V3F05X150Y1EDP中文资料

15 inch LCD MonitorPicture/ DisplayCommercial Specifications•LCD Panel Type 1024 x 768 pixels,Anti-glare Polarizer,RGB Vertical Stripe •Panel Size 15"/ 38 cm•Effective Viewing Area 304.1 x 228.1 mm •Pixel Pitch 0.297 x 0.297 mm •Brightness (nits) 250•Contrast Ratio 400:1•Display Colors 16 M•Viewing Angle (C/R > 5) - Horizontal : 160°- Vertical : 140°• Response Time 16 ms• White Chromaticity, 6500º K x = 0.313 / y = 0.329• White Chromaticity, 9300º K x = 0.283 / y = 0.297• Maximum Resolution 1024 x 768 @ 75Hz• Recommended Resolution 1024 x 768 @ 60Hz• Factory Preset Modes 14 modes• User Definable Modes 16 modes• Horizontal Scanning Frequency 30 - 61 KHz• Refresh Rate (V) 56 - 76 Hz• sRGB YesConnectivity• Signal Input Analog (VGA) Convenience• Convenience Enhancements On-screen Display,SmartManage• Monitor Controls Auto, Brightness control,Left/Right, Menu (OK),Power On/Off, Up/Down • OSD Languages English, French, German,Italian, Simplified Chinese,Spanish• Other Convenience Features Kensington Lock• Plug & Play Compatibility DDC/CI, sRGB,Windows 98/ME/2000/XP • Regulatory Approvals CE Mark, E2000, EMC,FCC-B, UL, CSA, MPR-II,Low Emission, NUTEK,Energy Star, SEMKO,TCO '03, TCO '99, TUV/GS,TUV Ergo• Tilt -5° to 25°• VESA Mount 100 mm x 100 mm Accessories• User Manual Yes• Included Accessories AC Power Cord, VGA Cable SmartManageA system for monitoring, managing and checking status of display devices as well as delivering remote support to users who experience difficulties all accomplished over a LAN.Lower power consumptionReduction of the electrical power required to operate a device. Kensington anti-theft lockA security device that fixes the monitor in place to prevent theft. Fast response timeThe amount of time it takes for a liquid crystal cell to go from active (black) to inactive (white) and back to active (black) again.It is measured in milliseconds. Lower numbers mean faster transitions and therefore results in fewer visible image artifacts. XGA, 1024 x 768 resolutionFor graphics monitors, the screen resolution signifies the numberof dots (pixels) on the entire screen. For example, a 1024-by-768 pixel screen is capable of displaying 1024 distinct dots on eachof 768 lines, or about 786 thousand pixels. XGA provides resolutions of 640 by 480 or 1024 by 768 pixels. In addition, XGA allows monitors to be non-interlaced. This ensures a better display performance and accurate color display effect.sRGB readyCalibrated RGB that is optimized for the vast majority of computer peripherals, monitors, operating systems and browsers, allowing accurate color mapping with very little data overhead. Embedded power supplyA power adaptor built into the body of a display device that replaces a bulky external power adaptor.VESA mounting holesA unified industry standard for wall mounting IT equipment set by the Video Electronics Standards Association.FlexiHolderA slim groove that improves efficiency by holding reminder notes, documents, name cards, and photos on the top of monitor to be more efficient..Product HighlightsDimensions• Depth (with base) 180 mm• Height (with base) 344 mm• Width (with base) 342 mm• MTBF 50,000 (excl. CCFL40,000) hrs• Relative Humidity 20 % - 80 %• Temperature Range (Operation) 5°C to 40°C• Temperature Range (Storage) -20°C to 60°C • Weight 2.8 kgPower• Complies With E2000, Energy Star,NUTEK• Consumption 17 W (Typical)• Off Mode < 1 W• Power LED Indicator Operation, Green;Stand by/Sleep,Amber• Power Supply Built-in Trademarks owned by Royal Philips Electronics2004 © Royal Philips Electronics - All rights reserved As an Energy Star partner, Philips has determined that this product meets the Energy Star guidelines for energy efficiency.Microsoft and Windows are registered trademarks of Microsoft Corporation.All data subject to change without noticeRelease date: June 2004。

玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理。

Technical DataOriginal InstructionsPanelView 5310 Terminals SpecificationsCatalog Numbers 2713P-T6CD1, 2713P-T6CD1-B, 2713P-T6CD1-K, 2713P-T7WD1, 2713P-T7WD1-B, 2713P-T7WD1-K, 2713P-T9WD1, 2713P-T9WD1-B, 2713P-T9WD1-K, 2713P-T10CD1, 2713P-T10CD1-B, 2713P-T10CD1-K, 2713P-T12WD1, 2713P-T12WD1-B, 2713P-T12WD1-KThe PanelView™ 5310 terminals are operator interface devices that monitor and control devices attached toControlLogix® 5570 and 5580 controllers, and CompactLogix™ 5370, 5380, and 5480 controllers over an EtherNet/IP™ network. Animated graphic and text displays provide operators with a view into the operating state of a machine or process. Operators interact with the control system by using the touch screen.The PanelView 5310 terminals include these features and capabilities:•Tightly integrated control and design environment allows information to be shared between the PanelView 5310 terminal and the Logix platforms.•The Studio 5000® environment provides one point of access for the Studio 5000 View Designer® and Studio 5000 Logix Designer® applications.(1)•PanelView 5000 terminals are compatible with the following controllers using firmware V27 or later: ControlLogix 5570 and 5580 controllers and CompactLogix 5370, 5380, and 5480 controllers.•Supports a maximum of 100 user-defined screens.•Supports a maximum of 4,000 Logix-based alarms.(1)•Easily configured screen navigation menu.•Automatic Diagnostics capability.•Conformal coating available for all terminal sizes.TopicPage Summary of Changes 2Environmental Specifications 2Certifications 3Technical Specifications 4Terminal Dimensions 5Studio 5000 Environment 6Accessories 6Additional Resources8(1)PanelView 5310 firmware can support up to 4,000 Logix-based alarms in a single controller if you use Studio 5000 View Designer application version 5 and Studio 5000 Logix Designer applicationversion 32 or later. Of the 4,000 alarms, no more than 1,000 can be instruction-based. Earlier versions of the Studio 5000 View Designer or Studio 5000 Logix Designer applications can support up to 1,000 Logix-based alarms.2Rockwell Automation Publication 2713P-TD001I-EN-P - June 2022PanelView 5310 Terminals SpecificationsSummary of ChangesThis publication contains new and updated information as indicated in this table.Environmental SpecificationsThis table provides environmental specifications for the PanelView 5310 terminals.TopicPage Corrected terminal weight measurements.5Attribute ValueTemperature, operating 0…50 °C (32…122 °F)Temperature, nonoperating -25…+70 °C (-13…+158 °F)Relative humidity 5…95% without condensation Vibration 0.012 pk-pk, 10…57 Hz 2 g peak at 57…500 Hz Shock, operating 15 g at 11 ms Shock, nonoperating 30 g at 11 msAltitude, operating Sea level to 2,000 m (6,562 ft)Enclosure ratings NEMA and UL Type 4X, 12, 13, and classified by UL as IP66 (when mounted on a flat surface of an equivalent enclosure)Corrosive Atmosphere ASTM B845-97 Method K Accelerated Test (30 Day Exposure)For PanelView 5310 conformal-coated PCBA level products with catalog numbers that end in K, product meets or exceeds the following requirement:Severity Level GX* ** per ANSI/ISA 71.04.2013, Airborne Contaminants—Gases **Up to 2100 angstroms of film growth per 3 days of copper and silver reactivity Severity Level CX* per IEC 60721-3-3 2019, Chemically Active Substances*Port plugs need to remain installed in unused ports, at all times during storage and operation, for the product to meet its corrosive atmosphere rating.Rockwell Automation Publication 2713P-TD001I-EN-P - June 20223PanelView 5310 Terminals SpecificationsCertificationsThis table provides certification information for the PanelView 5310 terminals.Certification (1)(1)When marked. See the Rockwell Automation® Product Certifications site at rok.auto/certifications for declarations of conformity,certificates, and other certification details.Valuec-UL-us c-UL-us Listed to UL 61010-1, UL 61010-2-201, CAN/CSA-C22.2 No. 61010-1, and CAN/CSA-C22.2 No. 61010-2-201; see 2713P-CT002CE (EMC)European Union EMC Directive, compliance with:•EN 61131-2; Programmable Controllers (pertinent EMC sections); see 2713P-CT004EAC Russian Customs Union TP TC 020/2011 EMC Technical Regulation; see 2713P-CT001EtherNet/IP ODVA conformance tested to EtherNet/IP specifications; see 2713P-CT005KC KC registered; see 2713P-CT001RCM Australian Radiocommunications Act, compliance with:•EN 61000-6-4; Industrial Emissions; see 2713P-CT003Morocco Moroccan EMC Directive, compliance with:•NM EN 61131-2; Programmable Controllers EMC; see 2713P-CT008RoHS•China RoHS •European RoHS•Turkey RoHS (EEE Yönetmeliğine Uygundur. In Conformity with the EEE Regulation.)•UAE RoHS ENV-CT001PanelView 5310 Terminals SpecificationsTechnical SpecificationsThis section provides technical specifications for the PanelView 5310 terminals. Technical Specifications - PanelView 5310 TerminalsAttribute6-in. Touch 7-in. Wide Touch 9-in. Wide Touch 10.4-in. Touch 12.1-in. Wide Touch 2713P-T6CD12713P-T6CD1-B(1)2713P-T6CD1-K(2)2713P-T7WD12713P-T7WD1-B(1)2713P-T7WD1-K(2)2713P-T9WD12713P-T9WD1-B(1)2713P-T9WD1-K(2)2713P-T10CD12713P-T10CD1-B(1)2713P-T10CD1-K(2)2713P-T12WD12713P-T12WD1-B(1)2713P-T12WD1-K(2)Operator input TouchConformal coated YesDisplay type Color TFT LCD (thin-film-transistor, liquid-crystal display)Display size, diagonal 5.7-in. screen7-in. widescreen9-in. widescreen10.4-in. screen12.1-in. widescreenView area, W x H115 x 86 mm (4.5 x 3.4 in.)152 x 91 mm (6.0 x 3.6 in.)196 x 118 mm (7.7 x 4.6 in.)211 x 158 mm (8.3 x 6.2 in.)261 x 163 mm (10.3 x 6.4 in.) Display resolution/aspect ratio640 x 480 VGA/4:3800 x 480 WVGA/5:3800 x 480 WVGA/5:3800 x 600 SVGA/4:31280 x 800 WXGA/16:10 Color depth24-bit color graphics (16.7 million colors)Brightness, typical300 cd/m2 (Nits)Backlight•Light-emitting diode, non-replaceable•Life: 50,000 h min at 40 °C (104 °F) to half-brightnessBacklight power consumption, typical 2.4W3W 3.5W4W5W Touch screen•Analog resistive•Actuation rating: 1 million presses•Operating force: <100 gramsBattery (real-time clock backup)•Accuracy: +/-2 minutes per month.•Battery life: 4 years min at 25 °C (77 °F)•Replacement: CR2032 lithium coin cellMemoryRAMUser available 1 GB RAM1 GB nonvolatile storage for projectsSecure Digital (SD®)card slotOne SD card slot for external storage; supports cat. no. 1784-SD x cards. See Secure Digital (SD) Cards on page7. USB portsHost Device One USB high-speed 2.0 host port (type A) supports removable drives for external storage.One high-speed 2.0 device port (type B) supports connection to host computer (available in a future release).Ethernet port One 10/100Base-T, Auto MDI/MDI-X Ethernet port for controller communication.Status indicators STS (status, green), ERR (error, red)Software Studio 5000 environment provides single portal to View Designer and Logix Designer applications.ElectricalUSB host port(type A)0.5 A at 5V DCInput voltage24V DC nom (18…30V DC)Power consumption,max13 W14 W15 W16 WPower consumption,typical9 W11 W12 W12 W Power dissipation31 BTU/hr.38 BTU/hr. 41 BTU/hr.41 BTU/hr. Inrush current, max15 A4Rockwell Automation Publication 2713P-TD001I-EN-P - June 2022Rockwell Automation Publication 2713P-TD001I-EN-P - June 20225PanelView 5310 Terminals SpecificationsTerminal DimensionsThis section provides dimensions for the PanelView 5310 terminals. The 9-inch (228.6 mm) widescreen terminal is shown for illustrative purposes. All other terminal sizes look similar.PanelView 5310 Terminal Dimensions - (9-in. (228.6 mm) widescreen terminal shown)Power supply Supports safety extra low voltage and protected extra low voltage 24V DC supplies (3)(4)Mechanical Weight, approx. net0.79 kg (1.74 lb)1.1 kg (2.43 lb)1.38 kg (3.04 lb)2.08 kg (4.59 lb)2.34 kg (5.16 lb)Terminal dimensions, approx See PanelView 5310 Terminal and Cutout Dimensions on page 6.Cutout dimensions, approxSee PanelView 5310 Terminal and Cutout Dimensions on page 6.