CBmold300页面参数介绍 V2

OWNER'S MANUALCopyright © Professional Tool Products, 2018All rights reservedHARDWARE SPECIFICATIONSTOOLS NEEDED FOR ASSEMBLY:• 2 - 14mm Combination Wrenches • 13mm Socket or Universal Socket • 4" Extension• 1/4" Ratchet1a x 32 pcs.1b x 4 pcs. 2 x 72 pcs.3 x 16 pcs.24 x 40 pcs.4 x 4 pcs.9 x 16 pcs.Due to the weight of this cart we recommend that TWO PEOPLE work together on the assembly. This cart weighs approximately 170 lbs, please use caution during assembly. Step 1:Locate the key tied to the bottom tray. Using the key, open the lid and remove the caster box from the bottom drawer. Once removed make sure all drawers are completely closed and the inside lever is in the locked position. Close the top lid and lock.Step 2: Lay out a work surface using the protective foam provided. Once this surface is secure gently turn the cart onto its lid. (logo will be facing the foam)Step 3:(Before assembling the legs, remove the cable tie holding the bumper in place) Insert the front leg (#7), labeled FL or FR into top lip of the cart. Then place the Front bumper (#14 with Cornwell Logo) over the leg aligning the center bolt holes. With holes aligned insert stove bolt (#1a) and finger tighten with nyloc nut and washerStep 4:Install back leg (#7) labeled BL or BR and bumper (#14 without logo) following the same procedure as above. Note: Make sure the back leg is inside the hinge rivet. Otherwise the holes will not line up during assemblyASSEMBLY INSTRUCTIONSStep 7:Insert bottom shelf (#23) between the four legs flat side facing up towards the ceiling. Insert sixteen stove bolts (#1a) and completely tighten.Step 5:Repeat steps 3 & 4 to mount the legs on the opposite side. Step 6: Completely tighten the 8 bolts just inserted.Troubleshooting Points during CTBMM300 Assembly.Problem: Drawers appear not to fit, do not slide in accurately and bump the cart sides.Solution: The roller bearing slides must be fully engaged into the mounting slots on all drawers. They potentially could fall out of position while turning the cart on its lid, back, or onto its casters.Remove the drawer that is out of position. The drawer is removed by the two clips on the roller bearing slides.Simply push the roller bearing slide back down into position. Insert the drawer back onto the roller bearing slides.Problem: Back Lock/Unlock Switch does not engage the drawer.Solution: The inside Lock/Unlock slide potentially could fall out of its groove while turning the cart on its lid, back, or onto its casters during assembly.Unscrew the four screws that are holding the Lock/Unlock slide in place. Once the screws are removed simply place the latch back onto the slide and tighten the four screws back down.Problem: Back Lock/Unlock Switch does not engage the drawer.Solution: The inside Lock/Unlock slide potentially could fall out of its groove while turning the cart on its lid or back onto its casters.Unscrew the four screws that are holding the Lock/Unlock slide in place.Once the screws are removed simply place the latch back onto the slide and tighten the four screws back down.Step 13: Insert the remaining 8 stove bolts (#1a).Step 14: Using 13mm socket completely tighten all fasteners!!Step 15: Insert spray can holder divider (#19) into provided cutaway on the bottom shelf (#23). (Optional)ASSEMBLY INSTRUCTIONSStep 8:Mounting casters: Put the four casters in place. The two locking casters (#12) should be on one side of the cart and the two non locking casters (#10) should be on the other (Left or right side NOT front or back). Using the 16 bolts (#9), washers and fasteners (located in separate Caster bag) completely tighten the casters to the bottom tray using a 13mm socket and 14mm combination wrench for the bolt head. (Note: Bolt head and one washer should be on the inside of the bottom shelf, hex nut Step 10: Open top lid using the key providedStep 11: Mount push handle (#6) to the same side of the cart withthe locking casters using the four stove bolts (#1b) provided. Finger tighten at this time.Step 12: Insert the 4 Stove bolts (#4) provided to the opposite side of thecart. Note: This stove bolt is shorter due to not having to pass through a handle or bumper.TROUBLESHOOTINGI tem # Part # Description QTY. 1a M8 Bolt (6mm-17mm) 321b M8 Bolt (6mm-19mm) 42 Flat Washer (D8) 723 Hex Nut M8 164 M8 Bolt (3mm-17mm) 45 RSMM100HB Handle Brackets/Pair 16 RSMM100HDL Push Handle 17 RSMM300LGBK (Black) Leg 4RSMM300LGBL (Blue)RSMM300LGRD (Red)RSMM300LGRG (Orange)RSMM300LGNG (Neon Green)8 RSMM300SRPBK (Black) Screwdriver / Prybar holder 1 pairRSMM300SRPBL (Blue)RSMM300SRPRD (Red)RSMM300SRPRG (Orange)RSMM300SRPNG (Neon Green)9 Hex bolt M8-16 (for casters) 1610 RSSWCS 5" Swivel Caster (non-locking)/each 211 RSMM300RPBK (Black) Reinforced Piece /each 2RSMM300RPBL (Blue)RSMM300RPRD (Red)RSMM300RPRG (Orange)RSMM300RPNG (Neon Green)12 RSSWLCS 5" Swivel Caster with lock/each 213 RSMM300DHBL (Blue) Drawer Handle w/ Hardware 314 RSMM300BPRF Right Front Bumper 1RSMM300BPLF Left Front Bumper 1RSMM300BPLR Left Rear Bumper 1RSMM300BPRR Right Rear Bumper 115 Screw for Drawer Handles 1216 RSLKN Lock with Keys17 RSGP Gas Piston /each18 RSRBS Roller Bearing Slides/pair 319 RSMM300SCDBK (Black) Spray can divider 1RSMM300SCDBL (Blue)RSMM300SCDRD (Red)RSMM300SCDRG (Orange)RSMM300SCDNG (Neon Green)21 CTBMM3003DBK (Black) 3" Drawer 2CTBMM3003DBL (Blue)CTBMM3003DRD (Red)CTBMM3003DRG (Orange)CTBMM3003DNG (Neon Green)22 CTBMM3005DBK (Black) 5" Drawer 1CTBMM3005DBL (Blue)CTBMM3005DRD (Red)CTBMM3005DRG (Orange)CTBMM3005DNG (Neon Green)23 CTB300MMSBK (Black) Bottom shelf 1CTB300MMSBL (Blue)CTB300MMSRD (Red)CTB300MMSRG (Orange)CTB300MMSNG (Neon Green)24 Nylon Nut M8 4025 RSLMC300BKN (Black) Locking mechanism 1RSLMC300BLN (Blue)RSLMC300RDN (Red)RSLMC300RGN (Orange)RSLMC300NGN (Neon Green)26 RS50022 Power Strip w/ Cord 1 ALSO AVAILABLE:RSDET8PK Ball Bearing Slide Detents (Pk of 8),RSMM300LK 5pack EVA liner kitRSMM100DHP Plastic End Cap for Drawer Handle (2 pack)RSMM300BK4 Hardware Kit for opposite side of Push Handle (4 pc each #2, #4 & #24) RSMM300BK3 Caster Hardware Kit (each – 1 wheel) (4 pc each #3, #9 & 8 pc #2) RSMM300BK2 Push Handle Hardware Kit (4 pc each #1b, #2 & #24)RSMM300BK1 Leg/Bumper Hardware Kit (32 pc each #1a, #2 & #24)RS50022PC - Power Cord PART DRAWINGS5Push HandleBracket6Push Handle 7Legs (4)8Pry BarHolder (2)14Bumper (4)2 with logo, 2 without10Non-LockingCaster (2)11Front & BackBracket12Locking SwivelCaster (2)Narrow SideSmall Lip13DrawerHandle (3)19Paint CanHolder DividerPARTS LIST。

