12000_Product_Guide

OVERVIEWThe EW-7822UAD is a dual-band 802.11ac USB adapter with the fastest USB 3.0 connectivity that supports MU-MIMO, allowing greater Wi-Fi efficiency. It lets you enjoy HD streaming, online gaming, and surfing simultaneously, without lag or buffering.With the EDIMAX EW-7822UAD AC12000 Wi-Fi USB Adapter, you can improve an older Wi-Fi networking environment to the utmost AC Wi-Fi Standard by plugging this USB adapter into your computer.The EW-7822UAD is certainly a powerful and easy-to-use gadget for upgrading your existing wireless network to the next AC level.EW-7822UADAC1200 Wireless Dual-Band USB AdapterUSB 3.0 Port | Faster than EverUSB 3.0 is up to 10 times faster than USB 2.0 with data transfer rates up to 5Gbps. It’s the latest standard inconnectivity and enables devices to achieve the superfast speeds which 802.11ac can provide – for faster photos, music, videos, and data.Adjustable Antenna | Optimum SpeedThe high-gain antenna of EW-7822UAD is easily adjustable. When the signal is weak, users can adjust the antenna angle to obtain an optimum Wi-Fi performance.11ac MU-MIMO | More StreamsNo more wait time at highest throughput. The latest 11ac MU-MIMO (Multiple User - Multiple Input Multiple Output)technology runs four streams and serve multiple devices simultaneously, for the fastest speeds and uninterrupted Wi-Fi connectivity to all devices.Dual Mode | Double your FunExperience better performance and greater flexibility with EW-7822UAD for your laptop with dual-band connectivity. Either the 2.4GHz or 5GHz frequency band can be selected with top speeds at 300Mbps and 867Mbps respectively. Surf the internet and check emails on the longer-range 2.4GHz band, or use the high-speed 5GHz band for online gaming and YouTube or Netflix HD streaming.FEATURES• Supports Wave -2 compliant MU-MIMO• Supports WPS (Wi -Fi Protected Setup) hardware button for easy connection • Supports WMM QoS feature• MAX. data transfer rate up to 300Mbps (2.4GHz) or up to 867Mbps (5GHz)• Dual -band wireless connectivity for 2.4GHz or 5GHz• Adjustable antenna for optimum Wi-Fi performance1SPECIFICATIONSHARDWAREInterface 1 x USB 3.0 Type AAntenna External Antennas x 2 (2T2R)Dimensions 174.54(L) x 17.69(W) x 14.42(H) mmWeight 15gWirelessStandard • 2.4GHz: IEEE 802.11b, 802.11g, 802.11n •5GHz: IEEE 802.11ac, 802.11a, 802.11nFrequency Band 2.4000~2.4835GHz , 5.150~5.825GHzMaximum Data Speed 11a: 6/9/12/24/36/48/54Mbps;11b: 1/2/5.5/11Mbps; 11g: 6/9/12/24/36/48/54Mbps 11n (20MHz): MCS0-07, up to 144Mbps11n (40MHz): MCS0-07, up to 300Mbps11ac (80MHz): VHTMCS0-9, up to 867MbpsOutput Power 2.4GHz:11b(11M): 11±1.5 dBm , 11g(54M): 9±1.5 dBm11n(20MHz, MCS7): 8±1.5 dBm, 11n(40MHz, MCS7): 8±1.5 dBm5GHz:11a(54M): 8±1.5 dBm, 11n(20MHz, MCS7): 7±1.5 dBm,11n(40MHz, MCS7): 7±1.5 dBm, 11ac(80MHz, VHTMCS9): 5±1.5 dBmReceiver Sensitivity 2.4GHz:11b(11M): -80±2dBm, 11g(54M): -68±2dBm11n(20MHz, MCS7): -66±2dBm, 11n(40MHz, MCS7): -65±2dBm5GHz:11a(54M): -68±2dBm, 11n(20MHz, MCS7): -65±2dBm,11n(40MHz, MCS7): -62±2dBm, 11ac(80MHz, VHTMCS9): -52±2dBmOTHERSCertification CE, FCCEnvironmentalCondition •Operating Temperature: 32~104°F (0~40°C) •Storage Temperature: -4~140°F (-20~60°C) •Operating Humidity: 0~90% (NonCondensing) •Storage Humidity: Max. 95% (NonCondensing)System Requirement •Windows 10•Linux: Kernel 2.6.24 - 5.3 or above (support Fedora & Ubuntu only) •MAC 10.7 or aboveInstallation Easy setup wizard with auto run configurationPackage Content •AC1200 Wirless USB Adapter•Quick Installation GuideAC1200 Wireless Dual-Band USB AdapterMaximum performance, actual data rates, and coverage will vary depending on network conditions and environmental factors. Product specifications and design are subject to change without notice. Copyright © 2020 Edimax Technology Co. Ltd. All rights reserved. 2Edimax Technology Co., Ltd No. 278, Xinhu 1st Rd., Neihu Dist., Taipei City, TaiwanEmail:****************.twEdimax Computer Company3444 De La Cruz Blvd., Santa Clara,CA 95054, USAEmail:**************** Edimax Technology Europe B.V.Fijenhof 2, 5652 AE Eindhoven,The NetherlandsEmail:***************EW-7822UAD。