(1)Add -B to the end of a catalog number to order a terminal without the Allen-Bradley® logo and product identification, for example, 2713P-T7WD1-B.(2)Add -K to the end of a catalog number to order a terminal with conformal coating, for example, 2713P-T6CD1-K.(3)DC-powered terminals support safety extra low voltage (SELV) and protective extra-low voltage (protected extra low voltage) 24V DC power supplies, such as catalog numbers 1606-XLP95E, 1606-XLP100E, and 2711P-RSACDIN.(4)Where PELV is defined in IEC 61131-2.Technical Specifications - PanelView 5310 Terminals (Continued)Attribute 6-in. Touch 7-in. Wide Touch 9-in. Wide Touch 10.4-in. Touch 12.1-in. Wide Touch 2713P-T6CD12713P-T6CD1-B (1)2713P-T6CD1-K (2)2713P-T7WD12713P-T7WD1-B (1)2713P-T7WD1-K (2)2713P-T9WD12713P-T9WD1-B (1)2713P-T9WD1-K (2)2713P-T10CD12713P-T10CD1-B (1)2713P-T10CD1-K (2)2713P-T12WD12713P-T12WD1-B (1)2713P-T12WD1-K(2)6Rockwell Automation Publication 2713P-TD001I-EN-P - June 2022PanelView 5310 Terminals SpecificationsStudio 5000 EnvironmentUse the Studio 5000 environment to create HMIapplications for the PanelView 5310 terminal platform. This environment includes these major components:•Studio 5000 View Designer – you can create and design a project for a specific PanelView 5310 terminal and download the project to the terminal.Y ou can create an application for any PanelView 5310 terminal and reuse that same application across the entire platform.•Studio 5000 Logix Designer – you can develop control logic for a CompactLogix or ControlLogix controller and download the logic to the controller.AccessoriesThis section lists accessories for the PanelView 5310 terminals.PanelView 5310 Terminal and Cutout DimensionsTerminal Size (in.)Input TypeTerminal DimensionsCutout Dimensions Height (A)mm (in.)Width (B)mm (in.)Overall Depth (C)mm (in.)Mounted Depth (D)mm (in.)Height (A)mm (in.)Width (B)mm (in.)6Touch153 (6.0)186 (7.3)69.5 (2.74)64 (2.5)(1)(1)When mounted in a panel, the front of the bezel extends less than 6 mm (0.24 in.) from the panel.123 (4.84)156 (6.14)7178 (7.0)237 (9.3)148 (5.82)207 (8.15)9190 (7.48)280 (11.02)162 (6.38)252 (9.92)10.4252 (9.92)297 (11.69)224 (8.82)269 (10.59)12.1246 (9.69)340 (13.39)218 (8.58)312 (12.28)Protective OverlaysCat. No.(1)(1)Although these protective overlays were designed for the PanelView 5510 terminals, they can also be used for the PanelView 5310terminals. However, when these overlays are used on a PanelView 5310 terminal, there is an increased air gap between the overlay and the terminal screen.Display Size Quantity2711P-RGT6S 6-in.32711P-RGT7SP 7-in. widescreen 2711P-RGT9SP 9-in. widescreen 2711P-RGT10SP 10.4-in.2711P-RGT12SP12.1-in. widescreenRockwell Automation Publication 2713P-TD001I-EN-P - June 20227PanelView 5310 Terminals SpecificationsThe SD and SD HC accessory cards in the above table have been designed to meet industrial robustness andenvironmental requirements. Rockwell Automation recommends that you use these accessory cards with the terminal to help reduce the chances of corruption. Studio 5000 View Designer software requires the following for SD cards that are inserted into the HMI device:• 4 GB of free space• A supported SD HC card type, preferably one listed in the Secure Digital (SD) Cards table •An environmental rating for the PanelView 5000 environment • A supported format of either FAT32 or ext3Power Supplies and Replacement Power Terminal BlocksCat. No.DescriptionQuantity 1606-XLB120E DIN rail power supply, 24…28V DC output voltage, 120 W 11606-XLP100E DIN rail power supply, 24…28V DC output voltage, 100 W 11606-XLP95E DIN rail power supply, 24…28V DC output voltage, 95 W 12711-TBDC3-pin DC power terminal block10Mounting HardwareCat. No.Description Quantity 2711P-RMCP (1)(1)Catalog number 2711P-RMCP mounting levers are used with the PanelView 5310 terminals. Do not use gray mounting levers; theyare not compatible with PanelView 5310 terminals.Mounting levers (black)16Secure Digital (SD) Cards (1)(1)To help reduce the chance of corruption when you use SD cards or USB driveswith the terminal, Rockwell Automation recommends that you use only the above SD card catalog numbers.Cat. No.Description 1784-SD HC88-GB SD HC® card 1784-SD HC3232-GB SD HC cardUSB Programming CableCat. No.DescriptionLength 6189V-USBCBL2Programming cable that connects the device port of the terminal to a USB host port of a computer1.8 m (5.9 ft)PanelView 5310 Terminals SpecificationsAdditional ResourcesThese documents contain more information about related products from Rockwell Automation.Resource DescriptionVisualization Solutions Selection Guide, publication VIEW-SG001Provides an overview of the visualization products (includes catalog number selections)offered by Rockwell Automation.PanelView 5310 Terminals User Manual, publication 2713P-UM001Provides information on how to install, operate, configure, and troubleshoot the PanelView5310 terminals.Industrial Automation Wiring and Grounding Guidelines, publication 1770-4.1Provides general guidelines on how to install a Rockwell Automation industrial system. Product Certifications website, rok.auto/certifications Provides declarations of conformity, certificates, and other certification details.Y ou can view or download publications at rok.auto/literature.8Rockwell Automation Publication 2713P-TD001I-EN-P - June 2022PanelView 5310 Terminals Specifications Notes:Rockwell Automation Publication 2713P-TD001I-EN-P - June 20229Publication 2713P-TD001I-EN-P - June 2022Supersedes Publication 2713P-TD001H-EN-P - October 2021Copyright © 2022 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.Rockwell Automation SupportUse these resources to access support information.Documentation FeedbackYour comments help us serve your documentation needs better. If you have any suggestions on how to improve our content, complete the form at rok.auto/docfeedback .Technical Support Center Find help with how-to videos, FAQs, chat, user forums, and product notification updates.rok.auto/supportKnowledgebaseAccess Knowledgebase articles.rok.auto/knowledgebase Local Technical Support Phone Numbers Locate the telephone number for your country.rok.auto/phonesupport Literature LibraryFind installation instructions, manuals, brochures, and technical data publications.rok.auto/literature Product Compatibility and Download Center (PCDC)Download firmware, associated files (such as AOP, EDS, and DTM), and access product release notes.rok.auto/pcdcAllen-Bradley, CompactLogix, ControlLogix, expanding human possibility, PanelView, Rockwell Automation, Studio 5000, Studio 5000 Logix Designer, and Studio 5000 View Designer are trademarks of Rockwell Automation, Inc.EtherNet/IP is a trademark of ODVA. SD and SD HC are trademarks of SD-3C LLC.Trademarks not belonging to Rockwell Automation are property of their respective companies.Rockwell Automation maintains current product environmental compliance information on its website at rok.auto/pec .Rockwell Otomasyon Ticaret A.Ş. Kar Plazaİş Merkezi E Blok Kat:6 34752, İçerenköy, İstanbul, Tel: +90 (216) 5698400 EEE Yönetmeli ğine Uygundur。

