8-OpenWorks migration and cleanup QC for R5000

IMPORTANT SAFETY INFORMATION: READ AND FOLLOW ALL INSTRUCTIONSSave these instructions. Leave manual with homeowner after installation.Improper installation, adjustment, alteration, service, or lack of maintenance can cause injury or property damage. Readthe installation, operating, & maintenance instructions thoroughly before installing or servicing this equipment.FIRE FEATURE “DIY” KITSINSTALLATION INSTRUCTIONS - AUTO IGNITIONSAVE THESE INSTRUCTIONS FOR FUTURE REFERENCE®Scan with your phone for Step by Stepinstructions, or visit /tech2Do not store or use gasoline or flammable vapors and liquids in vicinity of this appliance.Do not install this appliance near any combustibles. A Liquid Propane cylinder not connected for use shall not be stored in the vicinity of this or any other appliance.RISK OF SHOCK OR ELECTROCUTION. Hazardous voltage can shock, burn and cause death or serious property damage.Installation must be performed by a licensed professional. Improper installation, adjustment, alteration, service or maintenance can cause injury or property damage. Installer must follow all local codes as well as National Fuel Gas Code, ANSI Z223.1.This product must be installed by a licensed or certified electrician or a qualified pool professional in accordance with the National Electric Code (NEC) or Canadian Electric Code (CEC), CSA C22.1.Turn off power to controls before installation/service. Failure to comply will either damage or destroy the product and will void the warrantyTo reduce the risk of injury, do not permit children to use this product.If you smell gas, shut off the gas to the appliance and extinguish any open flame. If the odor lingers keep away from appliance and immediately call gas supplier or fire department. Do not leave any flame unsupervised.Gas pressure should not exceed 1/2 psiCarbon Monoxide Hazard: This appliance can produce carbon monoxide which as no odor. Using it in anenclosed space can cause serious injury or death. Never use this appliance in an enclosed space such asa camper, tent, car or home..HOT! DO NOT TOUCH. SEVERE BURNS MAY RESULT. CLOTHING IGNITION MAY RESULT.Glass and other surfaces are hot during operation and cool-down. CAREFULLY SUPERVISE children near this appliance. Alert children and adults to hazards of high temperatures.IMPORTANT WARNINGS & SAFETY INSTRUCTIONSREAD AND FOLLOW ALL INSTRUCTIONSSAVE THESE INSTRUCTIONSADHERE TO ALL LOCAL CODES CONCERNING INSTALLATION AND OPERATION.• For outdoor use only.• Product is not intended to be a starter for wood or any other combustibles. • Test for gas leaks prior to use.• Verify correct gas fuel type. Never use an alternative fuel, including bio-fuel, ethanol, lighter fluid or any other fuel.• Installation must be performed by licensed gas piping professional.• When pit is not in use for an extended period, turn off gas to prevent unwanted start-up.• The use of a cover when not in operation is recommended.• Verify gas shut off is located outside of the fire enclosure. The gas shutoff should NOT be used to adjust flame height.•An approved gas valve or keyed valve shall be installed upstream of the unit and located in an accessible area that is within 5ft from the unit.Do not modify units from factory configuration. Doing so will void the warranty.Manufacturer is not responsible for damage due to improper installation.NOTICE3B. SYSTEM REQUIREMENTSInstallation must be performed by a licensed contractor. Installer must follow all local codes as well as National Fuel Gas Code, ANSI Z223.1. We suggest that our products be serviced annually by a professional certified in the US by the National Fireplace Institute (NFI) as NFI Gas Specialists or in Canada by WETT (Wood Energy Technical Training). Installer must follow all instructions carefully to ensure proper performance and safety.This Product is for outdoor use only.GAS REQUIREMENTSELECTRICAL REQUIREMENTS• Auto ignition requires minimum 24 VAC, 60W, 2.5A• The included transformer steps down from 120 VAC to 24VAC•Installer should check voltage after installation to ensure proper values41. LOCATIONDRAINAGE• Fire pans should have adequate drainage for rainwater. Select a location with adequate drainage. Install above gradeto prevent water retention.• Fire pans using propane should not have drains located at bottom of cavity. Drainage should be achieved with ventholes around the enclosure.ACCESS• Leave easy adequate access for installation and maintenance.• To safely turn off the burner, you must have clear and easy access to the ON / OFF valve AFTER the appliance isconnected to the gas supply.CLEARANCE• Recommended Clearances: Sides 4 ft / Top 10 ft: Combustibles/structures not to be closer than 4’ on the horizontal plane, 10’ overhead. (FIG 1).• No combustible structure should be above the fire feature.• Do not completely enclose. No more than two side structures should be around the fire feature.• Do not recess the fire feature below ground/floor level.• Natural stone such as granite or marble must be kept away from heat and flame. Contact and close proximity can result in cracking or explosion.• Install fire features out of the way of pedestrian traffic. Provide space to allow a safe distance from the heat and flame •Vent collars and drainage should never be obstructed.10ftOUTDOOR USE ONLYFLAMMABLE OR COMBUSTABLEITEMSFIGURE 1: A dequate Clearance2. SETUPENCLOSURE (FIG 2)• There is a 14” minimum enclosure depth requirement.• The pan should be recessed a minimum of one inch from the top of the enclosure. There should be a minimum 2" thickness on all sides of the enclosure.• Enclosure should be 0.25" larger than pan size on all sides—0.5" total. (Example: 24×24" fire pan enclosure should be 24.5×24.5")• Rectangular fire lines have a lip that can be used to support during installation. Round and square fire pans should be supported at the bottom of the pan. (FIG 3)• Fire pans should always be level when installed.• Conduit lines must be sealed to prevent gas intrusion or settling in conduit.VentHolesROUND/SQUARE FIRE PANFIGURE 3: FIRE LINE VS FIRE PANDRAINAGE• For natural gas only, a dedicated drain line can may be installed under the pan.• Fire pans using propane should not have drains located at bottom of cavity. Drainage should be achieved with vent56holes around the enclosure.VENTING• WARNING: All installations must have proper ventilation around and under the unit to allow possible accumulated gas to escape. Failure to do so may cause a dangerous build-up of gas and can explode.• Ventilation location must be such that any settled gas can escape.• The top of a column or pedestal on which fire feature is installed should be sealed around.• A minimum of two vents on opposing sides of the enclosure are required. See Table 1 for minimum vent requirements. Multiple vents evenly spaced totaling minimum requirement or more is also acceptable. Minimum air openings shall not be less than 3”.• One vent should be within 12 inches of the bottom of the enclosure and another within 12 inches from the top of the enclosure.•Vents should not be blocked from air circulation.VENT REQUIREMENT3. GAS LINE• To eliminate unnecessary pressure drop, ensure the pipe length and amount of elbows used is minimized.• Corrugated flex hoses are known to cause a whistling sound. A whistle-free hose is recommended for gas supply to the burner.• You must have clear and easy access to the ON / OFF valve AFTER the appliance is installed and connected to the gas supply in order to safely turn off the burner.• Openings from the gas/water line should be sealed, so that gas does not collect in these spaces.• For gas pressure and BTU requirements see charts on page 3.1. AUTO IGNITION COMPONENTS• All gas and electrical connections are on the box.• Transformer: 120VAC to 24VAC transformer is included.• Pilot Connections: Probes connect to the side of the box. There are two probes: one for thermocouple temp sensor and one igniter. There is a dedicated gas line pre-installed for the pilot flame.• Drain Port: Can be used in the case of water intrusion inside the valve. Should remain capped when not in use.• Other Items• Air mixer: Pre-installed with Liquid Propane units• Shut-off valve: Not included2. IMPORTANT INFORMATION FOR PROPANE UNITS• Air mixers required for Liquid Propane. For propane units, the correct air mixer should come pre-installed.• Do not attempt to move, adjust or remove the air mixer for LP units. Failure to do so could result in personal injury and damage to unit/property.• Vent collars for an air mixer intake on a propane system should not be obstructed.