DT) and bearing to target (BT). Relative position will be availableat short and long distances with a worldwide accuracy of 20 cm andis independent of differential correction data. For computation of absolute position, differential corrections are used. The absolute position is available with a worldwide accuracy of 20 cm in High Precision mode utilising commercial subscription services. In addition the DARPS system also makes use of free-to-air SBAS correction signals such as WAAS, EGNOS and MSAS. These correction signals can be received and used free of charge.Combining GPS and GLONASSAdding GLONASS to GPS improves all aspects of satellite navigation. With more observations available for position calculation, the accuracy, availability and integrity of the system is greatly enhanced when operating in challenging environments.Trustworthy and reliableThe DARPS product has been in the market for 20 years and is recognized as one of the most suitable positioning solutions for shuttle tanker offshore operations. The quality of a combined GPS/ GLONASS system for DP operation has been improved through along and incremental development cycle. DARPS is designed to ensure continuous and reliable operation. New hardware technology tailored for maritime use and advanced modular software design in a networked architecture ensure a robust and stable performance.DP interfaceThrough the years, the DARPS system has been modified and improved to meet the demanding requirements for an accurate and reliable positioning sensor to the DP system. This includes features such as direct target selection by the DP, transfer of gyro information from the DP to the DARPS system and continuous updates of absolute and relative positions to the DP. All data interfaces, such as telegram formats, update rates and communication formats are duly in line with the prevailing DP specifications.Radio communicationData between the two DARPS systems are transferred by UHF transceivers operating in the 450 MHz band, 455 MHz band or 860 MHz band. The data are transmitted using a TDMA protocol, which enables two-way communication between the two systems. UHF frequency configuration flexibility ensures reliable and safe operations in areas with high radio communication activity.Lever arm compensationBuilt-in lever arm compensation enables selection of several measurement points on the vessel. It is possible to establish and correct loading and offloading points both on-board the shuttle tanker and the FPSO/FSU. The selected monitoring points will bethe basis for the distance calculations during relative position mode operation. Heading input is necessary to utilise the built-in lever arm compensation.Real-time situational awarenessA new operator software has been developed in close co-operation with DP operators for the new generation DARPS system. Operators need to assess the quality of their absolute and relative position quickly and efficiently. The primary goal of the HMI is to enable the operator to instantly identify and to react safely to critical situations. Several views tailored for different vessel operation modes are available.System diagnostics made easyDARPS offers a set of graphical views for easy and effective on-board system diagnostics. In addition, sensor data and telegram outputs are automatically logged by the system. A data export tool provides an easy way of exporting data from the system to a USB disk media, either for documentation, post-processing or diagnostics.System verificationReduce the risk of costly downtime by verifying your DARPS system before arriving at the location. A new tool has been developed fora quick verification of the DARPS UHF radios prior to an offshore loading operation. The test will run through all the radios sequentially and indicate if the radio units are operating as required. A redundant DARPS system is required to run the test.HIGH PERFORMANCE POSITION REFERENCE SYSTEM FOR OFFSHORE LOADING DARPS is a DP position reference system tailor made for offshore loading operations. The DARPS system combines high performance sensors for reliable and accurate absolute and relative positioning of two vessels such as a shuttle tanker and a FPSO/FSU.PERFORMANCERTK horizontal accuracy 1 cm + 1.6 ppm RMSRTK vertical accuracy2 cm + 3.2 ppm RMS XP/G2 horizontal accuracy 10 cm, 95 % CEP XP/G2 vertical accuracy 15 cm, 95 % CEPDGPS/DGLONASS position accuracy < 1 m, 95 % CEP, 0.4 m, 1 σSBAS accuracy < 1 m, 95 % CEP, 0.6 m, 1 σVelocity accuracy0.05 m/s, 95 % CEP, 0.2 m/s, 1 σRelative position accuracy 0.2 m, 95 % CEP1Output rate1 HzAll accuracy specifications are based on real-life tests conducted in the North Sea under various conditions. Operation in other locations under different conditions may produce different results.INTERFACESSerial