弱电工程中常用线缆分类基本常识。

型号代码含义：R-连接用软电缆(电线)，软结构。

V-绝缘聚氯乙烯。

V-聚氯乙烯绝缘V-聚氯乙烯护套B-平型(扁形)。

S-双绞型。

A-镀锡或镀银。

F-耐高温P-编织屏蔽P2-铜带屏蔽P22-钢带铠装Y—预制型、一般省略，或聚烯烃护套FD—产品类别代号，指分支电缆。

将要颁布的建设部标准用FZ表示，其实质相同YJ—交联聚乙烯绝缘V—聚氯乙烯绝缘或护套ZR—阻燃型NH—耐火型WDZ—无卤低烟阻燃型WDN—无卤低烟耐火型例如：SYV 75-5-1(A、B、C)S: 射频Y:聚乙烯绝缘V:聚氯乙烯护套A：64编B：96编C：128编75：75欧姆5：线径为5MM 1：代表单芯SYWV 75-5-1S: 射频Y:聚乙烯绝缘W:物理发泡V:聚氯乙烯护套75：75欧姆5：线缆外径为5mm 1：代表单芯例如：RVVP2*32/0.2 RVV2*1.0 BVRR: 软线VV:双层护套线P屏蔽2：2芯多股线32：每芯有32根铜丝0.2：每根铜丝直径为0.2mmZR-RVS2*24/0.12ZR: 阻燃R: 软线S:双绞线2：2芯多股线24：每芯有24根铜丝0.12：每根铜丝直径为0.12mm型号、名称RV 铜芯氯乙烯绝缘连接电缆(电线)AVR 镀锡铜芯聚乙烯绝缘平型连接软电缆(电线)RVB 铜芯聚氯乙烯平型连接电线RVS 铜芯聚氯乙烯绞型连接电线RVV 铜芯聚氯乙烯绝缘聚氯乙烯护套圆形连接软电缆ARVV 镀锡铜芯聚氯乙烯绝缘聚氯乙烯护套平形连接软电缆RVVB 铜芯聚氯乙烯绝缘聚氯乙烯护套平形连接软电缆RV-105 铜芯耐热105oC聚氯乙烯绝缘聚氯乙烯绝缘连接软电缆AF-205AFS-250AFP-250 镀银聚氯乙氟塑料绝缘耐高温-60oC~250oC连接软电线规格表示法的含义：规格采用芯数、标称截面和电压等级表示：①单芯分支电缆规格表示法：同一回路电缆根数*(1*标称截面)，0.6/1kV，如：4*(1*185)+1*95 0.6/1kV②多芯绞合型分支电缆规格表示法：同一回路电缆根数*标称截面，0.6/1kV，如：4**185+1*95 0.6/1kV③多芯同护套型分支电缆规格表示法：电缆芯数×标称截面-T，如：4×25-T完整的型号规格表示法：因为分支电缆包含主干电缆和支线电缆。