• Our units are NOT intended to be used with small portable LP tanks.73. GAS CONNECTIONa. Before beginning, ensure the gas line is turned OFF.b. Run 1/2” gas line to the bottom connection on the ignition boxc. Use pipe dope/joint compound on ALL threaded fittings EXCEPT flared fittings.d. Keep pipe length and elbows to a minimum to eliminate unnecessary pressure drops.e. The use of a corrugated gas line can cause unwanted noise.f. A regulator is integrated inside the valve box, a separate gas pressure regulator is not required.g. Confirm no more than 1/2 PSI. Verify all gas connections are tightened securely. ALWAYS perform leak tests and makerepairs as needed.h. DO NOT daisy chain the gas lines. (See Section D)i. A shut-off valve must be installed at each fire feature or valve. The primary gas valve must be located where they canbe easily accessible so that the gas can be shut off quickly in case of an emergency.a. Power Requirements1. Auto ignition requires minimum 24 VAC, 60W,2.5A.2. The included transformer steps down from 120 VAC to 24VAC.3. Installer should check voltage after installation to ensure proper values.4. Max length of wire from the transformer to system is up to 75ft with 16 Gauge wire.5. For distances over 75ft - 150ft use 14 Gauge wire.b. Connections (Fig 3)1. Run electrical cable through an approved conduit. Conduit should be sealed to prevent gas settling or intrusion.2. Connect 120V to the included or approved Class 2 transformer (T).3. There are two wire connections on the side of the auto igniter. Connect 24V power from the transformer usingwire nuts.4. Wrap wire nuts with electrical tape or use waterproof wire nuts to prevent moisture from getting in. Make surewire nuts are positioned away from the bottom of the burner assembly.5. Connect ground from incoming power. (If required by local codes)6. Do not “daisy chain” electrical lines. Power must connect individually to each transformer. (See Section D)89120V TALNTCLASS 2JTA TA 120VL NA24V/2.5/A24V/2.5/AA 120VL NT: TransformerJ: Junction A: Auto IgnitorFIGURE 3: WIRING DIAGRAM4. CHECK SYSTEMa. Perform all above listed safety checks before start up. Before operating smell all around the appliance area for gasodors and next to the floor because some gases are heavier than air and will settle on the floor.b. Ensure any person standing close to the fire feature is aware you will be turning the fire feature on prior to actuallyturning it on.c. Do not add glass or rock media to the pan until a system test is complete.d. Allow the unit to run for approximately five minutes then turn off.e. Allow to cool down for approximately three minutes before trying to re-start. As a safety feature, the thermocouplewill not allow the unit to re-fire until it has cooled down.D. OPERATION & MAINTENANCE1. GLASS OR ROCK FILL MEDIA• Use only approved fire glass or rock media on burners. Incorrect media can melt or explode leading to bodily injury or product damage.• Glass media max level: fill up to 1/4in above the burner height.• For glass or rock fill media, leave an airflow gap around the ventilation slots for the pilot light box.C. OPERATION & MAINTENANCE2. BURNER SETUP• Prior to turning appliance on visually inspect fire feature to ensure debris such as leaves or other combustiblematerial has not collected inside the feature. This could burn and emit embers once the fire feature is turned on.• Each burner should have a flame height of approximately 12” – 15” from the top of the pan.• Each burner should be adjusted as required so that the flame size at each burner is similar in appearance to eachother.• Install decorative rock or glass on top of the “burner support” and burner assembly. Do not completely cover/obstruct the burner.3. START UPa. WARNING: Perform all above listed safety checks before start up.b. Before operating, smell around the appliance area for gas odors and next to the floor because some gases areheavier then air and will settle on the floor.c. Ensure any person standing close to the fire feature is aware you will be turning the fire feature on prior to actuallyturning it on.d. Turn System on. The igniter will warm up for about five seconds before the pilot valve opens automatically.e. The igniter will be active for the initial 10 seconds of the 30-second pilot cycle. The system will attempt to light up to15 times before locking. If the system locks, reset by turning power OFF and then back ON.f. NOTE: Cold temperature start-up may take longer than usual to ignite with the thermocouple reaches operationaltemperature.g. The pilot flame will ignite. Once the thermocouple is hot the main valve will open and the main burner will ignite. Ifthe thermocouple does not warm up during the first sequence, the system will cycle and attempt to light again.h. If the pilot flame is extinguished at any time, the system will shut down. It will automatically attempt to restart againwith the ignition sequence.i. Once installed, the gas control valve should not be used to adjust the flame.FIGURE 5: START-UP SEQUENCE10C. OPERATION & MAINTENANCE4. MAINTENANCE & CARE• Periodically clean the burner assembly with a wet cloth or cleaning solution to remove carbon build-up.• Frequency of the cleaning will depend on usage.• Periodically inspect the underside of the burner assembly for any signs of excessive temperatures.• Check that all gas connections are tight.• The burner assembly should be covered and protected from snow and ice. The burner should not be operated in high wind conditions.• Visually inspect burner holes for debris/insect infestation.• Clean burners as necessary using compressed air.• USE THE SYSTEM! If the feature has been inactive for an extended period, turn fire feature on to ensure properoperation.• Inspect the gas line regularly. If the line shows evidence of excessive abrasion or wear or if the line is damaged, it must be replaced before use.• Inspect the burner before each use of the appliance. If there is any evidence that the burner is damaged, it mustreplaced before operating.• If any repairs are required, contact a licensed professional.111213COMMON ISSUES/MISTAKES• Check line connections - do not daisy chain gas or electrical connections. (see Section C)• Check gas pressure for natural gas and propane. (see Section B)• If using with propane gas - ONLY use with air mixer correctly installed. (See Fig 2) The ½ “ air mixer for propane includes stamped marking for gas flow direction. Air mixer is not required with natural gas. • Check electrical voltage and connections.• Check ground connections. (if required)• Upon completing the gas line connection, a small amount of air will be in the lines. When first lighting the burner, it will take a few minutes for the lines to purge themselves of this air. Subsequent lighting of the appliance should notrequire such purging.DO NOT DAISY CHAIN DO RUN INDIVIDUAL LINESFIGURE 6: DAISY CHAIN GUIDEHOW TO PERFORM A LEAK TESTa. Prepare a leak testing solution of soapy water by mixing in a spray bottle one part liquid soap to one part water.b. Make sure all the control knobs are in the OFF position.c. Turn on the gas.d.Apply the leak-testing solution by spraying it on joints of the gas delivery system. Blowing bubbles in the soap solution indicates that a leak is present.e. Stop a leak by tightening the loose joint or by replacing the faulty part with a replacement part recommended by themanufacturer.f. Turn the control knob back to the full OFF position.g. If you are unable to stop a leak: Please consult a gas specialist. Shut off the gas supply to the fire pit and releasepressure in the hose and manifold. Call/consult an authorized gas appliance service technician or a liquid propane gas dealer. DO NOT use the appliance until the leak is corrected.Perform a leak test at least once a year whether the gas supply has been disconnected or not. Whenever any part of the gas system is disconnected or replaced, perform a leak test. As a safety precaution, remember to always leak test your fire pit outdoors in a well-ventilated area. Never smoke or permit sources of ignition in the area while doing a leak test. Do not use a flame, such as a lighted match to test for leaks.NOTES 14SAVE THESE INSTRUCTIONS INSTALLER - LEAVE THESE INSTRUCTIONS WITH HOMEOWNER Record Information on this System Below & Keep for Your RecordsInstaller _______________________________________________________________System Purchased From ______________________________________________Installation Date _____________________________Serial Number _______________________________CMP, LLC36 HERRING ROAD, NEWNAN, GA 30265 ®0421sb REVC。