Airport Handling ManualEffective 1 January—31 December 201838NOTICEDISCLAIMER. The information contained in thispublication is subject to constant review in the lightof changing government requirements and regula-tions. No subscriber or other reader should act onthe basis of any such information without referringto applicable laws and regulations and/or withouttak ing appropriate professional advice. Althoughevery effort has been made to ensure accuracy, theInternational Air Transport Association shall not beheld responsible for any loss or damage caused byerrors, omissions, misprints or misinterpretation ofthe contents hereof. Furthermore, the InternationalAir Transport Association expressly disclaims anyand all liability to any person or entity, whether apurchaser of this publication or not, in respect ofanything done or omitted, and the consequencesof anything done or omitted, by any such person orentity in reliance on the contents of this publication.Opinions expressed in advertisements appearing inthis publication are the advertiser’s opinions and donot necessarily reflect those of IATA. The mentionof specific companies or products in advertisementdoes not imply that they are endorsed or recom-mended by IATA in preference to others of a simi-lar nature which are not mentioned or advertised.© International Air Transport Association. AllRights Reserved. No part of this publication maybe reproduced, recast, reformatted or trans-mitted in any form by any means, electronic ormechanical, including photocopying, record-ing or any information storage and retrieval sys-tem, without the prior written permission from:Senior Vice PresidentAirport, Passenger, Cargo and SecurityInternational Air Transport Association800 Place VictoriaP.O. Box 113Montreal, QuebecCANADA H4Z 1M1Airport Handling ManualMaterial No.: 9343-38ISBN 978-92-9229-505-9© 2017 International Air Transport Association. All rights reserved.TABLE OF CONTENTSPage Preface (xv)Introduction (xvii)General (1)AHM001Chapter0—Record of Revisions (1)AHM011Standard Classification and Numbering for Members Airport Handling Manuals (2)AHM012Office Function Designators for Airport Passenger and Baggage Handling (30)AHM020Guidelines for the Establishment of Airline Operators Committees (31)AHM021Guidelines for Establishing Aircraft Ground Times (34)AHM050Aircraft Emergency Procedures (35)AHM070E-Invoicing Standards (53)Chapter1—PASSENGER HANDLING (91)AHM100Chapter1—Record of Revisions (91)AHM110Involuntary Change of Carrier,Routing,Class or Type of Fare (92)AHM112Denied Boarding Compensation (98)AHM120Inadmissible Passengers and Deportees (99)AHM140Items Removed from a Passenger's Possession by Security Personnel (101)AHM141Hold Loading of Duty-Free Goods (102)AHM170Dangerous Goods in Passenger Baggage (103)AHM176Recommendations for the Handling of Passengers with Reduced Mobility(PRM) (105)AHM176A Acceptance and Carriage of Passengers with Reduced Mobility(PRM) (106)AHM180Carriage of Passengers with Communicable Diseases (114)AHM181General Guidelines for Passenger Agents in Case of SuspectedCommunicable Disease (115)Chapter2—BAGGAGE HANDLING (117)AHM200Chapter2—Record of Revisions (117)AHM210Local Baggage Committees (118)AHM211Airport Operating Rules (124)Airport Handling ManualPageChapter2—BAGGAGE HANDLING(continued)AHM212Interline Connecting Time Intervals—Passenger and Checked Baggage (126)AHM213Form of Interline Baggage Tags (128)AHM214Use of the10Digit Licence Plate (135)AHM215Found and Unclaimed Checked Baggage (136)AHM216On-Hand Baggage Summary Tag (138)AHM217Forwarding Mishandled Baggage (139)AHM218Dangerous Goods in Passengers'Baggage (141)AHM219Acceptance of Firearms and Other Weapons and Small Calibre Ammunition (142)AHM221Acceptance of Power Driven Wheelchairs or Other Battery Powered Mobility Aidsas Checked Baggage (143)AHM222Passenger/Baggage Reconciliation Procedures (144)AHM223Licence Plate Fallback Sortation Tags (151)AHM224Baggage Taken in Error (154)AHM225Baggage Irregularity Report (156)AHM226Tracing Unchecked Baggage and Handling Damage to Checked and UncheckedBaggage (159)AHM230Baggage Theft and Pilferage Prevention (161)AHM231Carriage of Carry-On Baggage (164)AHM232Handling of Security Removed Items (168)AHM240Baggage Codes for Identifying ULD Contents and/or Bulk-Loaded Baggage (169)Chapter3—CARGO/MAIL HANDLING (171)AHM300Chapter3—Record of Revisions (171)AHM310Preparation for Loading of Cargo (172)AHM311Securing of Load (174)AHM312Collection Sacks and Bags (177)AHM320Handling of Damaged Cargo (178)AHM321Handling of Pilfered Cargo (179)AHM322Handling Wet Cargo (180)AHM330Handling Perishable Cargo (182)AHM331Handling and Protection of Valuable Cargo (184)AHM332Handling and Stowage of Live Animals (188)AHM333Handling of Human Remains (190)Table of ContentsPageChapter3—CARGO/MAIL HANDLING(continued)AHM340Acceptance Standards for the Interchange of Transferred Unit Load Devices (191)AHM345Handling of Battery Operated Wheelchairs/Mobility AIDS as Checked Baggage (197)AHM350Mail Handling (199)AHM351Mail Documents (203)AHM353Handling of Found Mail (218)AHM354Handling of Damaged Mail (219)AHM355Mail Security (220)AHM356Mail Safety (221)AHM357Mail Irregularity Message (222)AHM360Company Mail (224)AHM380Aircraft Documents Stowage (225)AHM381Special Load—Notification to Captain(General) (226)AHM382Special Load—Notification to Captain(EDP Format and NOTOC Service) (231)AHM383Special Load—Notification to Captain(EDP NOTOC Summary) (243)AHM384NOTOC Message(NTM) (246)Chapter4—AIRCRAFT HANDLING AND LOADING (251)AHM400Chapter4—Record of Revisions (251)AHM411Provision and Carriage of Loading Accessories (252)AHM420Tagging of Unit Load Devices (253)AHM421Storage of Unit Load Devices (263)AHM422Control of Transferred Unit Load Devices (268)AHM423Unit Load Device Stock Check Message (273)AHM424Unit Load Device Control Message (275)AHM425Continued Airworthiness of Unit Load Devices (279)AHM426ULD Buildup and Breakdown (283)AHM427ULD Transportation (292)AHM430Operating of Aircraft Doors (295)AHM431Aircraft Ground Stability—Tipping (296)AHM440Potable Water Servicing (297)AHM441Aircraft Toilet Servicing (309)Airport Handling ManualPageChapter4—AIRCRAFT HANDLING AND LOADING(continued)AHM450Standardisation of Gravity Forces against which Load must be Restrained (310)AHM451Technical Malfunctions Limiting Load on Aircraft (311)AHM453Handling/Bulk Loading of Heavy Items (312)AHM454Handling and Loading of Big Overhang Items (313)AHM455Non CLS Restrained ULD (316)AHM460Guidelines for Turnround Plan (323)AHM462Safe Operating Practices in Aircraft Handling (324)AHM463Safety Considerations for Aircraft Movement Operations (337)AHM465Foreign Object Damage(FOD)Prevention Program (340)Chapter5—LOAD CONTROL (343)AHM500Chapter5—Record of Revisions (343)AHM501Terms and Definitions (345)AHM503Recommended Requirements for a New Departure Control System (351)AHM504Departure Control System Evaluation Checklist (356)AHM505Designation of Aircraft Holds,Compartments,Bays and Cabin (362)AHM510Handling/Load Information Codes to be Used on Traffic Documents and Messages (368)AHM513Aircraft Structural Loading Limitations (377)AHM514EDP Loading Instruction/Report (388)AHM515Manual Loading Instruction/Report (404)AHM516Manual Loadsheet (416)AHM517EDP Loadsheet (430)AHM518ACARS Transmitted Loadsheet (439)AHM519Balance Calculation Methods (446)AHM520Aircraft Equipped with a CG Targeting System (451)AHM530Weights for Passengers and Baggage (452)AHM531Procedure for Establishing Standard Weights for Passengers and Baggage (453)AHM533Passengers Occupying Crew Seats (459)AHM534Weight Control of Load (460)AHM536Equipment in Compartments Procedure (461)AHM537Ballast (466)Table of ContentsPageChapter5—LOAD CONTROL(continued)AHM540Aircraft Unit Load Device—Weight and Balance Control (467)AHM550Pilot in Command's Approval of the Loadsheet (468)AHM551Last Minute Changes on Loadsheet (469)AHM561Departure Control System,Carrier's Approval Procedures (471)AHM562Semi-Permanent Data Exchange Message(DEM) (473)AHM564Migration from AHM560to AHM565 (480)AHM565EDP Semi-Permanent Data Exchange for New Generation Departure Control Systems (500)AHM570Automated Information Exchange between Check-in and Load Control Systems (602)AHM571Passenger and Baggage Details for Weight and Balance Report(PWR) (608)AHM580Unit Load Device/Bulk Load Weight Statement (613)AHM581Unit Load Device/Bulk Load Weight Signal (615)AHM583Loadmessage (619)AHM587Container/Pallet Distribution Message (623)AHM588Statistical Load Summary (628)AHM590Load Control Procedures and Loading Supervision Responsibilities (631)AHM591Weight and Balance Load Control and Loading Supervision Training and Qualifications (635)Chapter6—MANAGEMENT AND SAFETY (641)AHM600Chapter6—Record of Revisions (641)AHM610Guidelines for a Safety Management System (642)AHM611Airside Personnel:Responsibilities,Training and Qualifications (657)AHM612Airside Performance Evaluation Program (664)AHM615Quality Management System (683)AHM616Human Factors Program (715)AHM619Guidelines for Producing Emergency Response Plan(s) (731)AHM620Guidelines for an Emergency Management System (733)AHM621Security Management (736)AHM633Guidelines for the Handling of Emergencies Requiring the Evacuation of an Aircraft During Ground Handling (743)AHM650Ramp Incident/Accident Reporting (745)AHM652Recommendations for Airside Safety Investigations (750)AHM660Carrier Guidelines for Calculating Aircraft Ground Accident Costs (759)Airport Handling ManualChapter7—AIRCRAFT MOVEMENT CONTROL (761)AHM700Chapter7—Record of Revisions (761)AHM710Standards for Message Formats (762)AHM711Standards for Message Corrections (764)AHM730Codes to be Used in Aircraft Movement and Diversion Messages (765)AHM731Enhanced Reporting on ATFM Delays by the Use of Sub Codes (771)AHM780Aircraft Movement Message (774)AHM781Aircraft Diversion Message (786)AHM782Fuel Monitoring Message (790)AHM783Request Information Message (795)AHM784Gate Message (797)AHM785Aircraft Initiated Movement Message(MVA) (802)AHM790Operational Aircraft Registration(OAR)Message (807)Chapter8—GROUND HANDLING AGREEMENTS (811)AHM800Chapter8—Record of Revisions (811)AHM801Introduction to and Comments on IATA Standard Ground Handling Agreement(SGHA) (812)AHM803Service Level Agreement Example (817)AHM810IATA Standard Ground Handling Agreement (828)AHM811Yellow Pages (871)AHM813Truck Handling (872)AHM815Standard Transportation Documents Service Main Agreement (873)AHM817Standard Training Agreement (887)AHM830Ground Handling Charge Note (891)AHM840Model Agreement for Electronic Data Interchange(EDI) (894)Chapter9—AIRPORT HANDLING GROUND SUPPORT EQUIPMENT SPECIFICATIONS (911)AHM900Chapter9—Record of Revisions (911)AHM901Functional Specifications (914)AHM904Aircraft Servicing Points and System Requirements (915)AIRBUS A300B2320-/B4/C4 (917)A300F4-600/-600C4 (920)A310–200/200C/300 (926)A318 (930)A319 (933)Table of ContentsPageChapter9—AIRPORT HANDLING GROUND SUPPORT EQUIPMENT SPECIFICATIONS(continued) AHM904Aircraft Doors,Servicing Points and System Requirements for the Use of Ground Support Equipment(continued)A320 (936)A321 (940)A330-200F (943)A330-300 (948)A340-200 (951)A340-300 (955)A340-500 (959)A340-600 (962)Airbus350900passenger (965)AIRBUS A380-800/-800F (996)ATR42100/200 (999)ATR72 (1000)AVRO RJ70 (1001)AVRO RJ85 (1002)AVRO RJ100 (1003)B727-200 (1004)B737–200/200C (1008)B737-300,400,-500 (1010)B737-400 (1013)B737-500 (1015)B737-600,-700,-700C (1017)B737-700 (1020)B737-800 (1022)B737-900 (1026)B747–100SF/200C/200F (1028)B747–400/400C (1030)B757–200 (1038)B757–300 (1040)Airport Handling ManualPageChapter9—AIRPORT HANDLING GROUND SUPPORT EQUIPMENT SPECIFICATIONS(continued) AHM904Aircraft Doors,Servicing Points and System Requirements for the Use of Ground Support Equipment(continued)B767—200/200ER (1041)B767—300/300ER (1044)B767—400ER (1048)B777–200/200LR (1051)B777–300/300ER (1055)Boeing787800passenger (1059)BAe ATP(J61) (1067)Bombardier CS100 (1068)Bombardier CS300 (1072)CL-65(CRJ100/200) (1076)DC8–40/50F SERIES (1077)DC8–61/61F (1079)DC8–62/62F (1081)DC8–63/63F (1083)DC9–15/21 (1085)DC9–32 (1086)DC9–41 (1087)DC9–51 (1088)DC10–10/10CF (1089)DC10–30/40,30/40CF (1091)EMBRAER EMB-135Regional Models (1092)EMBRAER EMB-145Regional Models (1094)Embraer170 (1096)Embraer175 (1098)Embraer190 (1100)Embraer195 (1102)FOKKER50(F27Mk050) (1104)FOKKER50(F27Mk0502) (1106)Chapter9—AIRPORT HANDLING GROUND SUPPORT EQUIPMENT SPECIFICATIONS(continued) AHM904Aircraft Doors,Servicing Points and System Requirements for the Use of Ground Support Equipment(continued)FOKKER70(F28Mk0070) (1108)FOKKER100(F28Mk0100) (1110)FOKKER100(F28Mk0100) (1112)IL-76T (1114)MD-11 (1116)MD–80SERIES (1118)SAAB2000 (1119)SAAB SF-340 (1120)TU-204 (1122)AHM905Reference Material for Civil Aircraft Ground Support Equipment (1125)AHM905A Cross Reference of IATA Documents with SAE,CEN,and ISO (1129)AHM909Summary of Unit Load Device Capacity and Dimensions (1131)AHM910Basic Requirements for Aircraft Ground Support Equipment (1132)AHM911Ground Support Equipment Requirements for Compatibility with Aircraft Unit Load Devices (1136)AHM912Standard Forklift Pockets Dimensions and Characteristics for Forkliftable General Support Equipment (1138)AHM913Basic Safety Requirements for Aircraft Ground Support Equipment (1140)AHM914Compatibility of Ground Support Equipment with Aircraft Types (1145)AHM915Standard Controls (1147)AHM916Basic Requirements for Towing Vehicle Interface(HITCH) (1161)AHM917Basic Minimum Preventive Maintenance Program/Schedule (1162)AHM920Functional Specification for Self-Propelled Telescopic Passenger Stairs (1164)AHM920A Functional Specification for Towed Passenger Stairs (1167)AHM921Functional Specification for Boarding/De-Boarding Vehicle for Passengers withReduced Mobility(PRM) (1169)AHM922Basic Requirements for Passenger Boarding Bridge Aircraft Interface (1174)AHM923Functional Specification for Elevating Passenger Transfer Vehicle (1180)AHM924Functional Specification for Heavy Item Lift Platform (1183)AHM925Functional Specification for a Self-Propelled Conveyor-Belt Loader (1184)AHM925A Functional Specification for a Self-Propelled Ground Based in-Plane LoadingSystem for Bulk Cargo (1187)Chapter9—AIRPORT HANDLING GROUND SUPPORT EQUIPMENT SPECIFICATIONS(continued) AHM925B Functional Specification for a Towed Conveyor-Belt Loader (1190)AHM926Functional Specification for Upper Deck Catering Vehicle (1193)AHM927Functional Specification for Main Deck Catering Vehicle (1197)AHM930Functional Specification for an Upper Deck Container/Pallet Loader (1201)AHM931Functional Specification for Lower Deck Container/Pallet Loader (1203)AHM932Functional Specification for a Main Deck Container/Pallet Loader (1206)AHM933Functional Specification of a Powered Extension Platform to Lower Deck/Container/ Pallet Loader (1209)AHM934Functional Specification for a Narrow Body Lower Deck Single Platform Loader (1211)AHM934A Functional Specification for a Single Platform Slave Loader Bed for Lower DeckLoading Operations (1213)AHM936Functional Specification for a Container Loader Transporter (1215)AHM938Functional Specification for a Large Capacity Freighter and Combi Aircraft TailStanchion (1218)AHM939Functional Specification for a Transfer Platform Lift (1220)AHM941Functional Specification for Equipment Used for Establishing the Weight of aULD/BULK Load (1222)AHM942Functional Specification for Storage Equipment Used for Unit Load Devices (1224)AHM950Functional Specification for an Airport Passenger Bus (1225)AHM951Functional Specification for a Crew Transportation Vehicle (1227)AHM953Functional Specifications for a Valuable Cargo Vehicle (1229)AHM954Functional Specification for an Aircraft Washing Machine (1230)AHM955Functional Specification for an Aircraft Nose Gear Towbar Tractor (1232)AHM956Functional Specification for Main Gear Towbarless Tractor (1235)AHM957Functional Specification for Nose Gear Towbarless Tractor (1237)AHM958Functional Specification for an Aircraft Towbar (1240)AHM960Functional Specification for Unit Load Device Transport Vehicle (1242)AHM961Functional Specification for a Roller System for Unit Load Device Transportation on Trucks (1245)AHM962Functional Specification for a Rollerised Platform for the Transportation of Twenty Foot Unit Load Devices that Interfaces with Trucks Equipped to Accept Freight ContainersComplying with ISO668:1988 (1247)AHM963Functional Specification for a Baggage/Cargo Cart (1249)AHM965Functional Specification for a Lower Deck Container Turntable Dolly (1250)AHM966Functional Specification for a Pallet Dolly (1252)Chapter9—AIRPORT HANDLING GROUND SUPPORT EQUIPMENT SPECIFICATIONS(continued) AHM967Functional Specification for a Twenty Foot Unit Load Device Dolly (1254)AHM968Functional Specification for Ramp Equipment Tractors (1256)AHM969Functional Specification for a Pallet/Container Transporter (1257)AHM970Functional Specification for a Self-Propelled Potable Water Vehicle with Rear orFront Servicing (1259)AHM971Functional Specification for a Self-Propelled Lavatory Service Vehicle with Rear orFront Servicing (1262)AHM972Functional Specifications for a Ground Power Unit for Aircraft Electrical System (1265)AHM973Functional Specification for a Towed Aircraft Ground Heater (1269)AHM974Functional Specification for Aircraft Air Conditioning(Cooling)Unit (1272)AHM975Functional Specifications for Self-Propelled Aircraft De-Icing/Anti-Icing Unit (1274)AHM976Functional Specifications for an Air Start Unit (1278)AHM977Functional Specification for a Towed De-Icing/Anti-Icing Unit (1280)AHM978Functional Specification for a Towed Lavatory Service Cart (1283)AHM979Functional Specification for a Towed Boarding/De-Boarding Device for Passengers with Reduced Mobility(PRM)for Commuter-Type Aircraft (1285)AHM980Functional Specification for a Self-Propelled Petrol/Diesel Refueling Vehicle forGround Support Equipment (1287)AHM981Functional Specification for a Towed Potable Water Service Cart (1289)AHM990Guidelines for Preventative Maintenance of Aircraft Towbars (1291)AHM994Criteria for Consideration of the Investment in Ground Support Equipment (1292)AHM995Basic Unit Load Device Handling System Requirements (1296)AHM997Functional Specification for Sub-Freezing Aircraft Air Conditioning Unit (1298)Chapter10—ENVIRONMENTAL SPECIFICATIONS FOR GROUND HANDLING OPERATIONS (1301)AHM1000Chapter10—Record of Revisions (1301)AHM1001Environmental Specifications for Ground Handling Operations (1302)AHM1002Environmental Impact on the Use of Ground Support Equipment (1303)AHM1003GSE Environmental Quality Audit (1305)AHM1004Guidelines for Calculating GSE Exhaust Emissions (1307)AHM1005Guidelines for an Environmental Management System (1308)Chapter11—GROUND OPERATIONS TRAINING PROGRAM (1311)AHM1100Chapter11—Record of Revisions (1311)AHM1110Ground Operations Training Program (1312)Appendix A—References (1347)Appendix B—Glossary (1379)Alphabetical List of AHM Titles (1387)IATA Strategic Partners..............................................................................................................................SP–1。