ports 8 isolated ports, 6 configurable between RS-232 and RS-422Ethernet/LAN 4USB 3DATA OUTPUTSMessage formats NMEA 0183 v 3.0, Proprietary Message types ABBDP, ARABB, DPGGA, DTM, GBS, GGA, GLL, GNS, GRS, GSA, GST, GSV, PKNOR, PSKPS, PSKRB, RMC,VBW, VTG, ZDADATA INPUTSDGPS/DGLONASS corrections RTCM-SC104 v 2.2, 2.3, Seastar XP, Seastar G2RTK corrections RTCM-SC104 v 2.3, 3.0, 3.1 and CMR Gyro compass NMEA 0183 HDT, HRC, HDM, EM3000, PSXN10, PSXN 23 and Robertson LR22 BCD format WEIGHTS AND DIMENSIONSDARPS 232 Processing Unit 5.4 kg, 89 mm x 485 mm x 357 mm DARPS HMI Unit 3.8 kg, 44 mm x 485 mm x 330 mm Radio Units 3.0 kg, 44.5 mm x 482 mm x 370 mm GNSS antenna 0.5 kg, 69 mm x 185 mm IALA becon antenna 1 kg, 1000 mmUHF 450 antenna 1.3 kg, 1400 mm, 6 cm max ⌀UHF 860 antenna1.4 kg, 1510 mm1 Requires 4th generation DARPS system on both shuttle tanker and FPSO/FSU.2 Recommended +5 to +40 °C3 Recommended +5 to +40 °CPOWER SPECIFICATIONSDARPS 232 Processing Unit 100 to 240 V AC, 50/60 Hz, max. 60 W DARPS 232 HMI Unit 100 to 240 V AC, 50/60 Hz, max. 40 W Radio Units 100 to 240 V AC, 50/60 Hz, max. 15 W GNSS antenna 5 V DC from Processing Unit IALA beacon antenna 10.2 V DC from Processing UnitENVIRONMENTAL SPECIFICATIONS Operating temperature range DARPS 232 Processing Unit -15 to +55 °C2DARPS 232 HMI Unit -15 to +55 °C3Radio Units 0 to +55 °C GNSS antenna -40 to +85 °C IALA beacon antenna -55 to +55 °C UHF antennas -30 to +70 °CHumidityDARPS 232 Processing Unit Max. 95 % non-condensing DARPS 232 HMI Unit Max. 95 % non-condensing Radio Units Max. 95 % non-condensing GNSS antenna Hermetically sealed IALA beacon antenna Hermetically sealed UHF antennas Hermetically sealedMechanical VibrationIEC 60945/EN 60945Electromagnetic compatibility Compliance to EMCD,immunity/emission IEC 60945/EN 60945Product safetyCompliance to LVD, standard usedIEC 60950/EN 60950PRODUCT STANDARDS IMO regulations MSC.112(73) M SC.113(73) M SC.114(73) M SC.115(73)IEC standards IEC 61162-1 IEC 60945 IEC 61108-1UKOOA compliantSpecifications subject to change without any further notice.KONGSBERG SEATEXSwitchboard: +47 73 54 55 00Global support 24/7: +47 33 03 24 07E-mailsales:****************************.com E-mailsupport:******************************.com/maritimeF e b r u a r y 2021FEATURESIALA antennaGPS/Glonass。

S P E C S H E E TKEY FEATURESHandy, lightweight, powerful, tablet-inspired design 7-inch, outdoor-enhanced touchscreen–the biggest in the handheld industry 12-hour autonomyTamper-proof password protection Dead zones: EDZ 1 m, ADZ 4 m Dynamic range of 30/28/28 dB Rugged design built for outside plantiOLM-ready: intelligent and dynamic application that turns complex OTDR trace analysis into a one-touch taskAPPLICATIONSFTTx last-mile installation and troubleshooting Short access-network testing FTTA fiber-DAS installations CATV/HFC network testingMaxTester 715B last-mile OTDRFully featured, entry-level, dedicated OTDR with tablet-inspired design perfect for frontline singlemode fiber installers.POINT-TO-POINT (P2P) LINKS, LAST-MILE INSTALLATION AND TROUBLESHOOTINGCOMPLEMENTARY PRODUCTS AND OPTIONSFiber inspector scope FIP-400B (WiFi or USB)Data post-processing software FastReporter Soft pulse suppressor bag SPSBTHE HANDHELD OTDR. . . REINVENTED.The MaxTester 700B/C Series is the first tablet-inspired OTDR line that is handy, lightweight and rugged enough for any outside plant environment. With a 7-inch, outdoor-enhanced touchscreen–the most efficient handheld display in the industry–it delivers an unprecedented user experience. Its intuitive Windows-like GUI ensures a fast learning curve. Plus, its new and improved OTDR 2 environment offers icon-based functions, instant boot-up, automatic macrobend finders as well as improved auto and real-time modes.The MaxTester 700B/C Series is a line of genuine high-performance OTDRs from the world’s leading manufacturer. It delivers EXFO’s tried and true OTDR quality and accuracy along with the best optical performance for right-first-time results, every time. The amazing 12-hour battery life will never let a technician down, and the plug-and-play hardware options, like the VFL, power meter and USB tools, make every technician’s job easier.Most importantly, the MaxTester 700B/C Series is finally bringing the intelligent Optical Link Mapper (iOLM), an intelligent OTDR-based application, to the handheld market. This advanced software turns even the most complex trace analysis into a simple, one-touch task.Ultimately, the MaxTester 700B/C Series is small enough to fit in your hand and big enough to fit all your needs!THE ENTRY-LEVEL SOLUTION DESIGNED FOR ALL YOUR TESTING NEEDSThe MaxTester 715B OTDR/iOLM is optimized for the point-to-point testing and troubleshooting of FTTx architectures, and is ideal