Dell OpenManage Deployment Toolkit Installation GuideNotes and CautionsNOTE: A NOTE indicates important information that helps you make better use of your computer.____________________Information in this publication is subject to change without notice.© 2012 Dell Inc. All rights reserved.Reproduction of these materials in any manner whatsoever without the written permission of Dell Inc. is strictly forbidden.Trademarks used in this text: Dell™ and OpenManage™, are trademarks of Dell Inc. Red Hat Enterprise Linux® and Enterprise Linux® are registered trademarks of Red Hat, Inc. in the United States and/or other countries. SUSE ™ is a trademark of Novell Inc. in the United States and other countries. Microsoft®, Windows®, Windows Vista® and Windows® 7 are either trademarks or registered trademarks of Microsoft Corporation in the United States and/or other countries. Linux®is a registered trademark of Linus Torvalds.Other trademarks and trade names may be used in this publication to refer to either the entities claiming the marks and names or their products. Dell Inc. disclaims any proprietary interest in trademarks and trade names other than its own.2012 – 02IntroductionThe Dell OpenManage Deployment Toolkit (DTK) includes a set of utilities, sample scripts, and sample configuration files that you need, to deploy and configure your Dell system. Y ou can use DTK to build script-based and RPM-based installation for deploying large number of systems on apre-operating system environment in a reliable way, without changing their current deployment processes.Documents You Will Need•Dell OpenManage Deployment T oolkit Command Line Interface Reference Guide•Dell OpenManage Deployment T oolkit User’s Guide•Operating system documentationFor a complete list of supported operating systems, BIOS firmware, and hardware, see the Dell Systems Software Support Matrix available at /manuals→Software→Systems Management→Dell OpenManage Releases. Click the appropriate product version to access the Support Matrix.PrerequisitesBefore using DTK to deploy Microsoft Windows Pre-installation Environment (PE) or embedded Linux environment (Red Hat Enterprise Linux or SUSE Linux Enterprise Server), ensure you have the following prerequisites:Table 1-1.Prerequisites for InstallationWindows PE Environment Embedded Linux EnvironmentThe DTK self-extracting zip file (DTKX.X-WINPE-XX.exe) available at .The DTK ISO image available at .A Windows workstation that has at least 512 MB of RAM.A workstation that has at least 512 MB of RAM.Quick Installation Guide3Deployment OverviewDTK offers a complete set of utilities, sample scripts, and RPM packages that can be used to automate the deployment of Dell systems.Before running the deployment, ensure that you create specific deployment media to facilitate the deployment method you choose. For more information, see the Dell OpenManage Deployment T oolkit User’s Guide available on /manuals→Software→Systems Management→Dell OpenManage Deployment Toolkit.Deployment PrerequisitesBefore beginning the deployment process for Windows PE, ensure that you have all of the following tools, software, and information ready to use or consult:•Windows Automated Installation Kit (AIK) 1.1 released with Microsoft Windows Vista SP1 and Windows Server 2008 to build Windows PE 2.0.•Windows AIK for Windows 7 to build Windows PE 3.0.•An unzip utility.•Working knowledge to build Windows PE 2.0 and Windows PE 3.0 (See the Microsoft documentation to customize Windows PE).•Working knowledge of Microsoft Remote Installation Services (RIS) and Automated Deployment Services (ADS) (including setting up of RIS and ADS environments) or any other third party deployment system or tool for Windows PE.•Working knowledge of Windows Deployment Services (WDS) or any other third party deployment system or tool for Windows PE.• A workstation with the following capabilities:–Writable media drive–Network access• A target system with a media drive, if performing a local deployment.• A target system with a media drive and network access, if performing a network deployment.•All DTK utilities, sample scripts, and sample configuration files.•Dell Systems Management Tools and Documentation DVD.4Quick Installation GuideQuick Installation Guide 5•Y our operating system software and documentation.•An optimally configured source system with network access. NOTE: You can also download the latest drivers from .For embedded Linux, ensure that you have all of the following tools, software, and information ready to use or consult:•Advanced knowledge of Linux and Linux scripting (bash), Linux networking, installing and working with RPM Package Managers (RPMs), and creating and modifying loop file systems.•Any third party deployment system or tool.• A workstation with the following capabilities:–A writable media drive –Network access •A target system with a media drive, if performing a local deployment.•A target system with a media drive and network access, if performing a network deployment.•All DTK utilities, sample scripts, sample configuration files, and RPM packages.•All operating system RPM packages that DTK RPMs require.NOTE: Tools such as Yellowdog Updater Modified (YUM), Yet Another Setup Tool (YAST), and Advanced Packaging Tool (APT) can be used to manage RPM dependency issues.•All other utilities and files necessary to perform the deployment, including all required Linux drivers, operating system drivers, and the Dell utility partition file.•Dell Systems Management Tools and Documentation DVD.•Y our operating system software and documentation.•An optimally configured source system with network access.NOTE: You can download the latest drivers from .6Quick Installation GuidePreparing for DeploymentIf you are using the Windows PE environment:1Copy or extract DTK utilities, sample scripts, sample configuration files, and drivers provided (in the zip file) to the Windows PE image.2Organize DTK utilities, script files, configuration files, the operating system installation files, and the requisite system files and drivers on a network share or local media.3Set up a Source System by using the Dell Systems Build and Update Utility (to install your operating system) and the Systems Service and Diagnostics Tools (to load drivers). The Source System acts as a masterserver that is used to replicate settings to the T argetServers .NOTE: You can also download the latest drivers from the Dell Support website at .4Generate a system BIOS, BMC, RAID, and/or RAC configuration profile from the Source System . Copy the generated configuration files to a read/write share on the workstation or server.NOTE: You can obtain the system BIOS, BMC, RAID, and/or RAC configuration files by booting from DTK Windows PE image and running the SYSCAP .BAT , RAIDCAP .BAT , and RACCAP .BAT scripts. 5Create an operating system answer file that contains unattended operating system software installation information.6Edit DTK sample script files that access the system configuration files to set up the system BIOS, BMC, RAID, and RAC and then, install an operating system on a Target Server .If you are using the embedded Linux environment:1Obtain the DTK Linux ISO image, which is a self-contained bootable ISO image.2Use and customize the sample scripts as per your requirements.3Set up a Source System by using the Systems Build and Update Utility on the Dell Systems Management T ools and Documentation DVD (to install your operating system) and the Systems Service and Diagnostics Tools (to load drivers).NOTE: You can also download the latest drivers from the Dell Support website at .4Generate a system BIOS, BMC, RAID, and/or RAC configuration profile from the optimally configured source system. Copy the generatedconfiguration files to a read/write share onto the workstation or server.NOTE: You can obtain the system BIOS, BMC, RAID, and/or RAC configurationfiles by booting from DTK Linux ISO image and running the syscap.sh,raidcap.sh, and raccap.sh scripts.5Create an operating system answer file that contains unattended operating system software installation information.6Install an operating system on a T arget Server.DeployingTo proceed with deployment, ensure that you have prepared all scripts, files, and utilities. Y ou can deploy the Win PE and embedded Linux using one of the following methods:•Deploy using removable boot media with a network connection (media-based)•Deploy using removable boot media without a network connection (media-based)•Network-based deployment (remote)For information on these methods, see the Dell OpenManage DeploymentT oolkit User’s Guide available on /manuals→Software→Systems Management→Dell OpenManage Deployment Toolkit.Upgrading Your DTK VersionWhen upgrading from a previous release of DTK, ensure that you create the environment for new DTK version separately from the previous version. This step is necessary because the environments and requirements for the new DTK versions are completely different.Quick Installation Guide78Quick Installation Guide。