Safe Harbor StatementThe following is intended to outline our general product direction. It is intended for information purposes only, and may not be incorporated into any contract. It is not a commitment to deliver any material, code, or functionality, and should not be relied upon in making purchasing decisions. The development, release, timing,and pricing of any features or functionality described for Oracle’s products may change and remains at the sole discretion of Oracle Corporation.Program AgendaRecovery Appliance & Oracle Cloud Integration Recovery Appliance & Oracle Cloud @ Customer Integration Dialog Semiconductor: ZDLRA combined with ExaCC123Oracle Flexible Deployment ChoicesPublic Cloud ServiceCloud at CustomerOn-PremisesCustomer Data CenterPurchased Customer Managed Customer Data CenterSubscriptionOracle ManagedOracle CloudSubscriptionOracle ManagedOn-Premises Recovery ApplianceZero Data Loss Recovery Appliance ProtectedDatabasesProtects all DBs in Data Center •RMAN Driven Framework •Petabytes of data•Oracle 10.2-12c, any platform •No expensive DB backup agents Delta Store•Stores validated, compressed data on disk•Fast restores to any point-in-time•Built on Exadata scaling and resilience•Enterprise Manager end-to-end controlRecovery ApplianceReplicates to RemoteRecovery ApplianceOffloads TapeBackupDelta Push•Send only Incremental changes and no more full backups•Real-time transactions copied over for continuous data protection Integrated Media Manager / Third Party Backup Client SWRecovery Appliance with Oracle CloudZero Data Loss Recovery Appliance with Oracle Cloud Delta Push •DBs access and send only changes •Minimal impact on production •Real-time redo transport instantly protects ongoing transactions ProtectedDatabasesProtects all DBs in Data Center•Petabytes of data•RMAN-driven backup & restore•Oracle 10.2-12.2, any platform•No expensive DB backup agents Delta Store •Stores validated, compressed DB changes on disk •Fast restores to any point-in-time using ‘virtual full’•Built on Exadata scaling and resilience •Enterprise Manager end-to-end control Recovery Appliance Replicates to Remote Recovery Appliance Tape Backup Offloads Cloud / Tape BackupDB Backup Cloud ServiceRecovery Appliance Archive to Cloud: Backup Workflow On-Prem ProtectedDatabasesOn-Prem RecoveryAppliance12345Movement from Object Storage toArchive Storage based on Tiering Policyof the Object Storage Container (5)1.Incremental backupsent unencrypted toZDLRA –Virtual Full iscreated2.ZDLRA requestsencryption key fromOKV server3.OKV server sendsencryption key toZDLRA4.ZDLRA encrypts virtualfull backup pieces andsends them to cloudstorage5.If container class isTiering, backup piecesare moved to ArchiveStorageOracle Key Vault serverRestore from Cloud Storage via Recovery ApplianceOn-Prem ProtectedDatabases 6236514 1.Restore request from ZDLRA is initiated on Protected DB 2.ZDLRA requests encryption key from OKV server 3.OKV server sends encryption key to ZDLRA 4.ZDLRA requests backup pieces from cloud storage 5.If backup pieces are in Archive Storage, they are first recalled to Object Storage 6.ZDLRA retrieves backup pieces from Object Storage, decrypts them and sends them to Protected DB On-Prem RecoveryApplianceOracle Key Vault serverRestore Directly to On-Prem Database from Cloud Storage On-Prem ProtectedDatabases42 311.Restore request fromCloud Storage isinitiated by ProtectedDB2.Protected DB (must beenrolled as OKVendpoint) requestsdecryption key to OKVserver3.OKV server sendsdecryption key toProtected DB4.Protected DB catalogs& reads backup piecesfrom Cloud ObjectStorageOracle Key Vault serverNote: Restoring directly from OracleCloud Archive Storage will beannounced at a future time.Restore Directly to DBCS / ExaCS DatabaseOracle Key Vault server4231 1.Restore request from Cloud Storage is initiated by Cloud DB 2.Cloud DB (must be enrolled as OKV endpoint) requests decryption key to OKV server 3.OKV server sends decryption key to Cloud DB 4.Cloud DB catalogs & reads backup pieces from Cloud Object Storage Key may alternatively be exported from OKV server into a wallet file and then copied to Cloud DB instance (2,3)Note: Restoring directly from Oracle Cloud Archive Storage will be announced at a future time.Test/Dev Cloud RefreshNEW:Enhanced EM End-to-End Backup ReportsTrack Recovery Appliance Backups at Database Level –Virtual Full, Tape Copy, Replicated CopyTrack Recovery Appliance Destination, Transfer Rates, Backup Type, Start/End Time, Backup SizeTrack Recovery Appliance Backups by Piece Names –Disk / Tape / Completion Time / Size▪Monitoring metrics show filtered data from RA target metrics▪Filtered within EM repository ▪No additional collections run on ZDLRA▪Metric shape identical to RA target, but filtered by protected DBRecovery Appliance with Cloud @ CustomerZero Data Loss Recovery Appliance with Cloud @ CustomerDelta Push•DBs access and send only changes •Minimal impact on production •Real-time redo transport instantly protects ongoing transactionsProtected DatabasesProtects all DBs in Data Center•Petabytes of data•RMAN-driven backup & restore •Oracle 10.2-12.2, any platform •No expensive DB backup agentsDelta Store•Stores validated, compressed DB changes on disk •Fast restores to any point-in-time using ‘virtual full’•Built on Exadata scaling and resilience •Enterprise Manager end-to-end controlRecovery ApplianceReplicates to Remote Recovery ApplianceTape BackupRecovery Appliance: ExaCC Backup & Recovery ConfigurationExaCCControlPlaneRecovery ApplianceSource DatabaseDestination DatabaseSOE TBSDay 1: Full Backup ExportImportRead-only Meta DataSOE TBSNEW:Database Migration using RA –Oracle 10g thru 18cDramatically Reduce Migration Time –From Hours/Days to Few Hours or Less•Centralized, offloaded “migration engine” & DB remains read-write (short read-only window at end)•Daily incremental backups -> virtual full backups on Recovery Appliance •At destination, restore latest virtual full backup, prior to migration window•RESTORE FROM PLATFORM XXX FOREIGN DATAFILE YYY •When ready to switchover, final incremental and metadata tablespace export taken in read-only•RECOVER FROM PLATFORM XXX FOREIGN DATAFILECOPY YYY •IMPORT Data Pump export file•Destination open in read-only to verify, then open read-write for businessVirtual Full Restore Restore & Recover Final IncrementalDay 2->N: Incremental BackupsDay n: Final Incremental Read-writeThe 10 commandments of deploying ExaCC with ZDLRA1.Understand the importance of networking-Engage the network team early in the sales cycle, workshops and PoC.2.Engage the MAA team in ExaCC/ ZDLRA discussions -Architecture, customer meetings and deployment planning.3.Understand how the ZDLRA will be used with ExaCC in the customer's environment.4.Learn the network topology for ExaCC/ ZDLRA deployment -Backup and Client Networks.5.Uncover any potential bottlenecks with ExaCC/ ZDLRA backup and restores -Network capacity for OCC / ExaCC.6.Respect the RTO -How the network throughput and the database size can affect it.7.Highlight any potential red flags that would not allow to meet the RTO.8.Test early -How to measure network performance from RMAN for ZDLRA or Cloud Backups (Doc ID 2371860.1),RMAN nettest, and validate the configuration after the initial service configuration..9.Be careful when using wallets -Some customers may or may not enable TDE and may or may not enable real timeredo shipping. There are multiple wallets involved and a bad configuration will cause trouble.10.Validate the bkup_api and ensure it uses the ZDLRA best practices and make sure the latest libra.so is installed onthe database nodes.Dialog SemiconductorDialog SemiconductorZDLRA combined with ExaCC…personal…portable…connected Jochen HinderbergerDialog Technology LeadershipLeadership portfolio in power savings technologiesBest-in-class mobile PMIC with broad IP portfolios#1 market share for pure play PMIC suppliers#2 Bluetooth LE market share. Over 180M units shipped with industry’s lowest power#1 in RapidCharge (fast charging ) market share for smartphone adapters. Leading LED driver solutions.Industry’s only fully configurable Mixed -signal ICs (CMICs)Industry leading RF wireless charging2017:Where we came fromExadata X4(Primary Cluster)Exadata X2(Standby Cluster)NFS mounted backup deviceMultiple app servers on VM ware ESX +SimplifityNFS file systemsSetup today:Engineered Systems todayOCC(Control Plane)ExaCC X6(Primary Cluster)Exadata X4(Standby Cluster)ZDLRA(Backup Appliance)Multiple app servers on VM ware ESX +SimplifityNFS file systemsGoal: all services will run in the cloud (at customer)...as a next step into the Oracle public cloudZDLRA_12.2.1.1.1.201803Where we are working onOCC(Control Plane+virtual machines)ExaCC X6(Primary Cluster)Exadata X4(Standby Cluster)ZDLRA(Backup Appliance)NFS file systemsMultiple app servers on VM ware ESX +Simplifity-No backup load on Primary-Real time redo log shipping is enabled from Standby using redo routes Backup architecture ExaCC Primary Cloud at Customer Online Redo shipment only to standby using Redo RoutesExadata X4 -Standby On-prem Online Redoshipment toZDLRA fromstandby ZDLRAOn-premChanges to RTO?-RTO was 48 hours-With ZDLRA as of April 13th, we are down to 12 hours (~4X faster)-Weekly L0 duration was 38 hours-With ZDLRA the first L0 was around 10 hours (~4X) and no more L0 of primary being required as ZDLRA will create its own virtual L0 backups -Earlier, INCR L1 backup + archive log backup duration was 3+ hours-With ZDLRA, the INCR L1 backup taking around 1.5 hours (~2X faster) along with Real Time Redo Log shipping enabledZDLRA for data migration?-ZDLRA together with DG can nicely be used for migrations to new environments:-Backup the database to ZDLRA + redo log shipping enabled-Restore at any point in time a (virtual) full backup to the new environment-Add the restored DB as a standby-DG switch over to the restored DB on new environment took <5 minutesmigration with no load at primary and at higher speed compared to standard backupExaCC PrimaryCloud at CustomerRMAN duplicationfrom DomU nodes ofExaCC to restore ~52TB of productiondatabase from ZDLRA ZDLRAOn-premInitial challenges with the ZDLRA-Restore timeout issue experienced during RMAN duplication:-Network switch port failure. This was an internal issue but was identified by Oracle Support and fixed by us-Restore of a Bigfile datafile (around 12 TB) timed out at client side. The timeout was related to an issue with the restore servlet which was resolved by changing aninternal parameter on the ZDLRA-ZDLRA development was directly involved with daily follow-up calls. This issue is fixed in a later release of ZDLRA software-our findings as early adaptor are now part of the todays SW version-Multiple executions of manual restore / recover and RMAN duplication scenarios weretested with ExaCC by recovering the production database of 52 TB from ZDLRA. Thistesting was done with different RMAN attributes and RMAN channel tunings related toRA to make sure maximum possible speed of restore / recover got achieved with nofailures in the process of duplication or restore.Wrap up-Low RTO: Forever INCR1 backup to ZDLRA and logical INCR0 backup is available all time for restore. Nearly ~ 4X faster for restoration of multi-terabyte database incase offailure-Low RPO: Real time redo shipping is enabled which leads to RPO <1sec-No special monitoring / maintenance on ZDLRA because it is an appliance managed by Oracle (ASRs, Platinum patching, integrates into existing EM13 monitoring)-BI reports are available to check the status of backup / internal jobs / commands executed on RA next to EM13 monitoring-Higher performance compared to the previous legacy backupPowering the Smart Connected Future…personal…portable…connectedQ & AOther Recovery Appliance Sessions & Demos•Zero Data Loss Recovery Appliance: Insider’s Guide to Architecture & Best Practices –Wednesday, Oct 24, 4:45-5:30 pm, Moscone West –Room 3007–Co-speaker: METRO-nom GmbH–Latest deployment, monitoring, and operational best practices•Recovery Appliance & Backup/Recovery Demo Showcases–The Exchange, Moscone South, Open Monday-Wednesday, Talk to Experts–Live RA Archive to Cloud, HA for Backup & Recovery Operations, Database Migration Demos –Live RMAN, OSB, Backup Cloud Service Demos。

Using GS1Application Identifiers Adding Application Identifiers by using theBarTender Application Identifier WizardSupports the following BarTender software versions:BarTender2016,BarTender2019ContentsOverview3 Example1:Single Application Identifier4 Example2:Two Concatenated Application Identifiers6 Related Documentation8OverviewAn Application Identifier is a number at the beginning of a string of data that identifies the intended interpretation of the data that follows.It also identifies the size of the data.The GS1specifications define numerous Application Identifiers,such as serial number or expiration date.Some Application Identifiers specify data fields that contain a fixed number of characters,while others specify data fields that contain a variable number of characters.For example,the Global Trade Item Number(GTIN)shown here is a fixed-length field that contains exactly14characters.The Application Identifier for a container code is"01".The"6"on the end is a check digit that BarTender generates.The serial number is a variable-length field that may contain up to20characters.Its Application Identifier is"21,"and no check digit is required.Multiple Application Identifiers and their data fields can be combined into a single barcode.When a variable-length data field is combined with other fields in a barcode,it must be immediately followed by a field separator character(unless it is the last field in the barcode symbol—see the following note).The FNC1character,"^1",acts as this field separator.It signals that the variable-length data field has ended and that another data field is beginning.(This character is suppressed in the human readable part of the barcode.)When you are concatenating multiple Application Identifiers and theirfields but only one of them is of variable length,we recommend thatyou place the variable-length field at the end of the symbol,so thatyou won't have to use a separator character.The BarTender Application Identifier wizard makes it easy to construct barcodes that have the Application Identifiers and field separator characters inserted correctly.(The wizard is not available in the Basic or UltraLite editions).This white paper shows examples of how to use the wizard.For more information,refer to the GS1Application Identifier Data Source Wizard topic in the BarTender help system.Example1:Single Application IdentifierThis example shows how to use the Application Identifier wizard to construct a single barcode that has a single Application Identifier and its associated data string.In this scenario,a box must have a simple barcode label that contains the serial shipping container code(SSCC)number.To construct this barcode:1.Open BarTender.2.Create a new BarTender document.Select and configure the printer stock by using the NewDocument wizard.3.On the object toolbar,click the icon to open the Select Barcode dialog.4.In the search bar,enter"GS1-128"(without the quotation marks).Click the first barcode thatappears,and then click Select.5.Click anywhere on your template to add the barcode.6.Double-click the barcode object.The Barcode Properties dialog opens.7.In the navigation pane,click Symbology and Size.8.Click GS1Application Identifier Data Source Wizard to start the Application Identifier wizard.9.On the Welcome page,click Next.10.On the Application Identifiers page,use either the Search field or the scroll bars to select theApplication Identifier that you want,and then click Next.(In this example,use00SSCC-18 Serial Shipping Container Code)11.On the Data Source Linking page,click to select One data source for all components,andthen click Next.12.On the Select Data Source Type page,select a data source from the Type list.The optionsthat are available depend on the Application Identifier that you selected.For example,the Clock data source type is not an available option for a container code,but it is for anexpiration date.In this example,select Database Field,and then click Next.13.On the Database Field page,select the field in the Field Name list that will provide the datafor the shipping code.You can also change the default data for the field in the Sample Field Data box.Click Next.If the database connection has not already been set up,theField Name list is empty.To create a database connection,click Database Connection Setup and then follow the steps inthe Database Connection wizard.14.On the Append More Data page,you have the option to concatenate another ApplicationIdentifier and data field.For this example,click to select No,I don’t need any more,and then click Next.15.On the Finished page,click Finish to close the wizard.16.In the Barcode Properties dialog,click Close.You should now have a barcode that looks likethe following.Example2:Two Concatenated Application IdentifiersThis example shows how to construct a barcode that has two Application Identifiers,each followed by a data field.In this scenario,an outer shipping carton needs a label that has a barcode that contains a serial shipping container code(SSCC)and the weight of the carton.The first13steps are exactly the same as described in the Example1chapter of this white paper. Complete those steps,and then continue as follows:1.On the Append More Data page,click to select Yes,I would like to append another,and thenclick Next.2.On the Application Identifiers page,enter“weight”in the Search box to filter the availableApplication Identifiers,and then select330n Gross Weight(Kilograms).Click Next.3.On the Ready to Setup Data Component page,the arrow shows that the next step is tospecify where the decimal point will be.Click Next.4.On the Decimal Point Position page,select the decimal point position that you want from thelist,and then click Next.(In this example,select option2.)5.On the Ready to Setup Data Component page,the arrow shows that the last step is toconfigure the data field itself.Click Next.6.On the Select Data Source Type page,select Embedded Data from the Type list,and thenclick Next.7.On the Embedded Data page,enter the data for the field.In this example,use21.46kg.ClickNext.8.On the Append More Data page,click to select No,I don’t need any more,and then clickNext.9.On the Finished page,click Finish to close the wizard.10.In the Barcode Properties dialog,click Close.You should now have a barcode that looks likethe following.Related DocumentationBarTender Help Systeml Understanding Barcode Symbologiesl GS1-128(UCC/EAN-128)and Application Identifier Specificationl GS1Application Identifier Data Source Wizardl Barcode ObjectOther ResourcesPlease visit the Seagull Scientific Barcode Guide athttps:///Content/gettingStarted.htm.l GS1https:///Content/GS1.htmTo learn more,please visit the GS1website at https://.l GS1Application Identifiers(PDF)https:///sites/default/files/docs/barcodes/GS1Application Identifiers.pdfl GS1General Specifications(PDF)https:///docs/barcodes/GS1_General_Specifications.pdf。