ITEMCONTENTSUNITLCD Type TFT/Transmissive/Normally white / Size3.5Inch Viewing Direction12:00 (without image inversion) O’ Clock Gray Scale Inversion Direction 6:00O’ Clock Number of Dots 320 x (RGB) × 240 / Driver ICBT81x / Interface TypeSPI/QSPI/ Module Memory Size 1 MB (BT81x) + 64 Mb (external flash) / Color Depth16.7M/ Pixel Arrangement RGB Vertical Stripe/ Surface Treatment Anti-glare / Clear (for CTP) / Input Voltage3.3V3.5” EVE3 SERIES LCD TFTRiTFT-35 seriesRev.1.0 2018-10-22L C D T F T M o d u l e S p e c i f i c a t i o nNote 1: RoHS, REACH SVHC compliant Note 2: LCM weight tolerance: ± 5%.CONTENTS (2)1 MODULE CLASSIFICATION INFORMATION (3)2 ASSEMBLY GUIDE - INTEGRATION (3)2.1 Mounting frame (4)3 MODULE DRAWING (4)4 ABSOLUTE MAXIMUM RATINGS (5)5 ELECTRICAL CHARACTERISTICS (5)6 BACKLIGHT CHARACTERISTICS (5)7 ELECTRO-OPTICAL CHARACTERISTICS (5)8 INTERFACE DESCRIPTION (7)9 BT8x CONTROLLER SPECIFICATIONS (8)9.1 Serial host interface (8)9.2 Block Diagram (8)9.3 Host interface SPI mode 0 (9)9.4 Backlight driver block diagram (9)10 LCD TIMING CHARACTERISTICS (9)10.1 Clock and data input time diagram (9)10.2 Parallel RGB timing table (11)11 TOUCH SCREEN PANEL SPECIFICATIONS (11)11.1 Electrical characteristics (11)11.1.1 For capacitive touch panel (11)11.1.2 For resistive touch panel (12)11.2 Mechanical characteristics (12)11.2.1 For capacitive touch panel (12)11.2.2 For resistive touch panel (13)12 INSPECTION (13)12.1 Inspection condition (13)12.2 Inspection standard (14)13 RELIABILITY TEST (17)14 LEGAL INFORMATION (18)1. BRAND RV – Riverdi2. PRODUCT TYPE T – TFT StandardF – TFT Custom3. DISPLAY SIZE 35– 3.5”4. MODEL SERIAL NO. A (A-Z)5. RESOLUTION H– 320x240 px6. INTERFACE B – TFT + Controller BT81x7. FRAME N – No FrameF – Mounting Frame8. BACKLIGHT TYPE W – LED White9. TOUCH PANEL N – No Touch PanelR – Resistive Touch Panel C – Capacitive Touch Panel10. VERSION 00(00-99)RiTFT-35-RES RVT35AHBNWR00 BT816, resistive touch panelRiTFT-35-CAP RVT35AHBNWC00 BT815, capacitive touch panelRiTFT-35-FR RVT35AHBFWN00 BT816, no touch panel, mounting frame RiTFT-35-RES-FR RVT35AHBFWR00 BT816, resistive touch panel, mounting frame RiTFT-35-CAP-FR RVT35AHBFWC00 BT815, capacitive touch panel, mounting frame2.1Mounting frameFor dimension s 3.5”, 4.3”, 5.0” and 7.0” the product with mounting frame version is available. Thanks to the four catches attached to the side, frame provides strong assembly to the surface by mounting element (like the screw, see Figure 3). The frames are specially designed to fit Riverdi products perfectly. The diameter of the mounting hole is 3.5mm.Figure 1. Mounting frameRiTFT-35 series3MODULE DRAWING `` RiTFT-35© 2018 Riverdi Page 4 of 24 RiTFT-35 seriesRiTFT-35-FR© 2018 Riverdi Page 5 of 24 RiTFT-35 seriesRiTFT-35-CAP© 2018 Riverdi Page 6 of 24 RiTFT-35-CAP-FR© 2018 Riverdi Page 7 of 24 RiTFT-35-RES© 2018 Riverdi Page 8 of 24 RiTFT-35-RES-FR© 2018 Riverdi Page 9 of 24 4ABSOLUTE MAXIMUM RATINGSPARAMETER SYMBOL MIN MAX UNITSupply Voltage for Logic VDD 0 4.0 V Supply Voltage for LED Inverter BLVDD 0 7.0 VInput Voltage for Logic VIN 0 4.0 VLED forward current (each LED) IF - 25 mA Operating Temperature T OP-20 70 °C PARAMETER SYMBOL MIN TYP MAX UNIT NOTES Supply Voltage For Module VDD 3.0 3.3 3.6 VInput Voltage for LED Inverter BLVDD 2.8 5.0 5.5 VLED Backlight Current IDD backlight- 150 187 mA BLVDD=3.3V LED Backlight Current IDD backlight- 93 117 mA BLVDD=5V Input Voltage ' H ' level V IH0.7VDD - VDD VInput Voltage ' L ' level V IL0 - 0.2VDD VInput Current I In TBD mAInput Current for module with CTP I InC TBD mAITEM SYMBOL MIN TYP MAX UNIT Voltage for LED backlight V l- 19.2 20.4 V Current for LED backlight I l- 20 25 mA LED Life Time - 30000 50000 - HrsLNote 1. Contrast Ratio(CR) is defined mathematically as below, for more information see Figure .Contrast Ratio =Average Surface Luminance with all white pixels (P1,P2,P3,P4,P5) Average Surface Luminance with all black pixels (P1,P2,P3,P4,P5)Note 2. Surface luminance is the LCD surface from the surface with all pixels displaying white. For more information, see Figure .Lv = Average Surface Luminance with all white pixels (P1, P2, P3, P4, P5)Note 3.The uniformity in surface luminance δ WHITE is determined by measuring luminance at each test position 1 through 5, and then dividing the maximum luminance of 5 points luminance by minimum luminance of 5 points luminance. For more information, see Figure .δ WHITE =Minimum Surface Luminance with all white pixels (P1,P2,P3,P4,P5) Maximum Surface Luminance with all white pixels (P1,P2,P3,P4,P5)Note 4. Response time is the time required for the display to transition from white to black (Rise Time, Tr) and from black to white (Decay Time, Tf). For additional information see FIG 1. The test equipment is Autronic-Melchers’s ConoScope series.Note 5.CIE (x, y) chromaticity, the x, y value is determined by measuring luminance at each test position 1 through 5, and then make average value.Note 6. Viewing angle is the angle at which the contrast ratio is greater than 2. For TFT module the contrast ratio is greater than 10. The angles are determined for the horizontal or x axis and the vertical or y axis with respect to the z axis which is normal to the LCD surface. For more information see Figure .Note 7. For viewing angle and response time testing, the testing data is based on Autronic-Melchers’s ConoScope series. Instruments for Contrast Ratio, Surface Luminance, Luminance Uniformity, CIE the test data is based on TOPCON’s BM-5 photo detector.Note 8. For TFT module, Gray scale reverse occurs in the direction of panel viewing angle.Figure 2. The definition of response timeFigure 3. Measuring method for Contrast ratio, surface luminance, Luminance uniformity, CIE (x, y) chromaticityFigure 4.The definition of viewing angle8INTERFACE DESCRIPTION9BT8x CONTROLLER SPECIFICATIONSBT8x or EVE3 (Embedded Video Engine 3) simplifies the system architecture for advanced human machine interfaces (HMIs) by providing functionality for display, audio, and touch as well as an object oriented architecture approach that extends from display creation to the rendering of the graphics.9.1Serial host interfaceFigure 5.SPI interface connection Figure 6. QSPI interface connectionSPI Interface– the SPI slave interface operates up to 30MHz.Only SPI mode 0 is supported. The SPI interface is selected by default (MODE pin is internally pulled low by 47k resistor).9.2Block DiagramFigure 7.. BT8x Block diagram9.3Host interface SPI mode 0Figure 8. SPI timing diagramFor more information about BT8x controller please go to official BT8x website.https:///Products/ICs/BT81X.html9.4Backlight driver block diagramBacklight enable signal is internally connected to BT8x Backlight control pin. This pin is controlled by two BT8x’s registers. One of them specifies the PWM output frequency, second one specifies the duty cycle. Refer to BT8x datasheet for more information.Figure 9. Backlight driver block diagram10LCD TIMING CHARACTERISTICS10.1Clock and data input time diagramFigure 10. DE mode timing diagramBT8xFigure 11. SYNC mode timing diagramFigure 12. Timing diagram10.2Parallel RGB timing tableTiming parameter (VDD=3.3V, GND=0V, Ta=25˚C)PARAMETER SYMBOL MIN TYP MAX UNIT CONDITION CLK Clock Time T clk 1/Max(F CLK) - 1/Min(F CLK) ns -11TOUCH SCREEN PANEL SPECIFICATIONS11.1Electrical characteristicsNote: Avoid operating with hard or sharp material such as a ball point pen or a mechanical pencil except a polyacetal pen (tip R0.8mm or less) or a fingerITEM VALUE UNIT REMARKMin. Typ. Max.Linearity - - 1.5 % Analog X and Y directions Terminal Resistance 200 - 900 ΩX100 - 600 ΩY11.2Mechanical characteristicsNote 1: Force test condition, Input DC 5V on X direction, Drop off Polyacetal Stylus (R0.8), until output voltage stabilize, then get the R8.0mm Silicon rubber and do finger Activation force test. Next step, 9 points.Note 2: Measurement surface area conditions, Scratch 100,000 times straight line on the film with a stylus change every 20,000 times with Force: 250gf, Speed: 60mm/sec by R0.8 polaceteal stylus.Note 3: Pitting test, Pit 1, 000, 000 times on the film with R0.8 silicon rubber with Force: 250gf and Speed: 2 times/sec.Note 1: Force test condition, Input DC 5V on X direction, drop off Polyacetal Stylus (R0.8), until output voltage stabilize, then get the R8.0mm Silicon rubber and do finger Activation force test. Next step, 9 points.ITEM VALUE UNIT REMARKMin. Typ. Max.12INSPECTIONStandard acceptance/rejection criteria for TFT module.12.1Inspection conditionAmbient conditions:•Temperature: 25±°C•Humidity: (60±10) %RH•Illumination: Single fluorescent lamp non-directive (300 to 700 lux)Viewing distance:35±5cm between inspector bare eye and LCD.Viewing Angle:U/D: 45°/45°, L/R 45°/45°12.2Inspection standard Item Criterion Black spots, whitespots, light leakage,Foreign Particle(round Type)D=(x+y)2*Spots density: 10 mmSize < 5”Average Diameter Qualified QtyD < 0.2 mm Ignored0.2 mm < D < 0.3 mm 30.3 mm < D < 0.5 mm 20.5 mm < D 0Size >= 5”Average Diameter Qualified Qty D<0.2 mm Ignored0.2 mm < D < 0.3 mm 40.3 mm < D < 0.5 mm 20.5 mm < D 0Clear spotsSize >= 5”Average Diameter Qualified Qty D<0.2 mmIgnored 0.2 mm < D < 0.3 mm 4 0.3 mm < D < 0.5 mm 2 0.5 mm < D*Spots density: 10 mm Size < 5”Average Diameter Qualified Qty D < 0.2 mmIgnored 0.2 mm < D < 0.3 mm 3 0.3 mm < D < 0.5 mm 2 0.5 mm < D 0Polarizer bubblesSize < 5”Average Diameter Qualified Qty D < 0.2 mmIgnored 0.2 mm < D < 0.5 mm 3 0.5 mm < D < 1 mm 2 1 mm < D 0 Total Q’ty 3Size >= 5”Average Diameter Qualified Qty D<0.25 mmIgnored 0.25 mm < D < 0.5 mm 3 0.5 mm < D 0Electrical Dot DefectSize < 5”itemQualified Qty Black do defect 4 Bright dot defect 2 Total Dot 5Size >= 5”itemQualified Qty Black do defect 5 Bright dot defect 2 Total Dot 5Touch panel spotSize < 5”Average Diameter Qualified QtyD < 0.2 mm Ignored0.2 mm < D < 0.4 mm 50.4 mm < D < 0.5 mm 213RELIABILITY TESTNO. TEST ITEM TEST CONDITION REMARKS1 High Temperature Storage 80±2°C/240hours Note 22 Low Temperature Storage -30±2°C/240hours Note 1,2Note 1: Without water condensation.Note 2:The function test shall be conducted after 2 hours storage at the room temperature and humidity after removed from the test chamber.14LEGAL INFORMATIONRiverdi makes no warranty, either expressed or implied with respect to any product, and specifically disclaims all other warranties, including, without limitation, warranties for merchantability, non-infringement and fitness for any particular purpose. Information about device are the property of Riverdi and may be the subject of patents pending or granted. It is not allowed to copy or disclosed this document without prior written permission.Riverdi endeavors to ensure that the all contained information in this document are correct but does not accept liability for any error or omission. Riverdi products are in developing process and published information may be not up to date. Riverdi reserves the right to update and makes changes to Specifications or written material without prior notice at any time. It is important to check the current position with Riverdi.Images and graphics used in this document are only for illustrative the purpose. All images and graphics are possible to be displayed on the range products of Riverdi, however the quality may vary. Riverdi is no liable to the buyer or to any third part for any indirect, incidental, special, consequential, punitive or exemplary damages (including without limitation lost profits, lost savings, or loss of business opportunity) relating to any product, service provided or to be provided by Riverdi, or the use or inability to use the same, even if Riverdi has been advised of the possibility of such damages.Riverdi products are not fault tolerant nor designed, manufactured or intended for use or resale as on line control equipment in hazardous environments requiring fail – safe performance, such as in the operation of nuclear facilities, aircraft navigation or communication systems, air traffic control, direct life support machines or weapons systems in which the failure of the product could lead directly to death, personal injury or severe physical or environmental damage (‘High Risk Activities’). Riverdi and its suppliers specifically disclaim any expressed or implied warranty of fitness for High Risk Activities. Using Riverdi products and devices in 'High Risk Activities' and in any other application is entirely at the buyer’s risk, and the buyer agrees to defend, indemnify and hold harmless Riverdi from any and all damages, claims or expenses resulting from such use. No licenses are conveyed, implicitly or otherwise, under any Riverdi intellectual property rights.。