Technical Data Manual5672 343 - 02 10/2015Vitocell 300-B EVB SeriesDual-coil, indirect-fired domestic hot water storage tank79 USG and 119 USG (300 L and 450 L) capacityProduct may not be exactly as shownVertical indirect-fired domestic hot water storage tank of high-grade stainless steel with two coils.One heat exchanger coil facilitates heat transfer from the solar collectors to domestic hot water, a second heat exchanger coil allows reheating of the water content by the hot water heating boiler.This tank version is not suitable for steam heatingModel Nos. and pricing: see Price List25672 343 - 02Domestic hot water storage tank of high-grade stainless steel highly effective all-around thermal insulation. Fully hygienic, efficient and economical domestic hot water production by solar collectors and a hot water heating boiler. Heat from the solar collectors is transferred to the domestic hot water via the lower tank coil.Benefits at a glance:Corrosion-resistant tank of high-grade SA 240-316Ti stainless steel offers a long service life.Fully hygienic due to high quality homogeneousstainless steel surfaces.The high-alloy material is immune to cracking or peeling. The tank stays hygienic and requires only minimum service.Does not require a consumable anode for corrosionprotection.The entire water content is heated by a 1a in. (34 mm) diameter stainless steel heat exchanger surfacewhich extends to the bottom of the tank.Large heat exchanger surfaces allow fast and even heating of the entire water content, guaranteeing ahigh level of domestic hot water comfort.Standby losses minimized by highly effective HCFC- insulation.79 USG (300 L) version comes equipped with hard PUR foam.119 USG (450 L) version is supplied withremovable soft PET insulation for easier handling.Two thermometers to show the DHW temperature at the top of the tank, and at the midpoint of thetank.Tank design is accepted in the State ofMassachusetts as being ASME equivalent.Certified to CSA Low Lead Content Certification Program;including US Safe Drinking Water Act, NSF/ANSI 372 as well as other applicable US State requirements.35672 343 - 0245672 343 - 02Suitable for heating systems with:max. working pressure on heat exchanger side upto 220 psig at 392°F (200°C)max. working pressure on DHW water side of up to 150 psig at 210°F (99°C)max. testing pressure on DHW side of 300 psigFor DHW production in conjunction with solar systems, heating boilers and heating systems, without low limit for dual coil operation.*1 The upper coil is designated for connection to a hot water heating boiler or a heat pump.*2 The lower coil is designated for connection to solar collector panels or heat pumps.*3 When planning for the recovery rate as stated or calculated, allow for the corresponding circulation pump. The stated recovery rate is only achieved when the rated output of the boiler is equal to or greater than that stated under “Recovery rate”.*4 Measured values are based on a room temperature of 68°F (20ºC) and a domestic hot water temperature of 149°F (65ºC) and can vary by ± 5%.*5 For other dimensions, see illustrations and tables on pages 5 and 6. *6 Adjustable feet can be adjusted up to 2 in. (50 mm).For information regarding other Viessmann System Technology componentry, please reference documentation of the respective product.Storage capacity USG (L)79 (300)119 (450)Coil upper*1lower*2upper*1lower*2Recovery rates*3with a DHW temperature increase from 50 to 113ºF (10 to 45ºC) and a supply water temperature of......194ºF (90ºC)MBH (kW)GPH (L/h)273 (80)519 (1965)318 (93)604 (2285)273 (80)519 (1965)328 (96)623 (2358)176ºF (80ºC)MBH (kW)GPH (L/h)218 (64)415 (1572)246 (72)467 (1769)218 (64)415 (1572)249 (73)474 (1793)158ºF (70ºC)MBH (kW)GPH (L/h)154 (45)292 (1106)178 (52)337 (1277)154 (45)292 (1106)191 (56)364 (1376)140ºF (60ºC)MBH (kW)GPH (L/h)96 (28)182 (688)102 (30)195 (737)96 (28)182 (688)126 (37)240 (909)122ºF (50ºC)MBH (kW)GPH (L/h)51 (15)97 (368)51 (15)97 (368)51 (15)97 (368)61 (18)117 (442)Recovery rates*3with a DHW temperature increase from 50 to 140ºF (10 to 60ºC) and a supply water temperature of......194ºF (90ºC)MBH (kW)GPH (L/h)253 (74)336 (1273)280 (82)372 (1410)253 (74)336 (1273)276 (81)368 (1393)176ºF (80ºC)MBH (kW)GPH (L/h)184 (54)245 (929)202 (59)268 (1014)184 (54)245 (929)212 (62)282 (1066)158ºF (70ºC)MBH (kW)GPH (L/h)120 (35)159 (602)140 (41)186 (705)120 (35)159 (602)147 (43)195 (739)Supply flow rate for the recovery rates stated GPM m 3/h 22.05.022.05.022.05.022.05.0Insulation PUR Foam Soft PET insulationStandby losses*4MBH/24 h 7.29.2Dimensions*5Tank length without insulationOverall length with insulation Tank width without insulation Overall width with insulation Tank height without insulation Overall height with insulation *6Tilt height without insulation Tilt height with insulation in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm) --25 (633)--27c (704)--70 (1779)--71f (1821)28 (715)36b (925)36 (914)38e (975)65b (1667)68b (1738)66b (1690)--WeightTank with insulation lbs (kg)251 (114)275 (125)Heat exchanger coil USG (L) 2.9 (11) 2.9 (11) 2.9 (11) 3.9 (15)Heat exchanger surface area ft.2 (m 2)16.1 (1.5)16.1 (1.5)15.6 (1.45)20.5 (1.9)Connections Coils Domestic cold/hot water Recirculation ∅ in. (male NPT thread)∅ in. (male NPT thread)∅ in. (male NPT thread)1111a1a 1a55672 343 - 02LegendIO Inspection and clean-out opening D DrainBWR Boiler water return (upper coil)SCR Solar collector return (lower coil) or boiler return BWS Boiler water supply (upper coil)SCS Solar collector supply (lower coil) or boiler supply DCW Domestic cold waterSW1 Sensor well opening for DHW tank temperature sensor or boiler controller aquastat (located at the same height as BWS [79 USG (300 L) only], rotated 20º.SW2 Sensor well for lower thermometer at SCS level DHW Domestic hot water RT Recirculation tappingTPV Temperature and pressure relief valve*1 For solar heating systems Viessmann recommends placement of the DHW tank temperature sensor in the solar collector return (SCR). This requires abrass elbow with sensor well (see price list, Vitosol accessory).The DHW tank temperature sensor of the boiler control is placed in SW1.LegendA DHW tank temperature sensor for solar application (included with solar control unit)B Brass elbow with sensor wellC Solar collector return connection.DHW tank temperature sensor in solar heating applications 79 USG (300 L).79 USG (300 L) TankDimensions Storage capacityUSG (L)79 (300)a b c d e f g h k m nin. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)3b (87)12 (301)29b (751)37b (951)33g (1101)54 (1369) 64b (1640)14 (357)4 (100)29b (751)54 (1369)65672 343 - 02LegendIO Inspection and clean-out opening D DrainBWR Boiler water return (upper coil)SCR Solar collector return (lower coil) or boiler return BWS Boiler water supply (upper coil)SCS Solar collector supply (lower coil) or boiler supply DCW Domestic cold waterSW1 Sensor well opening for DHW tank temperature sensor or boiler controller aquastat.SW2 Sensor well for lower thermometer at SCS level DHW Domestic hot water RT Recirculation tappingTPV Temperature and pressure relief valve*1 For solar heating systems Viessmann recommends placement of the DHW tank temperature sensor in the solar collector return (SCR). This requires abrass elbow with sensor well (see price list, Vitosol accessory).The DHW tank temperature sensor of the boiler control is placed in SW1.LegendA DHW tank temperature sensor for solar application (included with solar control unit)B Brass elbow with sensor wellC Solar collector return connection.DHW tank temperature sensor in solar heating applications 119 USG (450 L).119 USG (450 L) TankDimensions Storage capacityUSG (L)119 (450)a b c d e f g h k m nin. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)in. (mm)3b (102.5)17c (453)31b (802)35c (912)39c (1012)47c (1216) 63 (1601)20 (508)4 (100)32 (802)46 (1170)75672 343 - 02LegendA Lower indirect coil, 119 USG (450 L) capacityB Lower indirect coil, 79 USG (300 L) capacityC Upper indirect coil, 79 USG (300 L) and 119 USG (450 L) capacityPressure drop on heating water side of a single coilDomestic hot water pressure dropDomestic hot water draw rateStorage tank contents heated to 140ºF (60ºC), boiler not reheating Storage capacityUSG (L)79 (300)119 (450)Domestic hot water drawWater with t = 140ºF (60ºC) (constant)USG (L)34 (128)62 (233)Percentage tank volume%425285672 343 - 0279 USG (300 L) capacity DHW TankDHW tank made from high-alloy stainless steel with fitted PUR hard foam thermal insulation.– 2 thermometers °F / °C – adjustable levelling boltsThe following is packed separately and attached to the crate:– installation fittings package: with the necessary brass adaptors, other necessary hardware.– sensor well with insulation– temperature and pressure relief valve.Must be ordered separately:– 1 brass elbow with sensor well for solarcollector return, (see price list, Vitosol accessory).119 USG (450 L) capacity DHW TankDHW tank made from high alloy stainless steel and separately packed soft PET thermal insulation.– 2 thermometers °F / °C – adjustable levelling boltsThe following is packed separately and attached to the crate:– installation fittings package: with the necessary brass adaptors, other necessary hardware.– sensor well with insulation– temperature and pressure relief valve.Must be ordered separately:– 1 brass elbow with sensor well for solarcollector return, (see price list, Vitosol accessory).Domestic hot water connectionLegendA Domestic hot water supplyB DHW recirculation lineC DHW recirculation pumpD Spring-loaded flow check valveE Discharge pipeF Pressure and temperature relief valveG Shut-off valveH DrainK Domestic cold water supply lines L Backflow preventerM Domestic cold water inlet M Precharged expansion tank(required where backflow preventer is installed; check local plumbing codes and requirements)O Thermostatic mixing valve/anti-scald valve for solar applications (field supplied)Due to the potentially high DHW temperatures generated95672 343 - 02Installation ExampleLegendA Solar collectorB Vitocell 300-BC Filling valveD Solar-Divicon (pumping station)E Recirculation pumpF Anti-scald tempering valve HC Heating circuit B Oil/Gas-fired boiler DCW Domestic cold water DHWDomestic hot waterT&P Temperature and pressure relief valve105672 343 - 02Sensor wellThe supplied stainless steel sensor wells are to be used for control sensors to ensure maximum operationalsafety. The top sensor well is used for the DHW sensor connected to the boiler control.Should the supplied sensors not fit into the sensor wells, other stainless steel sensor wells must be used.For solar heating systems, Viessmann recommends placement of the DHW tank temperature sensor in the solar collector return. This requires a brass elbow with sensor well included in the accessory pack (see page 8).Heating water supply temperature over 230ºF (110ºC)These operating conditions require the installation of an additional safety high limit into the DHW storage tank, preventing the temperature from rising above 203ºF (95ºC). A domestic hot water tempering valve must be used.Temperature and pressure relief valveA 150 psi temperature and pressure relief valve (T&P relief valve) is supplied with the tank. The heating contractor must install the valve on each tank in amethod meeting code requirements. If local codes require a different relief valve, substitute the manufacturer’s supplied valve. The tank is approved for 100 psig where a Canadian Registration Number (CRN) is required. Maximum operating pressure is 150 psig.The T&P relief valve supplied with the tank is testedunder ANSI Z21.22 Code for Relief Valves and Automatic Gas Shut-off Devices for Hot Water Supply Systems.To ensure optimum, safe operation, the supplied stainless Backflow preventersWhere backflow preventers are required, a domestic water expansion tank installation is recommended in the cold water inlet piping before the cold water enters the Vitocell. For the backflow device, observe local plumbing codes and regulations.Warranty considerationViessmann DHW tanks require that the water to be heated must be of drinking (potable) water quality and that any water treatment equipment in use must function correctly.Viessmann accepts no responsibility for damagehowsoever caused and reserves the right to withdraw the product warranty if the product has been improperly installed or misapplied by the installer, contractor orfinal user. In order to qualify for product warranty, strict adherence to the installation and service manuals must be assured.In the event that Viessmann non-approved components are utilized, Viessmann reserves the right to withdraw all expressed or implied warranties without written notice.The water to be heated with the Vitocell must be drinking (potable) water quality. If the tank is used to heat other media, the warranty will be null and void.Damage resulting from excessive pressure or temperature is clearly not the responsibility of Viessmann.The amount of chloride and sulfate acceptable to the tank is limited. In areas where high concentrations of chloride and sulfate are present in drinking water, please consult Viessmann for directions.For full warranty details, please read the product warranty sheet.Recirculation tappingThe recirculation tapping is on a separate tapping (see page 5). Cap this opening if the tank is not installed with recirculation.Storage capacity USG (L)79 (300)119 (450)a bin. (mm)in. (mm)8.7 (220)7.9 (200)13 (330)12a(310)T&P Valve 100 psig (where CRN is required)150 psig ASME pressure steam ratingsee ratings marked on T&P valveCSA temperature steam rating 205 MBH 205 MBH Relieftemperature 210°F (99°C)210°F (99°C)Inlet thread c ” male c ” male Outlet threadc ” femalec ” female115672 343 - 025672343-2Tech ni cali nformations ubjec ttochang ewitho utn oti c e.P r in t e do ne n v i ro n m e n t a ll y f ri e n dly(recy cle dandrecycla b l e )paper.。

Huawei Atlas 300 Technical White PaperIssue02Date2019-07-29Copyright © Huawei Technologies Co., Ltd. 2019. All rights reserved.No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.Trademarks and Permissionsand other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.All other trademarks and trade names mentioned in this document are the property of their respective holders.NoticeThe purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied.The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.Huawei Technologies Co., Ltd.Address:Huawei Industrial BaseBantian, LonggangShenzhen 518129People's Republic of ChinaWebsite:About This DocumentPurposeThis document describes the Atlas 300 AI accelerator card (Atlas 300 for short) in detail,including its appearance, performance parameters, and configuration application.Intended AudienceThis document is intended for:l Huawei presales engineersl Channel partner presales engineersl Enterprise presales engineersSymbol ConventionsThe symbols that may be found in this document are defined as follows.Change HistoryTechnical White Paper ContentsContentsAbout This Document (ii)1 Product Introduction (1)1.1 Overview (1)1.2 Appearance (1)1.3 System Architecture (2)2 Product Features (3)2.1 Performance (3)2.2 Maintainability (3)2.3 Typical Application Scenario (3)3 Product Specifications (5)3.1 Basic Specifications (5)3.2 Environmental Conditions (6)3.3 Clock Requirements (7)3.4 Hot Swap (7)3.5 Power Management (7)3.6 Heat Dissipation Specifications (7)3.6.1 Heat Dissipation Requirements (7)3.6.2 Heat Dissipation Specifications (8)3.6.3 Over Temperature Protection (9)4 Management (10)4.1 In-band Management (10)4.2 Out-of-band Management (10)5 Certifications (11)6 Warranty (13)A Acronyms and Abbreviations (14)1 Product Introduction1.1 Overview1.2 Appearance1.3 System Architecture1.1 OverviewThe Atlas 300 AI accelerator card is a standard PCIe HHHL card using four HiSilicon Ascend310 processors. Working with main devices (such as x86 and ARM servers), it implementsfast and efficient inference, image identification, and processing.The Ascend 310 is a high-performance and low-power AI chip designed for image recognition, videoprocessing, inference computing, and machine learning. The chip has two built-in AI cores, supportingthe 128-bit LPDDR4X DRAM. Each core can provide Ascend 310 with up to 16 TOPS (INT8)computing capability.1.2 AppearanceFigure 1-1 and Figure 1-2shows the appearance of the Atlas 300.Figure 1-1 Atlas 300 with a half-height ejector leverFigure 1-2 Atlas 300 with a full-height ejector lever1.3 System ArchitectureFigure 1-3 shows the system architecture of the Atlas 300.Figure 1-3 System architecture of the Atlas 3002 Product Features2.1 Performance2.2 Maintainability2.3 Typical Application Scenario2.1 Performancel Uses four high-performance and low-power Ascend 310 processors. Each can provide Ascend 310 with up to 16 TOPS (INT8) computing capability.l Supports H.264 and H.265 video encoding and decoding, meeting various videoprocessing requirements.2.2 Maintainabilityl Supports in-band online upgrade, facilitating users' routine maintenance.l Supports in-band and out-of-band obtainment of device status information such astemperature, voltage, and power consumption, simplifying management with a graphicaluser interface.l Provides complete command line management function. Users can use commands toperform routine device management.l Supports in-band and out-of-band asset management, and provides such information as production date and serial numbers to facilitate asset management.2.3 Typical Application ScenarioThe Atlas 300 provides a facial recognition system. It uses the face detection algorithm, facetracking algorithm, face quality scoring algorithm, and high-speed facial recognitionalgorithm to implement real-time face snapshot modeling, real-time blacklist alignmentalerting, and facial image retrieval.Figure 2-1 shows the architecture of the facial recognition system. The main componentsinclude the front-end HD webcams or face snapshot cameras, media stream storage server(optional), intelligent facial analysis server, face alignment search server, central managementserver, and client management software. The Atlas 300 is deployed on the intelligent facial analysis server to implement frequency decoding and preprocessing, face detection inference, face alignment (correction), and facial feature extraction inference.Figure 2-1 Typical facial recognition system architecture3 Product Specifications3.1 Basic Specifications3.2 Environmental Conditions3.3 Clock Requirements3.4 Hot Swap3.5 Power Management3.6 Heat Dissipation Specifications3.1 Basic SpecificationsTable 3-1 Specifications of the Atlas 300Table 3-2 Basic specifications of the Atlas 300 software3.2 Environmental ConditionsTable 3-3 lists the requirements for the hardware application environment of the Atlas 300.Table 3-3 Atlas 300 hardware application environmental conditions3.3 Clock RequirementsThe Atlas 300 complies with the standard PCIe card protocol (PCI Express® CardElectromechanical Specification Revision 3.0). The card only needs to provide the standardPCIe 3.0 (backward compatible with 2.0 and 1.0) differential clocks. The signal quality meetsthe PCIe specifications.3.4 Hot SwapThe Atlas 300 supports orderly hot swap, but does not support surprise hot swap.3.5 Power ManagementThe Atlas 300 complies with the standard PCIe standard card protocol (PCI Express® CardElectromechanical Specification Revision 3.0). The maximum power consumption of the card******************************************************************@3.3Vstandard power supply capabilities.3.6 Heat Dissipation Specifications3.6.1 Heat Dissipation RequirementsThe Atlas 300 is used in an active heat dissipation environment with fans. It supportsbidirectional air intake and air exhaust. The air volume must meet the heat dissipationrequirements.Table 3-4 Heat dissipation requirements of the Atlas 300l The minimum required air volume refers to the air volume through the heat sink of the Atlas 300.l The ambient temperature at the heat sink inlet refers to the mean temperature at the air intake vent of the module.l The required air volume here is just a recommended value. The air volume and incoming flowtemperature provided by different systems for the Atlas 300 may vary, and are determined accordingto the actual test results.l When the Atlas 300 is powered on, the module needs air volume for heat dissipation. The minimumrequired air volume is 3.0 CFM.3.6.2 Heat Dissipation SpecificationsThe Atlas 300 supports an air intake vent temperature from 0°C to 55°C (32°F to 131°F).Internal temperature monitoring points are available. Both in-band and out-of-band modes canbe used to monitor the Ascend 310 and storage chip in real time to ensure that the temperatureof the card is lower than the specification value when the card is in the working status.Table 3-5 Temperature specifications of key components3.6.3 Over Temperature ProtectionThe Atlas 300 supports the detection of the junction temperature of key components, such asthe Ascend 310 and memory chip, through out-of-band and in-band channels, and alsosupports the detection of the entire board temperature. The log of the Atlas 300 recordsinformation such as the maximum temperature, the count of over temperature, and the totalover temperature time.The Atlas 300's main component Ascend 310 and its storage chip support a maximum airintake vent temperature of 55°C (131°F). Sufficient air volume for heat dissipation and propertemperature control policies are required to ensure reliable operations. Therefore, the Atlas300 uses the following alarming mechanism:l Severity 1: major alarm. The major alarm threshold of the Ascend 310 chip is 101°C(213.8°F), and the major alarm threshold of the storage chip is 90°C (194°F). When thechip temperature or operating temperature reaches this value, the firmware will restrictthe device performance.l Severity 2: critical alarm. The critical alarm threshold of the Ascend 310 chip is 106°C (222.8°F), and the critical alarm threshold of the storage chip is 100°C (212°F). Whenthe chip temperature or operating temperature reaches the value of this parameter, theAtlas 300 powers off.Technical White Paper 4 Management4 ManagementThe Atlas 300 provides various maintenance and management functions, including in-bandmanagement command sets running in the operating system (OS) and out-of-bandmanagement functions provided by the BMC.If the AI chip is not loaded with a driver, out-of-band management cannot accurately identify whetherthe AI chip is faulty and does not report any alarm when the AI chip is faulty. In-band managementprovides only the function of querying the health status of the AI chip. If an upper-layer service requiresthat an alarm be reported in real time when the AI chip is faulty, the upper-layer service needs to call therelated interfaces in the DCMI API module and perform related processing.4.1 In-band Management4.2 Out-of-band Management4.1 In-band ManagementIn-band management provides the following functions:l Online upgrade: The firmware is upgraded to facilitate device maintenance.l Asset management: Information, such as production date and serial numbers, is provided to facilitate asset management.For details about asset management operations, see the Atlas 300 Command Reference.l Log query: O&M personnel can use the log to analyze problems.For details about how to query logs, see section "Log Tool" in the Ascend 310MindSpore Studio Auxiliary Tools.4.2 Out-of-band ManagementThe Atlas 300 provides the SMBUS interface to support the out-of-band management ofservers. The BMC manages assets and monitors the Atlas 300 temperature, voltage, real-timepower consumption, and chip status. In addition, the BMC can take over Atlas 300 alarms.l For details about the out-of-band management function of the Atlas 300, see the BMC user guide.l For details about the alarms of the Atlas 300, see the BMC alarm reference.5 Certifications Table 5-1 CertificationsTechnical White Paper 6 Warranty6 WarrantyFor details, see the Maintenance & Warranty.Technical White Paper A Acronyms and AbbreviationsA Acronyms and AbbreviationsAAI Artificial IntelligenceBBMC Baseboard Management ControllerCCFM Cubic Feet Per MinuteEECC Error Checking and CorrectionOOS Operating SystemPPCIe Peripheral Component Interconnect ExpressSSMbus System Management Bus。