12KPEAutomotive grade 12000 W Transient voltage suppressorProduct features• Automotive grade (AEC-Q101 qualified)• Excellent clamping capability • High reliability application•12000 W peak pulse power capability at 10/1000 μs waveform• Typical I R less than 5 μA above 22 V•Fast response time: typically less than 1.0 ps from 0 V to V BR minimum •Plastic package meets UL 94 V-0 flammability rating• Terminal: tin plated, solderable per J-STD-002•UL 497B recognized.File No. : E198449 Guide QVGQ2Applications• Automotive chassis and safety systems • Advanced driver assistance systems (ADAS)• Communication and infotainment systems • Network systems and body electronics • Power Train controls •xEV and battery systemsEnvironmental compliance and general specifications•ISO16750-2 P5A: 12 V system (87 V/0.5 Ω/400 ms)•ISO16750-2 P5A: 24 V system (174 V/2 Ω/350 ms)•AEC-Q101 qualified12KPE 20 C AFamily name VRvoltage(“-” indicates decimal point) Bi-/Uni-Directional (Blank=Uni, C=Bi)Voltage tolerance Ordering part numberPIN configurationHHigh reliability application2Technical Data ELX1058Effective June 202112KPE Automotive grade 12000 W Transient voltage suppressor/electronicsParameterSymbolValueUnitStorage operating junction temperature range T STG / T J -55 to +175°C Steady state power dissipation at T L = +75 °C P M(AV) 8W Peak pulse power dissipation on 10/1000 μs waveformP PP 12000W Maximum instantaneous forward voltage at 100 A for unidirectionalV F 5V Peak forward surge current, 8.3 ms single half sine wave 1I FSM 600A Typical thermal resistance junction to lead R JL 8.0°C/W Typical thermal resistance junction to ambientR JA40°C/WAbsolute maximum ratings(+25 °C, RH=45%-75%, unless otherwise noted)1. Measured on 8.3 ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle = 4 per minute maximumPackaging information300 parts per boxMechanical parameters, pad layout- mm/inchesMillimetersInches Dimension MinimumMaximumMinimumMaximumA 25.40- 1.000-B 8.609.400.3390.370C 1.20 1.400.0470.055D8.609.100.3390.358Part marking3Technical Data ELX1058Effective June 202112KPEAutomotive grade 12000 W Transient voltage suppressor /electronics Part number Marking V R I R @ V R V BR @ I T I T V C @ I PP I PP UL497B RecognizedUni-polarBi-polarUniBi(V)(µA)min (V)max (V)(mA)max (V)(A)12KPE20AH 12KPE20CAH 12KPE20AH 12KPE20CAH 201522.224.5534.3349.9x 12KPE22AH 12KPE22CAH 12KPE22AH 12KPE22CAH 221024.426.9537.1323.5x 12KPE24AH 12KPE24CAH 12KPE24AH 12KPE24CAH 24526.729.5540.7294.9x 12KPE26AH 12KPE26CAH 12KPE26AH 12KPE26CAH 26528.931.9544272.8x 12KPE28AH 12KPE28CAH 12KPE28AH 12KPE28CAH 28531.134.4547.5252.7x 12KPE30AH 12KPE30CAH 12KPE30AH 12KPE30CAH 30533.336.8550.7236.7x 12KPE33AH 12KPE33CAH 12KPE33AH 12KPE33CAH 33536.740.6554.7219.4x 12KPE36AH 12KPE36CAH 12KPE36AH 12KPE36CAH 3654044.2559.8200.7x 12KPE40AH 12KPE40CAH 12KPE40AH 12KPE40CAH 40544.449.1565.8182.4x 12KPE43AH 12KPE43CAH 12KPE43AH 12KPE43CAH 43547.852.8569.8171.9x12KPE48AH 12KPE48CAH 12KPE48AH 12KPE48CAH 48553.658.7577.7154.512KPE58AH 12KPE58CAH 12KPE58AH 12KPE58CAH 58564.471.2593.6128.212KPE64AH 12KPE64CAH 12KPE64AH 12KPE64CAH 64571.178.65103116.512KPE72AH12KPE72CAH12KPE72AH12KPE72CAH7258088.55116103.4Electrical specifications (+25 °C )4Technical Data ELX1058Effective June 202112KPE Automotive grade 12000 W Transient voltage suppressor/electronicsRatings and V-I characteristic curves(+25 °C unless otherwise noted)V- I curve characteristics (Uni-directional)V- I curve characteristics (Bi-directional)Pulse waveformPulse derating curveSurge waveform: 10/1000 μsV R : Stand-off voltage -- Maximum voltage that can be applied V BR : Breakdown voltageV C : Clamping voltage -- Peak voltage measured across the suppressor at a specified I PP I R : Reverse leakage current I T : Test currentV F : Forward voltage drop for Uni-directionalI P P M (% I R S M )P P P d e r a t i n g i n p e r c e n t a g e (%)t (ms)T J (°C)EatonElectronics Division 1000 Eaton Boulevard Cleveland, OH 44122United States/electronics© 2021 EatonAll Rights Reserved Printed in USAPublication No. ELX1058 BU-ELX21058June 2021Technical Data ELX1058Effective June 202112KPEAutomotive grade 12000 W T ransient voltage suppressor Life Support Policy: Eaton does not authorize the use of any of its products for use in life support devices or systems without the express writtenapproval of an officer of the Company. Life support systems are devices which support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin.T e m p e r a t u r eTimeT T T T Wave solder profileReference EN 61760-1:2006Profile featureStandard SnPb solderLead (Pb) free solderPreheat • Temperature min. (T smin )100 °C 100 °C • Temperature typ. (T styp )120 °C 120 °C • Temperature max. (T smax )130 °C 130 °C • Time (T smin to T smax ) (t s )70 seconds 70 seconds D preheat to max Temperature150 °C max.150 °C max.Peak temperature (T P )*235 °C – 260 °C 250 °C – 260 °C Time at peak temperature (t p )10 seconds max5 seconds max each wave 10 seconds max5 seconds max each wave Ramp-down rate~ 2 K/s min ~3.5 K/s typ ~5 K/s max ~ 2 K/s min ~3.5 K/s typ ~5 K/s maxTime 25 °C to 25 °C4 minutes4 minutesManual solder+350 °C (4-5 seconds by soldering iron), generally manual/hand soldering is not recommendedEaton is a registered trademark.All other trademarks are property of their respective owners.Follow us on social media to get the latest product and support information.。

w w w .b a o s t e e l .c o m 热轧热处理产品手册Hot-rolled heat treated steelCONTENTS宝钢股份公司概况热处理产线设备能力包装和标识产品使用技术订货所需信息宝山基地青山基地工程机械高强结构钢耐磨钢汽车大梁超高强钢防护钢容器、耐热结构用钢磁轭钢热处理产品介绍0103030405051115192227293236Baosteel Iron & Steel Co., Ltd.Wuhan Iron and Steel Co., Ltd.Steel for Construction Machinery Wear Resistant SteelSteel for Automotive beamProtection SteelSteel for pressure vessel and heat resistant structureRim Lamination Steel Packing & Marking Guide for the Using of Steels Information before booking Introduction of Baosteel Introduction of heat treating Lines Product IntroductionINTRODUCTION OF BAOSTEEL 宝钢股份公司概况宝山钢铁股份有限公司（简称“宝钢股份”）是全球领先的现代化钢铁联合企业，是《财富》世界500强中国宝武钢铁集团有限公司的核心企业。

宝钢股份以“成为全球最具竞争力的钢铁企业和最具投资价值的上市公司”为愿景，致力于为客户提供超值的产品和服务，为股东和社会创造最大价值，实现与相关利益主体的共同发展。

2000年2月，宝钢股份由上海宝钢集团公司独家创立；同年12月，在上海证券交易所上市（证券代码：600019）。

Emulex 8Gb FC Single-port and Dual-port HBAsProduct Guide (withdrawn product)Streamlined installation and management, plus unrivaled scalability and industry-leading virtualization support make the Emulex 8Gb Fibre Channel host bus adapters ideal solutions for enterprise and mixed-OS environments. With powerful management tools, they deliver maximum performance in the widest range of applications and environments.Figure 1 shows the single-port and dual-port adapters.Figure 1. Emulex 8Gb Fibre Channel single-port and dual-port HBAsDid you know?The configuration of the Emulex 8 Gb HBAs is fully integrated in the UEFI interface which results in an easy to use and intuitive way to set up the adapter. The HBAs provide the ability to build high-performance, highly available SANs and are easy to set up and integrate into existing SAN configurations. Emulex 8Gb HBAs use passive cooling devices to deliver enhanced thermal protection for highest reliability and maximum server availability.Click here to check for updatesServer support - ThinkSystemCountry availability: The ThinkSystem part numbers are only available in the following countries: China, Japan, and markets in the Asia Pacific region.The following tables list the ThinkSystem servers that are compatible.Table 2. Server support - ThinkSystem (Part 1 of 3)PartNumber Description Edge1S IntelV2AMD V3Intel V34XC7A08220ThinkSystem Emulex LPe12000-M8-L PCIe 8Gb 1-Port SFP+ FibreChannel AdapterN N N N N N N N N N N N N N N N N N N4XC7A08221ThinkSystem Emulex LPe12002-M8-L PCIe 8Gb 2-Port SFP+ FibreChannel AdapterN N N N N N N N N N N N N N N N N N N Table 3. Server support - ThinkSystem (Part 2 of 3)PartNumber Description Dense V32S Intel V2AMD V1Dense V24SV28S4XC7A08220ThinkSystem EmulexLPe12000-M8-L PCIe 8Gb 1-Port SFP+ Fibre ChannelAdapterN N N N N N N N N N N N N N N N N N N N4XC7A08221ThinkSystem EmulexLPe12002-M8-L PCIe 8Gb 2-Port SFP+ Fibre ChannelAdapter N N N N N N N N N N N N N N N N N N N N SE35(7Z46/7D1X)SE35V2(7DA9)SE36V2(7DAM)SE45(7D8T)SE455V3(7DBY)ST5V2(7D8K/7D8J)ST25V2(7D8G/7D8F)SR25V2(7D7R/7D7Q)SR635V3(7D9H/7D9G)SR655V3(7D9F/7D9E)SR645V3(7D9D/7D9C)SR665V3(7D9B/7D9A)SR675V3(7D9Q/7D9R)ST65V3(7D7B/7D7A)SR63V3(7D72/7D73)SR65V3(7D75/7D76)SR85V3(7D97/7D96)SR86V3(7D94/7D93)SR95V3(7DC5/7DC4) SD665V3(7D9P)SD665-NV3(7DAZ)SD65V3(7D7M)SD65-IV3(7D7L)ST65V2(7Z75/7Z74)SR63V2(7Z7/7Z71)SR65V2(7Z72/7Z73)SR67V2(7Z22/7Z23)SR635(7Y98/7Y99)SR655(7Y/7Z1)SR655ClientOSSR645(7D2Y/7D2X)SR665(7D2W/7D2V)SD63V2(7D1K)SD65V2(7D1M)SD65-NV2(7D1N)SN55V2(7Z69)SR85V2(7D31/7D32)SR86V2(7Z59/7Z6)SR95(7X11/7X12)Table 5. Operating system support for Emulex 8Gb FC Single-port HBA for Lenovo System x, 42D0485Operating systemsMicrosoft Windows Server 2008 R2Y Y Y N N N Y Y Y Y Y Y Y Microsoft Windows Server 2012Y Y Y Y Y Y Y Y Y Y Y Y Y Microsoft Windows Server 2012 R2Y Y Y Y Y Y Y Y Y Y Y N Y Microsoft Windows Server 2016N Y Y Y Y Y Y Y Y Y Y Y Y Microsoft Windows Server 2019N N N Y Y N N N Y N Y N N Microsoft Windows Server version 1709N N Y Y Y Y Y Y Y Y Y N N Microsoft Windows Server version 1803N N N N N N N N Y N Y N N Red Hat Enterprise Linux 5 Server Edition N N N N N N N N N N N N Y Red Hat Enterprise Linux 5 Server x64 Edition N N N N N N N N N N N N Y Red Hat Enterprise Linux 6 Server Edition N N N N N N N N N N N N Y Red Hat Enterprise Linux 6 Server x64 Edition Y Y N N Y Y Y Y Y Y Y N Y Red Hat Enterprise Linux 7Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.0N N N Y N N N N N N N N N SUSE Linux Enterprise Server 11 for AMD64/EM64T Y Y Y Y Y Y Y Y Y Y Y Y N SUSE Linux Enterprise Server 11 for x86N N N N N N N N N N N Y N SUSE Linux Enterprise Server 11 with Xen for AMD64/EM64TN Y Y Y N Y Y Y Y Y Y N N SUSE Linux Enterprise Server 12N Y Y Y Y Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 12 with Xen N N N N N Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 15N N Y Y Y Y N N Y N Y N N SUSE Linux Enterprise Server 15 with Xen N N Y Y Y Y N N Y N Y N N VMware vSphere 5.1 (ESXi)Y Y N N N Y Y Y N Y N Y Y VMware vSphere Hypervisor (ESXi) 5.5Y Y N N Y N Y Y Y Y Y N Y VMware vSphere Hypervisor (ESXi) 6.0Y Y Y Y Y Y Y Y Y Y Y N Y VMware vSphere Hypervisor (ESXi) 6.5Y N Y Y YYYYYYYY YVMware vSphere Hypervisor (ESXi) 6.7NNNYY Y Y N Y N Y N N[in box driver support only]Detail information please refer to Support Tip HT506708x 3850/3950 X 6 (3837)x 3850/3950 X 6 (6241, E 7 v 2)x 3850/3950 X 6 (6241, E 7 v 3)x 3850/3950 X 6 (6241, E 7 v 4)x 3250 M 6 (3633)n x 360 M 5 (5465)x 3500 M 5 (5464)x 3550 M 5 (5463)x 3550 M 5 (8869)x 3650 M 5 (5462)x 3650 M 5 (8871)x 3100 M 5 (5457)x 3250 M 5 (5458)111222212Table 6. Operating system support for ThinkSystem Emulex LPe12002-M8-L PCIe 8Gb 2-Port SFP+ Fibre Channel Adapter, 4XC7A08221Operating systemsMicrosoft Windows Server 2012 R2N N N N N N N Y Y Y Y Y Y Y Microsoft Windows Server 2016Y Y Y Y Y Y Y Y Y Y Y Y Y Y Microsoft Windows Server 2019Y Y Y Y Y Y Y Y Y Y Y Y Y Y Microsoft Windows Server version 1709N N N N N N N N N Y Y Y Y N Microsoft Windows Server version 1803N N N N N N N Y N N N N Y Y Red Hat Enterprise Linux 6.10N N N N N N N Y Y Y Y Y Y Y Red Hat Enterprise Linux 6.9N N N N N N N Y Y Y Y Y Y Y Red Hat Enterprise Linux 7.3N N N N N N N Y Y Y N N Y Y Red Hat Enterprise Linux 7.4N N N N N N N Y Y Y Y Y Y Y Red Hat Enterprise Linux 7.5N N N N N N N Y Y Y Y Y Y Y Red Hat Enterprise Linux 7.6Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 7.7Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 7.8Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 7.9Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.0Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.1Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.2Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.3Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.4Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.5Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.6Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 8.7Y Y Y Y Y Y Y Y Y Y Y Y Y Y Red Hat Enterprise Linux 9.0Y Y Y Y Y Y Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 11 SP4N N N N N N N Y Y N Y Y Y Y SUSE Linux Enterprise Server 11 SP4 with Xen N N N N N N N Y Y N Y Y Y Y SUSE Linux Enterprise Server 12 SP2N N N N N N N Y Y N N N Y Y SUSE Linux Enterprise Server 12 SP2 with Xen N N N N N N N Y Y N N N Y Y SUSE Linux Enterprise Server 12 SP3N N N N N N N Y Y Y Y Y Y Y SUSE Linux Enterprise Server 12 SP4Y Y Y Y Y Y Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 12 SP4 with Xen Y Y Y Y Y Y Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 12 SP5Y Y Y Y Y Y Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 12 SP5 with Xen Y Y Y Y Y Y Y Y Y Y Y Y Y Y SUSE Linux Enterprise Server 15Y Y Y Y Y Y Y YYYYYYY S D 530 (X e o n G e n 2)S R 530 (X e o n G e n 2)S R 550 (X e o n G e n 2)S R 570 (X e o n G e n 2)S R 590 (X e o n G e n 2)S R 630 (X e o n G e n 2)S R 650 (X e o n G e n 2)S D 530 (X e o n G e n 1)S R 530 (X e o n G e n 1)S R 550 (X e o n G e n 1)S R 570 (X e o n G e n 1)S R 590 (X e o n G e n 1)S R 630 (X e o n G e n 1)S R 650 (X e o n G e n 1)TrademarksLenovo and the Lenovo logo are trademarks or registered trademarks of Lenovo in the United States, other countries, or both. A current list of Lenovo trademarks is available on the Web athttps:///us/en/legal/copytrade/.The following terms are trademarks of Lenovo in the United States, other countries, or both:Lenovo®ServerProven®System x®ThinkSystem®The following terms are trademarks of other companies:Intel® and Xeon® are trademarks of Intel Corporation or its subsidiaries.Linux® is the trademark of Linus Torvalds in the U.S. and other countries.Microsoft®, Windows Server®, and Windows® are trademarks of Microsoft Corporation in the United States, other countries, or both.Other company, product, or service names may be trademarks or service marks of others.。