LM3915 DL M 39150V to 10V Log DisplayN a t i o n a lf/w SemiconductorLM3915 Dot/Bar Display DriverGeneralDescription 该LM3915是单片集成电路，其感测模拟电压电平与驱动器10的LED ，液晶显示器或真空荧光显示器，提供了对数3分贝/步模拟显示。

一个引脚变化，从柱状图显示，以一个移动的点显示。

LED 电流驱动器和调节可编程的，从而无需电流限制电阻。

整个显示系统可以从一个单一的操作供应低至3V 或高达25V 。

该IC 包含一个可调电压基准和一个准确的10步分压器。

高阻抗输入缓冲区接收信号下降到地面和高达 1.5V 的范围内的正电源。

此外，它不需要保护± 35V 的输入。

输入缓冲器驱动10个独立的比较参照的精度除法器。

精度通常大于1 dB 更好。

该LM3915的3个dB /阶显示屏适用于信号与宽动态范围，如音频电平，功率光强或振动。

音频应用包括平均值或峰值一级指标，功率计和射频信号强度米。

取代传统米的LED 棒图会产生更快的响应，更坚固的显示具有较高的知名度，其中保留了方便的解释模拟显示。

该LM3915是非常容易申请。

一个1.2V 的满量程米只需要一个除10发光二极管的电阻。

满量程从任何地方多一个电阻方案 1.2V 至12V 电源电压无关。

LED 的亮度容易控制具有单个罐。

该LM3915是非常灵活。

这些输出可以驱动的LCD ，真空荧光灯和白炽灯泡以及任何颜色的LED 。

多台设备可级联的圆点或条形模式显示，射程60或90分贝。

LM3915s 也可以与LM3914s 为线性级联/记录显示或LM3916s 一个增程VU 米。

Features■3 dB /一步,30 dB 范围■驱动led 、lcd 或真空荧光灯■酒吧或者点显示模式外部由用户选择■可扩展的显示的90分贝■内部参考电压 1.2 v 至12 v ■经营单一的供应 3 v 25 v ■输入操作到地面■输出电流可编程的从1mA 到30 mA■输入可承受±35 v 没有损坏或错误输出■输出电流调节，集电极开路■直接驱动TTL 或CMOS■内部10步分频器是浮动的并且可以是参考电压范围较宽的该LM3915的额定工作在0°C 至+70°C 。