Si52112-A1/A2PCI-E XPRESS G EN 1 DUAL O UTPUT C LOCK G ENERATORFeaturesApplicationsDescriptionSi52112-A1/A2 is a high-performance, PCIe clock generator that can source two PCIe clocks from a 25MHz crystal or clock input. The clock outputs are compliant to PCIe Gen 1 specifications. The ultra-small footprint (3x3mm) and industry leading low power consumption make Si52112-A1/A2 the ideal clock solution for consumer and embedded applications.⏹PCI-Express Gen 1 compliant ⏹Low power HCSL differential output buffers⏹Supports Serial-ATA (SATA) at 100MHz⏹No termination resistors required ⏹25MHz Crystal Input or Clock input ⏹Triangular spread spectrum profile for maximum EMI reduction (Si52112-A2)⏹Extended Temperature: –40to 85°C⏹ 3.3V Power supply⏹Small package 10-pin TDFN (3x3mm)⏹Si52112-A1 does not support spread spectrum outputs⏹Si52112-A2 supports 0.5% down spread outputs⏹For PCIe Gen 2 applications, see Si52112-B3/B4⏹For PCIe Gen 3 applications, see Si52112-B5/B6⏹Network Attached Storage ⏹Multi-function Printer⏹Wireless Access Point ⏹RoutersXIN/CLKINXOUTDIFF2DIFF1VSSPatents pendingOrdering Information:See page 13Si52112-A1/A22SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•Si52112-A1/A2 T ABLE OF C ONTENTSSection Page1. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42. Crystal Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72.1. Crystal Loading . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .72.2. Calculating Load Capacitors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .83. Test and Measurement Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .94. Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .114.1. 10-Pin TDFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .114.2. 8-Pin TSSOP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .125. Ordering Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .136. Package Outlines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .146.1. TDFN Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .146.2. TSSOP Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .167. Recommended Design Guideline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Document Change List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 Contact Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20 SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•3Si52112-A1/A21. Electrical SpecificationsTable 1. Recommended Operating ConditionsParameter Symbol Test Condition Min Typ Max Unit Supply Voltage (extended)V DD(extended) 3.3V ± 5% 3.13 3.3 3.46V Supply Voltage (commercial)V DD(commercial) 3.3V ± 10% 2.97 3.3 3.63VTable 2. DC Electrical SpecificationsParameter Symbol Test Condition Min Typ Max Unit Operating Voltage V DD 3.3V ± 10% 2.97 3.30 3.63V Operating Supply Current I DD Full Active——17mA Input Pin Capacitance C IN Input Pin Capacitance—35pF Output Pin Capacitance C OUT Output Pin Capacitance——5pF4SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•Si52112-A1/A2SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************• 5Table 3. AC Electrical SpecificationsParameterSymbol Test ConditionMin Typ Max Unit CrystalLong-term Accuracy L ACC Measured at V DD /2 differential——250ppm Clock Input CLKIN Duty Cycle T DC Measured at V DD /245—55%CLKIN Rise and Fall Times T R /T F Measured between 0.2V DD and0.8V DD0.5— 4.0V/ns CLKIN Cycle-to-Cycle Jitter T CCJ Measured at V DD /2——250ps CLKIN Long Term Jitter T LTJ Measured at V DD /2——350ps Input High Voltage V IH XIN/CLKIN pin 2—V DD +0.3V Input Low Voltage V IL XIN/CLKIN pin ——0.8V Input High Current I IH XIN/CLKIN pin, VIN = V DD ——35uA Input Low Current I IL XIN/CLKIN pin, 0 < VIN <0.8–35——uA DIFF ClocksDuty CycleT DC Measured at 0V differential 45—55%Skew T SKEW Measured at 0V differential——60psOutput Frequency F OUT VDD =3.3V —100—MHz Frequency Accuracy F ACC All output clocks——100ppmSlew Ratet r/f2Measured differentially from±150 mV 0.6— 4.0V/ns Cycle-to-Cycle Jitter T CCJMeasured at 0V differential—2870ps PCIe Gen 1 Pk-Pk Jitter Pk-Pk GEN1PCIe Gen 1—2486ps Crossing Point Voltage at 0.7V Swing V OX 300—550mV Voltage High V HIGH —— 1.15V Voltage Low V LOW –0.3——V Spread Range S RNG Down Spread, -A2 only—–0.5—%Modulation Frequency F MOD-A2 only3031.533kHzEnable/Disable and Set-up Clock Stabilization from Power-upT STABLE ——3ms Stopclock Set-up TimeT SS10.0——nsNote: Visit for complete PCIe specifications.Si52112-A1/A2Table 4. Thermal ConditionsParameter Symbol Test Condition Min Typ Max Unit Temperature, Storage T S Non-functional–65—150°C Temperature, Operating Ambient T A Functional–40—85°C Temperature, Junction T J Functional——150°C Dissipation, Junction to Case (TDFN)ØJC JEDEC (JESD 51)——38.3°C/W Dissipation, Junction to Case (TSSOP)ØJC JEDEC (JESD 51)——37.0°C/W Dissipation, Junction to Ambient (TDFN)ØJA JEDEC (JESD 51)——90.4°C/W Dissipation, Junction to Ambient (TSSOP)ØJA JEDEC (JESD 51)——124.0°C/WTable 5. Absolute Maximum ConditionsParameter Symbol Test Condition Min Typ Max Unit Main Supply Voltage V DD_3.3V—— 4.6V Input Voltage V IN Relative to V SS–0.5— 4.6V DC ESD Protection (Human Body Model)ESD HBM JEDEC (JESD 22 - A114)2000——V Flammability Rating UL-94UL (Class)V–0Note:While using multiple power supplies, the voltage on any input or I/O pin cannot exceed the power pin during power-up.Power supply sequencing is not required.6SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•Si52112-A1/A2SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************• 72. Crystal RecommendationsIf using a crystal input, the device requires a parallel resonance crystal.2.1. Crystal LoadingCrystal loading is critical in achieving low ppm performance. To realize low ppm performance, use the totalcapacitance the crystal sees to calculate the appropriate capacitive loading (C L ).Figure 1 shows a typical crystal configuration using two trim capacitors. It is important that the trim capacitors are in series with the crystal.Figure 1.Crystal