Package‘deFit’June29,2023Type PackageTitle Fitting Differential Equations to Time Series DataVersion0.2.1DescriptionUse numerical optimization tofit ordinary differential equations(ODEs)to time series data to ex-amine the dynamic relationships between variables or the characteristics of a dynamical sys-tem.It can now be used to estimate the parameters of ODEs up to second order,and can also ap-ply to multilevel systems.See<https:///yueqinhu/defit>for details.License GPL(>=3)URL https:///yueqinhu/defitEncoding UTF-8LazyData trueRoxygenNote7.2.3Suggests testthat(>=3.0.0)Config/testthat/edition3Imports deSolve,ggplot2,stats,R6Depends R(>=3.50)NeedsCompilation noAuthor Yueqin Hu[aut,cre],Qingshan Liu[aut]Maintainer Yueqin Hu<****************.cn>Repository CRANDate/Publication2023-06-2914:40:08UTCR topics documented:AdjustModel_func (2)CalcDe_func (2)defit (3)example1 (6)12CalcDe_func example2 (7)example3 (7)JudgeModel_func (8)PlotDe_func (8)scale_within (9)Slover_UniSec_func (10)Solver_BinFirst_func (10)Solver_MultiBiFirst_func (11)Solver_MultiUniSec_func (11)Index13 AdjustModel_func Adjust the model functionDescriptionAdjust the model functionUsageAdjustModel_func(model)Argumentsmodel The original string of users’defined.Valuedataframe data.frame(model)CalcDe_func Choose the core code by the model.DescriptionChoose the core code by the model.UsageCalcDe_func(data,model,guess=c(0,0,0,0,0,0),method,chooseModel=NULL,guess2,method2)Argumentsdata Users’datamodel The original string users defined.guess The guess values users input.method The method users selected.chooseModel c(2,1):Bivariatefirst-order differential equation;c(1,2):Univariable second-order differential equation.guess2Use for Multilevelmethod2"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"ValueThe result of optimization,SE,RMSE,r-squared,users’data,predictor data and output table.defit Fitting Differential Equations to Time Series DataDescriptionUse numerical optimization tofit ordinary differential equations(ODEs)to time series data to ex-amine the dynamic relationships between variables or the characteristics of a dynamical system.It can now be used to estimate the parameters of ODEs up to second order,and can also apply to multilevel systems.Usagedefit(data,model,guess=NULL,method=NULL,plot=FALSE)Argumentsdata a data frame containing all model variables.The"time"column must be in-cluded.model a string specifying the model to be used.The"=~"operator is used to define variables,with the name of the variable user defined on the left and the nameof the variable in the data on the right.The’~’operator specifies a differentialequation,with the dependent variable on the left and the independent variableson the right.See also‘Details’.guess an optional vector that allows the user to give starting values for the model pa-rameters,including the model coefficients and variable initial states.method an optional string indicating which optimizer to use.The default method is sub-ject to the specific model.The available options are’Nelder-Mead’,’L-BFGS-B’,’SANN’and’BFGS’.plot an optional TRUE or FALSE that TRUE will draw the plot of the raw data and the predicted values.DetailsWe suggest choosing the method by default.The guess values contain the coefficient of the modeland initial values(the values of t0).Different models have different number of values.Time(param)sequence for which output is wanted;thefirst value of times must be the initial time.#eg1.An example of the univariate second-order differential equation(damped oscillator model)data( example1 )model1<-X=~myXtime=~myTimeX(2)~X(1)+Xresult1<-defit(data=example1,model=model1)#>Program will fit the data with a univariate second-order differential equation.#>The differential equation is:#>x(2)=beta1*x+beta2*x(1)#>Optimizing...#>Finishing optimization...#>Estimating R_squared#>Estimating RMSE#>Estimating Hessian#result1$table get the result#names(result1)get all names of object#--------------#eg3.An example of the multilevel univariate second-order differential equationdata( example3 )model3<-X=~currenttime=~myTimeX(2)~X(1)+X+(1+X(1)+X|year)example3_use<-example3[(example3["year"]>=2015)&(example3["year"]<=2018),]#Note:select a subse example3_c<-scale_within(example3_use,model3)#note:centering X variable by yearresult3<-defit(data=example3_c,model=model3,plot=FALSE)#>subject checking#>Random effects and fixed effects have been defined#>Estimating population parameter#>Waiting...#>next...subject (2015)#>next...subject (2016)#>next...subject (2017)#>next...subject (2018)#>Estimating R_squared#>Estimating RMSE#>Estimating Hessian#--------------#eg4.An example of the multilevel bivariate first-order differential equationsdata( example3 )model4<-X=~currentY=~expectedtime=~myTimeX(1)~X+Y+(1+X+Y|year)Y(1)~X+Y+(1+X+Y|year)example4_use<-example3[(example3["year"]>=2015)&(example3["year"]<=2018),]#Note:select a subse example4_c<-scale_within(example4_use,model4)#centering X and Y variable by yearresult4<-defit(data=example4_c,model=model4,plot=FALSE)#>subject checking#>Random effects and fixed effects have been defined#>Estimating parameters#>Waiting...#>next...subject (2015)#>next...subject (2016)#>next...subject (2017)#>next...subject (2018)#>Estimating R_squared#>Estimating RMSE#>Estimating HessianValueobject:directly type the defit object will print all results.The function summary is used to print thesummary of all results,and the exact values of each result can be extracted by the"$"operator.userdata:the data that contains a sequence’seq’starting from1,the original time variable’time’,and all other variables user defined.parameter:the best set of parameters found,including parameter values,gradient,convergence,message and hessian matrix.predict:a dataframe of model predicted variable states at each time point.r_squared:r_squared is the square of the correlation between the observed values and the predictedvalues,representing the proportion of variance explained by the model.RMSE:RMSE(Root Mean Squared Error)is the standard deviation of the residuals.SE:a symmetric matrix giving standard error of the model parameters.equation:a string prints the estimated differential equations and initial states.table:a summary table of parameter estimates and their corresponding SEs.convergence:a message returns the result of the optimization convergence check.Examples#eg2.An example of bivariate first-order differential equationdata( example2 )model2<-#define variableX=~myXY=~myY#define timetime=~myTime#define differential equationX(1)~X+YY(1)~Y+Xresult2<-defit(data=example2,model=model2)result2#extract details and values#result2$summary()#result2$userdata#result2$parameter$par#result2$equation#result2$table#result2$plot()example1Univariate second-order differential equationDescriptionA dataset containing the myX and time of almost100example.The variables are as follows: Usageexample1FormatA data frame with100rows and3variables:seq sequence of observationsmyTime timestamp of observations;thefirst value of the time variable must be the initial time.myX the observed scoresexample2Bivariatefirst-order differential equationDescriptionA dataset containing the myX,myY and time of almost30example.The variables are as follows:Usageexample2FormatA data frame with30rows and4variables:myTime timestamp of observations;thefirst value of the time variable must be the initial time.myX the observed scores of variable XmyY the observed scores of variable Yexample3University of Michigan consumer sentiment indexDescriptionThe Surveys of Consumers are conducted by the Survey Research Center at the University of Michi-gan.Founded in1946by George Katona,the surveys have long stressed the important influence of consumer spending and saving decisions in determining the course of the national economy.Usageexample3FormatA data frame with540rows and6variables:seq sequence of observationsmonth months of datayear from1978to2022current the Index of Current Economic Conditions(ICC)expected the Index of Consumer Expectations(ICE)myTime months converted to time seriesSourceUniversity of Michigan,Survey Research Center,Surveys of Consumers.https:///8PlotDe_funcJudgeModel_func Judge the model belongs of N-variable and N-order differential equa-tion.DescriptionJudge the model belongs of N-variable and N-order differential equation.UsageJudgeModel_func(model)Argumentsmodel The original string users defined.Valuec(2,1):Bivariatefirst-order DE;c(1,2):Univariable second-order DE.PlotDe_func Plot all dataDescriptionPlot all dataUsagePlotDe_func(userdata,predictor,model,chooseModel)Argumentsuserdata User’s data.predictor The data of differential equation modelmodel The model of standardizationchooseModel c(2,1)or c(2,1)ValueThe plot of all data.scale_within9 scale_within TitleDescriptionTitleUsagescale_within(userdata,model=NA,center=FALSE,scale=FALSE)Argumentsuserdata users’datamodel a string specifying the model to be used.The"=~"operator is used to definevariables,with the name of the variable user defined on the left and the nameof the variable in the data on the right.The’~’operator specifies a differentialequation,with the dependent variable on the left and the independent variableson the right.See also‘Details’.center TRUE or FALSEscale TRUE or FALSEValuedataframeExamples#eg1.data( example3 )multi_model<-X=~currenttime=~myTimeX(2)~X(1)+X+(1+X(1)+X|year)scale_mydata<-scale_within(example3[(example3["year"]>=2015)&(example3["year"]<=2018),] ,multi_model,center=TRUE)10Solver_BinFirst_func Slover_UniSec_func Core code of univariable second-order differential equationDescriptionCore code of univariable second-order differential equationUsageSlover_UniSec_func(data,model,guess,method)Argumentsdata User’s datamodel model’s class is dataframe.guess Guess values that contain coefficient and initial values.method"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"ValueThe result of optimization,SE,RMSE,r-squared,users’data,predictor data and output table. Solver_BinFirst_func Core code of Binaryfirst-order differential equationalDescriptionCore code of Binaryfirst-order differential equationalUsageSolver_BinFirst_func(data,model,guess,method)Argumentsdata User’s datamodel Model’s class is dataframe.guess Guess values that contain coefficient and initial values.method"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"ValueThe result of optimization,SE,RMSE,r-squared,users’s data,predictor data and output table.Solver_MultiBiFirst_func11 Solver_MultiBiFirst_funcTitleDescriptionTitleUsageSolver_MultiBiFirst_func(data,model,guess,method,guess2,method2) Argumentsdata User’s datamodel Model’s class is dataframe.guess Guess values that contain coefficient and initial values.method"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"guess2Guess values of multilevel that contain coefficient and initial values.method2"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"ValueThe result of optimization,SE,RMSE,r-squared,users’s data,predictor data and output table. Solver_MultiUniSec_funcTitleDescriptionTitleUsageSolver_MultiUniSec_func(data,model,guess,method,guess2,method2) Argumentsdata User’s datamodel Model’s class is dataframe.guess Guess values that contain coefficient and initial values.method"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"guess2Guess values of multilevel that contain coefficient and initial values.method2"Nelder-Mead","BFGS","CG","L-BFGS-B","SANN"and"Brent"12Solver_MultiUniSec_funcValueThe result of optimization,SE,RMSE,r-squared,users’s data,predictor data and output table.init02’, init03’,init04’Index∗datasetsexample1,6example2,7example3,7AdjustModel_func,2CalcDe_func,2defit,3example1,6example2,7example3,7JudgeModel_func,8PlotDe_func,8scale_within,9Slover_UniSec_func,10Solver_BinFirst_func,10Solver_MultiBiFirst_func,11Solver_MultiUniSec_func,1113。