CME-300磁条读写器使用说明书一概述CME300系列磁条读写器是为银行系统设计的磁条读写设备，可对银行使用的活期存折卡、存储卡及操作员卡进行磁条信息的编写和读取，并且有读校和写校双重功能，CME300金融磁条机操作简单，性能可靠，是银行计算机系统理想的磁条读写设备。

二技术指标工作环境：温度 0˙C-45˙C湿度 20%-90%RH电源： DC +9V 750Ma 或主机 +5V 320mA体积： 215*63*65 mm重量：低抗(约0.8KG) 高抗(约1KG)通讯参数： 1200/2400/4800/9600BPS（可选）数据为8位无校验/7位偶校验（可选）停止位1位磁卡标准：符合ISO IBM 有关标准拉卡速度： 10cm — 80cm磁头寿命： 50万次三拨码开关设置CME300的底部，放置了一只8位的DIP拨码开关，和一个复位按钮孔。

按动复位孔内的按钮可使机器复位。

3.1 通讯参数设置3.1.1 开关SW1、SW2设定通迅波特率3.1.5 开关SW8设定某些特殊使用环境3.1.6 拔码开关调整后一定要使机器重新上电或按底部复位按钮硬复位，新的设置功能方能有效。

3.6 记录密度控制命令ESC H （1B 48）置第二磁道为 210BPIESC L （1B 4C）置第二磁道为 75BPI3．7 记录密度控制命令3．四控制命令4．1 读磁条命令主机通过串口向CME300磁条读写器送命令后，读写器的读灯亮，提示可以刷卡。

如果成功读出数据，则CME300发出一声鸣叫；否则，错误灯亮，蜂鸣器响三声。

成功读出的数据以如下格式返回主机：读磁条命令（单二道）ESC ]（1B 5D）拉卡正确，返回：ESC s 读出的数据？ FS1B 73 读出的数据 3F 1C读磁条命令（单三道）ESC T ]（1B 54 5D）拉卡正确，返回：ESC s A 读出的数据？ FS1B 73 41 读出的数据 3F 1C读磁条命令（二三道）ESC B ]（1B 42 5D）拉卡正确，返回：ESC s 二道数据 A 三道数据？ FS1B 73 二道数据 41 三道数据 3F 1C上述命令中，磁道数据之含义为：读成功为磁条上的数据读失败为DEL（7F）4.2 写磁道命令主机通过串口向读写器送ESC\命令后，读写器的写灯亮，提示您可以划卡写数据。

CMU200!全中文说明书_手机综测仪基本操作和设置一、8960综测仪基本操作和设置：1、三个关键按钮：Measurement, Call setup, System config2、按下System config 系统配置按钮进入仪器参数设置界面a、点击Instrument Setup 设置正确的GPIB地址b、点击RF IN/OUT Amptd offset按钮设置相应的线损Passloss 值（我司一般880-960 GSM , 1710-1880 DCS ；在进行耦合测试时，GSM 22, DCS 28）c、点击Application selection 按钮后，界面有两个按钮Application Switch切换测试应用软件GSM / GPRS ，Application Setup 选择测试应用版本(一般情况下不用考虑此项)d、 RF IN / OUT (Output port 设置选择IN/OUT)3、 Call Setup 界面操作a、 Operating Mode 操作模式设置：一般选择Active Cell ,在进行META匹配调试时，CMU或8960都要设置为Non-Signalling,所谓非信令模式就是选择含有广播信道BCH的操作模式，仪器8960仅进行通讯；Signalling模式有Cell GPRS\Cell EGPRS，仪器8960起基站的作用。

b、Connection Type 连接类型设置：一般选择Auto模式，也可选择ETSI Type A,在测误码率BER 时要选择 BLER模式。

c、 BCH Parameters参数设置,Cell power 一般开始设置要大一些，譬如-65dbm,以便能够顺利建立通信，然后可以调节到需要的值；Cell Band 要和所测试的信道一致EGSM/DCS或者PGSM;d、 TCH Parms 参数设置：Traffic Band 选择PGSM/DCS;Traffic Channel Traffic一般测试几个典型信道1、37、69、124、512、698、885、975、1023或者特定的信道；MS TX Level 一般都选择最大功率级0/5. Channel mode 业务信道模式（编码器）选择一般不用理会；timeslot和Time advance 、mobile loopback也不太考虑；Speech 选择Echo回音模式。

User Interface enhancements from OMIMSWAC v2.3 to v3.0AbstractGuide to help users understand user-interface changes in v3.0 as comparedto its previous version.December 2022RevisionsRevisionsAcknowledgmentsThis paper was produced by the following:Authors: Snehan Reddy KotaSupport: Ajit ParhiThe information in this publication is provided “as is.” Dell Inc. makes no representations or warranties of any kind with respect to the information in this publication, and specifically disclaims implied warranties of merchantability or fitness for a particular purpose.Use, copying, and distribution of any software described in this publication requires an applicable software license.This document may contain certain words that are not consistent with Dell's current language guidelines. Dell plans to update the document over subsequent future releases to revise these words accordingly.This document may contain language from third party content that is not under Dell's control and is not consistent with Dell's current guidelines for Dell's own content. When such third-party content is updated by the relevant third parties, this document will be revised accordingly.Copyright © 2019-2022 Dell Inc. or its subsidiaries. All Rights Reserved. Dell Technologies, Dell, EMC, Dell EMC and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be trademarks of their respective owners. [1/13/2023] [560]Table of Contents1New features in OMIMSWAC v3.0 (5)1.1Overview (5)1.2Prerequisite Check (6)1.3Azure Integration for Failover Cluster (6)2Health (8)2.1Cluster Health (8)2.2Server Health (9)3Inventory (11)4Azure Integration for HCI Cluster (12)5iDRAC (13)6Security (15)6.1Infrastructure Lock (15)6.2Secure Core (16)7Update (17)8HCP Compliance (21)9Cluster Recommendation (24)10Configure (26)10.1CPU Core (26)10.2Expand Storage (28)10.3Expand Cluster (29)11Conclusion (32)A Technical Support and Resources (33)A.1Related Resources (33)AcronymsAcronymsExecutive SummaryThis white paper explores the correlation and differences between the user interface of OMIMSWAC 2.3 and the revamped user interface in OMIMSWAC 3.0.Intended AudienceThis document is intended for IT administrators who have previously used OMIMSWAC 2.3 to managetheir IT infrastructure and have transitioned to OMIMSWAC 3.0 or later versions.1 New features in OMIMSWAC v3.01.1 OverviewThis page provides health, compliance, security & storage overview of the connected server or cluster.You can deep dive into these overview status and metrics by navigating to the respective item from Viewdropdown.Figure 1a: Cluster OverviewFigure 1b: Cluster node OverviewFigure 1c: Quick Tasks1.2 Prerequisite CheckStand-alone prerequisites check helps to verify if the connection meets the requirements for monitoringand management operations.Figure 2: Pre-requisites check1.3 Azure Integration for Failover ClusterIn OpenManage Integration 3.0, while connected to a Failover Cluster, click the Azure tab to use theAzure integration feature. This is like the Azure Integration feature which was delivered in OpenManageIntegration v2.3, with some modifications done based on the use case.Figure 3: Onboarding Checklist for Azure IntegrationFigure 4: Onboard Policies2 HealthThis section shows the health status of the hardware components for target servers/clusters. The healthsection is mostly similar to the old UI, with changes around the display of individual components.2.1 Cluster HealthIn OpenManage Integration v2.3, the overall health status of a component type is displayed as a donutchart. Color legend next to the donut chart indicates status type and number of components for eachstatus.Figure 2: Health status in OMIMSWAC 2.3In OpenManage Integration v3.0, select Health from the View drop-down to see the health status of thecluster.The overall health status of a component type is displayed as a bar chart. Color legend below the barindicates status type and number of components for each status.Figure 3: Health status in OMIMSWAC 3.0You can click a color legend to view a filtered list of component and node on the side panel that opens onthe right side.Figure 4: Health status details in OMIMSWAC 3.02.2 Server HealthIn OpenManage Integration v2.3, the overall health status of a component type is displayed as a donutchart. Color legend next to the donut chart indicates status type and number of components for eachstatus.Figure 5: Server health status in OMIMSWAC 2.3In OpenManage Integration v3.0, select Health from the View drop-down to see the health status of the server.The overall health status of a component type is displayed as a bar chart. Color legend below the bar indicates status type and number of components for each status.Figure 6: Server health status in OMIMSWAC 3.0Inventory3 InventoryIn OpenManage Integration 2.3, click the Inventory tab to view inventory details of a cluster. The inventorydetails are represented in a tabular format as given below.Figure 7: Inventory screen in OMIMSWAC 2.3In OpenManage Integration 3.0, click Inventory from the View drop-down to view the inventory details ofa server/cluster. The inventory details are represented in a tabular format as given below.Figure 8: Inventory details in OMIMSWAC 3.0Azure Integration for HCI Cluster4 Azure Integration for HCI ClusterIn OpenManage Integration 2.3, while connected to a HCI cluster, click the Azure tab to use the Azureintegration feature. There are no changes in the Azure integration page.Figure 9: Azure integration for OMIMSWAC 2.3In OpenManage Integration for 3.0, click Azure Integration from the View drop-down to use the Azureintegration feature. You can also select the feature from the Action menu.Figure 10: Azure integration in OMIMSWAC 3.05 iDRACIn OpenManage Integration 2.3, click the iDRAC tab and then select a node from the list to view detailsabout node iDRAC.Figure 11: iDRAC details in OMIMSWAC 2.3In OpenManage Integration 3.0, to view the iDRAC details of a node, select Overview from the Viewdrop-down, select a node from the Node drop-down, and then click iDRAC Details link. Node iDRACdetails displayed on the right side.Figure 12: iDRAC details in OMIMSWAC 3.0Figure 13: iDRAC details displayed on the right side in OMIMSWAC 3.06 Security6.1 Infrastructure LockInfrastructure lock protects infrastructure from unintended changes by enabling the infrastructure lock.This can be applied both at the server and cluster level.In OpenManage Integration 2.3, click the Security tab and then select Infrastructure Lock.Figure 14: Infrastrucutre lock in OMIMSWAC 2.3In OpenManage Integration 3.0, to lock your infrastructure, click Security from the View drop-down andthen select Infrastructure Lock from the drop-down.Figure 15: Infrastrucure lock in OMIMSWAC 3.06.2 Secure CoreSecured-core allows configuration of BIOS security feature in your infrastructure. This feature allows youto enable secured-core servers for your infrastructure.In OpenManage Integration 2.3,to enable secured-core, click the Security tab and then select theSecured-Co re.Figure 16: Secured-core in OMIMSWAC 2.3In OpenManage Integration 3.0, to perform secured-core, select Security from the View drop-down andthen select Secured-core from the drop-down.Figure 17: Secured-core in OMIMSWAC 3.07 UpdateValidates BIOS, firmware, driver, and application configurations against the Dell recommendations toensure they are compliant and helps updating the non-compliant components.In OpenManage Integration 2.3, to perform hardware update, select the Update tab, choose a catalog,and then select Next: Compliance report. In the Compliance report tab, the compliance report isdisplayed in a bar chart. You can view the Node level compliance details. Select the component thatneeds to be updated and then click Next: Summary.Figure 18: Hardware update in OMIMSWAC 2.3Figure 19: Compliance report in OMIMSWAC 2.3Figure 23: Compliance summary step in OMIMSWAC 2.3Figure 24: Cluster awareness update step in OMIMSWAC 2.3In OpenManage Integration 3.0, to generate hardware compliance report, click Compliance from the View drop-down and then select Hardware Updates from the drop-down. Click Check Compliance, a window appears on the right side for you to select a catalog and click Check Compliance to generate the hardware compliance report.You can view the hardware compliance report on the main page as well as on the right side. It shows the same report. The doughnut chart displays the overall compliance report and the bar chart displays thecomponent compliance report.Figure 25: Hardware update in OMIMSWAC 3.0Figure 26: Fix compliance side panel in OMIMSWAC 3.0Figure 27: Compliance update in OMIMSWAC 3.0Figure 28: Compliance report in OMIMSWAC 3.08 HCP ComplianceHCP Compliance is for the HCI clusterThis feature provides the ability to validate and remediate an HCI cluster using HCP policies to ensurethat the cluster shows better resiliency and performance and remains compliant with Dell recommendedconfigurations throughout the life cycle of the HCI cluster.In OpenManage Integration 2.3,to perform HCP compliance, select the HCP Compliance tab. ClickCheck Compliance to generate HCP Compliance Summary. The overall compliance shows thepercentage of compliance in a bar chart. The donut chart displays the total number of components anddifferent color codes. Color legend next to the donut chart shows the compliance state and the number ofcomponents for each state.Figure 29: HCP compliance in OMIMSWAC 2.3Figure 30: HCP compliance report in OMIMSWAC 2.3In OpenManage Integration 3.0, to check HCP compliance, select the Compliance from the View drop-down, and then select HCP from the next drop-down. You can also select the HCP compliance from the Action menu. To generate HCP compliance report, click Check Compliance. The donut chart displays the overall compliance in percentage. The bar chart displays segregation of overall compliance in different color codes, Color legend below the bar chart displays compliance type and number of components foreach compliance type.Figure 31: HCP compliance in OMIMSWAC 3.0Figure 32: HCP compliance report in OMIMSWAC 3.09 Cluster RecommendationCluster Recommendation is for the Failover cluster.This feature provides the ability to validate and remediate Failover cluster using failover cluster policies toensure that the cluster shows better resiliency and performance and remains compliant with Dellrecommended configurations.In OpenManage Integration 2.3, to check cluster recommendation, click the Cluster Recommendationtab, and then click Check Recommendation to generate compliance summary. The overall complianceshows the percentage of compliance in a bar chart. The donut chart displays the total number ofcomponents and different color codes. Color legend next to the donut chart shows the compliance stateand the number of components for each state.Figure 33: Cluster recommendation in OMIMSWAC 2.3In OpenManage Integration 3.0, to check cluster recommendation, click Compliance from the View drop-down, select Cluster Recommendation from the next drop-down, and then click CheckRecommendation. The donut chart displays overall compliance in percentage. The bar chart displays thetotal number of component compliance with different color codes. Color legend below the bar chartdisplays different compliance type with number of components for each compliance type.Figure 34: Cluster recommendation in OMIMSWAC 3.0Figure 35: Details of cluster recommendation report in OMIMSWAC 3.010 Configure10.1 CPU CoreThis feature enables to configure the number of CPU cores in cluster nodes.In OpenManage Integration 2.3, to update CPU core, click the Configure tab and then click ComputeResources. The CPU core configuration summary report appears. The bar chart displays the number ofcurrent cores, available cores, and maximum cores. Click Update CPU Core to update the use of currentcore.Figure 36: Update CPU core in OMIMSWAC 2.3Figure 37: Update CPU core configuration side panel in OMIMSWAC 2.3In OpenManage Integration 3.0, to update CPU core, select the Configure from the View drop-down, and then select the CPU Core from the second drop-down. You can also select a node, to update node specific CPU core from the Node drop-down. You can also invoke the CPU Core Management page from the Action menu. The donut chart displays the maximum core. Color legend next to it displays the number of current cores and available cores.The bar chart displays the node-specific total number of cores and available core.Figure 38: Update CPU core in OMIMSWAC 3.0Figure 39: Update CPU core Configuration in OMIMSWAC 3.010.2 Expand StorageThis feature enables you to view the currently available physical disks in a cluster. Also, enables you tosee the recommendations and prepare nodes for adding more storage capacity to scale up the cluster.In OpenManage Integration 2.3, to view recommendations for storage expansion, click the Configure taband then click Expand Storage tab. Node-specific storage details displayed.Figure 40: Storage configuration in OMIMSWAC 2.3Figure 41: Storage configuration summary in OMIMSWAC 2.3In OpenManage Integration 3.0, to view recommendations for storage expansion, click the ExpandStorage from the View drop-down. Select Add Storage from the next drop-down. Cluster storageconfiguration details displayed.Figure 42: Cluster storage configuration in OMIMSWAC 3.0Figure 43: Cluster storage configuration summary in OMIMSWAC 3.010.3 Expand ClusterThis feature helps you prepare new nodes by giving recommendations to ensure new nodes arecompatible and follow Dell recommended configurations.In OpenManage Integration 2.3, to prepare nodes for cluster expansion, click the Configure tab and thenselect Expand Cluster. Click Add Nodes to see the list of nodes available for cluster expansion. Selectcompatible nodes and perform the checks mentioned to decide node compatibility.Figure 44: Prepare nodes for cluster expansion in OMIMSWAC 2.3Figure 45: Perform checks for new nodes in OMIMSWAC 2.3In OpenManage Integration 3.0, to perform cluster expansion, select Expand Cluster from the View drop-down and then select Add Nodes from the next drop-down. You can also invoke Expand Cluster page from the Action menu. To see list of nodes and perform certain checks, click Add nodes. Selectcompatible nodes page opens on the right side.Figure 46: Prepare nodes for cluster expansion in OMIMSWAC 3.0Figure 47: Perform checks for new nodes in OMIMSWAC 3.011 ConclusionUsing this white paper, one can easily relate to the UI enhancements introduced in Dell OpenManage Integration with Microsoft Windows Admin Center v3.0. This will help you to map and understand the UI changes between the OpenManage Integration releases v2.3 and v3.0.A Technical Support and ResourcesA Technical Support and ResourcesA.1 Related Resources•OMIMSWAC's User’s Guide, Release Notes,•••••。