for testing short fibers (e.g., inside a CO environment or at FTTA/DAS network installations).Other models available:•MaxTester 720C LAN/WAN access OTDR—optimized for multimode and singlemode access network installation and maintenance •MaxTester 730C PON/Metro OTDR—optimized for FTTx/MDU and short metro fiber deployments and troubleshootingSECURE YOUR INVESTMENT AGAINST THEFTProtected instruments have no value on the black market making them completely unappealing to thieves.With our security management option, administrators can define and load a tamper-proof security profileon the MaxTester, displaying a property message on the home screen and securing it with a user password(permanent or renewable).LOOKING FOR ICON-BASED MAPPING?Linear view (included on all EXFO OTDRs)Available on our OTDRs since 2006, linear view simplifies interpretation of an OTDR trace by displaying icons in a linear way for each wavelength. This view converts the graph data points obtained from a traditional single pulse trace into reflective or non-reflective icons. With applied pass/fail thresholds, it becomes easier to pinpoint faults on your link.This improved linear view offers you the flexibility to display both theOTDR graph and its linear view without having to perform a toggleto analyze your fiber link.Although this linear view simplifies OTDR interpretation of a singlepulse-width trace, the user must still set the OTDR parameters.In addition, multiple traces must often be performed in order tofully characterize the fiber links. See the section below to learnabout how the iOLM can perform this automatically and with moreaccurate results.OTDR testing comes withits load of challenges...In response to these challenges, EXFO developed a better way to test fiber optics:application designed to simplify OTDR testing by eliminating the need to configure parameters, and/or analyze and interpret multiple complex OTDR traces. Its advanced algorithms dynamically define the testing parameters, as well as the number of acquisitions that best fit the network under test. By correlating multipulse widths on multiple wavelengths, the iOLM locates and identifiesIn addition to the standard iOLM feature set, you can select added-value features as part of the Order a unit with the iOLM application onlyCOMBORun both iOLM and OTDR applications (Oi code)Add the iOLM software option to your iOLM-ready unit, even while in the fieldGET THE BEST OUT OF YOUR DATA POST-PROCESSING— ONE SOFTWARE DOES IT ALLThis powerful reporting software is the perfect complement to your OTDR, and can be used to create and customize reports to fully address your needs.you can benefit from TestFlow.OPTICAL PLUG-AND-PLAY OPTIONSThe MaxTester features plug-and-play optical options that can be purchased whenever you need them: at the time of your order or later on. In either case, installation is a snap, and can be performed by the user without the need for any software update. Optical power meterA high-level power meter (GeX) that can measure up to 27 dBm, the highest in the industry. This is essential for hybrid fiber-coaxial (HFC) networks or high-power signals. If used with an auto-lambda/auto-switching compatible light source, the power meter automatically synchronizes on the same wavelength, thus avoiding any risk of mismatched measurement.•Extensive range of connectors•Auto-lambda and auto-switching•Offers measurement storage and reporting•Seven standard calibrated wavelengthsVisual fault locator (VFL)The plug-and-play VFL easily identifies breaks, bends, faulty connectors and splices, in addition to other causes of signal loss. This basic, yet essential troubleshooting tool should be part of every field technician’s toolbox. The VFL visually locates and detects faults over distances of up to 5 km by creating a bright-red glow at the exact location of the fault on singlemode or multimode fibers (available with the Optical Power Meter only).FIBER CONNECTOR INSPECTION AND CERTIFICATION–THE ESSENTIAL FIRST STEP BEFORE ANY OTDR TESTING Taking the time to properly inspect a fiber-optic connector using an EXFO fiber inspection scope can prevent a host of issues from arising further down the line, thus saving you time, money and trouble. Moreover, using a fully automated solution with autofocus capabilities will turn this critical inspection phase into a fast and hassle-free one-step process.Did you know that the connector of your OTDR/iOLM is also critical?The presence of a dirty connector at an OTDR port or launch cable can negatively impact your test results, and even cause permanent damage during mating. Therefore, it is critical to regularly inspect these connectors to ensure that they are free of any contamination. Making inspection the first step of your OTDR best practices willmaximize