Closed Crankcase Ventilation (CCV)Installation Instructions for CCV4500, CCV6000,CCV8000, and CCV12000 Series FiltersContact Information:Parker Hannifin Corporation Racor Division P .O. Box 32083400 Finch Road Modesto, CA 95353phone 800 344 3286209 521 7860fax 209 529 3278****************/racorOverview:Contaminated crankcase emissions are a serious problem for dieselengine owners and the environment. These emissions are a result of gas escaping past piston rings due to high cylinder pressures into the crankcase. In the crankcase, gases are contaminated with oil mist, water, etc. These contaminated emissions escape through the engine breather into the engine compartment and engine intake system.Racor CCV Systems offer an effective solution to reducecontaminated crankcase emissions. CCV systems remove crankcase emissions, providing protection for the engine and the environment.Instruction Part Number 55021 Rev DProduct Features:• Keeps engine compartmentsand components clean• Prevents clogging of engineintakes, turbochargers, and intercoolers• Improves reliability andmaintainability of diesel engines.• More efficient than other products available on the market• Reduces environmentalpollution from crankcase emissions• Reduces smoke and odor in theimmediate environmentTable of ContentsInstallation Information ....................................3-8Mounting Details (3)Installation Diagram (4)Installation Guidelines (5)Filter Replacement (5)Hose and Fitting Kits (6)Hose and Fitting Installation (7)Air Intake Connections (7)Hose Adapters (8)Hose Barb (8)CCV Conversion Kit (8)Heavy-Duty Wear Spacers (9)Electronic Remote Filter Gauge (9)Remote Filter Gauge (9)Heater Kits .................................................10-11Specifications (12)Replacement Parts .......................................13-16CCV4500 Replacement Parts (13)CCV6000 Replacement Parts (14)CCV8000 Replacement Parts (15)CCV12000 Replacement Parts (16)Engine Application Guide .............................17-23Caterpillar ..................................................17-18Cummins (19)Detroit Diesel .............................................20-21Hercules (22)Volvo (22)John Deere (23)Mack (23)2Mounting Details2D imension “J” is not applicable on CCV4500 assemblies because there are only two (2) mounting holes. All other units have four (4) mounting holes.BDepthEJHCCV Dimensions3Installation DiagramRacorMarine ApplicationsCCV UnitIndustrial/Mobile Power ApplicationsCCV Unit4Note: Check valve installs into engine block on most applications.Note: Check valve installs into engine block on most applications.Installation GuidelinesCCV is available as left-hand • or right-hand inlet to facilitate V must be mounted upright • (± 10°) and may be engine mounted or remote mounted.Ensure enough clearance• underneath for servicing filter. Minimum clearance is: CCV4500 - 2.25”CCV6000 - 4.00”CCV8000 - 5.00”CCV12000 - 11.00”Avoid mounting locations in • areas of extreme temperatures (exhaust manifold).Avoid low spots or valleys in • hoses to prevent restriction. Keep hoses clear of hot spots.CCV must be mounted level • with or higher than engine. This allows oil to flow to oil pan.Locate an unused dipstick boss • or other access to crankcase. Install drain check valve as low as possible into crankcase, preferably above oil level. Note: Check valve must be oriented between vertical and horizontal (±45°).CAUTION: Drilling into block or oil pan is not recommended. Consult with engine manufacturer for proper hookup of drain valve.Connect drain hose from sump • fitting to drain check valve with hose and fittings provided. CONTINUOUS DUTY • APPLICATIONS – If usinga marine air filter; vertical distance (in inches) from assembly sump drain fitting to drain check valve must be equal to or greater than the max. marine air filter inlet restriction (in inches of water). If not, then accumulated oil in sump will not return to oil pan properly.Example: Air filter inletrestriction is 6.0 in inches water. Vertical distance from sump drain fitting to drain check valve should be min. of 6.0 in.INTERMITTENT DUTY • APPLICATIONS - The sump capacity will allow for 24 hours of operation and will drain at idle or shutdown.The only routine maintenance for the CCV system is replacement of the filter media. Typical service life of filters for diesel application is 750 hours. Some variations in this occur, depending on load profile, engine wear condition, flow and aerosol mass concentration of crankcase emissions, soot concentration, etc.The CCV is equipped with the red filter service indicator. If the filter becomes plugged prior to normal service interval, increased pressure against regulator valve lifts the diaphragm, causing the filter service indicator to appear. Indicating the need to change the filter. Change the filter and re-set the indicator by unsrewing the clear plastic cover and pushing indicator button down. Replace cover.Filter ReplacementCAUTION: Shut down engine before servicing. If not possible, avoid moving parts, engine hot spots, and electrical connections. Wear safety glasses and hearing protectors. Note: vacuum in filter canister during engine operation may make it difficult to seperate.Realease latches which hold • canister to filter head assembly.Drop canister down to expose • filter. Note: A light amount of oil may be seen in bottom. Use caution to avoid spillage.Remove filter by pulling down, • dispose properly, according to local regulations. Be sure o-ring on top of filter cap and o-ring on bottom of head assembly are removed.Install new o-ring on bottom of • head assembly.Be sure new o-ring is on top of • new filter cap; push filter up in place, locating top end cap into hole in bottom center of head assembly.Replace canister. Align latches • in canister with catches on filter head assembly. Clamp and snap latches closed. Servicing is complete.Visually check system for signs • of excessive rubbing or any leaks. Correct as necessary.CCV Filters5SELECT A FITTING/HOSE KIT: Fitting/Hose Kits come with both fittings and enough hose for inlet and outlet sides of the Racor CCV assembly. Racor CCV assembliesrequire fittings available only from Racor. In order to determine the correct application, you need to know the quantity and the outside diameter of engine breather(s)/hose connection. Fitting/Hose Kits are available in various sizes and configurations.Hose and Fitting KitsCCV4500 Series AssembliesHump Hose Fitting Kits6Tap Sleeve - for Industrial/Mobile Power Applications: Tap sleeves provide for connection of Racor CCV outlet to engine’s air intake. Determine inside diameter of hose between turbocharger and air filter. This will determine outside diameter of tap sleeve required for installation.Marine Air Filter Assembly To determine correct marine air filter application, marine air filter rating (AFR) is required. Choose correct marine air filter application per guideline: 4 cycle engines AFR = HP x 2.02 cycle engines AFR = HP x 2.5Examples:2 cycle - twin turbo826 HP x 2.5 = 1032.5 AFR per turbo; select (2) AFM5010124 cycle - single turbo660 HP x 2.0 = 1320.0 AFR;select (1) AFM601212Note: Customer provides hoseconnection to turbocharger. Determine flow direction of CCV Assembly.Install fitting into outlet port, 1. torque to 50 in. lbs.Install remaining fitting into 2. inlet port, torque to 50 in. lbs.Select appropriate hose from 3. kit and secure to CCV inlet fitting with clamp provided.Locate engine breather4. connection and cut inlet hose to required length.CAUTION! When cutting hose, exercise extreme caution. Hose is wire reinforced and protruding sharp edge can result in bodily injury!Secure hose to engine breather 5. connection with clamp provided. Note: If enginebreather connection is smaller than hose ID, use appropriate size rubber bushing on breather.Select appropriate hose from 6. kit and secure to CCV outlet fitting with clamp provided.Locate air intake connector 7. fitting barb and cut hose to required length.Secure hose to air intake 8. connector barb with clamp provided.Secure hose(s) to convenient 9. location, away from engine hotspots, with ties provided. Note: Avoid low spots or valleys in hoses to prevent flow restriction.Attaching Multiple Breathers - Use tee fitting provided to a. branch to both breathers.Extra hose has been provided b. to accommodate installation of multiple breathers.Verify inlet and outlet distance c. before cutting any hose.Hose and Fitting InstallationAir Intake Connectors7890°Hose AdaptersHose BarbsAccessoriesPart Number:CCV55613-08 (High Density)CCV55613-10 (Ultra Density)The CCV55613-08 andCCV55613-10 allow the CCV8001 to be converted to a CCV12001.The CCV12001 series offers 60%additional media. The CCV12001 series is great for applicationswhere extra capacity is desired and immediate engine accessibility is not available. It allows for increased efficiency and longer service intervals. Kit includeselement, wear spacer, o-rings, and CCV12001 bowl.CCV Conversion Kit9Heavy-Duty Wear SpacersThese Heavy-Duty Spacers are an optional accessory for engine applications/installations that have excessive vibration. Excessive vibration causes abnormal wear on the CCV assembly and could compromise integrity. The spacer is placed in the CCV canister, below the filter,The CCV55615-01 Lightbox Kit is designed to inform the user that the filter being monitored has become restricted.During normal vehicleoperation, the green light stays illuminated indicating the filter is performing properly. The red light iluminates when the filter becomes restricted and stays on until the engine is shut down. The light box is reset when the engine is shut down and the red light will not illuminate until filter restriction is again seen inthe system.Electronic Remote Filter Gauge• Constant monitoringof filter condition while engine is on • 12Vdc operating supply voltage• Operating temperature:-40°F to +257°F (-40°C to +125°C)• 5 amp max current draw • Filter switch threads are3/8”-24 straight thread• Rugged construction• Filter switch closure at 8inches of waterPart Number:CCV55012This Vacuum Indicator was designed to inform the user that the filter being monitored has becomerestricted.• Green and red lightillumination to show filter conditionRemote Filter GaugeIncluded in Kit:Gauge and Bracket (shown), 1/8”-27 NPT fitting , 40 micron filter, and 10 foot of 1/4” OD EPDM hose.protecting the assembly from vibration and wear by cradling the filter.10Closed Crankcase Ventilation (CCV) Systems are used to prevent emissions fromcontaminating internal surfaces of the engine air inductionsystem and prevent engine room environments from being coated with oily residue. Both functions maintain engine performance and improve operatingenvironment over the life of the engine. In cold weatherapplications, gases and vapors processed by the CCV system are affected by ambient conditions. The canister is cooled to ambient temperature and oil mist and water vapor particles traveling through the CCV system will then coalesce against the cold interior surfaces of the CCVcanister. This process introduces microscopic particles of oil and water to each other. When they mix, an emulsification of the two liquids occurs. This emulsification turns the two particles into a creamy jelly-like substance. The mixture slowly builds up as cold air continually cools the canister and the process repeats itself. The emulsified oil-watermixture collect to a point where element life is compromised and crankcase pressure will rise.These heater kits prevent this build-up and ensure filter life by warming the canister surfaces. The temperature of the canister is raised near to that of the crankcase gases entering theCCV assembly. If the canister surfaces are as warm as thecrankcase gases, then the oil and water mixture will not coalesce on the interior walls. Since no oil or water coalesces, no emulsification occurs.Heater KitsClean exterior of CCV canister 1. thoroughly. Adhesive is used to bond insulating sleeve to canister. Oily film present on canister surfaces will affect adhesion.Wrap heater band around 2. CCV assembly and secure Velcro closure to fasten to canister. Align plug with center of CCV product label.Slide insulation sleeve over 3. heater band. Secure sleeve to CCV assembly with adhesive strips located on top of sleeve.For AC models – Connect 4. power cord to appropriate power source with 15 amp circuit.For DC models – See Wiring 5. Diagram on next page for proper installation. Allow enough slack in power 6. cord for element removal (servicing). When routing power cord, avoid rubbing areas and hot surfaces.Note: These heaters arethermostatically controlled andwill turn ON when the canister falls below 156°F (69°C) and will tun OFF when the canister reaches 174°F (79°C). It will take approximately 4 minutes for heater to warm CCV canister to maximum temperature.Installation GuidelinesCCV4500CCV6000CCV8000CCV12000Installation DiagramWiring DiagramHeater BandGreen Green/WhiteRed/WhiteFuse BoxIgnition SwitchBattery+-FuseBlackRedResistor (See Notes)Notes:Use resistor with 24V only1. Use 25 AMP fuse for 12V applications2. Use 15 AMP fuse for 24V applications3. 87868530Replacement KitsCCV SpecificationsABCDEFGHInlet/Outlet Fitting KitsHose and Fitting KitsA B CDE F GHHose and Fitting KitsInlet/Outlet Fitting KitA B CD E FGHHose and Fitting KitsInlet/Outlet Fitting KitHose and Fitting KitsInlet/Outlet Fitting KitA B C DEFG HCaterpillar - Industrial/Mobile Power ApplicationsNote: Most engines come with elephant-ear air cleaners. Air intake configurations vary considerably and customer should verify outside diameter size of turbo inlet and ability to use tap sleeves or marine air filters. If not, customer can weld a fitting to the clean side of filter element on the back of the housing.Always verify outside diameter size of breathers for hose applications.Caterpillar - Marine ApplicationsCummins - Industrial/Mobile Power ApplicationsCummins - Marine ApplicationsCCV Engine Applications Detroit Diesel - Industrial/Mobile Power ApplicationsDetroit Diesel - Marine Applications21CCV Engine ApplicationsHercules - Industrial/Mobile Power ApplicationsVolvo - Industrial/Mobile Power ApplicationsVolvo - Marine Applications22John Deere - Industrial/Mobile Power ApplicationsJohn Deere - Marine ApplicationsMack - Industrial/Mobile Power ApplicationsMack - Marine Applications2355021 Rev D January 201008/19/16 edit 10/13/16 edit© 2010 Parker Hannifin CorporationAll products manufactured or distributed by Racor are subject to the following, and only the following, LIMITED EXPRESS WARRANTIES, and no others: For a period of one (1) year from and after the date of purchase of a new Racor product, Racor warrants and guarantees only to the original purchaser-user that such a product shall be free from defects of materials and workmanship in the manufacturing process. The warranty period for pumps and motors is specifically limited to ninety (90) days from date of purchase. A product claimed to be defective must be returned to the place of purchase. Racor, at its sole option, shall replace the defective product with a comparable new product or repair the defective product. This express warranty shall be inapplicable to any product not properly installed and properly used by the purchaser-user or to any product damaged or impaired by external forces. THIS IS THE EXTENT OF WARRANTIES AVAILABLE ON THIS PRODUCT. RACOR SHALL HAVE NO LIABILITY WHATSOEVER FORCONSEQUENTIAL DAMAGESFLOWING FROM THE USE OF ANY DEFECTIVE PRODUCT OR BY REASON OF THEFAILURE OF ANY PRODUCT. RACOR SPECIFICALLY DISAVOWS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED INCLUDING, WITHOUT LIMITATION, ALL WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE (EXCEPT FOR THOSE WHICH APPLY TO PRODUCT OR PART THEREOF THAT IS USED OR BOUGHT FOR USE PRIMARILY FOR PERSONAL, FAMILY, OR HOUSEHOLDPURPOSES), WARRANTIES OF DESCRIPTION, WARRANTIES OF MERCHANTABILITY, TRADE USAGE ORWARRANTIES OR TRADE USAGE.WarningFailure or improper selectionor improper use of the products and/or systems described herein or related items can cause death,personal injury and property damage. This document and other information from Parker Hannifin Corporation, its subsidiaries and authorized distributors provide productand/or system options for further investigation by users having technical expertise. It is important that you analyze all aspects of your application and review the information concerning the product or system in thecurrent product catalog. Due to the variety of operating conditions and applications for these products or systems, the user, through its own analysis and testing, is solely responsible for making the final selection of the products and systems and assuring that all performance, safety and warning requirements of the applications are met. The products described herein, including withlimitation, product features, specifications, designs,availability and pricing, are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.The following statement is required pursuant to proposition 65, applicable in the State of California: ‘This product may contain a chemical known to the State of California to cause cancer or reproductive toxicity’.Limited Warranties Statement。