德国奔克bp300控制系统技术手册以及系统菜单Böhnke + Partner GmbH Werkskonfiguration BP公司出厂菜单设置———————————————————————————————————Steuerungsnr.控制器号: 87576Kunde客户: ZHAOAufzugsnummer电梯号:Sonderangaben特殊说明: ———————————————————————————————————StrgNr.控制器号: 87576AufzNr.电梯号:ProVer.程序版本: 35X-9.04b 20.09.99 14:00CDA-03CLP-03IO-CoP. 输入输出协处理器: V2.9DCPCoP. DCP协处理器: V5.7 ———————————————————————————————————base menu 基本菜单lift data 电梯数据:highest landing 最高层站: 5lowest landing 最低层站: 1SST at floor : no entry 未用type of lift 电梯类型: rope with speed regul. frequency VVVF曳引梯frequency reg. Type变频器类型: F20: ZETADYN 2CF Ziehl Abeggtype of system 系统类型: single lift 单梯shaft copying 井道信息: without switches (encoder at SP7) 无磁开关,编码器接于SP7 type of control 控制类型: full collective select call cancel 全集选,行驶方向召唤消除cod.pos.indica.All 楼层显示: gray code 格雷码All-level offset 所有层站偏移量: 0via A14/A15 经A14/A15 : 7-segmentcode 7段码: 2345start.sp. l fl 启动速度: ssss: 1234functions rope 曳引梯功能:safety switching 安全开关: : stop at level with blocking 平层停车,电梯禁用re-levelling 再平层: with levelcontact 用平层接触开关relevel-switch 再平层开关: make contact 常通relevelling control 再平层控制: cancel releveling at landing 在门区时取消再平层re-levelling 再平层: via main device 经主设备re-levelling 再平层: with c1.153 用接线端153levell.door close 关门时再平层: normal 正常re-levelling 再平层: stop before normal start 在正常启动前停止re-levelling 再平层: brake not delayed 制动不延时PTC thermistor 温控电阻: immediate stop with blocking 立即停车,电梯禁用control term.9 监控线端9 : with blocking 电梯禁用malfunct.cl.35 故障线端35 : immediate stop with blocking立即停车,电梯禁用regulation contr. 调速器监控: immediate stop with blocking立即停车,电梯禁用travel direct. sig. 运行方向指示: when going down 正到达时brake open after 制动开,当: signal c1.31=1 信号接线端31=1brake close after 制动关,当: signal c1.31=0 信号接线端31=0re-levelling 再平层: brake not delayed 制动不延时signal c1.21 信号接线端21 : help-sig. brake 制动器辅助信号signal c1.31 信号接线端31 : make contact 常通signal c1.34 信号接线端34 : break contact 常断speed reduction 减速: from Vs to Vz 从Vs到Vzstandard funct.标准功能:inspection 检修: pushb.fast+door open/close=off 快速键+开关门键=关闭inspection 检修: up to level 直至平层inspection 检修: without close door signal 无关门信号inspection 检修: without lock-sig. c1.48 接线端48无门锁信号insp./emerg.el.op.检修/返回运行: according EN81 按照EN81标准start off zone 门区外启动: distant-triP 远程运行correction signals 校正信号: break contact 常通correction after 校正运行,当: lowest landing 底层floor selector ctr 楼层选择监控: without blocking 电梯不禁用top floor 顶层: without impuls 无脉冲E35-configuration 输入35配置: with relevel switches 再平层开关emergency stop as紧急停车作为: message 警告emergency stop 紧急停车: without call cancel 不删除召唤emergency stop as紧急停车,当: switch 开关emerg.stop-pushb.紧急停车按键: nd.calls aft. open land. Door打开厅门后允许外召open saftey circuit打开安全回路: without call cancel 外召不删除open saftey circuit打开安全回路: without correc.trip 无校正运行singl.fault sign.A13 : variant 1 (B+P) BP型故障信号输出A13direction ind."up"上行方向指示: normal 正常direct.indic."down"下行方向指示: normal 正常direction indicat.运行方向指示: in idle state on空闲时开start load-time开始加载时间: with load-button加载键按下load lift pushb.电梯加载键: car calls cancel lift-load time加载时取消轿内召唤maintenan.interval 保养期内: without blocking电梯不禁用mainten.call-back保养返回召唤: off 关emergency norm紧急情况规范: german 德国标准fireman's ctr.car消防员控制轿厢: door movement normal 门正常开关after firem.ctr.car消防员控制后: return to fire-man's floor 返回消防层floor funk.E28-E32 : off 关楼层功能输入口28-32clearing calls 清除召唤: when arriving 当到达时nd.pushb.off当外召关闭时: car-calls collect. 采集内召nd.pushb.off当外召关闭时: clear car calls at once立即清除内召prior.cabin (64) 轿内优先: off at priority floor 在优先层关priority tota1(154) 总体优先: normal 正常after priority 优先运行后: clear car calls at once立即清除内召after priority 优先运行后: car calls not correctable 内召不可纠正priority:stopover优先:过层: open door 开门priority calls 优先召唤: normal 正常priority:dir.ind.优先:方向指示: normal 正常type SFR SFR控制: without no load 无空载type SFR SFR控制: only 1 car-call 只有一个内召speci.calls R41-48 特别召唤: priority calls 优先召唤priority car calls 轿内优先召唤: via c1.84 经接线端84bei Vorzugsf. Innen轿内优先时: Weiterfahrtanzeige aus 继续运行指示:关Quittungen A72-A79 响应: attendant operat. 司机操作input terminals输入接线端:functions功能:monitor.cl.33监控线端: relay off 继电器关monitor.cl.35监控线端: off关monitor.cl.36监控线端: light aux.circuit备用照明monitor.cl.37监控线端: normal正常monitor.cl.38监控线端: Maschinenraumtemp.机房温度signal c1.83信号线端: addit. Correct 附加校正signal c1.84信号线端: priority car calls collecting采集轿内优先召唤signal c1.141信号线端: off关signal c1.142信号线端: attendant operation only 1car call司机操作,只有一个内召signal c1.143信号线端: off关signal c1.144信号线端: off关signal c1.145信号线端: off关signal on c1.146信号线端off关sign.on c1.221信号线端: off关sign.on c1.222信号线端: off关sign.on c1.225信号线端: off关signal c1.398信号线端: off关logic逻辑:signal c1.33信号线端: break contact常断signal c1.35信号线端: break contact常断rem.off c1.37远程关闭: break contact常断signal c1.38信号线端: break contact常断signal c1.84信号线端: make contact常通signal c1.85信号线端: break contact常断signal c1.86信号线端: make contact常通full load c1.87信号线端: make contact常通overload c1.88过载: make contact常通evacuat.cl.l24疏散信号: make contact常通signal on c1.146信号线端: make contact常通sign.on c1.225信号线端: make contact常通output terminals输出接线端:functions功能:signal c1.43信号线端: close valve关闭阀signal c1.44信号线端: cent.fault indicat 故障信息采集signal c1.45信号线端: occupied 占用signal c1.46信号线端: out of order 电梯失控sign.on c1.47信号线端: zone channel A 门区通道Asig.c1.63 (A64) 信号线端: car chime轿厢钟signal c1.64信号线端: prior.cabin (64) 轿内优先signal c1.66信号线端: close doors 关门signal c1.67信号线端: +24V control power 控制回路供电signal c1.152信号线端: Ladezeit l鋟ft 加载时间signal c1.153信号线端: lift will start 电梯将启动signal c1.155信号线端: service interv. 保养期间signal c1.156信号线端: remote off relay 远程功能关闭继电器sign.on c1.211信号线端: pulse ls-tm125=1 暂停1秒,当接线端=1 sign.on c1.212信号线端: pulse ls-tm125=0 暂停1秒,当接线端=0 logic逻辑:cent.fault indicat故障信息采集: sig. 1->0 信号从1→0doors 门:doors门: A one side only 只有单边门Atype of door A A门类型: autom. doors with endswitch自动门有限位开关sep.sec-l.b.door A 外加光幕: no无function c1.163接线端163功能: normal正常signal c1.191信号端191 : prewarn.close door 关门预警door A with endsw.门限位开关: open and close 开门和关门时endswitch door A门限位开关: break contact常断photo-cell光眼: make contact常通pushbutton open开门按键: make contact常通pushbutton close关门按键: make contact常通load lift pushb.加载按键: make contact常通sensor barrier光幕: make contact常通entrance supervision基层监控: make contact常通doors reversion门反转: only within zone仅在门区内doortable 1门表1 : door A 0000012345ports端口:number of ELP-port ELP端口数: no entry无output-ports输出端口: connect in parallel并行连接ports reserv.端口保留:port: 1 (8 O)端口1(8出) : A03 speed reg.rope lift调速曳引梯,输出口03 port: 2 (8 I)端口2(8入) : --- ***** free *****空port: 3 (8 I)端口3(8入) : E06 control-signals控制信号,输入口06 port: 4 (8 O)端口4(8出) : A06 control signals控制信号,输出口06 port: 5 (8 O)端口5(8出) : --- ***** free *****空port: 6 (8 O)端口6(8出) : --- ***** free *****空port: 7 (8 O)端口7(8出) : --- ***** free *****空port: 8 (8 O)端口8(8出) : A05 car signals轿厢信号,输出口05port:11(8I/O/C)端口11(8入/出/组合) : --- ***** free *****空port:12(8I/O/C)端口12(8入/出/组合) : --- ***** free *****空port:13(8I/O/C)端口13(8入/出/组合) : --- ***** free *****空port:14(8I/O/C)端口14(8入/出/组合) : --- ***** free *****空serial interfaces串行接口:SP 1(RS232):device connect设备连接: DFÜ 300baudrate波特率: 38400 Bdparity奇偶校验: no entrydata size数据长度: 8 Bitnumber of stopbit停止位: 1 Stopbitmodem device调制解调器: Hayes compatible贺氏兼容dialing mode拨号方式: pulse dialing脉冲拨号modem answer after调制解调器应答: 1 ring 一声振铃后modem speaker调制解调器喇叭: on 开SP 2 (RS 485):device connect设备连接: group-ring (TxD)群控环baudrate波特率: 9600 BdSP 3 (RS 485):device connect设备连接: group-ring (RxD) 群控环baudrate波特率: 9600 BdSP 4 (CoPro.IC2协处理器1):device connect设备连接: SLP (RS485-car)baudrate波特率: 19200 BdSP 5 (CoPro.IC3协处理器3):device connect设备连接: DCP-RS485->FC 经DCP,RS485至变频器baudrate波特率: 19200 BdDCP-protocol DCP协议: without dist.value(DCP01)无距离值,DCP方式1 DCP-protocol DCP协议: Rundung Verf.l 循环方式SP 6 (CoPro.IC4协处理器4):device connect设备连接: disabled禁用baudrate波特率: 19200 BdSP 7 (CoPro.IC1协处理器1):device connect设备连接: multiturn-encoder AWG05多圈式绝对值编码器resolution分辨率: 1024 dig.Circumference周长: 468 mm (AWG Nr.l)baudrate波特率: 38400 Bdmalfunction encod.编码器有故障时: immediate stop without blocking立即停车,电梯不禁用measuring unit in度量单位: mmdir.of rotation旋转方向: clockwise upw.顺时针向上add.correct.switch附加校正开关: no entry无trav.delay control运行减速控制: no entry无level-positions平层位置: normal正常div. numbers各种数字号码:base code基本菜单口令: ****info code信息口令: ****liftnumber电梯编号:controller number控制器编号: 87576RMS -number DFÜ编号:telefon no.l电话号码1 :telefon no.2电话号码2 :telefon no.3电话号码3 :company logo left公司徽记: ZHAOservice menu 服务菜单door functions门功能:open door开门: to endswitch open 直至限位开关打开wait for door ends在限位开关处等待: 10 sec 秒door at parking fl.门在泊梯层: remains closed or will be closed 关闭或将关闭door in rest floor门在休息层: remains closed or will be closed 关闭或将关闭door in emergen. fl.门在紧急停层: remains open 开LB-reverse-time光幕反转时间: without leveling time 无平层时间door reversing门反转: with switch break 有开关间歇door nd.call外召影响门反转: on (max.3x) 开(最多三次)door rev.floor-call层召影响门反转: only open 仅开时forced door closing强迫开门: off 关pre-opening door 预开门: on 开blo.door close ctr 禁用关门控制: off 否open door,when 当…时开门: one levelling swit 一个平层开关lock types 门锁类型: hook lock 钩锁lock signal c1.48 线端48门锁信号: when X5.16 closed 当X5.16关闭时door at stopover 门在层间时: opens & closes 打开后关上door mot.off idle 门机在空闲时关闭: normal 正常door mot.running 门机在运行时: on 开prewarn.close door 关门预警: normal 正常Türen schließen 关门normal 正常nach Betä."Tür auf 开门操作后Türen schließen normal 正常关门door timing门定时:doors in rest close after门空闲后…关门: 30 sec 秒door motor off after 门机空闲后关闭否: off 关闭doors open with delay…开门延时: 100 mslock debouncing before start启动前门锁防撞: 100 mslock delay before start启动前门锁拉紧延时100 mslock delay after stop到达后门锁放下延时: 100 msdoor close with delay...关门延时: 100 msdoor reversal by photo-cell电眼检测致门反向: 3 secpushb."close door" activ after ...关门键激活时间: 1 sec pushb."loading time""加载时间"键: 1 min 分idle period during door reverse movem : 500 ms门反向运动间隔monit.door rev.sig门反向信号监控: 30 secprewarn.close door 关门预警: off 关闭prewarn.open door 开门预警: off 关闭door motor delayed off at endsw.close off 关闭门限位开关关闭时门机减速停止功能test signal SecLb光幕测试信号: 3 seccontrol SecLb光幕控制: 3 secfunctions功能:door gong到站钟: only by landing-calls 仅当有外召时car lightning轿厢灯: off only at "remote off" 仅当"远程关闭"时关闭car lightning轿厢灯: immediately off 立即关闭start control 启动控制: without blocking 无"电梯禁用"功能driving time control运行时间控制: with blocking有"电梯禁用"功能slow speed time control减速运行控制: without blocking无"电梯禁用"功能up/down light向上/向下灯: normal正常direction indicat.方向指示灯: normal正常landing calls外召: normal正常parking landing trip泊梯运行: normal正常remote off floor远程关闭层: normal正常LC-Display in液晶显示语种: english英语Hydr.Parkfahrt液压梯泊梯运行: on (only 1x)开,只有一次LCD-ilum.(option)液晶背光(可选项) : after 10 min off 10分钟后关闭no calls load 空载召唤数: 1times,common一般定时:holding time after car call内召停车时间: 5 secholding time after landing calls外召停车时间:7 secparking landing trip泊梯运行: off关闭gong delay到站钟延迟: off关闭gong holding time到站钟持续: 1 secsignal bouncing time 信号颤振时间: 30 mscall debouncing time召唤防颤时间: 40 msentrance observation off after ... : 1000 ms经…时间前厅监控关闭Vz-impuls delay landing to land. : Off关闭门区运行时Vz脉冲延时motor delayed off at levelswitch : off关闭平层开关区电机关闭延时cancel landing calls by entrance observa. : 5 sec前厅监控取消外召turn off signals during idle state. : off关闭空闲时关闭信号starting lock启动禁用: off关闭call monitoring cancel calls after : 5 min经…时间召唤监控取消召唤stand-by delay priority calls优先召唤等待时间: 60 sec door blocking signal time-delay拥挤信号延时: 30 sec door blocking signal duration拥挤信号持续: 5 sec delay emerg.call 紧急召唤延时: 2000 mscent.fault indicat delayed故障信号采集延时: off关闭gegens.Rufverrieg.插上门闩: 1 seccontrol times控制定时:door close and locking control关门及上锁控制: 10 sec start control启动控制: 5 secdriving time control运行时间控制: 15 secslow speed time control运行减速速控制: 15 sec brake control制动器控制: 2 secspeed reg.times调速定时:starting delay启动延时: off关闭brake close delay制动器关闭延时: off关闭relays off delay继电器关闭延时: 800 msbrake open delay制动器打开延时: off关闭RF/K22 delay RF/K22关闭延时: off关闭relevelling on delaytime关闭延时: 1000 ms relevelling off delaytime关闭延时: offparking floor etc.泊梯层及其它:parking landing泊梯层: no entry无nd.rem.off远程关闭控制层: no entry无remote off floor远程关闭层: no entry无evacuation floor 1 第1疏散层: no entry无fireman's floor消防员层: no entry无nding 备用电源层: no entry无waiting landing等待层: no entry无control-landing控制层: no entry无addit. Correct辅助校正: no entry无wait-landing "fill"上车等待层: no entry无wait-floor "clear"空等待层: no entry无evacuation floor 2第2疏散层: no entry无evacuation floor 3第3疏散层: no entry无evacuation floor 4第4疏散层: no entry无security-floor安全层: no entry无ramp transp.floor斜坡运行层: no entry无maintenc.functions保养功能:random calls随机召唤: off关闭doors by service保养期间的门: normal正常emerg.el.operation返回控制: up to level直至平层lamptest照明测试: off关闭Geschw.elektr.Matte失电速度: 1.0 m/secAWG-install.trip 安装AWG时的运行: without S81/S82 不用限位开关S81/S82signals S81/S82 限位开关S81/S82信号: break contact常断test driv.time ctr运行时间控制测试: normal正常Fahrtricht. Kl 61/62 接线端61/62运行方向: off关闭abs. shaft encoding 绝对位置测量travelling speed运行速度:Vs (fast)快速: 0.8 m/sVi (inspection)检修: 0.6 m/ssig.c1.43 if Vs >如果Vs大于...时接线端43信号: 0.3 m/stripcnt/hours met 运行计数器/计时器tripcount运行计数器: 23hours meter运行计时器: 0.0interval trips运行间隔次数: 0interval hours run运行间隔时数: 0.01.1.1 基本菜单Base Menu为启用基本菜单，应先将控制系统关闭，然后按住calls键向下再上电。