Capacitive ClarificationTable 6. Crystal RecommendationsFrequency (Fund)Cut Loading Load Cap ESRDriveShunt Cap (max)Motional (max)Tolerance (max)Stability (max)Aging (max)25 MHzATParallel12–15 pF <50>150µW5 pF0.016 pF35 ppm30 ppm5 ppmSi52112-A1/A28SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•2.2. Calculating Load CapacitorsIn addition to the standard external trim capacitors, consider the trace capacitance and pin capacitance to calculate the crystal loading correctly. Again, the capacitance on each side is in series with the crystal. The total capacitance on both sides is twice the specified crystal load capacitance (C L ). Trim capacitors are calculated to provide equal capacitive loading on both sides.Figure 2.Crystal Loading ExampleUse the following formulas to calculate the trim capacitor values for Ce1 and Ce2.Load Capacitance (each side)Total Capacitance (as seen by the crystal)⏹ CL: Crystal load capacitance⏹ CLe: Actual loading seen by crystal using standard value trim capacitors ⏹ Ce: External trim capacitors ⏹ Cs: Stray capacitance (terraced)⏹Ci: Internal capacitance (lead frame, bond wires, etc.)Ce 2CL Cs Ci +()–⨯=CLe 11Ce1Cs1Ci1++--------------------------------------------1Ce2Cs2Ci2++---------------------------------------------+⎝⎭⎛⎫------------------------------------------------------------------------------------------------------=Si52112-A1/A2SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************• 93. Test and Measurement SetupFigures 3 through 5 show the test load configuration for the differential clock signals.Figure 3.0.7V Differential Load ConfigurationFigure 4.Differential Measurement for Differential Output Signals(for AC Parameters Measurement)M e a s u re m e n tP o in tFM e a s u re m e n tP o in tFSi52112-A1/A210SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•Figure 5.Single-ended Measurement for Differential Output Signals(for AC Parameters Measurement)Si52112-A1/A2SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************• 114. Pin Descriptions4.1. 10-Pin TDFNFigure 6.10-Pin TDFN Table 7. 10-Pin TDFN DescriptionsPin #Name TypeDescription1VDD PWR 3.3V power supply.2XOUT O 25.00MHz crystal output, Float XOUT if using only CLKIN (clock input).3XIN/CLKIN I 25.00MHz crystal input or 3.3V, 25MHz clock Input.4VSS GND Ground.5VSS GNDGround.6DIFF1O, DIF 0.7V, 100 MHz differential clock output.7DIFF1O, DIF 0.7V, 100 MHz differential clock output.8DIFF2O, DIF 0.7V, 100 MHz differential clock output.9DIFF2O, DIF 0.7V, 100 MHz differential clock output.10VDDPWR 3.3V power supply.VDD VDD XOUT XIN/CLKINVSS VSSDIFF1DIFF1DIFF2DIFF2Si52112-A1/A212SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•4.2. 8-Pin TSSOPFigure 7.8-Pin TSSOP Table 8. 8-Pin TSSOP DescriptionsPin #Name TypeDescription1VDD PWR 3.3V Power supply.2XOUT O 25.00MHz crystal output, Float XOUT if using only CLKIN (clock input).3XIN/CLKIN I 25.00MHz crystal input or 3.3V, 25MHz clock Input.4VSS GNDGround.5DIFF1O, DIF 0.7V, 100MHz differentials clock.6DIFF1O, DIF 0.7V, 100MHz differentials clock.7DIFF2O, DIF 0.7V, 100MHz differentials clock.8DIFF2O, DIF 0.7V, 100MHz differentials clock.DIFF1DIFF1VDD XOUT XIN/CLKIN VSS DIFF2DIFF2Si52112-A1/A2SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************• 135. Ordering GuideFigure 8.Ordering InformationPart Number Spread Option Package Type Temperature Si52112-A1-GM2 No Spread 10-pin TDFNExtended, –40 to 85°C Si52112-A1-GM2R No Spread 10-pin TDFN—Tape and ReelExtended, –40 to 85°C Si52112-A1-GT No Spread 8-pin TSSOPExtended, –40 to 85°C Si52112-A1-GTR No Spread 8-pin TSSOP - Tape and ReelExtended, –40 to 85°C Si52112-A2-GM2–0.5% Spread10-pin TDFNExtended, –40 to 85°C Si52112-A2-GM2R –0.5% Spread 10-pin TDFN—Tape and ReelExtended, –40 to 85°C Si52112-A2-GT –0.5% Spread 8-pin TSSOPExtended, –40 to 85°C Si52112-A2-GTR–0.5% Spread8-pin TSSOP - Tape and ReelExtended, –40 to 85°CSi52112-A1/A214SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•6. Package Outlines6.1. TDFN PackageFigure 9 illustrates the package details for the 10-pin TDFN. Table 9 lists the values for the dimensions shown in the illustration.Figure 9.10-Pin TDFN Package DrawingSi52112-A1/A2Table 9. TDFN Package Diagram DimensionsSymbol Min Nom MaxA0.700.750.80A10.000.020.05A30.20 REF.b0.180.250.30D 3.00 BSC.D2 1.90 2.00 2.10e0.50BSCE 3.00BSCE2 1.40 1.50 1.60L0.250.300.35aaa0.10bbb0.10ccc0.10ddd0.10eee0.08Notes:1.All dimensions shown are in millimeters (mm) unless otherwisenoted.2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.3. Recommended card reflow profile is per the JEDEC/IPC J-STD-020specification for Small Body Components.4. This drawing conforms to the JEDEC Solid State Outline MO-229.SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•15Si52112-A1/A216SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•6.2. TSSOP PackageFigure 10 illustrates the package details for the 8-pin TSSOP . Table 10 lists the values for the dimensions shown in the illustration.Figure 10.8-Pin TSSOP Package DrawingSi52112-A1/A2Table 10. TSSOP Package Diagram DimensionsSymbol Min Nom MaxA—— 1.20A10.05—0.15A20.800.90 1.05b0.19—0.30c0.09—0.20D 2.90 3.00 3.10E 6.40BSCE1 4.30 4.40 4.50e0.65BSCL0.450.600.75L20.25 BSCθ0°—8°aaa0.10bbb0.10ccc0.05ddd0.20Notes:1.All dimensions shown are in millimeters (mm) unless otherwisenoted.2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.3. This drawing conforms to the JEDEC Solid State Outline MO-153,Variation AA.4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020Cspecification for Small Body Components.SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•17Si52112-A1/A27. Recommended Design GuidelineNote:FB Specifications:DC resistance 0.1–0.3ΩImpedance at 100MHz >1000ΩFigure11.Recommended Application Schematic18SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************•Si52112-A1/A2SkyworksSolutions,Inc.