QLogic 12200 and 12300 InfiniBand Edge Switches for the IBM Intelligent Cluster and IBM iDataPlexProduct Guide (withdrawn product)Over the past 10 years, InfiniBand networks have become the preferred means for interconnecting high performance computing (HPC) resources. The QLogic 12200 and 12300 are 36-port Quad Data Rate (QDR, 40 Gbps) InfiniBand switches designed to cost-effectively link workgroup resources into a cluster or provide an edge switch option for a larger fabric. The 12200 is a fixed configuration, externally managed InfiniBand switch; the 12300 is a modular, internally or externally managed InfiniBand switch.Both switches are part of the 12000 Series of products that delivers an unmatched set of high speed networking features and functions.Figure 1 shows the rear of the 12200 switch. The 12300 is very similar in port layout.Figure 1. QLogic 12200 QDR InfiniBand switchDid you know?QLogic 12200 and 12300 InfiniBand switch series are part of IBM Intelligent Cluster solution (formerly IBM Systems Cluster 1350). IBM Intelligent Cluster is your key to a fully integrated HPC solution. IBM clustering solutions include servers, storage, and industry-leading OEM interconnects that are factory-integrated, fully tested, and delivered to your door, ready to plug into your data center, all with a single point of contact for support.Click here to check for updatesTable 2 shows core components to create a full-speed QDR (40 Gbps) InfiniBand solution using QLogic 12200 or 12300 InfiniBand switches and System x servers.Table 2. QDR InfiniBand solution core components for System xDescription IBM part number ormachine type InfiniBand Host Channel AdaptersMellanox ConnectX-2 VPI Single-port QSFP QDR IB/10GbE PCI-E 2.0 HCA81Y1531Mellanox ConnectX-2 VPI Dual-port QSFP QDR IB/10GbE PCI-E 2.0 HCA81Y1535Mellanox ConnectX Single-Port 4X QDR InfiniBand x8 PCI-E 2.0 HCA46M2203Mellanox ConnectX Dual-Port 4X QDR InfiniBand x8 PCI-E 2.0 HCA46M2199Compute NodesSystem x34507948System x3550 M37944System x3650 M37945System x36557943System x34557940, 7941System x37557163System x3850 X57145System x iDataPlex dx360 M27321, 7323System x iDataPlex dx360 M36391Cables3m QLogic Optical QDR InfiniBand QSFP Cable Feature code 1767 10m QLogic Optical QDR InfiniBand QSFP Cable Feature code 1768 30m QLogic Optical QDR InfiniBand QSFP Cable Feature code 1769 3m IBM Optical QDR InfiniBand QSFP Cable Feature code 5989 10m IBM Optical QDR InfiniBand QSFP Cable Feature code 5990 30m IBM Optical QDR InfiniBand QSFP Cable Feature code 5991 0.5m QLogic Copper QDR InfiniBand QSFP 30AWG Cable Feature code 3725 1m QLogic Copper QDR InfiniBand QSFP 30AWG Cable Feature code 3726 3m QLogic Copper QDR InfiniBand QSFP 28AWG Cable Feature code 3727DDR InfiniBand (20 Gbps) solution with BladeCenter servers and QLogic 12200 or 12300 switches Table 4 shows core components to create a full-speed DDR (20 Gbps) InfiniBand solution using QLogic 12200 or 12300 InfiniBand switches and BladeCenter servers.Table 4. DDR InfiniBand solution core components for BladeCenterTrademarksLenovo and the Lenovo logo are trademarks or registered trademarks of Lenovo in the United States, other countries, or both. A current list of Lenovo trademarks is available on the Web athttps:///us/en/legal/copytrade/.The following terms are trademarks of Lenovo in the United States, other countries, or both:Lenovo®BladeCenter®Intelligent ClusterSystem x®X5iDataPlex®Other company, product, or service names may be trademarks or service marks of others.。

Drug Production Validation Guidelines 2003 Edition - EnglishTranslationIntroductionThe Drug Production Validation Guidelines were first published in 2003 to provide a comprehensive framework and set of recommendations for validating pharmaceutical manufacturing processes. This document presents an English translation of the guidelines, which aim to ensure the safety, quality, and efficacy of pharmaceutical products.ScopeThe Drug Production Validation Guidelines apply to all stages of the drug manufacturing process, including the production of active pharmaceutical ingredients (APIs) and finished dosage forms. The guidelines provide direction for both new drug products and existing ones that undergo changes in their manufacturing processes.Purpose of ValidationThe primary purpose of drug production validation is to demonstrate that the manufacturing processes consistently produce pharmaceutical products that meet the predetermined quality attributes, ensuring their safety and efficacy. Validation also helps in identifying and controlling potential sources of variability that may affect the quality of the products.General Principles1. Process DesignThe guidelines emphasize the importance of robust process design, which involves defining critical process parameters and establishing appropriate control strategies. Process design should consider factors such as quality, safety, efficiency, and regulatory requirements.2. Process QualificationProcess qualification involves confirming the suitability and capability of the manufacturing process through a series of documented tests, studies, and evaluations. Three stages of process qualification are identified: installation qualification, operational qualification, and performance qualification.3. Continued Process VerificationOnce a process is qualified, continued process verification is necessary to ensure that the manufacturing process remains in a state of control. This involves ongoing monitoring, analysis of process data, and periodic re-evaluation to identify and address any potential sources of variability or process deviations.Validation Master Plan1. PurposeThe Validation Master Plan (VMP) provides an overview of the entire validation process and establishes the validation strategy for the drug manufacturing facility. It outlines key activities, responsibilities, and timelines for validation activities.2. ContentsThe VMP should include the following sections: - Introduction and scope - Validation policy and objectives - Roles and responsibilities - Validation activities and schedules - Change control procedures - Documentation requirements - Validation protocols and reports - Deviation management - Training requirements Validation Documentation1. Validation ProtocolsValidation protocols are detailed documents that outline the series of tests, experiments, and observations to be performed during the qualification and validation processes. They should describe the acceptance criteria, sampling plan, and test methods.2. Validation ReportsValidation reports summarize the results obtained during the qualification and validation activities. They should include a description of the tests performed, data analysis, conclusions, and any deviations or discrepancies identified.3. Change ControlChange control procedures should be in place to manage any changes to the validated manufacturing processes. The guidelines recommend that any proposed changes be evaluated for potential impact on product quality and documented in change control records.ConclusionThe Drug Production Validation Guidelines provide a robust framework for ensuring the safety, quality, and efficacy of pharmaceutical products through the validation of manufacturing processes. By following these guidelines, drugmanufacturers can mitigate risks, control variability, and produce high-quality pharmaceuticals. It is essential for pharmaceutical companies to adopt and adhere to these guidelines to comply with regulatory requirements and ensure patient safety.。

A WORLD OF EXPERIENCE WORKING FOR YOUResins and Additives• Extended life and durability• Enhanced mar and scratch resistance • Improved chemical and stain resistance • Gloss control and improved flow• Improved pigment dispersion and stability • Solutions for reduced environmental impactThe Lubrizol Advantage:• A recognized leader in advanced coating technologies • Global analytical and research resources and expertise • Product selection and formulation guidanceLubrizol is dedicated to helping our customers by understanding their needs anddeveloping the key ingredients demanded for today’s marketplace. We invite you to learn more about our diversified portfolio of resins and additives for wood coatings by visiting /wood . Or better yet, contact your Lubrizol representative to see first-hand how we can work with you to find an effective, efficient solution to meetyour production benchmarks.DIFFERENTIATED PERFORMANCELubrizol innovates resins, dispersants, and waxadditives to help our customers formulate differentiated performance in their coatings products, including unique solutions that make wood more durable and more beautiful.FormulationBy fully engaging with customers to understandtheir specific market needs, Lubrizol is well prepared to help formulate solutions for unique and differentiated performance.Product InnovationLubrizol is committed to market-driven productinnovation derived from core competencies in resins & binders, hyperdispersants, surface modifiers, specialty additives and formulated solutions.Application UnderstandingLubrizol maintains an extensive understanding of the market needs for various surface applications that allows us to help solve highly specialized coatings challenges with our customers.Testing CapabilitiesLubrizol maintains extensive product testingcapabilities that help ensure formulated coatingssolutions for customers will deliver intended protection, durability and aesthetic performance.Global Customer AlignmentA worldwide network of labs and facilities that continues to expand is aligned with the global market needs of ourcustomers, allowing us to bring localized service.GUIDE TO LUBRIZOL RESINSGUIDE TO LUBRIZOL WAX ADDITIVESGUIDE TO LUBRIZOL DISPERSANTSWith certain organic pigments, it may be advantageous to include the use of a Solsperse synergist in combination with the polymeric Solsperse hyperdispersant. The synergist helps to improve the interaction between the hyperdispersant and the surface of certain organic pigments (e.g. phthalocyanine blues, greens) and carbon black pigments.The synergist hyperdispersants include:Solsperse™ 5000S Synergist – for use on organic blues/greens and carbon black pigments in solvent-based systems Solsperse™ 12000S Synergist – f or use on organic blues/greens and carbon black pigments in water- andalcohol-based systemsSolsperse™ 22000 Synergist – for use on certain organic reds and yellow pigments in solvent based systems Recommended Hyperdispersant : Synergist ratios4 : 1 for carbon black pigment4 : 1 for organic blue/green pigment9 : 1 for organic red/yellow pigment¹Low VOC systems are defined as systems with <50 g/l via US EPA Method 24 <25 g/l EU method)²Low VOC systems are defined as systems with <140 g/l via US EPA Method 24 <75 g/l EU Method)23-0002272NORTH AMERICALubrizol Advanced Materials, Inc.9911 Brecksville Road Brecksville, OH 44141 USA +1.888.234.2436EUROPELubrizol Deutschland GmbH Max-Planck-Str. 627721 Ritterhude Germany +49.421.69333 ASIA-PACIFICLubrizol Specialty Chemicals (Shanghai) Co., Ltd10/F, Park Center International No. 1088 Fang Dian Road Shanghai 201204, PR China +8621.3866.0366SOUTH AMERICALubrizol do Brasil Aditivos Ltda Avenida Nove de Julho, 3653Jardim Paulista Sao Paulo – SP 01407-000+55.11.4097.0250Lubrizol Advanced Materials, Inc. (“Lubrizol”) hopes that you have found the information provided helpful, but you are cautioned that this material, including any prototype formulas, is for informational purposes only and you are solely responsible for making your own assessment of appropriate use of the information. TO THE MAXIMUM EXTENT PERMITTED BY APPLICABLE LAWS, LUBRIZOL MAKES NO REPRESENTATIONS, GUARANTEES, OR WARRANTIES (WHETHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE), INCLUDING ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, OR REGARDING THE COMPLETENESS, ACCURACY, OR TIMELINESS OF ANY INFORMATION. Lubrizol does not guarantee how the materials referenced herein will perform in combination with other substances, in any methods, conditions, or processes, with any equipment, or in non-laboratory environments. BEFORE COMMERCIALIZATION OF ANY PRODUCT CONTAINING THESE MATERIALS, YOU SHOULD THOROUGHLY TEST SUCH PRODUCT, INCLUDING HOW THE PRODUCT IS PACKAGED, TO DETERMINE ITS PERFORMANCE, EFFICACY, AND SAFETY. You are solely responsible for the performance, efficacy, and safety of any products you manufacture. Lubrizol shall not be liable, and you shall assume all risk and responsibility for, any use or handling of any material. Any claims may not be approved in all jurisdictions. Any entity making claims related to these products is responsible for complying with local laws and regulations. Nothing contained herein is to be considered as permission, recommendation, or inducement to practice any patented invention without permission of the patent owner, and it is your sole responsibility to determine if any issues related to patent infringement of any component or combination of components relating to the information provided exists. You acknowledge and agree that you are using the information provided herein at your own risk. If you are dissatisfied with the information provided by Lubrizol, your exclusive remedy shall be to not use the information.Lubrizol Performance Coatings is a market-driven innovator of specialty chemicals for coatings, inks and composites. Our portfolio of resin, binder, dispersant, waxadditive and specialty additive technologies solves challenges across a wide range of markets and applications. Formulators choose Lubrizol to benefit from our innovative technologies, customer collaboration and global reliability. More than just a supplier, we are a valued partner with extensive experience in surface protection, dispersion, adhesion and barrier properties. We work closely with customers to enhance the performance, productivity and sustainability benefits of their products and drive new opportunities for market success./coatingsTrademarks owned by The Lubrizol Corporation or its affiliates. ©The Lubrizol Corporation 2023, All Rights Reserved.。

12000系列硬件特性1.电源特性：（此针对12016、12416、12816）1)12000系列路由器在电源具有冗余的情况下，设备处在工作状态中可手动移除或插入主（备）电源；2)12000系列有2种电源模块，一个是GSR 槽位数DC-PEM，功率为2000W，标识为PWR-GSR16-DC，这是早期的DC电源；另一个是12000/槽位数-DC-PEM，功率为2400W，标识为12000/16-DC-PEM，这是目前的DC电源模块。

2.引擎特性：12000提供2种引擎方式，一个是Gigabit Route Processor（GRP）；另一个是Performance Route Processor （PRP），PRP是当前用的引擎方式，在CPU、内存方面都要高于以前的GRP，GRP在现思科配置文档里都不能做配置了。