the performances of your OTDR and your efficiency.PACKAGED FOR EFFICIENCY1Singlemode OTDR port 6Visual fault locator11Power on/off/stand by 2In-service testing OTDR port 710/100 Mbit/s Ethernet port 12Battery LED status 3Testing LED indicator 8Two USB 2.0 ports 13Built-in WiFi/Bluetooth 4Stylus 9AC adapter14Stand support5Power meter10Home/switch application andscreen capture (hold)4567891011121314SPECIFICATIONS aa. All specifications valid at 23 °C ± 2 °C with an FC/APC connector, unless otherwise specified.b. Typical.c. Typical dynamic range with longest pulse and three-minute averaging at SNR = 1.d. Typical, for reflectance from –35 dB to –55 dB, using a 5-ns pulse.e. Typical, for reflectance at –55 dB, using a 5-ns pulse. Attenuation dead zone at 1310 nm is 5 m typical with reflectance below –45 dB.f. Does not include uncertainty due to fiber index.a. Please refer to the iOLM specification sheet for the complete and most recent description of these value packs. Only available if iOLM or Oi base software option is selected.b. Only available if power meter option is selected. Additional connector adapters available: contact EXFO。

Honeywell’s Spyder™ Model 7 VAV controller is a programmable room controller with integrated actuator and air flow sensor.As a freely programmable VAV controller with universal inputs and outputs, Spyd er™ Mod el 7 has configuration flexibility to achieve a variety of specific applications. Smart engineering and commissioning tools with Niagara WEBs-N4 workbench and a mobile application for test and balance make installation cost-effective.Spyder™ Model 7 offers BACnet IP or BACnet MSTP, Sylk™ bus technology, Modbus RTU RS-485, flexible universal input / output (UIO) points and solid-state relays.COMMUNICATION• Supports BACnet IP or BACnet MSTP bus for communication.• BTL-listed, IP VAV: B-BC profile and MSTP VAV: B-AAC profile (BTL certification in process).• BACnet IP enables faster download, thereby reducing commissioning time, and increased databandwidth for increased data sharing compared to traditional BACnet MSTP communication.• BACnet IP variants supports:• IPv4 addressing • DHCP and Link Local addressing modes• Connection speed: 10/100 Mbps • Modbus client for integration purposes.• Automatic addressing functionality.• Sylk™ bus two-wire polarity-insensitive interface connects to Honeywell Sylk™ wall modules without using physical I/O points.• Integrated BLE (Bluetooth)ALL-IN-ONE• Freely programmable in WEBs-N4.• Compact design for small enclosures and easy to install on round ducts.• Color-coded, removable terminal blocks to simplify wiring and replacement.• Real-time clock, a supercapacitor for 24-hour data retention.• 24 VAC power supply.• 20 VDC at 75 mA auxiliary supply for field devices.• Seven universal inputs/outputs usable as analog voltage/current output or as a universal/binary input.• All UI can be used for pulse input. Maximum frequency 100 Hz, Minimum duty cycle (50 % / 50 %) 5 ms ON / 5 ms OFF.• Five 24 VAC solid state relay outputs with 1.5 A continuous and 3.5 A in-rush for 100 ms per SSR output.• Features a non-isolated RS-485interface for Modbus communication.ACTUATOR• Integrated 44 in-lbs (5 Nm) actuator with 90 sec runtime at 60 Hz (108 sec at 50 Hz) with position feedback.PRESSURE SENSOR• Field replaceable differential pressure sensor (± 500 Pa; accuracy +/- 3 % of full range).MOBILE APPLICATIONMobile app for VAV balancing with easy access to the controller viaBluetooth integrated in the controller.• Easy pairing without the need to open the ceiling.• Supports Android and iOS.• Language support: English,French, Spanish, German, Italian.• Wireless signal strength indication.• Password protection• Supports different types of balancing (min/max, set-point).• Command individual / group of VAV, e.g. open a group of VAV dampers.• Provides a report on balancing activities.FEATURES AND HIGHLIGHTSSpyder™ Model 7VAV CONTROLLERWEB- V MODBUSVAVINTEGRATED ACTUATORBRAND IDENTIFIERA 75 IB 24 NMUNIVERSAL INPUTS DIGITAL OUTPUTS(SSR)NOT USEDPOWER SUPPLY BLE (Bluetooth) IP/MSTPCONTROLLER PART NUMBERS DESCRIPTIONSDPPF500PA Air flow sensor replacementANT-REMUse the remote antenna if the antenna mounted on the controller does not provide reliable communication due to environmental conditions. The packet contains four antennas.PART NUMBER WEB-VA75IB24NM PART NUMBERSMOBILE APPFIELD-REPLACEABLE IP MODEL MS/TP MODELTOP VIEWSIDE VIEWBOTTOM VIEWFIELD-REPLACEABLE AIRFLOW SENSORRS-485 MODBUSRTU 7 UNIVERSAL INPUTS / OUTPUTS((HARDWARE OVERVIEWDIMENSIONSAll dimensions shown are in ”(mm).SYSTEM OVERVIEW - MSTPSYSTEM OVERVIEW - IPPRODUCT SPECIFICATIONBy using this Honeywell literature, you agree that Honeywell will have no liability for any damages arising out of your use or modification to, the literature. You will defend and indemnify Honeywell, its affiliates and subsidiaries, from and against any liability, cost, or damages, including attorneys’ fees, arising out of, or resulting from, any modification to the literature by you.