•Phone[781]376-3000•Fax[781]376-3100•*********************• 19D OCUMENT C HANGE L ISTRevision 1.0 to Revision 1.1⏹Removed references to Gen 2.⏹Updated package outlines.Revision 1.1 to Revision 1.2⏹Added “4.2. 8-Pin TSSOP” pin description on page 12.Copyright © 2021 Skyworks Solutions, Inc. All Rights Reserved.Information in this document is provided in connection with Skyworks Solutions, Inc. (“Skyworks”) products or services. These materials, including the information contained herein, are provided by Skyworks as a service to its customers and may be used for informational purposes only by the customer. Skyworks assumes no responsibility for errors or omissions in these materials or the information contained herein. Skyworks may change its documentation, products, services, specifications or product descriptions at any time, without notice. Skyworks makes no commitment to update the materials or information and shall have no responsibility whatsoever for conflicts, incompatibilities, or other difficulties arising from any future changes.No license, whether express, implied, by estoppel or otherwise, is granted to any intellectual property rights by this document. 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SuperWORKS 工厂版V8.0帮助目录1. 第一章环境设置 (7)1.1 1-1 绘图环境初始化 (7)1.2 1-2 系统设置 (7)1.3 1-3 设置图幅 (12)1.4 1-4 图幅替换 (14)1.5 1-5 标题栏填写 (14)1.6 1-6 标题栏库管理 (15)1.7 1-7 插入标题栏 (17)1.8 1-8 标题栏替换 (18)1.9 1-9 标题栏批替换 (18)1.10 1-10 动态提示打开/关闭 (20)1.11 1-11 文件任务栏隐藏显示 (20)1.12 1-12 项目/设备显示 (20)2. 第二章项目与设备 (21)2.1 2-1 项目/设备新建并打开 (21)2.2 2-2 项目/设备打开 (22)2.3 2-3 项目/设备关闭 (23)2.4 2-4 文件保存到项目/设备 (23)2.5 2-5 项目/设备管理 (24)2.6 2-6 项目清册 (25)2.7 2-7 文件类型扩充 (26)2.8 2-8 图纸批处理及目录生成 (27)2.9 2-9 图纸批打印 (29)2.10 2-10 图纸比对 (32)2.11 2-11 元件状态记录 (33)2.12 2-12 元件历史查询 (34)3. 第三章二次原理设计 (36)3.1 3-1 原理图设计 (36)3.1.1 3-1-1 图纸属性定义 (36)3.1.2 3-1-2 围框定义元件安装位置 (37)3.1.3 3-1-3 链式画法 (39)3.1.4 3-1-4 回路线框调用画法 (42)3.1.5 3-1-5 点式画法 (47)3.1.6 3-1-6 转换开关设计 (49)3.1.7 3-1-7 多线绘制 (52)3.1.8 3-1-8 典型图库调用 (55)3.1.9 3-1-9 PLC元器件数据库 (58)3.1.10 3-1-10 PLC元器件绘制 (61)3.1.11 3-1-11 属性编辑 (64)3.1.12 3-1-12 符号属性刷 (67)3.1.13 3-1-13 组合元件 (68)3.1.14 3-1-14 线号编辑 (70)3.1.15 3-1-15 标号批标注 (71)3.1.16 3-1-16 线号批标注 (72)3.1.17 3-1-17 端号批标注 (73)3.1.18 3-1-18 端子信息批描述 (75)3.1.19 3-1-19 屏面布置图调用 (76)3.1.20 3-1-20 屏端子统计及端子条绘制 (77)3.2 3-2 原理图编辑修改 (79)3.2.1 3-2-1 符号反向 (79)3.2.2 3-2-2 符号复制 (80)3.2.3 3-2-3 符号替换 (80)3.2.4 3-2-4 符号移动 (82)3.2.5 3-2-5 符号删除 (82)3.2.6 3-2-6 字符替换 (83)3.2.7 3-2-7 电路复制与粘贴 (85)3.2.8 3-2-8 单根线引脚属性定义 (86)3.2.9 3-2-9 元件类型定义 (86)3.3 3-3 查图及联动修改 (87)3.3.1 3-3-1 元件查询及修改 (87)3.3.2 3-3-2 线号查询及修改 (89)3.3.3 3-3-3 文字查询及修改 (90)3.3.4 3-3-4 电路图检查 (93)3.3.5 3-3-5 文字链接定义 (96)3.3.6 3-3-6 文字链接编辑 (97)3.3.7 3-3-7 实体链接定义 (98)3.3.8 3-3-8 链接打开 (100)4. 第四章二次接线 (101)4.1 4-1 网络表生成 (101)4.2 4-2 明细表生成 (102)4.3 4-3 元件分板 (110)4.4 4-4 端子表生成 (115)4.5 4-5 元件布置 (130)4.6 4-6 接线路径调整 (137)4.7 4-7 接线生成 (138)4.8 4-8 接线查看 (142)4.9 4-9 接线删除 (143)4.10 4-10 接线图元件逻辑关系查看 (144)4.11 4-11 连片集中布置 (145)4.12 4-12 小母线排 (146)4.13 4-13 出接线表 (147)4.14 4-14 生产规范书 (148)4.15 4-15 一二次元件明细汇总 (150)4.16 4-16 一键更新 (152)5. 第五章库管理维护 (154)5.1 5-1 库管理 (154)5.1.1 5-1-1 符号建库 (155)5.1.2 5-1-2 符号分类 (159)5.1.3 5-1-3 等价符号 (159)5.1.4 5-1-4 多端元件库管理 (161)5.1.5 5-1-6 接线图章库管理 (166)5.1.6 5-1-7 数据库管理 (179)5.1.7 5-1-8 库备份 (183)6. 第六章接线图章布置手动接线工具箱 (185)6.1 6-1 接线图章布置工具箱 (185)6.1.1 6-1-1 接线图章工具箱 (185)6.1.2 6-1-2 手动明细 (186)6.1.3 6-1-3 自动布置 (191)6.1.4 6-1-4 手动布置 (191)6.1.5 6-1-5 安装位置修改 (193)6.1.6 6-1-6 序号修改 (193)6.1.7 6-1-7 标号修改 (194)6.1.8 6-1-8 明细修改 (194)6.1.9 6-1-9 接线图元件修改及查看 (195)6.1.10 6-1-10 图章替换 (198)6.1.11 6-1-11 图面调整 (199)6.1.12 6-1-12 统计明细 (200)6.2 6-2 手动接线工具箱 (201)6.2.1 6-2-1 手动接线工具箱 (201)6.2.2 6-2-2 手动接线 (202)6.2.3 6-2-3 点点接线 (212)6.2.4 6-2-4 接线移动 (213)6.2.5 6-2-5 双向接线删除 (214)6.2.6 6-2-6 整组接线删除 (214)6.2.7 6-2-7 全部接线删除 (214)6.2.8 6-2-8 接线查看 (214)6.2.9 6-2-9 接线重新生成 (216)6.2.10 6-2-10 接线端子表重新生成 (216)6.2.11 6-2-11 出接线表 (217)7. 第七章一次设计 (219)7.1 7-1 一次系统图生成 (219)7.1.1 7-1-1 一次系统图模板设置 (219)7.1.2 7-1-2 一次系统图图框绘制 (221)7.1.3 7-1-3 一次系统图图框更新 (221)7.1.4 7-1-4 母线绘制 (222)7.1.5 7-1-5 母线编辑 (222)7.1.6 7-1-6 一次方案调用 (223)7.1.7 7-1-7 一次方案属性编辑 (224)7.1.8 7-1-8 一次方案块明细编辑 (226)7.1.9 7-1-9 一次方案块替换 (227)7.1.10 7-1-10 一次方案查询修改及明细输出 (227)7.1.11 7-1-11 一次系统图填充 (229)7.1.12 7-1-12 一次方案建库 (230)7.1.13 7-1-13 一次系统图编辑器 (232)7.2 7-2 一次原理设计 (234)7.2.1 7-2-1 一次元件标注设置 (234)7.2.2 7-2-2 一次符号调用 (235)7.2.3 7-2-3 一次组合元件 (236)7.2.4 7-2-4 属性编辑 (237)7.2.5 7-2-5 一次元件明细表 (237)7.3 7-3 一次符号与一次元件库管理 (238)7.3.1 7-3-1 一次符号建库 (238)7.3.2 7-3-2 一次符号分类 (239)7.3.3 7-3-3 一次元件数据库 (240)8. 第八章面板开孔设计 (241)8.1 8-1 面板绘制 (242)8.2 8-2 面板编辑 (242)8.3 8-3 元件开孔图自动布置 (243)8.4 8-4 元件开孔图手动布置 (246)8.5 8-5 开孔图库管理 (247)9. 第九章辅助功能 (250)9.1 9-1 制表 (250)9.2 9-2 增加单元格 (251)9.3 9-3 词组调用 (252)9.4 9-4 明细表编辑器 (253)9.5 9-5 文字属性编辑 (255)9.6 9-6 文字对齐 (256)9.7 9-7 文字字符串替换 (257)9.8 9-8 直线转多义线 (257)9.9 9-9 线宽变换 (257)9.10 9-10 线型变换 (257)9.11 9-11 层变换 (258)9.12 9-12 层删除 (259)9.13 9-13 显示隐藏实体 (259)10. 第十章端子电缆工具箱 (260)10.1 10-1 端子表工具箱 (260)10.1.1 10-1-1 端子表工具箱 (260)10.1.2 10-1-2 端子表定义 (261)10.1.3 10-1-3 空端子表绘制 (265)10.1.4 10-1-4 端子表填写 (267)10.1.5 10-1-5 端子表批填写 (268)10.1.6 10-1-6 联络端子 (269)10.1.7 10-1-7 电流端子粗线绘制 (270)10.1.8 10-1-8 端子引线 (271)10.1.9 10-1-9 端子插入 (272)10.1.10 10-1-10 端子删除 (272)10.1.11 10-1-11 端子表安装位置定义 (272)10.1.12 10-1-12 端子表文字分类 (274)10.1.13 10-1-13 端子表分割 (275)10.1.14 10-1-14 端子表分割插入 (276)10.1.15 10-1-15 原理图端子表定义 (277)10.1.16 10-1-16 接线图端子表定义 (277)10.2 10-2 电缆工具箱 (278)10.2.1 10-2-1 电缆工具箱 (278)10.2.2 10-2-2 端子表电缆自动生成 (278)10.2.3 10-2-3 电缆绘制 (279)10.2.4 10-2-4 电缆插入 (280)10.2.5 10-2-5 电缆删除 (281)10.2.6 10-2-6 电缆参数定义 (281)10.2.7 10-2-7 电缆安装单位批定义 (283)10.2.8 10-2-8 电缆编号批定义 (284)10.2.9 10-2-9 电缆连线 (285)10.2.10 10-2-10 电缆连线调整参数设置 (292)10.2.11 10-2-11 电缆连线调整 (292)10.2.12 10-2-12 电缆查询 (293)10.2.13 10-2-13 电缆统计 (294)10.2.14 10-2-14 端子表电缆标注设置 (295)10.2.15 10-2-15 电缆参数字库扩充 (296)11. 附录AutoCAD系统预备知识 (298)11..1 一、基本编辑命令 (298)11..2 二、辅助绘图命令 (299)11..3 三、坐标系统及用户坐标 (302)11..4 四、基本屏幕操作命令 (304)11..5 五、基本编辑命令 (305)11..6 六、块操作 (309)11..7 七、层、颜色及线型 (311)11..8 八、简化命令制作 (312)1. 第一章环境设置主要功能：使未在*cad.dwt模板文*下进行绘制的图形，恢复到绘图环*下（注：Acad.dwt中定义了SuperWORKS正常运行所需的基本环境及参数）。