Computer-generated vehicle shown.FORD F-150 LIGHTNINGBODYConstruction/materials High-strength steel frame, high-strength, military-grade aluminum alloy body and bed Body styleSuperCrew ® four-door with 5.5-foot bed Final assembly locationRouge Electric Vehicle CenterPOWERTRAIN/DRIVETRAINStandard-Range BatteryExtended-Range BatteryDrivetrain Layout Dual eMotor, front/rear transverse mounted, four-wheel driveMotors/configurationTwo inboard three-phase fixed magnet AC motors Targeted Peak Power (hp/kW)1452/337580/433Targeted Peak Torque (lb.-ft./Nm)1775/1050775/1050Motor Build LocationVan Dyke Transmission Plant1Calculated via peak performance of the electric motors at peak battery power. Your results may vary. Horsepower and torque are independent attributes and may not be achieved simultaneously.BATTERY/ENERGY STORAGEStandard-Range Battery Extended-Range Battery Battery type Lithium-ion pouch with internal battery management, liquid cooledBattery size98 kWh of usable energy 2131 kWh of usable energy 2Onboard charger power (input/output)11.3 kW/10.5 kW19.2kW/17.6 kWBattery assembly locationRawsonville Components Plant2B ased on manufacturer calculation using computer engineering simulations. Your results may vary.ESTIMATED MILES/CHARGE 4Standard-Range BatteryExtended-Range Battery10 minutes, 150kW DC Fast Charge41 miles 54 miles 1 hour, 80A Ford Charge Station Pro 19 miles 30 miles 1 hour, 48A Ford Connected Charge Station 19 miles 20 miles 1 hour, 30A/240W Mobile Charger13 miles13 miles4Excludes Platinum models. Range and charge time based on manufacturer computer engineering simulations and analytical projection consistent with U.S. EPA combined drive cycle. The charging rate decreases as battery reaches full capacity. Your results may vary based on peak charging times and battery state of charge. Actual range varies with conditions such as external environment, vehicle use, vehicle maintenance, lithium-ion battery age and state of health.ESTIMATED CHARGE TIMES 3Standard-Range BatteryExtended-Range BatteryLEVEL 3150 kW DCFC 15-80%44 minutes 41 minutes 50 kW DCFC 15-80%91 minutes 122 minutes LEVEL 280A Ford Charge Station Pro 15-100%10 hours 8 hours 48A Connected Charge Station 15-100%10 hours 13 hours 32A/240W Mobile Charger 15-100%13 hours19 hours3Charge time based on manufacturer computer engineering simulations. The charging rate decreases as battery reaches full capacity. Your results may vary based on peak charging times and battery state of charge.EPA-ESTIMATED RANGE 5240320 (XLT, LARIAT)/300 (Platinum)5B ased on full charge. Actual range varies with conditions such as external environment, vehicle use, vehicle maintenance, and lithium-ion battery age and state of health.CHARGING UNIT Standard-Range Battery Extended-Range Battery30A Ford Mobile Charger (120V/240V)Included Included48A Ford Connected Charge Station Optional Optional80A Ford Charge Station Pro with FordIntelligent Backup Power capability1Optional Included1W hen home is properly equipped.EXTERIOR DIMENSIONS (Preproduction estimates. Measurements in inches unless otherwise noted.)Wheelbase145.5Overall length232.7Cab height78.3Width - excluding mirrors80.0Width - including standard mirrors96.0Width - standard mirrors folded83.6Track width - front (curb)68.1Track width - rear (curb)68.3Overhang - front37.8Overhang - rear49.4Angle of approach (degrees)24.4Angle of departure (degrees)23.6Ramp breakover angle (degrees)17.6Ground clearance8.4Open tailgate to ground36.7Front bumper to back of cab155.9Front trunk liftover height34.5INTERIOR DIMENSIONS (Preproduction estimates. Measurements in inches unless otherwise noted.)Seating (occupants)5Front headroom40.8Front legroom SAE (maximum)43.9Front shoulder room66.7Front hip room62.5Rear headroom40.4Rear legroom SAE (maximum)43.6Rear shoulder room66.0Rear hip room62.6BED & FRONT TRUNK CAPACITIES (Measurements in inches unless otherwise noted.)Inside length (at floor)67.1Width between wheelhouses50.6Inside height21.4Cargo box volume52.8 cubic feetFront trunk volume14.1 cubic feet (400 liters)CAPABILITY2Standard-Range Battery Extended-Range Battery Maximum Payload (lbs.)2,23521,9523Maximum Towing (lbs.)5,00047,7004Maximum Towing withMax Trailer Tow Package (lbs.)7,700410,000 (XLT/LARIAT)/8,500 (Platinum)42 P ayload and towing are independent attributes and may not be achieved simultaneously. 2Max payload with Pro trim and Standard-Range battery. Max. payload varies and is based on accessories and vehicle. 3Max payload on XLT High (XLT 312A) with available extended-range battery. Max. payload varies and is based on accessories and vehicle configuration. See label on door jamb for carrying capacity of a specific vehicle 4Max towing varies based on cargo, vehicle configuration, accessories, and number of passengers.SUSPENSIONFront configuration Independent double-wishbone with coil-over shocks, stabilizer barwith heavy-duty gas pressurized monotube shocksRear configuration Independent semi trailing arms, coil springs, stabilizer barwith heavy-duty gas pressurized twin tube shocksBATTERY/CHARGINGStandard-Range Battery S S S-Extended-Range Battery OO O S(Fleet only)EXTERIOR FEATURESPower up/down hood S S S SFront trunk S S S S Tailgate with lift assist S S--Power up/down tailgate-O S S Carbon Black fixed extended runningboards with enhanced lighting-S S S EXTERIOR LIGHTINGLED projector headlamps with dynamicbending and LED signature lighting S S S SLED taillamps S S S S Signature hood lighting-S S S Signature tailgate lighting--S SLED box lighting with Enhanced Zone Lighting-O S S WHEELS18-inch machined aluminum with blackhigh gloss pockets S S--20-inch Dark Carbonized Gray aluminum-O S-22-inch bright machined aluminum withEbony Black painted pockets---S TECHNOLOGYSYNC® 4 with Enhanced Voice Recognition,12-inch landscape LCD capacitiveS S--touch screenSYNC® 4A with Enhanced Voice Recognition,15.5-inch portrait orientation LCD capacitive--S Stouch screenWireless Apple CarPlay® and Android Auto™compatibility S S S S Wireless Ford Power-Up Software Updates S S S S Connected Built-In Navigation1 (3-year trial)S S S S12-inch Digital Productivity Screen S S S S Intelligent Access-O S SPush button start S S S S360-degree camera O S S S FordPass Connect™ with 4G LTE Wi-Fihotspot capability for up to 10 devices S S S SPhone As A Key functionality--O SB&O Sound System by Bang & Olufsenwith HD Radio™ (including 8 speakers and--S-subwoofer)B&O Unleashed Sound System by Bang& Olufsen with HD Radio™ (including 18---S speakers including subwoofer)1N avigation services require SYNC®4 and FordPass Connect (optional on select vehicles), complimentary Connected Service and the FordPass app (see FordPass Terms for details). Eligible vehicles receive a complimentary 3-year trial of navigation services that begins on the new vehicle warranty start date. Customers must unlock the navigation service trial by activating the eligible vehicle with a FordPass member account. After the complimentary trial, the connected navigation service will terminate, and the system will revert to embedded offline navigation. Service contract is required for connected navigation services. Connected service and features depend on compatible AT&T network availability. Evolving technology/cellular networks/vehicle capability may limit functionality and prevent operation of connected features. FordPass App, compatible with select smartphone platforms, is available via a download. Message and data rates may apply.BANG & OLUFSEN© 2021 and B&O© 2021. BANG & OLUFSEN™ and B&O™ are registered trademarks of Bang & Olufsen Group. Licensed by Harman Becker Automotive Systems Manufacturing Kft. All rights reserved.Rain-Sensing Wipers-O O S SEATINGVinyl front bucket seats, 4-way manualdriver/passenger S---Cloth front bucket seats, 8-way powerdriver’s seat with power lumbar, manual-S--passenger lumbarCloth heated front bucket seats, 10-waypower driver’s seat with power lumbar, multi--O--adjustable power front passenger seatLeather-trimmed, heated and ventilatedfront seats, 10-way power driver’s seat and--S-multi-adjustable power passenger seat withpower lumbar, memory driver’s seatPremium Nirvana leather seating surfaceswith black tuxedo stripes, heated andventilated, 10-way power driver’s seat and---Smulti-adjustable power passenger seat withpower lumbar, memory driver’s seatFlow-through console with stowablefloor shifter S S S S PRODUCTIVITY/CAPABILITY2.4kW Pro Power Onboard – 120V outlets:Two in the cab, two in the bed and four inS S--the front trunk9.6kW Pro Power Onboard – 120V outlets:Two in the cab, four in the bed and four in theO O S Sfront trunk, plus a 240V outlet in the bedInterior work surface-S S S Tailgate step (includes Tailgate Work Surface)O O S SClass IV trailer hitch S S S S FORD CO-PILOT360™ TECHNOLOGYFord Co-Pilot360™ 2.0 – Pre-Collision Assistwith Automatic Emergency Braking (includesPedestrian Detection, Forward CollisionWarning and Dynamic Brake Support), BLIS®with Cross-Traffic Alert, Lane-KeepingS S S S System (includes Lane-Keeping Alert,Lane-Keeping Aid and Driver Alert), RearView Camera, Auto High Beam headlamps,Reverse Sensing System, Reverse BrakeAssist and Post-Collision BrakingFord Co-Pilot360™ Assist 2.0 – IntelligentAdaptive Cruise Control with Stop-and-Go,Lane Centering and Speed Sign Recognition,-O S S Evasive Steering Assist, Intersection Assist,Connected Built-In Navigation1 (3-year trial)Ford Co-Pilot360™ Active 2.0 – FordBlueCruise,™ Active Park Assist 2.0--O S (includes Phone As A Key)1N avigation services require SYNC®4 and FordPass Connect (optional on select vehicles), complimentary Connected Service and the FordPass app (see FordPass Terms for details). Eligible vehicles receive a complimentary 3-year trial of navigation services that begins on the new vehicle warranty start date. Customers must unlock the navigation service trial by activating the eligible vehicle with a FordPass member account. After the complimentary trial, the connected navigation service will terminate, and the system will revert to embedded offline navigation. Service contract is required for connected navigation services. Connected service and features depend on compatible AT&T network availability. Evolving technology/cellular networks/vehicle capability may limit functionality and prevent operation of connected features. FordPass App, compatible with select smartphone platforms, is available via a download. Message and data rates may apply.SAFETY/SECURITYAdvanceTrac® with RSC S S S S Airbags – Driver and front-passenger frontand seat-mounted side airbags, SafetyS S S S Canopy® side-curtain airbagsCurve Control S S S S Perimeter anti-theft alarm S S S SSOS Post-Crash Alert System S S S STire pressure monitoring system S S S S Advanced Security Pack--S S SecuriCode® keyless entry keypad-S S S FordPass Trailer Theft Alert1S S S S1 FordPass Connect (optional on select vehicles),] the FordPass App., and complimentary Connected Service are required for remote features (see FordPass Terms for details). Connected service and features depend on compatible AT&T network availability. Evolving technology/cellular networks/vehicle capability may limit functionality and prevent operation of connected features. Connected service excludes Wi-Fi hotspot.PACKAGESTow Technology Package – includes ProTrailer Backup Assist, Trailer ReverseGuidance, Trailer Brake Controller, SmartO O O S Hitch, On-board Scales, Smart Trailer TowConnection, Forward Sensing System(included on Pro; standard on XLT+)Max Trailer Tow Package O O O S WARRANTYBumper-to-Bumper 3 years/36,000 miles2Electric vehicle unique component8 years/100,000 miles3Aluminum body panel 5 years/unlimited miles2Paint adhesion 5 years/unlimited miles2Roadside assistance 5 years/60,000 miles22Whichever comes first3Battery is covered for 8 years or 100,000 miles, whichever comes first, retaining a minimum of 70 percent of its original capacity over that period.Some features may not be available. Contact your dealer for more information.FORD F-150 LIGHTNING。