@U.S. Registered Trademark© 2022 Honeywell International Inc.Honeywell Building Technologies715 Peachtree St NE Atlanta, Georgia STANDARDS AND APPROVALS• CE• BACnet BTL ®-Listed; IP VAV model as BACnet Building Controller (B-BC) and MSTP VAV model as BACnet Advanced Application Controller (B-AAC); (BTL certification in process)• UL916, Energy Management Equipment • FCC Part 15, Class A • EN 55022. Class A • EN 61000-3-2, 61000•UL2043Spyder Model 7 VAV Installation Instructions31-00475Spyder Model 7 VAV Mounting Instructions 31-00473Spyder Model 5 and Spyder Model 7 System Engineering Guide31-00282Spyder Model 5 and Spyder Model 7 Function Blocks User Guide31-00364Honeywell VAV Balancing Tools User Guide 31-00472CONFORMANCE STATEMENTFCC NOTICEThis device complies with part 15 of the FCC rules. Operation is subject to the following two conditions:• This device may not cause harmful interference.• This device must accept any interference received, including interference that may cause undesired operation.APPLICABLE TECHNICAL。

常用altiumdesigner（AD）的快捷键及对应中文菜单展开全文方格与格点的切换:View-Grids-ToggleVisible Grid Kind原点：Edit-Origin-Set边界的定义：Keep Out Layer-Utility Tools-Place Line 按TAB 可定义线宽选取元件：PCB-PCB Filter-IS Component逐个放置元件：TOOLS-Component Placement-RepositionSelected Components自动布局：ToolS-Component Placement--Arrange Within Room自动布局器：ToolS-Component Placement--Auto Placer元件排列：选中元件右键Align- 或Alignment Tools--元件在层之间的快速切换：拖动元件的过程按L键让焊盘放在格点上：选中元件，右键-Component Actions-Move ComponentOrigin To Grid移动元件的远近："G"键选择mil刷新屏幕： END改走线模式：shift+空格键（“45°线性”“45°+圆角”“90°”“任意角”“90°+圆弧”“圆弧”）遇障碍物：右键-Options-Preferences-...推挤：Shift+R布线快捷菜单：“~ ”键线宽设置：“Shift+W”过孔修改规则:Design-Rules-HoleSize;板边5mm圆弧:Place-KeepOut-Arc切换英美单位制度：Ctrl+Q保护元器件位置：锁定双击-Lock打钩保护已锁定物体：Tools-Preference-PCB Editer-General-ProtectLocked Objects 打勾；显示布线快捷菜单：键盘左上角快捷键“~ ”层间切换："+""-"字体（条形码）放置："A"-Place String；对板的定义：Designers-Board Shape-R/D；尺寸标注：Place Dimension-Place Linear Dimension工具栏恢复原始状态:在工具栏处右键CustomizingPCB Editor-Toolbar-Restore；填充：Place Fill；复制粘贴：选中-Edit-Rubber Stamp-单击粘贴特殊形状：选中-Edit-Paste Special选择一组Select：“S键”-Touching Liner线/Rectangle矩形或Shift 一个个选移动Move:"M"整体移动：选中-右键-Unions-Create Union fromselected object/break解脱从联合体弱小信号线包地：选中-“s”select net,Tool-Outline-Selected Objects查找相似物体：右键-Find SimilarObject测距离：Report-Measure Distance自动布线:Auto Route:Net/NetClass/Connection/Area/Room 查看布线层：Shift+F或“*”切换层切断线：Edit-Slice Tracks布完线进行规则检查：Tools-Design Rule Check-Run D_R_C_3D视图：数字键“3”或View-Switch to3D,Shift+右键旋转；铺铜：Place-Polyon Pour去死铜：双击铜区，Remove Deader Copper 打勾原理图和PCB的双向同步更新：检测PCB与原理图的不同处：Project-Show Differences在原理图里更改后更新到PCB:Design-Update PCB Document in在PCB里更改后更新到原理图:Design-UpdateSchematics in 标号Designator显示：PCB FilterISDesignator 然后PCB Inspector Hide重新标注：Tool- Re Annotate元器件标号自动排列：选中器件-右键-Align-Position Component Text补泪滴：Tool-T eardrops，焊盘与导线连接更牢固生成生产制造文件：File-Fabrication Outputs生成PDF文件：File-Smart PDF翻板：View-Flip Board打开层对话框：L打开选择：S跳转：J英寸和毫米切换：Q翻转元器件：空格改变线宽，孔径：选中导线或过孔,同时按下Tab键选中目标：shift+单击PCB换层并自动添加过孔：小键盘上的“*”系统设置：DXP->preferences其中General--Use localized resources中文其中Backup ：设置备份时间树形图标：home快捷键：右下角help-shortcuts默认布局：View-Desktop layouts--Default窗口缩回的速度：DXP->preferences->system->view--Hidedelay打开不同面板：右下角System等等切换不同窗口：ctrl+tab放大和缩小：ctrl+鼠标中键滚轴修改右下方的边框(title，日期)格式：DeSign-T emplate-Set Template File Name...A4走线自动延长： Drag---ctrl+鼠标拖动复制目标：选择目标，按住shift拖动自动添加元件编号：Tools->Annotate SchematicsPreferences-->Schematic-->Graphical Editing Convert Special Strings 转换特殊字符串如何全局修改例如：单击电容C1选中，鼠标右键选择Find Similar Objects (Select Matching 选中，二步骤可以跳过(1) Part Comment ---same Current Footprint ---same ,点击OK按钮(2) Select ALL(3) SCH Inspector 窗口修改 FootprintTools-->FootPrint Manager分层设计(1)一种水平设置，N个分图，net设置全局(project-->project options-->Identifier Scope..Gloal) 不推荐(2)一种垂直设置，一个总图(Sheet Entry),N个分图(PORT) 连接只能Sheet Entry 到PORT第二种方法：(1)Place sheet Symbol(方框) 和sheet Entry(放在方框边界内侧)(2)选择sheet Symbol，右键选择"Sheetsymbol actions"--creatsheet from symbol原理图库(1) File-->New-->Library-->sch..(2) 右边下方SCH打开SCH Library窗口(3) Place->RecTangle,注意放在原点(4) Library Components PropertiesDesignator U?Comment max232Symbol Refernece max234(5) 可将一个元件库分为两个Part,例如parta,partb(通过T ools-->new part)特殊用途：选择该元件，按F1打开该元件的pdf文档Library Components Properties-->Parameters for Component -->Add..Name: HelpURL Value: C:\zy\abc.pdf#page=5PCB库(1) File-->New-->Library-->pcb..(2) 右边下方PCB打开pcb Library 窗口集成库(1) File-->New-->Project-->Interger Library(2) 新建sch.lib和pcb.lib, 在sch.lib中选择Tools-->Model Manage....(3) Project-->Compile Integrated Library盲孔（BIINDVIA）：从印制板内仅延展到一个表层的导通孔。