Skyworks PCIe Clock Jitter Tool READMECopyright © 2015-2021 Skyworks Solutions, Inc. All Rights Reserved./ia/pcie-jittertoolPC System RequirementsOperating System:The PCIe Clock Jitter Tool (PCIe Tool) requires a 64-bit version of Windows Vista, Windows 7, Windows 8, Windows 10, or Windows 11. 32-bit Windows is not supported due to memory requirements to process large amounts of data.The PCIe Tool uses Framework version 4.5. The installer will check to see if it is installed and, if not, prompt to automatically download and install it.If you need to install the PCIe Tool on a PC that does not have an Internet connection and does not have .NET 4.5, you can download Microsoft’s stand-alone installer from /download/b/a/4/ba4a7e71-2906-4b2d-a0e1-80cf16844f5f/dotnetfx45_full_x86_x64.exe. Install 4.5 before running the PCIe Tool installer.1024 x 768 screen resolution or greaterRevision HistoryVersion 7.1 [2022-12-15]Improvements:•Reduced limit for recommend minimum number of edges from 160000 to 100000. This does not effect calculations, only a warning that is displayed if the number of edges detected in the waveform is less than what is recommended in the PCIe specification.•Removed note on PCIe 6.0 Base Specification pending final release.•Added new --mode option to the PCIeDataCompare command line tool. Use to calculate additive jitter and to perform scope noise correction on data with spread spectrum. ‘--mode additive' will add an extra columncontaining the Root Subtration of the squares of the buffer input and output RMS values. ‘--mode correction’will add two extra columns: one with the isolated scope noise RMS, and one for the corrected SS enabled RMS result.Version 7.0 [2021-08-25]Skyworks Solutions, Inc. has acquired the Infrastructure & Automotive (I&A) business from Silicon Labs. We truly appreciate your business and look forward to working together at Skyworks.When the new Skyworks PCIe Clock Jitter tool is installed, it will prompt you to delete the Silicon Labs version if found on your PC. This is optional and not required should you need to use an older version of the tool. The two versions can co-exist and even run side-by-side on your PC.The default extension for PCIe Clock Jitter Tool project files is now “pciejitproj”. When opening a project – which contains saved file, options, and filter sections –files with the old extension “slabpcieproj” will continue to be shown in the project open dialog and can still be saved with this extension.You may need to log out or restart your PC to pick up the new extension mapping so that you can double click a pciejitproj extension file. If you see the new icon for your pciejitproj file, you should be good to go and can double click the project to automatically open it in the Skyworks PCIe Clock Jitter Tool.Version 6.2 [2021-06-25]Fixed: eliminate VIL/VIH max/min failures in the Reference Clock AC Specifications table (TMGSW-2015)Version 6.1 [2021-05-06]The Instrument Noise Correction (aka Scope Noise Removal) is out of Beta. In this release, there are no changes to the underlying removal algorithms. However, there are now warnings in the GUI and compliance reports prompting users to use this feature for time domain input. Doing so will correct for the RMS jitter contribution from your oscilloscope.Other improvements:•GEN2 RMS MAX RMS split into low and high frequency components•Several new footnotes added to compliance report•New noise folding section in the User’s GuideVersion 6.0 [2021-01-14]Improvements:•Added Instrument Noise Correction (aka Scope Noise Removal) option (Beta); please review the new section in the User’s Guide for more information•Added option to turn the edge smoothing filter ON or OFF•Improved the edge smoothing filter algorithm•Added double crossing warning to the Data File Overview section of the compliance report•Added Min/Max boundaries to the waveform plotVersion 5.0 [2020-05-20]Improvements:•Fixed: phase-domain SRIS/SRNS RMS jitter calculations were being scaled by sqrt(2)•Added preliminary support for PCIe Gen 6 filters (PCI-Express Base Specification 6.0 rev. 0.5)•Added SRNS/SRIS jitter limit for Gen5 and Gen6. This is provided as an informative measurement only. The limits were calculated based on the system simulation budget as described at https:///-/media/Skyworks/SL/documents/public/white-papers/PCIe-Clock-Source-Selection.pdf.•In SRIS and SRNS, both the minimum and maximum peaking are used with the maximum PLL bandwidth. Previously only the maximum peaking was used. With this change, you may see a slight increase in Max HF RMS jitter in the range of ~10% or less reported in the Filter Compliance Summary section of the report. Version 4.2 [2020-02-24]Improvements:•Support Rohde & Schwarz waveform files•Support larger waveform filesVersion 4.1 [2019-12-17]Bug Fixes:•Fixed: missing offset voltage in the Tektronics scope data. The user would not get the correct values when using Tektronics (.wfm) files in single-ended time-domain mode and the data would appear as if it was AC coupled.•Fixed: waveforms that did not cross the rise and fall threshold would stop analysis with an error. Waveforms that do not cross the rise and fall threshold for the ERM will now skip this calculation.•Fixed: peak-to-peak jitter calculation of clock inputs with spread spectrum enabled could have error.This did not affect PCIe compliance results. E xpect changes only in the “pk-pk phase jitter” column.•Fixed: GEN1 peak-to-peak phase jitter and compliance result was not reported.•Fixed: if you opened a project file from explorer on a network drive and then tried to resave at the end of the wizard, the tool could crash.•Fixed: fixed: filter compliance summary header typo: "Max HLF RMS -> Max LF RMS."•Fixed: broken links on welcome screen.•Hide PCIe 5.0 warning in footer of GUI on filter page.Improvements:•Added single-ended Clock Signals plot.•Increased time vector resolution from 32-bits to 64-bits. This will reduce the arithmetical error do to the large range and small variation of the time array. This is particularly important for high sampling frequency scopes (above 50 GS/s).•Changed threshold for time domain single ended crossing point detection. The ERM now follows the industry standard..NET 4.5 or higher is now required to install and run the PCIe Tool. Windows XP is no longer supported.Version 4.0 [2019-06-17]•Refclock AC specification table improvements:o New symbol column matching the PCIe specificationo Added V IH - differential Input High Voltageo Added V IL - differential Input Low Voltageo Added V RB - ring-back voltageo Added V OVS - overshoot voltage relative to V IHo Added V UDS - undershoot voltage relative to V ILo Added F REFCLK - Refclk Frequencyo Added F REFCLK_32G - Refclk Frequency for devices that support 32.0 GT/so Added F SSC - SSC frequency rangeo Added T SSC-FREQ-DEVIATION - SSC deviationo Added T SSC-FREQDEVIATION_32G_SRIS - SSC deviation for devices that support 32.0 GT/s and SRIS when operating in SRIS mode at all speedso Added T SSC-MAX-FREQ-SLEW - Max SSC df/dt•New filter compliance summary at the top of the report. This summarizes test results for each class, data rate, architecture, and spec combination. Example:•New Waveform Analysis plots (when applicable):o Differential Clock Signalo Spread-Spectrum Clocking Profile•Differential and single-ended time-domain inputs now support auto-threshold search for signals probed at mid-bus. The threshold value sets the best crossing point of the differential waveform to determine the TIE . Theselected threshold will be included in the Differential Clock Signal plot in the compliance report.•The ‘Reference-Clock-AC-Specs.csv’ file has new column ‘Symbol’•The PCIeClockJitterTool command line interface (CLI) has a new option, --open-pdf, which will automatically open the compliance report after creationVersion 3.0 [2018-12-12]Bug Fixes•Fixed: for the same device, the phase noise plot did not match the FFT of time domain plot (TMGSW-839) •Fixed: when reading Le Croy data (.TRC), the period calculation had errors (TMGSW-856)•Fixed: wrong H3 bandwidth for Gen2v4 (TMGSW-928)•Fixed: updated sample filter transfer functions so that Gen2v4 CC plot is up-to-date (TMGSW-928)General Improvements•Changed spread spectrum spur removal to 2MHz for Gen4 and Gen5 (TMGSW-942)•Added new phase noise datafile options:o Option to auto extend phase noise data to 50 Mhz (off by default) (TMGSW-837)o Support max folded frequency in phase noise analysis (on by default for new projects, off for any existing projects you open with this new version) (TMGSW-838)•SRIS filters can now be enabled with phase noise data (TMGSW-836). Note that most phase noise analyzers do not support Spread Spectrum Clocks. Check if your equipment was able to properly lock to the center frequency before running this test.•Spread Spectrum Phase Jitter Plot changes:o Time domain now in "s pp" instead of secondso Phase noise remains in seconds; now exclude SSC Limit series as this does not apply •Jitter plots have Y axis labels "Jitter (s pp)" and “Magnitude”(version 3.0 release notes continued next page)Filter Changes•Added support for GEN5 SRNS•Added overall H(s)=H1(s)*H3(s) to Gen3&4 SRIS•Filter transfer function constant changes:o Omega constants for 2nd order functions are now calculated vs. truncated valuesoo Omega values change for other combinations, however significantly less (<0.1% to <0.6%)o You can use the new “Jitter Summary - Raw Data” comparison tool to review changes to compliance results that may result from this update•Common clock improvements:o All possible bandwidth/peaking combinations are now calculated (TMGSW-840)o When BW/Peaking are different between H1(s) and H2(s), H and H’ values for BW/peaking are listed in the compliance reporto For example, for Gen1 Common Clock, there are now three combinations shown instead of 1, as the case where H1(s) and H2(s) BW/peaking are equal is now calculated:New ‘Jitter Summary - Raw Data.csv’ File Comparison/Aggregation Tools•Two new tools can be used to compare/aggregate two or more 'Jitter Summary - Raw Data.csv' files. These CSV files summarize compliance test results and can be optionally saved using the 'Save Compliance Report Data' feature of the PCIe Clock Jitter Tool or the included PCIeClockJitterTool.exe Command Line Interface (CLI).•Run the comparison from:o The PCIe Clock Jitter Tool welcome screen:o The new PCIeDataCompare command line tool; type PCIeDataCompare --help from the command line to learn more•When two files are compared, jitter for each filter combination is compared and differences summarized. The PASS/FAIL compliance result for a filter combination is also summarized.•When three or more files are compared, only the PASS/FAIL compliance result for each filter combination across all data files is summarized. Any number of files -- within the limits of PC memory and processing resources -- can be compared and the compliance results aggregated into a single report.•The tool saves the comparison to an Excel workbook file.•Here is a snippet from the Excel output when 3 CSVs were compared:Save Compliance Data Improvements•What’s New?o You can now select what compliance data to saveo Compliance data now can be saved to folder in addition to ZIP•How to Useo The “Save Compliance Report Data to ZIP” button on the compliance report screen of the GUI is now just “Save Compliance Report Data”o Clicking the button brings up this new form, where you can select what categories of data to save and then save to a ZIP file or a folder:o The PCIeClockJitterTool CLI has two new command line options:▪--data-cats configures what categories to include. By default, all are.▪--save-data-to-folder and --data-folder options are used to save compliance data to a folder (--create-data-zip and --data-zip-outfile are still available to save to ZIP)o Example:PCIeClockJitterTool --file-type diff --wavefile wave.csv--pdf-outfile report.pdf --data-folder compliance1--data-cats summaries,waveformsOnly jitter result summary and the unfiltered waveform data will be saved to the folder “compliance1”.•Fixed: SRIS and SRNS filter computation issue with phase noise data. The filter coefficients were corrected and RMS square sum applied to final jitter calculation.•Fixed: in Jitter Summary CSVs generated by the “Save Compliance Report Data to ZIP” feature and CLI, the Compliance Result column was a single letter instead of PASS/FAIL•Added support for Gen5 Common Clock and Separate Clock SRIS filters•Added Reference-Clock-AC-Specs.csv to data file ZIP (time domain only)•Added H(s) to Filter Magnitude Responses plots for SRIS and SRNS•Excluded Gen3+ SRIS H3 Zeta/Omega from constants table due to transfer function complexity in these cases •Updated Gen4 SRIS data rate•Filter magnitude plots legend position changed•Reworked how filters are defined and called: ~2x speedup of filter step•Delay in overall transfer functions now via e^-sT instead of pade filter approximation•Added information about aliased phase noise to the GUI and user guideVersion 1.3 [ 2017-06-06 ]•Fixed: if a jitter plot had a dense number of Y axis ticks, tick labels were skipped•Changed Gen4 Common Clock HF RMS max from 1ps to 0.5ps•Updated peaking and data rate for SRIS•Added s/(s+ω1) term to Gen3 v4.0 & Gen4 SRIS H s transfer functions•When processing a phase noise waveform file, data below 1kHz is now ignored•Added Gen3 v4.0 SRNS and SRIS filter results (in addition to keeping Gen3 v3.1 SRNS and SRIS)•Added links to additional Skyworks app notes: AN781, AN946 and AN951Version 1.2 [ 2016-09-22 ]•Fixed: clicking the Windows maximize button on the title bar would cause the tool’s bottom area, such as buttons, to be obscured by the taskbar•Improved TIE analysis and detection of spread spectrum clocking.•Improved SSC separation and post-FFT:o The bandwidth of frequencies removed (around the harmonics of the SSC frequency) was reduced to one-fifth the original bandwidth.o The interpolation post-SSC removal in this bandwidth was improved so that the interpolation reflects the true noise floor of the waveform.•Added Gen4 SRNS and SRIS.•Added new stand-alone SSC Phase Jitter plot to the compliance report.•Changed PCIe v4.0 Gen1 max delay default to 12ns. Note that any existing project file will continue to use the delay present when last saved.•Removed the 16MHz .5dB filter from Gen2 Data Clocked spec 3.1. Only the 16MHz 3dB filter is required.•Gen2 SRNS and SRIS both showed H3 peaking of 0dB instead of 3dB. This has been fixed. The calculation was already correct.•The edge filter and SSC separation options have been removed. Edge filtering is now always enabled. SSC separation is now always disabled for GEN1 filters and enabled for GEN2+. Any settings related to these in a previously saved project file will be ignored.•References to BER have been removed from peak-to-peak phase jitter test captions. BER is not used to compute phase jitter: Pk-Pk = maxTIE – minTIE.•Installer digitally signed.•Add SSC separation to all standards•Fixed an issue where the SSC detection is inadvertently tripped to indicate no SSC even if box checked•Fixed an SSC peak detection issue and increased the threshold to a more reasonable level.•Changed the SSC separation replacement from rolling average to linear fit except in the case the linear fit has a negative slope in which case it uses a limited previous point average. This eliminates negative points in the dataset and looks reasonable in all the tests.•Widened SSC separation frequency peak search range due to granularity issues with the low end spectrum. With only 160000 cycles, we can only have so much spectral data at 30Khz so a peak on the edge could be just a bit outside the 30-33KHz rangeVersion 1.0 [ 2015-12-1 ]Initial release.。