北京神州泰岳软件股份有限公司BMC指标中文字典北京神州泰岳软件股份有限公司2019年6月30日文档属性文档变更文档送呈目录1前言 (14)2规范版本 (15)3BMC中文指标 (16)3.1Windows (16)3.1.1CPU (16)3.1.1.1CPU系统时间（CPUprcrProcessorTimePercent） (16)3.1.1.2CPU用户时间（CPUprcrUserTimePercent） (17)3.1.1.3CPU特权时间（CPUprcrPrivTimePercent） (18)3.1.1.4CPU利用率（ProcessorUtilization） (19)3.1.2内存 (20)3.1.2.1虚拟内存使用率（PAGEpgUsagePercent） (20)3.1.2.2内存使用率（MemoryUsage） (20)3.1.2.3可用内存（MEMmemAvailableBytes） (21)3.1.2.4内存换入页（MEMmemPagesInputPerSec） (21)3.1.2.5内存换出页（MEMmemPagesOutputPerSec） (22)3.1.3逻辑分区 (22)3.1.3.1逻辑分区空闲空间（LDldFreeMegabytes） (22)3.1.3.2逻辑分区已用空间（LDldDiskSpaceUsed） (23)3.1.3.3逻辑分区空闲率（LDldFreeSpacePercent） (23)3.1.4硬盘 (25)3.1.4.1磁盘繁忙率（PDpdDiskTimePercent） (25)3.1.4.2等待磁盘的系统请求数（PDpdDiskQueueLength） (26)3.1.5页交换 (27)3.1.5.1页面利用率（SystemPaging） (27)3.1.6进程 (27)3.1.6.1进程状态（PROCStatus） (27)3.1.7系统 (28)3.1.7.1所有进程数（SYSobjProcesses） (28)3.1.7.2所有线程数（SYSobjThreads） (28)3.1.8系统服务 (28)3.1.8.1服务状态（ServiceStatus） (28)3.1.9日志 (28)3.1.9.1日志文件状态（LOGStatus） (28)3.1.9.2发现匹配字符串（LOGSearchString） (29)3.1.9.3显示匹配字符串（LOGMatchString） (29)3.2UNIX (29)3.2.1CPU (29)3.2.1.1CPU利用率（CPUCpuUtil） (29)3.2.1.2CPU用户时间（CPUUserTime） (30)3.2.1.3系统负载(CPULoad) (30)3.2.1.4CPU系统时间(CPUSysTime) (31)3.2.1.5CPU空闲时间(CPUIdleTime) (32)3.2.1.6CPU等待IO时间(CPUWio) (32)3.2.2内存 (33)3.2.2.1内存利用率（MEMUsedMemPerc） (33)3.2.2.2内存大小（MEMTotalMem） (33)3.2.2.3空闲内存（MEMFreeMem） (33)3.2.2.4内存换入页（MEMPageIn） (33)3.2.2.5内存换出页（MEMPageOut） (33)3.2.3交换分区 (34)3.2.3.1SWAP大小（SWPTotSwapSize） (34)3.2.3.2SWAP空闲大小（SWPTotSwapFreeSpace） (34)3.2.3.3SWAP利用率（SWPTotSwapUsedPercent） (34)3.2.4进程（PROCESS） (35)3.2.4.1活动进程数（PROCNumProcs） (35)3.2.4.2普通用户进程数（PROCUserProcs） (35)3.2.4.3等待资源进程数（PROCProcWait） (35)3.2.4.4僵尸进程（PROCNoZombies） (35)3.2.5进程（PROCPRES） (36)3.2.5.1同名进程数（PROCPPCount） (36)3.2.5.2进程占用物理内存（PROCPPMem） (36)3.2.5.3进程CPU使用率（PROCPPCPUPerc） (36)3.2.5.4进程占用内存（PROCPPVmSize） (36)3.2.6内核 (36)3.2.6.1共享内存段使用率（KERShmNumUsedPercent） (36)3.2.6.2消息队列使用率（KERMsgNumQueUsedPercent） (36)3.2.6.3每秒系统调用总数（KERSysCall） (36)3.2.6.4活动信号量（KERSemOps） (37)3.2.7文件系统 (37)3.2.7.1文件系统利用率（FSCapacity） (37)3.2.7.2文件系统Inode利用率（FSInodeUsedPercent） (37)3.2.7.3文件系统已用空间（FSUsedSpaceMB） (37)3.2.7.4文件系统可用空间（FSAvailableSpace） (37)3.2.8磁盘 (37)3.2.8.1磁盘繁忙率（DSKPercentBusy） (37)3.2.8.2磁盘平均等待时间（DSKAvgWait (38)3.2.8.3磁盘读请求大小（DSKRead） (38)3.2.8.4磁盘写请求大小（DSKWrite） (39)3.2.9网络 (39)3.2.9.1网卡输入错包率（NETInErrPrc） (39)3.2.9.2网卡输出错包率（NETOutErrPrc） (39)3.2.9.3网卡输入字节数（NETPacketsIn） (39)3.2.9.4网卡输出字节数（NETPacketsOut） (40)3.2.10日志文件 (40)3.2.10.1日志文件异常（LOGStatus） (40)3.2.10.2发现匹配字符串（LOGSearchString） (40)3.2.10.3显示匹配字符串（LOGMatchString） (40)3.3Oracle (40)3.3.1可用性 (40)3.3.1.1实例状态（InstanceStatus） (40)3.3.1.2数据库关闭状态（ShutdownInProgress） (41)3.3.1.3数据库连接状态（ConnectDB） (41)3.3.1.4归档空间空闲大小（ArchFreeSpace） (42)3.3.1.5临时表空间空闲率（TempTSLeftPct） (43)3.3.2监听 (44)3.3.2.1监听状态（ListenerStatus） (44)3.3.3容量 (44)3.3.3.1会话数利用率（SessionsUsed） (44)3.3.3.2数据库日志大小（AlertLogSize） (44)3.3.3.3事务数利用率（TransUsed） (45)3.3.3.4锁利用率（LocksUsed） (45)3.3.3.5Processes使用率（ProcsUsed） (45)3.3.4性能 (46)3.3.4.1磁盘排序平均数（DiskSortRate） (46)3.3.4.2未在内存中排序百分比（DiskSorts） (46)3.3.4.3队列等待数（EnqWaits） (47)3.3.4.4队列请求数（EnqRequests） (47)3.3.4.5锁请求等待比率（LockWaitRatio） (47)3.3.4.6回滚事务数百分比（UserRBRatio） (48)3.3.5环境 (49)3.3.5.1全表扫描百分比（LongScanRatio） (49)3.3.5.2通过索引读取行的比例（RowSourceRatio） (49)3.3.6全局共享缓冲区 (49)3.3.6.1缓冲池繁忙率（BuffBusyRate） (49)3.3.6.2缓冲池命中率（BuffHitRatio） (50)3.3.6.3数据字典命中率（DictHitRatio） (50)3.3.6.4库缓存命中率（LibGetHitRatio） (51)3.3.6.5等待回滚段比例（RollBuffBusyRate） (52)3.3.7日志 (52)3.3.7.1等待重写redo请求数（RedoWaitRatio） (52)3.3.7.2redo分配锁比例（RedoAllocationLatch） (53)3.3.7.3redo归档延迟（RedoArchDelay） (53)3.3.7.4未归档redo（RedoNotArch） (54)3.3.8PQO (55)3.3.8.1服务器繁忙率（SlavesPctBusy） (55)3.3.8.2并行查询数（QueriesInitiated） (55)3.3.9MTS (55)3.3.9.1调度进程繁忙率（MaxBusyRate） (55)3.3.10用户 (56)3.3.10.1当前会话数（Users） (56)3.3.11作业 (56)3.3.11.1中断作业数（BrokenJobs） (56)3.3.11.2失败作业数（FailedJobs） (57)3.3.12表空间 (57)3.3.12.1自动扩展（AutoExtended） (57)3.3.12.2表空间利用率（PctUsed） (57)3.4Weblogic (58)3.4.1系统 (58)3.4.1.1打开的sockes数（NumOpenSockets） (58)3.4.1.2打开的连接数（NumOpenConnections） (58)3.4.1.3JVM堆空间利用率（HeapUsed） (58)3.4.1.4WeblogicServer连接状态（ConnectionStatus） (58)3.4.1.5JMS服务状态（HealthStatus） (59)3.4.2队列 (60)3.4.2.1通过队列的请求数（ExecQThroughput） (60)3.4.2.2队列长度（ExecuteQueueLength） (60)3.4.2.3队列空闲线程数（IdleExecThreadCount） (60)3.4.3JDBC服务 (60)3.4.3.1当前连接数（ActiveConnections） (60)3.4.3.2可用连接数（AvailableConnections） (60)3.4.3.3连接延迟时间（ConnectionDelayTime） (60)3.4.3.4失败重连数（FailuresToReconnectCount） (61)3.4.3.5等待连接数（WaitingForConnections） (61)3.4.3.6不可用的连接数（UnavailableConnections） (61)3.4.3.7指令缓存命中数（StatementCacheHitCount） (61)3.4.3.8预指令缓存未命中数（StatementCacheMissCount） (61)3.4.4JMS服务 (62)3.4.4.1当前字节数（BytesCurrentCount） (62)3.4.4.2字节数峰值（BytesHighCount） (62)3.4.4.3发出的字节数（BytesPendingCount） (62)3.4.4.4收到的字节数（BytesReceivedCount） (62)3.4.4.5当前消息总数（MessagesCurrentCount） (62)3.4.4.6当前消息峰值（MessagesHighCount） (62)3.4.4.7发出的消息数（MessagesPendingCount） (62)3.4.4.8收到的消息数（MessagesReceivedCount） (63)3.4.5Servelet (63)3.4.5.1平均执行时间（ExecutionTimeAverage） (63)3.4.5.2调用次数（InvocationCount） (63)3.4.6JCA (63)3.4.6.1可用连接数（FreeConnectionsCurrentCount） (63)3.4.6.2遗漏连接总数（LeakedConnectionsTotalCount） (63)3.4.7EJB (63)3.4.7.1提交事务数（TransactionCommitRate） (63)3.4.7.2空闲EJB（BeansIdle） (64)3.4.7.3EJB超时（FreePoolTimeout） (64)3.4.7.4回滚率（TransactionRollbackRate） (65)3.4.8LOCAL MANAGED (65)3.4.8.1JVM堆空间空闲率（FreeHeap） (65)3.4.8.2广播消息丢失（MulticastMsgLost） (66)3.5Informix (66)3.5.1可用性 (66)3.5.1.1实例状态（InstanceStatus） (66)3.5.1.20级备份后的天数（ArchiveLevel0） (67)3.5.1.3onbar异常（OnBarActivityStatus） (67)3.5.1.4checkpoint间隔（CheckpointDuration） (67)3.5.1.5最满chunk百分比（FullestChunk） (67)3.5.1.6数据库空间利用率（UsedSpace） (67)3.5.1.7可用性错误处理级别（EventSeverity） (68)3.5.2容量 (68)3.5.2.1等待锁的线程数（LockWaits） (68)3.5.2.2缓冲池溢出数（BufferOverflow） (68)3.5.2.3数据库锁溢出（LockOverflow） (68)3.5.2.4死锁数（Deadlocks） (68)3.5.2.5缓冲区等待数（BufferWaits） (69)3.5.3性能 (69)3.5.3.1前台写（FgWrites） (69)3.5.3.2等待队列（ReadyQueue） (69)3.5.3.3共享内存读命中率（ReadCache） (69)3.5.3.4共享内存写命中率（WriteCache） (69)3.5.4用户 (69)3.5.4.1用户会话数（ProblemSessions） (69)3.5.4.2用户会话死锁数（SesDeadlocks） (69)3.5.4.3可疑会话数（SesHeldResources） (70)3.5.4.4长事务数（SesLongTxs） (70)3.5.5空间 (70)3.5.5.1数据库空间分配率（DBSpaceAllocated） (70)3.6Tuxedo (70)3.6.1服务器 (70)3.6.1.1会话数（NumConversation） (70)3.6.1.2请求数（NumRequest） (70)3.6.1.3已开始的事务数（NumTranBegun） (70)3.6.1.4完成请求数（TotReqCompl） (70)3.6.1.5服务状态（ServerStatus） (71)3.6.1.6异常事务数（NumTranAbt） (71)3.6.2应用日志 (71)3.6.2.1日志文件大小（LogFileSize） (71)3.6.2.2日志空间可用率（LogDiskFreeSpace） (71)3.6.2.310分钟内日志文件增长率（LogIncreaseRate） (71)3.6.3WorkStation Handler Server (71)3.6.3.1不能处理消息次数（NumBlockQ） (71)3.6.3.2接收的消息数（NumRcvMessage） (71)3.6.3.3发送的消息数（NumSentMessage） (71)3.6.4系统 (72)3.6.4.1活动客户端数（NumActiveClients） (72)3.6.4.2当前Server数（NumServers） (72)3.6.5客户端 (72)3.6.5.1出队列操作数（NumDequeue） (72)3.6.5.2入队列操作数（NumEnqueue） (72)3.6.5.3请求数（NumRequest） (72)3.6.5.4已开始事务数（NumTranBegun） (72)3.6.5.5异常事务数（NumTranAbt） (72)3.6.6队列 (72)3.6.6.1队列使用率（QueueCapacity） (72)3.6.6.2入列中请求的数（NumReqQueued） (73)3.6.6.3入列中工作的数（NumWrkQueued） (73)3.6.6.4活动服务器数（ServerCnt） (73)3.6.6.5入队中请求的累积数（TotalReqQueued） (73)3.6.6.6入对中工作的累积数（TotalWrkQueued） (73)3.6.7应用队列 (73)3.6.7.1队列中消息数（NumMessages） (73)3.6.7.2已消耗磁盘页数（NumDiskPage） (73)1前言文档目的：用于售前投标、实施明确工作量、运维维护查询资料；文档参考：BMC官方文档，版本经过测试；文档适用：适用于BMC+Ultra-NMS集成项目。