Package‘na.tools’October13,2022Title Comprehensive Library for Working with Missing(NA)Values in VectorsVersion0.3.1Date2018-06-25Description This comprehensive toolkit provide a consistent andextensible framework for working with missing values in vectors.Thecompanion package'tidyimpute'provides similar functionality for list-like and table-like structures).Functions exist for detection,removal,replacement,imputation,recollection,etc.of'NAs'.URL https:///decisionpatterns/na.toolsBugReports https:///decisionpatterns/na.tools/issues Depends R(>=3.1.0)Imports stats,methodsSuggests testthat(>=1.0.2)License GPL-3|file LICENSELazyData trueRoxygenNote6.0.1.9000Repository CRANEncoding UTF-8NeedsCompilation noAuthor Christopher Brown[aut,cre],Decision Patterns[cph]Maintainer Christopher Brown<********************************> Date/Publication2018-06-2520:02:57UTC12all_na R topics documented:all_na (2)coerce_safe (3)impute-commutative (5)impute-constant (6)impute-noncommutative (8)na.bootstrap (9)na.replace (10)na.rm (11)na.unreplace (12)NA_explicit_ (13)NA_logical (14)n_na (14)Index16 all_na Tests for missing valuesDescriptionTest if all values are missingUsageall_na(x)##Default S3method:all_na(x)any_na(x)is_na()which_na(x)Argumentsx object to test.DetailsThese are S3Generics that provide default methods.all_na reports if all values are missing.any_na reports if any values are missing.If always returns a logical scalar.is_na is a wrapper around base::is.na()created to keep stylistic consistenct with the other functions.which_na is implemented as which(is.na(x)).It is a S3generic function.Valuelogical scalar indicating if values are missing.logical scalar;either TRUE or FALSE.integer of indexes of x that corerspond to elements of x that are missing(NA).Names of the result are set to the names of x.See Also•base::anyNA()•base::is.na()-for the variant returning logicalExamplesall_na(c(NA,NA,1))#FALSEall_na(c(NA,NA,NA))#TRUEdf<-data.frame(char=rep(NA_character_,3),nums=1:3)all_na(df)#FALSEdf<-data.frame(char=rep(NA_character_,3),nums=rep(NA_real_,3))all_na(df)#TRUEany_na(1:10)#FALSEany_na(c(1,NA,3))#TRUEx<-c(1,NA,NA,4:6)which_na(x)names(x)<-letters[1:6]which_na(x)coerce_safe coerce_safeDescriptionCoerce values in a safe,non-destructive and consistent way.Usagecoerce_safe(object,class,alert=stop,...,alert_irreversible=alert,alert_na=alert)Argumentsobject to be coercedclass character;class to which object should be coerced.alert function to use to raise exceptions:(Default:base::stop())...unusedalert_irreversiblefunction to raise alert when coercion is not reversible.See Details.alert_na function to raise when NAs are produced.coerce_safe transform the object to class in a safe,consistent,non-destructiveway.Safe means that coercison:1.is non-destructive(i.e information is not lost in the transformation)2.is reversible:f−1(f(x))==x3.does not introduce(additional)missing values(NA)By default,corece_safe raises an alert(message|warning|error)when the at-tempted coercion violates these constraints.The alert argument(and alert_irreversibleor alert_na)can be used tofleixble change the response.Valid values for theseare base::message(),base::warning()and base::stop among others.Valueobject coerced to class but ensured that there has been no loss in data and no additional Missonvevalues introduced.NoteThere must be a as method to the reverse coercion for this function to work.See Alsomethods::as‘coercion::try_as()“Examples##Not run:#Errorcoerce_safe(1.01,"integer")#1.01!=1coerce_safe(c("1","2","a"),"integer")##End(Not run)impute-commutative5impute-commutative Imputation by Cummutative Functions Impute using replacement val-ues calculated from a univariate,cummuative function.DescriptionImputation by Cummutative FunctionsImpute using replacement values calculated from a univariate,cummuative function.na.median imputes with the median value of x.The median is only valid for numeric or logical values.Usagena.max(.x,...)na.min(.x,...)na.mean(.x,...)na.median(.x,...)na.quantile(.x,...)na.mode(.x,...)na.most_freq(.x,...)Arguments.x vector in which NA values are to be replaced.The ordering of x does not matter....additional arguments passed to lower-level summary functions.DetailsThis collection of functions calculates a replacement value using an unvariate function where the order of values in x do not matter,mutative.na.max and na.min replace missing values(NA)with the maximum or minimum of non-missing values x.