openworks操作手册【原创版】目录1.OpenWorks 操作手册概述2.安装和配置 OpenWorks3.OpenWorks 的基本操作4.OpenWorks 的高级功能5.OpenWorks 的维护和故障排除6.OpenWorks 的使用技巧和注意事项正文【OpenWorks 操作手册概述】OpenWorks 是一款功能强大的工作流软件，可以帮助用户自动化和优化工作流程。

本手册将详细介绍如何安装、配置、操作和维护 OpenWorks。

【安装和配置 OpenWorks】在安装 OpenWorks 之前，请确保您的计算机满足系统要求。

安装过程很简单，只需按照安装向导的指示进行即可。

安装完成后，需要对OpenWorks 进行一些基本配置，例如设置数据库和邮件服务器等。

【OpenWorks 的基本操作】OpenWorks 的基本操作包括创建项目、任务和流程。

用户可以通过拖放和连接的方式设计工作流程。

还可以为任务分配责任人，设置任务的状态和权限等。

【OpenWorks 的高级功能】OpenWorks 还提供了许多高级功能，例如条件判断、循环和异常处理等。

这些功能可以帮助用户创建更复杂的工作流程，提高工作效率。

【OpenWorks 的维护和故障排除】在使用 OpenWorks 的过程中，可能会遇到一些问题。

本部分将介绍如何进行日常维护和故障排除，例如备份和恢复数据，解决性能问题等。

【OpenWorks 的使用技巧和注意事项】最后，本部分将提供一些使用 OpenWorks 的技巧和注意事项，例如如何优化工作流程，如何保护数据安全等。

以上就是 OpenWorks 操作手册的全部内容。

Sophos UTM 9 and XG Firewall MigrationFrequently Asked QuestionsWhat is the difference between SG and XG?As you know, Sophos SG Series appliances with UTM 9 firmware are our leading and award-winning Unified Threat Management (UTM) platform. Sophos UTM has a long and successful history that extends back several years. We will continue to develop and support this platform. You can learn more about Sophos UTM 9 and the SG Series and what makes them so great here.Sophos XG Firewall, is our new firewall platform, that combines some of the great technology from UTM 9 with a variety of new technology including support for the new Sophos Security Heartbeat™, a new user interface, improved user-based policies and reporting, and much more. It comes pre-installed on XG Series appliances but you can also upgrade your SG Series appliances (more on that below).You can learn more about Sophos XG Firewall here: UTM or Next-Gen Firewall. What’s the difference between the SG Series and XG Series hardware appliances?SG Series appliances come pre-installed with UTM 9 firmware. XG Series appliances come pre-installed with XG Firewall firmware. Otherwise, the hardware specifications are identical.Can I migrate from UTM 9 to the new XG Firewall?Yes. As a Sophos UTM 9 customer with a valid license, you are entitled to migrate to XG Firewall when the timing is right for you. We strongly urge customers to be patient and wait for the automated migration tools as it will provide the best experience.As an existing UTM 9 customer wishing to upgrade what should I do?We suggest all UTM 9 customers spend some time to get familiar with the new XG Firewall utilizing the free trial option while patiently awaiting the migration tools to make the transition as seamless as possible.Do I have to migrate from UTM 9 to XG Firewall?No. While we are confident that most Sophos UTM 9 customers will want to take advantage of many of the great new features and benefits of XG Firewall over time, there is certainly no rush, and you don’t have to migrate if you don’t want to.Will you continue to develop and support UTM 9?Yes. Sophos UTM 9 will see continued development and support with a couple of new releases already in the planning stages.Will the new XG Firewall firmware run on my existing hardware or virtual environment?Sophos XG Firewall runs perfectly on all Sophos SG Series hardware appliances, as wellas the same Intel compatible hardware and the same virtual environments as UTM 9. XG Firewall is not currently compatible with Amazon Web Services, but we plan to add support for AWS and Azure cloud deployments soon.Customers with UTM Series or ASG Series hardware (prior to the SG Series) interested in migrating to XG Firewall should talk to their Sophos Partner about doing a hardware refresh to one of the XG Series that come pre-installed with XG Firewall.When can I migrate from UTM 9 to XG Firewall?We strongly recommend that customers wait until the migration tools are available. This will ensure a smooth migration. We recommend working with your preferred Sophos Partner to plan your migration when the time is right.Is there a license fee associated with migrating?No. Sophos is pleased to enable you to switch your license from UTM 9 to XG Firewall at no extra charge.What are the various migration phases and tools available?In order to make migration as smooth as possible, we are developing a series of migration tools that will be rolled out in phases following the launch of XG Firewall. Watch the Sophos Corporate Blog for migration news, tools, and help or contact your Sophos Partner.Here are the migration phases:Migration at Launch: While we strongly encourage existing customers to wait until Phase 1 or 2, early adopters who wish to migrate to XG Firewall following launch can do a manual migration. There will be no migration tools available during this phase so you will be setting up and configuring your XG Firewall from a fresh install.Phase 1 Migration: is in planning and we anticipate being able to offer beta migration tools by mid-2016. The process will involve manually taking a backup of your UTM 9 device and uploading it to the Cloud Migration Service for conversion, making necessary adjustments, and then exporting it as a configuration for XG Firewall.Phase 2 Migration: is planned to coincide with an update to XG Firewall in mid-2016. It will enable UTM 9.4 customers to use an option in Webadmin to initiate a migration adding some automation and less manual process with options to retain some quarantine items. Phase 3 Migration: Later in 2016 we plan to simplify the migration process further with support for multiple device migration and more automation.Are there UTM 9 features I need that are not in XG Firewall?There are a few feature gaps you should be aware of. If you are dependent on any of these features, you will want to wait until the gaps are closed in a subsequent release of XG Firewall. Watch the Sophos Corporate Blog for XG Firewall updates and news.Here are the most significant initial feature gaps:ÌMulti-node clustering of 3 or more appliances is not supported initially(two appliance clustering for Active-Active or Active-Passive is supported)ÌClustering of “w” (integrated wireless) models is not supported initiallyÌSite-to-Site RED Tunnels are not supported initially(RED devices are fully supported in XG Firewall but not RED tunnels between firewalls)ÌA couple of Advanced Web Protection features are not supportedinitially including block page override using a password and category-based quota time policies (global quotas are supported)ÌTwo-Factor Authentication is not supported initiallyÌSophos Mobile Control integration is not supported initiallyÌSophos Endpoint Deployment and Management from within the UTMis not supported (customers are encouraged to switch to SophosCloud Endpoint to take advantage of Security Heartbeat™)Sophos UTM 9 and XG Firewall Migration FAQCan I centrally manage both UTM 9 and XG Firewall with the new Sophos Firewall Manager?Sophos UTM Manager (SUM) is the centralized management platform for UTM 9 and is still supported for managing multiple UTM 9 devices. It cannot manage XG Firewall devices.Sophos Firewall Manager (SFM) is the new centralized management platform for XG Firewall. It cannot manage UTM 9 devices and therefore, if you plan to run a mix of UTM 9 and XG Firewall devices, you will need both SUM and SFM for centralized management respectively.Can I centrally report on both UTM 9 and XG Firewall with the new Sophos iView?Yes. The new version of Sophos iView can provide consolidated reports for UTM 9, XG Firewall, and CyberoamOS devices.How can I take advantage of the new Security Heartbeat™?Sophos Security Heartbeat requires both Sophos XG Firewall and Sophos Cloud Endpoint. Learn more about Security Heartbeat.Where can I get further information?Please contact your Sophos Partner should you have any further questions and monitor the Sophos Corporate Blog for ongoing news and updates related to your Sophos products. You can sign up for the Sophos Blog newsletter by entering your email address in the sign-up field in the upper right corner of the blog homepage. You can also sign up for our RSS feed.Oxford, UK | Boston, USA© Copyright 2015. Sophos Ltd. All rights reserved.Registered in England and Wales No. 2096520, The Pentagon, Abingdon Science Park, Abingdon, OX14 3YP, UKSophos is the registered trademark of Sophos Ltd. All other product and company names mentioned aretrademarks or registered trademarks of their respective owners.。

Signal LED 2Signal LED 1 Output 1Output 3Output 5Output 7 KL2408 | 8-channel digital output terminal 24 V DCT he KL2408 digital output terminal connects the binary control signals from the automation unit on to the actuators at the process level with electrical isolation. It is protected against reverse polarity connection and handles load currents with outputs that are protected against overload and short-circuit. T he Bus Terminal contains eight channels which indicate their signal state by means of light emitting diodes. It is particularly suitable for space-saving use in control cabinets. The connection technology is optimised for single-ended inputs. All components have to use the same reference point as the KL2408. The power contacts are looped through. The outputs are supplied by the 24 V power contact.KL2408 | KS2408Connection technology1-wire Number of outputs8Nominal voltage24 V DC (-15 %/+20 %)Load typeohmic, inductive, lamp load Max. output current0.5 A (short-circuit proof) per channel Short-circuit current< 2 A Breaking energy< 150 mJ/channel Reverse voltage protectionyes Electrical isolation500 V (K-bus/field potential)Current consumption power contactstyp. 60 mA + load Current consumption K-bustyp. 18 mA Bit width in the process image8 outputs Configurationno address or configuration setting Weightapprox. 70 g Operating/storage temperature-25…+60 °C/-40…+85 °C Relative humidity95 %, no condensation Vibration/shock resistanceconforms to EN 60068-2-6/EN 60068-2-27EMC immunity/emissionconforms to EN 61000-6-2/EN 61000-6-4Protect. class/installation pos.IP 20/variable Pluggable wiringfor all KSxxxx Bus Terminals Approvals/markingsCE, UL, ATEX, GL, IECEx Ex-Marking II 3 G Ex nA IIC T4 Gc Ex nA IIC T4 Gc Ex tc IIIC T135 °C DcSignal LED 8Signal LED 6Signal LED 4Signal LED 7 Signal LED 5 Signal LED 3 Power contact +24 VPower contact 0 V Output 2Output 4Output 6Output 8Top view Contact assemblyKL2408BECKHOFF New Automation Technology We reserve the right to make technical changes.。