第一部分概述 (2)1．项目名称及背景 (2)项目名称 (2)开发背景 (2)2．文档说明 (2)第二部分任务说明 (2)1．功能概述 (2)2．用户环境 (3)第三部分需求分析 (3)1. 购物车系统用例图 (3)2. 购物车功能清单 (4)3. 购物车各功能用例图详情与设计界面 (4)3.1商品管理 (4)3.1.1简单描述 (5)3.1.2执行者 (5)3.1.3前置条件 (5)3.1.4后置条件 (5)3.1.5事件流 (5)3.1.6错误流 (6)3.2 订单信息管理 (6)3.2.1简单描述 (7)3.2.2执行者 (7)3.2.3前置条件 (7)3.2.4后置条件 (7)3.2.5事件流 (7)3.2.6错误流 (7)3.3 结算管理 (8)3.3.1简单描述 (9)3.3.2执行者 (9)3.3.3前置条件 (9)3.3.4后置条件 (9)3.3.5事件流 (9)3.3.6错误流 (9)4. 附件（图例、文档） (10)4.1 购物车系统分析结构图 (10)4.2 购物车业务流程图 (10)4.3 购物车数据流程图 (11)4.4 数据字典 (11)4.5 处理逻辑 (13)第一部分概述1．项目名称及背景项目名称开发背景2．文档说明第二部分任务说明1．功能概述2．用户环境浏览器(如第三部分需求分析1. 购物车系统用例图2. 购物车功能清单功能编号功能名称文中标题编号备注101 商品管理101001 删除商品101002 添加商品101003 修改数量102 订单信息管理102001 收货人信息管理102002 商品信息管理102003 支付方式管理102004 配送方式管理103 结算管理103001 在线支付3. 购物车各功能用例图详情与设计界面3.1商品管理界面：用例：3.1.1简单描述本用例用于购买者购买商品。

3.1.2执行者登陆的顾客。

3.1.3前置条件顾客点击商品购买按钮。

The CBM (Cylon BACnet Main Plant) range of controllers are ideally suitable for main plant control, including AHUs, Boilers, Rooftop Units, Lighting, etc.CBM Controllers are BTL Listed BACnet Advanced Application Controllers.The CBM range of products offers the following benefits:Unique Flexibility with UniPuts™The CBM range has all the benefits of the Cylon BACnet range which uniquely presents UniPuts ™ - a revolutionary answer to flexible point configuration, offering maximised utilisation of controller capacity along with flexibility in strategy changes. Built on a modern web-based architecture, it has a wide application scope with the flexibility of being stand-alone or network enabled.Cost Effective, low entry point for building controlThe CBM range offers reduced costs in terms of training, implementation, rollout and maintenance. Modular, extendible packages along with low installation costs mean a low entry point for building control.Highly programmable and extendable through web-enabled HVAC technologyThe CBM range offers an advanced web-based 32-bit architecture, with advanced programmability. Inbuilt diagnostics, along with expanded data logging and strategy storage, is further enhanced by UniPuts ™, offering up to 8 Universal inputs, up to 8 UniPuts ™ (AI/DI/AO/DO) and up to 8 UniPuts ™ with relays.C B M 08C B M 12C B M 16 C B M 24Specifications: MECHANICALSize(excluding terminal plugs) 144 x 118 x 65 mm (5.7 x 4.7 x 2.6")Enclosure Injection molded ABSMounting DIN railENVIRONMENTNote: This equipment is intended for field installation within another enclosure.Ambient Temperature 0︒ - 50︒C (32︒-122︒F) ambient.Ambient Humidity 0% - 90% RH non-condensingEMC Immunity EN 50082-1EMC Emission EN55011 Class BApprovals BTL Listed – BACnet Advanced Application Controller (B-AAC) WIRINGNote: Use Copper or Copper Clad Aluminium conductors only.Termination PCB mounted plug terminal connections.Conductor Area Max: AWG 12 (3.09 mm2)Min: AWG 22 (0.355 mm2)ELECTRICALSupply Requirements 24 V AC +/- 20% 50/60 HzTransformer Rating with UCKRA420: 25 VAwithout UCKRA420: 20 VAPower Rating 10 Watts maximumFuse Rating 1 A resettablePROCESSORType Hitachi (Renesas) SuperH SH17034 32-bit RISCClock Speed 20 MHzOperating System Memory 512K flashUser Programmable Memory System Memory 768KB Flash & 128KB RAM (Battery backed for two years)Real-Time Clock Battery backed for 2 years minimumINPUTS/OUTPUTSCOMMUNICATIONSRS232 service port @ 1.2k, 2.4k, 9.6k, 19.2k or 38.4k Baud (defaults to 38.4k) [cable: CC20/CAB]BACnet MS/TP Fieldbus port ***********,19.2k,38.4k,76.8kand115.2kBaud(defaultsto38.4k)Keypad port @ 9.6k Baud, RJ11 socketINTERFACESoftware Cylon Engineering CenterBACnet Operator WorkstationRemote Keypad UCKRA420 Serial Text Keypadconnected via RJ11 portMaximum cable length 50mPlease refer to MAN0117 for details on configuring and using custom keypad menus.SOFTWARE FEATURESConfiguration Mode (accessible via External Keypad/Display device.)Firmware upgrading Remotely over BACnet, or locally via Service PortMaximum Number of Analog Points 1024Maximum Number of Digital Points 1024Maximum number of strategy blocks 1024Maximum number of trend log modules 32Maximum internal entries per trendlog 1024Maximum Controllers per Fieldbus 99** It is recommended for typical conditions that the no. of Main Plant controllers on amain plant fieldbus be limited to 16. MSTP devices with a fractional (¼ or smaller) unitload will be required in order to extend a single fieldbus trunk beyond 32 devices. BothCBM and CBT controllers are ¼ unit load devices. Please refer to MAN0106 forrecommendations on configuring a specific network for optimal comms speed.Maximum Time Schedules 10Maximum entries per Weekly Schedule day 14Maximum Exceptions per Schedule 5Maximum entries per Exception 14。