(Internally:base::max(...,na.rm=TRUE)and base::min(...,na.rm=TRUE)....has no affect.na.mean replaces NA values with the mean of x.Internally,mean(x,na.rm=TRUE,...)is used.If mean cannot be calculated(e.g.x isn’t numeric)then x is returned with a warning.na.quantile imputes with a quantile.The quantile is specified by a probs argument that is passed to stats::quantile().If probs can be a scalar value in which all values are replaced by that quantile or a vector of length(.x)values which replaces the missing values of x with the probs.The ability to provide a vector may be deprecated in the future.na.mode replaces all NA with the most frequently occuring value.In the event of ties,the value encounterfirst in.x is used.na.most_freq is an alias for na.mode.ValueA vector of class(x)and length(x)in which missing values(NA)have been replaced the resultof a function call:fun(x,...)See Also•na.replace()-used internally by these functions•na.constant()•base::max()and base::min()median()•quantile()Examplesna.median(c(1,2,NA_real_,3))na.quantile(c(1,2,NA_real_,3),prob=0.4)na.mode(c(1,1,NA,4))na.mode(c(1,1,4,4,NA))impute-constant Impute by Constant Value Replaces NA s by a constantDescriptionImpute by Constant ValueReplaces NA s by a constantUsagena.constant(.x,.na)na.inf(.x)na.neginf(.x)na.true(.x)na.false(.x)na.zero(.x)Arguments.x vector;of values to have the NA.na scalar to use as replacement.DetailsThese functions replace ALL NA values in x with an scalar value specified by.na.na.constant replaces missing values with a scalar constant.It is a wrapper around na.replace() but permits.na to only be a scalar.na.inf and na.neginf replace all missing values with Inf and-Inf repectively.‘.na.true and na.false replace missing values with TRUE and FALSE respectively.na.zero replaces missing values with0which gets coerced to the class(x)as needed.ValueA vector with the type and length of x with all missing values replaces by.na.See Also•na.replace()the underlying function that performs the replacement.Examplesna.constant(c(1,NA,2),-1)na.inf(c(1,2,NA,4))na.neginf(c(1,2,NA,4))na.true(c(TRUE,NA_logical,FALSE))#T T Fna.false(c(TRUE,NA_logical,FALSE))#T F Fna.zero(c(1,NA,3))#1038impute-noncommutativeimpute-noncommutative non-commutative imputation Impute missing values using non-commutative functions,i.e.where the order matters.Descriptionnon-commutative imputationImpute missing values using non-commutative functions,i.e.where the order matters.Usagena.cummax(.x,...)na.cummin(.x,...)na.cumsum(.x,...)na.cumprod(.x,...)Arguments.x atomic-vector with0or more missing values...additional argumentsDetailsNon-commutative imputations functions assume that.x is in the proper order since the values depend on ually,this is relevant then.x is part of a table.These functions replaces NA values with the cummulative max of.x.Internally,fun(.x,na.rm=TRUE, ...)is used.If the function cannot be calculated(e.g..x isn’t numeric)then x is returned un-changed with a warning.Use of na.cumsum and na.cumprod are dangerous since they omit missing values that may con-tribute toSee Also•base::cummax()•impute-commutativena.bootstrap9 na.bootstrap na.bootstrapDescriptionReplace missing values with value randomly drawn from xUsagena.bootstrap(.x,...)na.resample(.x,...)Arguments.x vector with...additional arguments passed to base::sample()Detailsna.random replaces missing values by sampling the non-missing values.By default aampling oc-curs with replacement since more valuables may be needed than are available.This function is based on base::sample().The default is to replace bv sampling a population defined by the non-missing values of.x with replacementna.random is an alias for na.bootstrap.‘Notena.bootstrap is e base::set.seed()to make it deterministicSee Also•base::sample()Examplesx<-c(1,NA,3)na.bootstrap(x)10na.replacena.replace Replace Missing ValuesDescriptionReplaces NA values with explicit values.Usagena.replace(x,.na,...)na.explicit(x)Argumentsx vector in which NA values are to be replaced..na scalar,length(x)-vector or function used to replace NA.See#Details....additional arguments passed to.na when it is a function.Detailsna.replace replaces missing values in x by.na if possible.In R,replacement of values can cause a change in the class/type of an object.This is not oftendesired.na.replace is class/type-safe and length-safe.It replaces missing values without changingthe x’s class or length regardless of the value provided by.na.Param:xIf x is categorical(e.g.character or factor),.na is optional.The default is"(NA)"and can be setwith options(NA_explicit_=new_value).It can also be referenced directly with NA_explicit_.If x is a factor,unique values of.na not in already present in levels(x)will be added.Theyare appended silently unless getOption( verbose )==TRUE in which a message reports the addedlevels.Param:.na.na can be either a scalar,vector or function.If a scalar,each missing value of x is replaced by na.If a vector,.na must have length(x).Missing values of x are replaced by corresponding elementsof.na.Recycling values of.na is not allowed.An error will be thrown in the event that length(.na)is not1or length(x).If a function,x is transformed