1)GRP在12000系列支持的设备有12008、12010、12012、12016、12404、12410、12416，板卡见下图；产品编号为GRP-B或GRP2)PRP在12000系列中都支持，有2中编号的PRP，一种是PRP-1=，另一种是PRP-2。

PRP-1见图：PRP-2见图：3.背板带宽：1)12016以下的各GSR，基本上每个槽位允许最大容量是2.5G，它的背板带宽为槽位数×2×2.5；2)12400系列GSR，每个槽位允许最大容量是10G，它的背板带宽为槽位数×2×10；3)12800系列GSR，每个槽位允许最大容量是40G，它的背板带宽为槽位数×2×40；4.结构卡要点：1)12404只有一个CSC卡，在设备槽位的最下方，如下图：2)12006是3×SFC和2×CSC，还有2块告警卡，缺省情况下只有一块CSC卡，见下图：当结构卡为SFC-30/120、CSC-30/120时，线卡容量为2.5G，当结构卡为GSR6-SFC、GSR6-CSC时，线卡容量为10G。

.Classification [Protected] P/N: 704819 | P. 1© 2011 Check Point Software Technologies Ltd. All rights reserved.For a list of our trademarks, please refer to: /copyright.html . Installing and Removing a LOMCardImportant - Contact Check Point Technical Support before you open the cover of the appliance. If you open the cover without getting approval from Check Point Technical Support,the warranty of the appliance is voided.Only personnel that have explicit permission from Check Point Technical Support are allowed to open an appliance and install or remove LOM cards. Doing the installation incorrectly canpermanently damage the appliance.For more information about using Lights Out Management, see the Check Point Lights OutManagement Administration Guide(/documentation_download?ID=12676).Preparing the ApplianceBefore you start to install or remove the LOM (Lights Out Management) card, make sure that: ∙ The appliance is in a clean environment and on a level surface.∙ You can physically access and open the cover of the appliance.∙ You can connect to the WebUI or CLI to shut down the appliance.∙ You have the Check Point LOM card upgrade kit.Important - To protect the appliance and the LOM card from electrostatic discharge damage, make sure you are properly grounded before you touch any components in the appliance. Use a grounding wrist strap and follow the instructions provided with the wrist strap before youhandle the components or open the appliance.The grounding plug on the rear of the appliance provides a chassis grounding point. If you do not have a grounding wrist strap, make sure you are properly grounded before you touch any electronic component. To prepare the appliance:1. From the WebUI or the CLI, shut down the appliance.2. Use the power switch to turn off power to the appliance.3.Remove the power cords from the appliance.4. Remove the warranty sticker from the appliance cover screw.5. Remove the top cover from the appliance.Only use the screwdriver that is included in the upgrade kit to open and replace the appliance cover.Check Point 4800Check Point 12400 and 12600Installing the LOM Card12400 and 12600 Appliances (Diagram shows memory sockets for 12600)4800 and 12200 Appliances (Diagram shows memory sockets for 12200)To install the LOM card in the appliance:1. Find the LOM card socket on the system board.Important - Be careful, there are sharp metal parts in the appliance, like theheatsink fin and bracket, that can cause injury and damage the hardware.2. Hold the LOM card at an angle to align with connector.3. Press down on the LOM card until it lies flat.4. Use two screws to secure the LOM card on the system board.Important - Make sure that there are no leftover parts inside the appliance.5. Make sure the LOM card is installed correctly.a) Connect the power cards to the appliance.Make sure the green LED on the LOM card is on.b) Turn on the appliance using the power switch at the rear of the appliance.c) Use an Ethernet cable to connect the LOM port to a computer.Make sure the LOM port link LEDs are on.d) Turn off the appliance and remove the power cords.6. Replace the cover on the appliance.Removing the LOM CardMake sure that you prepare the appliance before you remove the LOM card. See Preparing the Appliance (on page 1).To remove the LOM card:1. Find the LOM card. Loosen and remove the two screws.2. Pull the socket locking levers OUT (away from the card edges).3. Lift the rear of the card up and away from the system board.4. Make sure the appliance starts correctly.a) Connect the power cords to the appliance.b) Turn on the appliance using the power switch at the rear of the appliance.c) Make sure that the LCD screen shows the appliance model.d) Turn off the appliance and remove the power cords.Important - Make sure that there are no leftover parts inside the appliance.5. Replace the cover on the appliance.Attaching the New Warranty Sticker After you install the new LOM card, attach the new warranty sticker on the appliance.Important - Failing to attach the new warranty sticker correctly will void the warranty of theappliance.To attach the new warranty sticker:1. Make sure that the appliance operates correctly.2. Make sure the Lights Out Management operates correctly.3. Attach the new warranty sticker from the upgrade kit to the appliance.The warranty sticker covers an appliance cover screw.4. Clearly write this information on the sticker:∙Date of upgrade.∙Current configuration of the appliance for the memory DIMMs and LOM card.。

SANtricity™ Storage ManagerConfiguration Guide for Tru64 UNIXTM13932-E1, First EditionProprietary Rights NoticeThis document contains proprietary information of LSI Logic and Storage Technology Corporation. The information contained herein is not to be used by or disclosed to third parties without the express written permission of an officer of LSI Logic Corporation or Storage Technology Corporation. Any product(s) described herein is/are a licensed product of LSI Logic Corporation and Storage Technology Corporation.Document DescriptionDocument TM13932-E1, First Edition. April 2003This document provides required general reference information and configuration material necessary to the installation and operation of the disk subsystem and connection through a Tru64 UNIX host system, and will remain the official reference source for all revisions and releases of this product until rescinded by an update.Intended ReadersThis book is intended for system administrators and service personnel who are responsible for installing, configuring, and maintaining the storage array network. Readers must be familiar with computer system operation, maintenance, and repair. In addition, they should understand disk array, RAID, network, and Fiber Channel technologies. DisclaimerIt is the policy of LSI Logic and Storage Technology Corporation to improve products as new technology, components, software, and firmware become available. We reserve the right to make changes to any products herein at any time without notice. All features, functions, and operations described herein may not be marketed in all parts of the world. In some instances, photographs and figures are of equipment prototypes. Therefore, before using this document, consult your sales representative or account team for information that is applicable and current. WE DO NOT ASSUME ANY RESPONSIBILITY OR LIABILITY FOR THE USE OF ANY PRODUCT(S) DESCRIBED HEREIN EXCEPT AS EXPRESSLY AGREED TO IN WRITING BY LSI LOGIC.License RestrictionThe purchase or use of an LSI Logic/StorageTek solution does not convey a license under any patent, copyright, trademark, or other intellectual property right of LSI Logic, StorageTek, or its third parties.Copyright Notice© 2003 LSI Logic Corporation. All rights reserved.© 2003 Storage Technology Corporation. All rights reserved.Trademark AcknowledgmentsLSI Logic, the LSI Logic logo, StorageTek, the StorageTek logo, ContinuStor, and SANtricity are all trademarks or registered trademarks of LSI Logic Corporation or Storage Technology Corporation. All other brand and product names may be trademarks of their respective companies.SANtricity Storage Manager Configuration Guide for Tru 64 UNIX iRegulatory Compliance StatementsFCC Radio Frequency Interference StatementThis equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the Federal Communications Commission (FCC) Rules. These limits are designed to providereasonable protection against harmful interference in a commercial installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at his own expense.LSI Logic Corporation and Storage Technology Corporation are not responsible for any radio or television interference caused by unauthorized modification of this equipment or the substitution or attachment ofconnecting cables and equipment other than those specified by LSI Logic Corporation and Storage Technology Corporation. It is the user ’s responsibility to correct interference caused by such unauthorized modification, substitution, or attachment.Laser Products StatementThis equipment has been tested and found to comply with regulations for Class 1 laser product pursuant to 21 CFR, Section 1040-10. For outside the USA, this equipment has been tested and found compliant with Class 1 laser product requirements contained in European Normalization standard EN 60825-1 1994+A11. Class 1 levels of laser radiation are not considered to be hazardous and are considered safe based upon current medical knowledge. This class includes all lasers or laser systems which cannot emit levels of optical radiation above the exposure limits for the eye under any exposure conditions inherent in the design of the laser product.LSI Logic Corporation and Storage Technology Corporation are not responsible for any damage or injury caused by unauthorized modification of this equipment or the substitution or attachment of connecting cables and equipment other than those specified by LSI Logic Corporation and Storage Technology Corporation. It is the user ’s responsibility to correct interference caused by such unauthorized modification, substitution, orattachment.This Class A digital apparatus meets all requirements of the CanadianInterference-Causing Equipment Regulations.Cet appareil numérique de la classé A respecte toutes les exigences duRèglement sure le matèriel brouilleur du Canada.Revision RecordEdition or Revision Date Affected Pages or Remarks First Edition April 2003New Book.Part Number: TM13932-E1 ii SANtricity Storage Manager Configuration Guide for Tru 64 UNIXSANtricity Storage Manager Configuration Guide for Tru64 UNIX1ConfigurationSystem administrators can use the following configuration information to enable aTru64 UNIX system to physically connect and supply network access to a disk subsystem. To manage the disk subsystem, configure volumes, or monitor performance, install the SANtricity Storage Manager software on a Windows 2000 workstation and connect it to the disk subsystem using the direct management method.General Reference.....................................................................................................page 2Fibre Channel Hardware Specifications....................................................................page 3NVSRAM Configuration..........................................................................................page 5Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .General ReferenceThis section contains information on basic configuration issues and hardwarerequirements, including operating system versions.Operating System RequirementsEnsure this host system contains one of the following versions of the Tru64 UNIXoperating system, and has been loaded with the latest patch levels:•version 5.0•version 5.0A•version 5.1•version 5.1AHardware RequirementsRefer to the following specifications to ensure this Tru64 UNIX system meets the system hardware requirements:•64-bit MIPS RISC R12000 (minimum 180 MHz)•CDROM drive•Mouse or similar pointing device•256 MB system memory (512 MB or more recommended)•256 MB system swap area (512 MB or more recommended)•Ethernet network interface card2SANtricity Storage Manager Configuration Guide for Tru64 UNIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Fibre Channel Hardware SpecificationsFibre Channel Hardware SpecificationsThis section provides information about the available Fibre Channel equipment that is part of the tested hardware solution, including model numbers of supported host bus adapters and switches, tested driver and firmware levels, and specific hardware restrictions.More information on host bus adapters and switches is available through the followingsources:•Operating system specific information sheets following the tables•Any documentation that came with a particular host bus adapter or switch•Vendor and manufacturer support web sites•Technical supportHost Bus Adapter InformationThe following contains information on supported 2-gigabit host bus adapters.LSI Logic LSI44929OThis host bus adapter was tested with the following driver, firmware, and BIOS revisions:•Driver: 1.00.00•Firmware: 1.00.09•BIOS: 2.00.03From the following link, select MetaStor Driver Packages to download the correctLSI Logic HBA driver:/support/index_contd.htmlLSI Logic LSI40919OThis host bus adapter was tested with the following driver, firmware, and BIOS revisions:•Driver: 1.00.00•Firmware: 1.00.09•BIOS: 2.00.03From the following link, select MetaStor Driver Packages to download the correctLSI Logic HBA driver:/support/index_contd.htmlSANtricity Storage Manager Configuration Guide for Tru64 UNIX3Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Fabric SwitchesThe following contains information on supported 2-gigabit fabric switches.QLogic SANbox2-8This 8-port switch was tested with the following driver firmware and software levels:•Firmware: 01.40-20•Switch management software: 1.03-46This switch has the following restriction:The storage network may have poor fabric/switched performance if switch settingsallow for interleaved data frames.Brocade® SilkWorm® 2400This 8-port switch was tested with the following driver firmware level:•Firmware: 2.6.0fThis switch has the following restriction:The storage network may have poor fabric/switched performance if switch settingsallow for interleaved data frames.Brocade SilkWorm 2800This 16-port switch was tested with the following driver firmware level:•Firmware: 2.6.0fThis switch has the following restriction:The storage network may have poor fabric/switched performance if switch settingsallow for interleaved data frames.Brocade SilkWorm 3800This 16-port switch was tested with the following driver firmware level:•Firmware: 3.0.2hThis switch has the following restriction:The storage network may have poor fabric/switched performance if switch settingsallow for interleaved data frames.4SANtricity Storage Manager Configuration Guide for Tru64 UNIX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . NVSRAM ConfigurationNVSRAM ConfigurationThis section contains information about the NVSRAM configuration and specific settings required to access the disk subsystem through a Tru64 UNIX host system.Control Module and Array Module ControllersThe controllers in the control modules and array modules are not interchangeable. Thefollowing list of hardware has been tested with Tru64 UNIX. The list also provides areference for the appropriate controllers to use in each model of control module and array module.•9176 control module– 4774 controllers•D178 control module– 4884 controllers•D280 control module – 5884 controllers•D173-010 and D173-014 array modules– 2772 controllersNVSRAM PackagesNVSRAM files are downloadable packages that specify default settings for the disksubsystem controllers. You will install these files on the host system and download them to the disk subsystem controllers as necessary. Refer to the SANtricity Storage ManagerInstallation Guide for instructions on when and how to download these files.C AUTION Do not attempt to download NVSRAM packages unless instructed to doso in the SANtricity Storage Manager Installation Guide or by technicalsupport.Inappropriate application of these files could cause serious problems withyour disk subsystem.Configuring NVSRAM for the Tru64 HostTo support data accessibility through the Tru64 host system, set the SANtricity StorageManager Host Type to IRIX and run the modification script as described on page 6. SANtricity Storage Manager Configuration Guide for Tru64 UNIX5Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Scripts to Modify NVSRAM Configuration FilesTo ensure proper operation of the disk subsystem when connected to a Tru64 UNIX host system, make the following modification to the NVSRAM.Procedure1Start the storage management software.2In the Enterprise Management Window, select the disk subsystem for which you want to modify NVSRAM settings.3Select Tools >> Execute Script.The Script Editor window opens.4Type the following in the Script Editor window:show controller[a] nvsrambyte[0x34];show controller[b] nvsrambyte[0x34];set controller[a] nvsrambyte[0x34]=0x31;set controller[b] nvsrambyte[0x34]=0x31;5From the Script Editor text menu, select Tools >> Verify and Execute.The script executes and a Script Execution Complete message is displayed.6Close the Script Editor window.A dialog will open that asks to save the script.7Select “No”.8Exit the storage management software.9Turn off the power to the controllers, and then turn the power back on.End Of Procedure6SANtricity Storage Manager Configuration Guide for Tru64 UNIX。