OMB-LOGBOOK-300Stand-Alone, Intelligent PC-Based Data Acquisition SystemߜOperates Without a PC at the Test Siteߜ16-Bit, 100-kHz Sampling ߜCompact Yet Expandable Architecture Can Accommodate Over400 Channels of Analog, Digital & Frequency I/O ߜStand-Alone Nonvolatile Storage of Over 250Million Samples Via Removable PC-Card MemoryߜCard Swappingand Uploading During Acquisition Allows Continuous Data AcquisitionߜOptional Control Terminal Provides Channel Inspectionand Acquisition Queries$3999Basic UnitThe OMB-LOGBOOK-300, $3699, data acquisition system with PC-Card memory and Remote Operation TerminalThe OMB-LOGBOOK-300 is a portable data acquisitionsystem that can be used for remote,portable and unattended operation.It is also operational with a PC attached.The OMB-LOGBOOK-300combines on-board intelligence and a large capacity PC-Card removable memory with theindustry’s easiest and most powerful data logging software. Its 16-bit, 100-kHz A/D and triggering capabilities make it ideal for collecting high and low speed phenomena. A comprehensive array of signal conditioning expansion cards and modules are offered that allow the OMB-LOGBOOK-300 to take measurements from virtually any transducer, from thermocouples to accelerometers.ߜAC or DC PowerableߜExpansion Cards & Modules for High-Voltage/Current,Strain Gages,Thermocouples, Isolation,Relays, Accelerometers,Filtering & Simultaneous Sample & Hold ߜIncludes LogViewSoftware for Easy Setup,Calibration, & More; No Programming RequiredߜAcquisition Configurations Can Be Transported to the OMB-LOGBOOK-300Via PC-Card or via Serial or Parallel Port Connection ߜIncludes PostView for Post-AcquisitionData ViewingELogView downloads an acquisition configuration to a PC-Card in the PC’ssocket for transport to a remote OMB-LOGBOOK-300. Data is transported back to the PC via the PC-Card.Operating ModesOnce an acquisition configuration has been developed, it can be downloaded to a PC-Card for transport to a remote OMB-LOGBOOK-300, or it can be directly downloaded to an attached OMB-LOGBOOK-300 via the serial or parallel port.The OMB-LOGBOOK-300 can be used in stand-alone mode where no PC is present, or it can be linked to a PC via a serial or parallel port for interactive data collection.A PC running LogView can interact with an attached OMB-LOGBOOK-300at any time, both during the setup and/or while the acquisition is taking place. To observe acquired data,channel values can be displayed in any or all of LogView’s many real-time indicators.Removable Nonvolatile MemoryThe OMB-LOGBOOK-300 requires a standard Type I, Type II, or Type III solid-state or hard drive ATA PC-Card for use as its nonvolatile memory.The cards can transport acquisition configurations and collected data between the PC and the OMB-LOGBOOK-300. Usinga 500-Mbyte PC-Card, for example,you can store up to 250 million samples equating to more than 40 minutes of recording time at the full 100-kHz acquisition rate. The OMB-LOGBOOK-300 supports standard ATA memory PC-Cards,as well as other PC-Cards.One PC-Card can be removed and another PC-Card inserted without causing a gap in the acquired data.OMB-LOGBOOK-300 OPERATING MODEScommunication interfaces. Stored data and real-time readings can be The OMB-LOGBOOK-300 data acquisition system includes LogView graphical display and acquisition software, which allows for fast setup and easy use, with no programming required. LogView software uses a spreadsheetmetaphor rather than programming to configure the channels and the acquisition parameters.SOPHISTICATED TRIGGERING AND SAMPLINGAlong with simple triggering and continuous data logging, theOMB-LOGBOOK-300 can be configured to intelligently collect only the data you want. For sophisticated triggering, a calculated channel can be specified as the trigger or the stop event. A calculated channel can describe virtually any combination of channel conditions. For example, you can develop a calculated channel called TRIG and specify it as the trigger channel. If the channel’s equation is TRIG = (Temp1 - Temp2) > 50.0, the data collection process will be triggered when the difference between the two temperature channels is above 50.0 degrees. The OMB-LOGBOOK-300 is capable of continuous, gapless data collection or for exception capturingusing triggering.Acquisition configuration dialog box CHANNEL-SCANNINGFLEXIBILITYThe OMB-LOGBOOK-300 offersa scan sequencer that allows you toselect each channel and associatedinput amplifier gain at random. Thesequencer circuitry circumvents amajor limitation encountered withmany plug-in data acquisitionboards–a drastic reduction in thescan rate for external expansionchannels. All inputs, including analog,digital, counter, and calculatedchannels, are sampled at 100 KHzallowing time correlation of mixedsignals. The OMB-LOGBOOK-300permits each scan group to berepeated immediately or atprogrammable intervals for up to10 hours. Within each scan group,consecutive channels are measuredat a fixed 10 µs/channel rate. If datacollection is only desired underspecific conditions, an appropriatetrigger can be specified. When usinga trigger to start the acquisition, apre-trigger count can be supplied sothat information just before thetrigger can be collected and saved.The stop event definition specifieswhen the data collection activityshould end. A wide variety of triggersources and stop event choicesprovides a high degree of exceptioncapture flexibility. For example, theOMB-LOGBOOK-300 can beconfigured to capture all data fromall input channels for as long as thetemperature difference betweenchannels 1 & 2 is greater than50 degrees.EFor downloading acquisition configurations to a remoteOMB-LOGBOOK-300 or uploading collected data to a PC, these cards can be inserted directly into your PC’s standard PC-Card socket. No card reader or additional hardware is necessary to interact with the data.For continuous data collection, PC-Cards can be swapped while the acquisition is taking place. As one card becomes nearly full, it can be removed and another card inserted without causing a gap in the acquired data.During the card swapping process,acquired data is temporarily stored in the OMB-LogBook-300’s internal 4 Mbyte RAM. If card swapping is required during a fast acquisition, a 16 Mbyte memory option is available. At 100 kHz sampling, the standard 4 Mbytes of RAM memory provides approximately 10 seconds to swap cards, while the 16 Mbyte option provides over 1 minute.At slower acquisition speeds, there is even more time to swap cards. At 10 kHz, the standard 4M RAM memory providesapproximately 1.5 minutes of swap time, while the 16M RAM upgrade provides more than 11 minutes of swap time.The system can be expanded using a comprehensive line of signalconditioning and expansion options.The OMB-LOGBOOK-300 is expandable to up to 256 analog inputs and 208 digital I/O lines.Economical signal conditioning hardware includes thermocouple,RTD, high gain, high voltage,current, strain gage, accelerometer, frequency, filter, and simultaneous sample and hold.All of the channels in anOMB-LOGBOOK-300 system,including the base I/O andexpansion channels, are sampled synchronously, providing time correlation of all collected data. The OMB-LOGBOOK-300 provides both internal and external pacer clock control so that scans can be collected using the OMB-LOGBOOK-300’s internal programmable oscillator or an externally supplied custom frequency clock.Unlike many multiplexed inputdata loggers, the OMB-LOGBOOK-300’s base analog input channels have a unique buffer-amplifier-per-channel design to eliminate noise and channel-to-channel crosstalk while maximizing accuracy - even with high-impedance transducers. For ease of use, all of theOMB-LOGBOOK-300’s settings are software controlled, eliminating the need for switches and jumpers.Each channel is digitally calibrated,eliminating drift-prone potentiometers.Unlike many plug-in board data acquisition systems, the OMB-LogBook-300’sprogrammable channel/gain sequencer scans expansion channels at the same rate as its on-board channels. For this reason, the OMB-LOGBOOK-300is well suited for test applications that require both high channel-count and high speed.LogView’s analog input spreadsheet makes viewing and adjusting many channels easyLOGVIEW SOFTWARE SIMPLFIES SETUPLogView uses a series ofspreadsheets to allow simple setup and display of all channel parameters.No auxiliary dialog boxes, configurable block diagrams, or programming methodologies are employed.Simply select the appropriate cell,choose the desired setting from the dropdown list, and the parameter is set. To apply the same setting to multiple channels, select a block of cells within a column and use the spreadsheet’s fill-down feature.After the channels and the acquisition parameters have been configured,download the configuration to a PC-Card in one of your PC’ssockets, or send the configuration directly to the OMB-LOGBOOK-300via the serial or parallel port. When a PC-Card is used to transport the acquisition configuration to a remote OMB-LOGBOOK-300, inserting the card into one of its sockets signals the OMB-LOGBOOK-300 to read and execute the new acquisition configuration.Once the channel configurationparameters have been downloaded to the OMB-LOGBOOK-300, LogView can display the channel values of a connected OMB-LOGBOOK-300 in real time, both before and during an acquisition. LogView conveniently displays channel values in the channel configuration spreadsheet or in real-time bargraphs, analog meters, and digital indicators.SPREADSHEETS MAKE IT SIMPLEAll of the parameters for the analog I/O, digital I/O, frequency andcalculated channels can be viewed and adjusted through LogView’s unique spreadsheet interface. The spreadsheets make it possible to see and adjust the parameters of many channels concurrently, unlike typical data parameters of many channels concurrently, unlike typical datalogging software that requireschannels to be set up one at a time through auxiliary dialog boxes.Channel parameters are independent of one another.Channel parameters include:• Turning the channel on or off • Programmable input range for analog input channels • Scaling and offset forengineering units conversion • Any or all of 4 timebases to log the channel• The equation that defines the calculated channel• The physical output channel to direct a calculated or input channel• Special parameters specific to certain signal conditioning modulesAll inputs including analog, digital,frequency and calculated channels are collected synchronously so that data from widely dissimilar inputs can be correlated in time.Within the analog spreadsheet, an offset adjustment or 2-point calibration can be performed for each channel. This function compensates for inaccuracies in signal conditioning circuitry and sensors.EOutput functions are easily controlled using calculated channelsThe system’s four 16-bit analog outputs can also be used forcontrolling or stimulating external devices. Using channel data derived from input channels and equations,the analog output channels can be used for soft control.DATA FORMATS AND DATA FILESData collected with theOMB-LOGBOOK-300 can beuploaded to your PC’s hard disk in any or all of several data formats for post-acquisition analysis. Some of the available file formats include Excel, Snap-Master, MATLAB,DASYLab, Lotus, Quattro, and ASCII, which are compatible with virtually all post-acquisition analysis software. LogView creates the necessary headers for each data format so that the post-acquisition analysis software can use the channel labels, the acquisition timebase information, and other necessary parameters.AUXILIARY REAL-TIME INDICATORSAlong with displaying channel data from an attachedOMB-LOGBOOK-300 in real time in the setup spreadsheets, LogView also provides real-time indicators.These indicators provide a means of monitoring the real-time channel values so that signals can be verified. Each indicator provides a high degree of setup flexibility to customize your display.LogView can convert collected data to several file formatsReal-time indicators provide channel feedback from an attached OMB-LOGBOOK-300time. Using the program’s intuitive on-screen controls, you can expand,contract, and auto-scale waveforms as well as manually scroll in either direction. PostView is the perfect tool for browsing through data collected to disk.PostView for post-acquisition viewingREMOTEOPERATION TERMINALThe optional OMB-LBK1 Remote Operation Terminal connectsdirectly to the OMB-LOGBOOK-300,providing control of theOMB-LOGBOOK-300 without a computer. Without the terminal, the OMB-LOGBOOK-300 is immediately armed once power is applied and a programmed PC-Card is present. With the terminal connected, operation can be started and stopped with a push of a button. The terminal requires no external power connection.• The terminal connects to the OMB-LOGBOOK-300 via a standard 6-pin RJ11 to RJ11modular telephone cable up to 100 feet long.• The rugged terminal provides many useful functions including:• Inspect Channel Values • Query Channel Values • Query acquisition status • Check disk status• Manually mark events using the keyboard, tagging a location in the fileThe optional OMB-LBK1 Remote Operation Terminal provides control of the OMB-LOGBOOK-300 system in the field when no PC is presentSPECIFICATIONSGENERALPower Consumption:0.9 A @ 15 VOperating Temperature:-15 to 50°CStorage Temperature : 0 to 80°C Humidity:0 to 95% RH non-condensingDimensions :220 x 279 x 44 mm(8.5 x 11 x 1.75")Weight:1.5 kg (3.3 lbs)PC-Card Memory:Standard ATA Type A/D SpecificationsType:Successive approximation Resolution:16 bitConversion Time:10 µsMonotonicity: No missing codes Linearity:±1 bitANALOG INPUTSChannels : 16 single-ended, 8 differential, expandable to 256 differential; single-endedor differential operation is software programmableConnector:DB37 male, P1Resolution:16 bits Accuracy : ±0.01% FS Ranges:Unipolar/bipolar operation is switch selectable Unipolar :0 to +20 V, 0 to +10 V,0 to +5 V, 0 to +2.5 V, 0 to +1.25 V, 0 to +0.625 V, 0 to +0.3125 V Bipolar:±10 V, ±5 V, ±2.5 V, ±1.25 V, ±0.625 V, ±0.3125 V, ±0.15625 V Maximum Overvoltage : -35 V to +45 VInput CurrentDifferential : 0.4 µA typ/0.7 µA max Single-ended:0.2 µA typ/0.35 µA max Input Impedance Single-Ended:5M Ohm in parallel with 30 pF Differential :10M Ohm in parallel with 20 pF TRIGGERING Analog TriggerProgrammable Level Range : Full range of specified channels Digital TriggerLogic Level Range : 0.8 V low/2.2 V highTrigger to A/D Latency : 10 µs max Software TriggerTrigger to A/D Latency:Dependent on PCPre-Trigger:Up to 4 gig scans,depending on size of PC-Card memorySEQUENCERRandomly programmable for channel & gainDepth:512 locationChannel-to-Channel Rate: 10 µs/channel, fixedMaximum Repeat Rate: 100 kHz Minimum Repeat Rate:10 hours Expansion Channel Sample Rate:Same as on-board channels, 10 µs/channelANALOG OUTPUT OPTION (INTERNAL)Channels : 4Connector : DB37 male, P3Resolution:16 bitVoltage Range : ±10 VMaximum Output Current:10 mAEOMB-DBK7, $749, Four-Channel Frequency-Input Card, shown smaller than actual sizeGENERAL PURPOSE DIGITAL I/O Channels: 40 I/O channels,expandable up to 208Connector: DB37 male, P2Output Voltage Levels Minimum “1” Voltage: *****************Maximum “0” Voltage: ****************Output CurrentMaximum Source Current:2.5 mA Maximum Sink Current:-2.5 mA Input Voltage LevelsMinimum Required “1” Voltage Level:2VMaximum Allowed “0” Voltage Level:0.8VOutput Float Leakage Current: 10 µAThe OMB-LOGBOOK-300 is compatible with a comprehensive line of signal conditioning expansion cards. See the H section of the handbook for details.The OMB-LOGBOOK-300 includes LogView software, parallel port cable and a complete user’s manual.Ordering Example: OMB-LOGBOOK-300Data Acquisition System, OMEGACARE SM 1 year extended warranty for the OMB-LOGBOOK-300(adds 1 year to standard 1 year warranty) and OMB-MEMCARD-10 1 GB rotaing hard drive memory, $3999 + 495 + 150 = $4644.FREQUENCY/PULSE COUNTERS Channels: 416-bits per channel, cascadable Connector : DB37 male, P3Maximum Pulse Count:32-bit binary (2 channels cascaded)Maximum Input Rate:1 MHz Input Voltage : -15V to +15V Threshold Voltage Low : 0.8V typ, 0.5V min High:1.6V typ, 2.1V max Hysteresis:400 mV min Pulse Width Low or High:520 ns minInput Impedance:27K Ohm pull-up to +5V in parallel with 50 pFFREQUENCY/PULSE GENERATOR Channels:2, 16-bitsConnector:DB37 male, P3Frequency/Pulse GeneratingMode:Input frequency divided by 1 to 65,535Input Low Voltage: 0.8V max Input High Voltage:2V min Input Low Current:-10 µA max Input High Current:10 µA max Output High Voltage : 2.4V min @ -8 mA Output Low Voltage : 0.5V max @ 8 mAOMB-DBK9, $549, Eight-ChannelRTD Measurement Card, shown smaller than actual sizeOMB-DBK4 $999, Two-ChannelDynamic Signal-Input Card, shown smaller than actual sizeOMB-DBK82, $849, High-Accuracy Thermocouple Card,shown smaller than actual sizeCANADA www.omega.ca Laval(Quebec) 1-800-TC-OMEGA UNITED KINGDOM www. Manchester, England0800-488-488GERMANY www.omega.deDeckenpfronn, Germany************FRANCE www.omega.fr Guyancourt, France088-466-342BENELUX www.omega.nl Amstelveen, NL 0800-099-33-44UNITED STATES 1-800-TC-OMEGA Stamford, CT.CZECH REPUBLIC www.omegaeng.cz Karviná, Czech Republic596-311-899TemperatureCalibrators, Connectors, General Test and MeasurementInstruments, Glass Bulb Thermometers, Handheld Instruments for Temperature Measurement, Ice Point References,Indicating Labels, Crayons, Cements and Lacquers, Infrared Temperature Measurement Instruments, Recorders Relative Humidity Measurement Instruments, RTD Probes, Elements and Assemblies, Temperature & Process Meters, Timers and Counters, Temperature and Process Controllers and Power Switching Devices, Thermistor Elements, Probes andAssemblies,Thermocouples Thermowells and Head and Well Assemblies, Transmitters, WirePressure, Strain and ForceDisplacement Transducers, Dynamic Measurement Force Sensors, Instrumentation for Pressure and Strain Measurements, Load Cells, Pressure Gauges, PressureReference Section, Pressure Switches, Pressure Transducers, Proximity Transducers, Regulators,Strain Gages, Torque Transducers, ValvespH and ConductivityConductivity Instrumentation, Dissolved OxygenInstrumentation, Environmental Instrumentation, pH Electrodes and Instruments, Water and Soil Analysis InstrumentationHeatersBand Heaters, Cartridge Heaters, Circulation Heaters, Comfort Heaters, Controllers, Meters and SwitchingDevices, Flexible Heaters, General Test and Measurement Instruments, Heater Hook-up Wire, Heating Cable Systems, Immersion Heaters, Process Air and Duct, Heaters, Radiant Heaters, Strip Heaters, Tubular HeatersFlow and LevelAir Velocity Indicators, Doppler Flowmeters, LevelMeasurement, Magnetic Flowmeters, Mass Flowmeters,Pitot Tubes, Pumps, Rotameters, Turbine and Paddle Wheel Flowmeters, Ultrasonic Flowmeters, Valves, Variable Area Flowmeters, Vortex Shedding FlowmetersData AcquisitionAuto-Dialers and Alarm Monitoring Systems, Communication Products and Converters, Data Acquisition and Analysis Software, Data LoggersPlug-in Cards, Signal Conditioners, USB, RS232, RS485 and Parallel Port Data Acquisition Systems, Wireless Transmitters and Receivers。