by.na‘with:.na(x,...)then preceding with normal operations.na.explicit is an alias for na.replace that uses NA_explicit_for‘.na“;it returns x unchanged if itcannot change the value.na.rm11ValueA vector with the class and length of x.NA s in x will be replaced by.na..na is coerced as necessary. See Also•base::ifelse(),base::replace()•forcats::fct_explicit_na-which only handles factorsExamples#Integers and numericsna.replace(c(1,NA,3,NA),2)#1232na.replace(c(1,NA,3,NA),1:4)#1234#This produces an error because it would change the type##Not run:na.replace(c(1,NA,3,NA),letters[1:4])#"1""b""3""d"##End(Not run)#Characterslets<-letters[1:5]lets[c(2,4)]<-NAna.replace(lets)#replace with NA_explicit_#Factorsfct<-as.factor(c(NA,letters[2:4],NA))fctna.replace(fct,"z")#z b c d z--level z addedna.replace(fct,letters[1:5])na.replace(fct)##Not run:na.replace(rep(NA,3),rep(NA,3))##End(Not run)na.rm na.rmDescriptionRemoves NA values from objectsUsagena.rm(object,...)12na.unreplaceArgumentsobject to remove NA s from...further arguments special methods could require.DetailsFor vectors this is the same as stats::na.omit()or stats::na.exclude().It will also work on recursive objects.This is predominantly maintained for syntactic convenience since a number of functions have na.omirValueAn object of the same class with all NA values removed.For data.frame and data.table objects entire columns are removed if they contain solely NA values.See Also•stats::na.omit(),stats::na.exclude()•all_na()na.unreplace na.unreplaceDescriptionChange values to NAs,ie make explicit NAs back to NAUsagena.unreplace(x,values)##Default S3method:na.unreplace(x,values=NULL)##S3method for class characterna.unreplace(x,values=c("NA",NA_explicit_))##S3method for class factorna.unreplace(x,values=c("NA",NA_explicit_))na.implicit(x,values)Argumentsx objectvalues values that are(or can be coerced to)class(x)that are to be set to NA.NA_explicit_13Detailsna.unreplace replaces values by NA.It is meant to be nearly inverse operation to na_replace (and na_explicit).It can be used on both atomic and recursive objects.Unlike na.replace however,values express the values that if matched are set to NA.It is basically:x[xna.unreplace is a S3method that can be used to defince additional methods for other objects. See Also•na.replace()Examplesna.unreplace(c(1,2,3,4),3)na.unreplace(c("A","(NA)","B","C"))na.unreplace(c("A",NA_explicit_,"B","C"))df<-data.frame(char=c( A , NA , C ,NA_explicit_),num=1:4)na.unreplace(df)NA_explicit_NA_explicit_DescriptionDefault replacement for missing values in categorical vectors.UsageNA_explicit_FormatAn object of class character of length1.DetailsNA_explicit_is used as a default replacement for categorical vectors.It is an active binding to getOptions( NA_explicit_ )and is exported to the callers namespace.To change the value of NA_explicit use:options(NA_explicit=new_value)NA_explicit_cannot be directly set.14n_naSee Alsona.replace()NA_logical NA_logicalDescriptionNA_logicalUsageNA_logicalFormatAn object of class logical of length1.DetailsThis simply creates a NA_logical variable.This is the same as NAn_na Counts how many values are NADescriptionReturns the number of values that are NAUsagen_na(x)na.howmany(x)na.n(x)pct_na(x)na.pct(x)Argumentsx object to count how many values are NAn_na15Detailsn_na counts the number of missing values.na.n is an alias in the dplyr style.pct_na gives the percentage of values that are NAValuen_na returns an integer.pct_na returns a numeric value0-1.Examplesx<-c(1,NA,NA,4:5)n_na(x)pct_na(x)Index∗datasetsNA_explicit_,13NA_logical,14all_na,2all_na(),12any_na(all_na),2base::anyNA(),3base::cummax(),8base::ifelse(),11base::is.na(),2,3base::max(),6base::message(),4base::min(),6base::replace(),11base::sample(),9base::set.seed(),9base::stop,4base::stop(),4base::warning(),4coerce_safe,3impute-commutative,5,8impute-constant,6impute-noncommutative,8is_na(all_na),2median(),6methods::as,4n_na,14na.bootstrap,9na.constant(impute-constant),6 na.constant(),6na.cummax(impute-noncommutative),8 na.cummin(impute-noncommutative),8 na.cumprod(impute-noncommutative),8 na.cumsum(impute-noncommutative),8 na.explicit(na.replace),10na.false(impute-constant),6na.howmany(n_na),14na.implicit(na.unreplace),12na.inf(impute-constant),6na.max(impute-commutative),5na.mean(impute-commutative),5na.median(impute-commutative),5na.min(impute-commutative),5na.mode(impute-commutative),5na.most_freq(impute-commutative),5na.n(n_na),14na.neginf(impute-constant),6na.pct(n_na),14na.quantile(impute-commutative),5na.replace,10na.replace(),6,7,13,14na.resample(na.bootstrap),9na.rm,11na.true(impute-constant),6na.unreplace,12na.zero(impute-constant),6NA_explicit_,10,13NA_logical,14pct_na(n_na),14quantile(),6stats::na.exclude(),12stats::na.omit(),12stats::quantile(),5which_na(all_na),216。