overflow参数1. visible：默认值。

当内容溢出容器时，会显示在容器外部，不会被修剪或隐藏。

2. hidden：溢出的内容会被修剪，并且在容器外不可见。

3. scroll：如果内容溢出容器，会显示滚动条，以便滚动查看内容。

4. auto：如果内容溢出容器，则根据需要显示滚动条，如果内容没有溢出，则不显示滚动条。

5. inherit：继承父元素的overflow属性值。

一般来说，overflow属性可以用于任何块级元素，包括div、p、ul、table等。

下面是对每个取值的详细说明和示例：1. visible：该值表示元素内容可以超出容器尺寸，不进行修剪，并且在容器外部显示。

这是默认值。

```<div style="width: 200px; height: 200px; border: 1px solid black; overflow: visible;"><p>Lorem ipsum dolor sit amet, consectetur adipiscing elit. Donec convallis velit vel turpis tincidunt congue.</p> </div>```2. hidden：该值表示溢出的内容会被修剪，并且在容器外不可见。

```<div style="width: 200px; height: 200px; border: 1px solid black; overflow: hidden;"><p>Lorem ipsum dolor sit amet, consectetur adipiscing elit. Donec convallis velit vel turpis tincidunt congue.</p> </div>```3. scroll：该值表示如果内容溢出容器，会显示滚动条以便滚动查看内容。

Dell Storage CenterSCv300 and SCv320 Expansion Enclosure Getting Started GuideRegulatory Model: E03J/E04JRegulatory Type: E03J001/E04J001Notes, Cautions, and WarningsNOTE: A NOTE indicates important information that helps you make better use of your product.CAUTION: A CAUTION indicates either potential damage to hardware or loss of data and tells you how to avoid the problem.WARNING: A WARNING indicates a potential for property damage, personal injury, or death.Copyright © 2017 Dell Inc. or its subsidiaries. All rights reserved. Dell, EMC, and other trademarks are trademarks of Dell Inc. or its subsidiaries. Other trademarks may be trademarks of their respective owners.2017 - 08Rev. A00Setting Up the Expansion EnclosureBefore setting up your SCv300/SCv320 expansion enclosure, consider the following best practices.•Before connecting any cables between the storage system and expansion enclosure, physically label each port and connector.•Always follow proper power-up and power-down procedures when cycling power across the network. Verify that critical networkcomponents are on separate power circuits.NOTE: This product is intended for restricted access locations, such as a dedicated equipment room or equipment closet.WARNING: If installed in a closed or multi-unit rack assembly, the operating ambient temperature of the rackenvironment may be greater than room ambient temperature. Therefore, consideration should be given to installing the equipment in an environment compatible with the maximum ambient temperature (Tma) specified by the manufacturer.Other Information You May NeedTo install the expansion enclosure, you may need the following additional information.NOTE: See the safety and regulatory information that shipped with your Storage Center components. Warrantyinformation is included as a separate document.•The Dell Storage Center SCv3020 Storage System Deployment Guide provides information about cabling storage system hardware components and configuring a new storage system using the Dell Storage Client.•The Dell Storage Manager Administrator’s Guide describes how to use Dell Storage Manager to manage Storage Center systems.Installation and ConfigurationBefore you begin the installation, make sure that the site where you plan to install the expansion enclosure has standard power from an independent source or a rack power distribution unit with a UPS.Unpacking Storage Center EquipmentUnpack the expansion enclosure and identify the items in your shipment.3Figure 1. SCv300/SCv320 Expansion Enclosure Components1.Power cables2.SAS cables3.Front bezel4.Documentation5.Expansion enclosure6.Rack rails (2)Installing the Expansion Enclosure in a RackInstall the SCv300/SCv320 expansion enclosure in a rack.NOTE: Mount the expansion enclosure in a manner that allows for expansion in the rack and prevents the rack from becoming top‐heavy.1.Assemble the rails, following the safety instructions and the rack installation instructions that were provided with your expansionenclosure.2.Determine where to mount the expansion enclosure in the rack and mark the location.3.Install the rack rails at the marked location.4.Mount the expansion enclosure chassis on the rails.Figure 2. Mount the Expansion Enclosure Chassis in the Rack5.Secure the expansion enclosure chassis to the rack using the mounting bolts.For more information about installing the expansion enclosure, contact Dell T echnical Support Services.4Install the Front BezelInstall the bezel on the front of the expansion enclosure.1.Hook the right end of the bezel onto the expansion enclosure.Figure 3. Front Bezel2.Insert the left end of the bezel into the securing slot until the release latch snaps into place.3.Secure the bezel with the keylock.Connecting the Power CablesConnect the power cables to the expansion enclosure.1.Before connecting the power cables, make sure that the power switches on the expansion enclosure are in the OFF position.2.Connect the power cables to the power supplies in the expansion enclosure chassis.Figure 4. Power Cables3.Secure each power cable to the expansion enclosure chassis using the strain relief fasteners.4.Plug the other end of the power cables into a grounded electrical outlet or a separate power source such as an uninterruptedpower supply (UPS) or a power distribution unit (PDU).NOM Information (Mexico Only)The following information is provided on the device described in this document in compliance with the requirements of the official Mexican standards (NOM):5T echnical SpecificationsThe technical specifications of the SCv300/SCv320 expansion enclosures are displayed in the following tables.678。

此文档下载后即可编辑博科300光纤交换机概述：Brocade 300（博科光纤交换机|博科300|BR-310-0008|BR-320-0008|BR-340-0008|BR-360-0008）是一款吞吐量达8 Gbit/秒的光纤通道交换机，是专为小型SAN或大型SAN边缘设计的经济型入门级解决方案。

它使中小型企业可以简化IT基础设施，提高系统性能，最大限度地发挥虚拟服务器部署的价值并降低总体存储成本。

经济合算的SAN技术Brocade 300（博科光纤交换机|博科300|BR-310-0008|BR-320-0008|BR-340-0008|BR-360-0008）能够以入门级解决方案的价格提高卓越的性能和强大的功能。

它将1、2、4和8 Gbit/秒的光纤通道吞吐量自动侦测与旨在增强光纤架构性能的功能结合在一起。

Brocade 300能够提供如此强大的功能，而每端口的功耗还不到2.5瓦，因此，具有出色的功率和冷却效率。

Brocade 300（博科光纤交换机|博科300|BR-310-0008|BR-320-0008|BR-340-0008|BR-360-0008）采用了一种无阻塞架构，最多支持24个端口同时以8 Gbit/秒（全双工）的速率运行，并且不会出现超量使用现象——总带宽为192 GB/秒。

另外，增强的Brocade ISL干线合并还可以支持最高吞吐量达64 GB/秒的单一逻辑高速干线。

简化的管理借助Brocade EZSwitchSetup安装向导，可以轻松便捷地安装和配置Brocade 300（博科光纤交换机|博科300|BR-310-0008|BR-320-0008|BR-340-0008|BR-360-0008），交换机的配置、部署和管理变成了简单的三步点击操作。

在多交换机环境中，博科网络顾问软件（Brocade Network Advisor）可提供全面的数据中心Fabric架构管理功能，包括博科骨干网、交换机和适配器的配置、监控和管理。

android viewpage onpagescrolled参数
Android ViewPage onPageScrolled参数是用于监听页面滑动事件的回调方法。

该方法会在页面滑动过程中被调用，包含三个参数：position、positionOffset和positionOffsetPixels。

position参数表示当前页面的位置，从0开始计数。

对于三个页面的ViewPager，当用户从页面1滑动到页面2时，position的值为1；当用户从页面2滑动到页面3时，position的值为2。

positionOffset参数表示当前页面的偏移量，范围是从0到1。

当用户从页面1
滑动到页面2时，positionOffset的值会从0逐渐增加到1；当用户从页面2滑动到
页面3时，positionOffset的值会从0逐渐增加到1。

positionOffsetPixels参数表示当前页面的像素偏移量。

它表示了用户从当前页
面滑动到下一个页面的总距离，以像素为单位。

通过使用这三个参数，我们可以在页面滑动过程中执行一些动画效果或逻辑操作。

例如，我们可以根据positionOffset的值来改变页面中某个元素的透明度、缩
放比例或位置等，实现一些炫酷的过渡效果。

总之，onPageScrolled方法是非常有用的。

通过监听和利用这些参数，我们可
以实现更加灵活和自定义的页面切换效果，提升用户体验。