变频器中英文液晶显示对照表变频器中英文液晶显示对照表设定状态代码中文英文F1.00 参考输入 FREQ REFF1.01 启/停控制 CONT METHOD F1.02 输入方式 INPUT SELF1.03 键盘/计算机 K/C SETTING F1.04 模拟增益K1 GAIN K1 F1.05 模拟增益K2 GAIN K2F1.06 加速时间1 ACC TIME 1F1.07 减速时间1 DEC TIME1F1.08 加速时间2 ACC TIME2F1.09 减速时间2 DEC TIME2F1.10 加速时间3 ACC TIME3F1.11 减速时间3 DEC TIME3F1.12 加速时间4 ACC TIME4F1.13 减速时间4 DEC TIME4F1.14 转矩提升 TORQV BOOST F1.15 载波频率 CARRY FREQ F1.16 噪声自调整 YAWP TUNEF1.17 输出电压 OUTPUT VOLF1.18 滑差补偿增益 SLIP GAINF1.19 滑差补偿滤波 FILTER TIME F1.20 最大频率 MAX FREQF1.21 电机额定频率MOTO RTD FRQ F1.22 上限频率HIGH LIMITER F1.23 下限频率 LOW LIMITER F1.24 多段速度1 MULTI HZ 1 F1.25 多段速度2 MULTI HZ 2F1.26 多段速度3 MULTI HZ 3F1.27 多段速度4 MULTI HZ 4F1.28 多段速度5 MULTI HZ 5F1.29 多段速度6 MULTI HZ 6F1.30 多段速度7 MULTI HZ 7F2.00 跳跃频率1 JUMP FREQ 1 F2.01 跳跃频率2 JUMP FREQ 2 F2.02 跳跃频率3 JUMP FREQ 3 F2.03 跳跃频率范围 JUMP FREQ WF2.04 加/减速模式 ACC/DEC PTN设定状态代码中文英文F2.05 反转禁止功能 REV LOCKF2.06 运行方向设定 KEB RUN SEL F2.07 停车功能 STOP FUN F2.08 电流限幅功能 C LIMIT FUN F2.09 电流限幅水平 C LIMIT LVL F2.10 热过载继电器 ELECTRN OLF2.11 自动稳压功能 AVR FUNCTION F2.12 过电压保护 V LIMIT FUN F2.13 回升过电压 P MODE SEL F2.14 启动制动电压 ST BRK LVL F2.15 启动制动时间 ST BRK TIME F2.16 直流制动频率 DC BRK FREQ F2.17 直流制动电压 DC BRK LVLF2.18 直流制动时间DC BRK TIME F2.19 自动复位次数RESET TIMES F2.20 复位间隔时间 RES INTERVAL F2.21 故障继电器 FAULT RELAY F2.22 PM0输出选择 PWM0 SELF2.23 PM1输出选择 PWM1 SELF2.24 PM0输出倍率 PWM0 COEFF F2.25 PM1输出倍率 PWM1 COEFF F2.26 机械速度系数 SPEED COEFF F2.27 频率水平检测 FDT LEVELF2.28 频率检测范围 FAR HYSTRF2.29 参数设定方式PRT SET SEL F2.30 输入端子选择X1~X5 FUNF2.31 输出端子选择 Y1~Y3 FUNF2.32 语言选择 ENG/CHNF2.33 运行监视选择 R FUNC CODE F3.00 起始电压 START VOL F3.01 中间电压1 MIDDLE VOL1 F3.02 中间电压2 MIDDLE VOL2 F3.03 终止电压 END VOLTAGE F3.04 起始频率 START FREQ F3.05 中间频率1 MIDDLE FREQ1 F3.06 中间频率2 MIDDLE FREQ2F3.07 终止频率 END FREQF3.08 偏置频率 FREQ BIASF3.09 偏置频率1 FREQ BIAS1F3.10 偏置频率2 FREQ BIAS2 F3.11 偏置频率3 FREQ BIAS3设定状态代码中文英文F3.12 模拟电压1 ANALOG VOL1F3.13 模拟电压2 ANALOG VOL2F3.14 模拟电压3 ANALOG VOL3F3.15 程序运行模式 PATTERN SELF3.16 程序定时T1 STAGE TIME1F3.17 程序定时T2 STAGE TIME2F3.18 程序定时T3 STAGE TIME3F3.19 程序定时T4 STAGE TIME4F3.20 程序定时T5 STAGE TIME5F3.21 程序定时T6 STAGE TIME6F3.22 程序定时T7 STAGE TIME7F3.23 正反加减T1 STAGE FRAD1F3.24 正反加减T2 STAGE FRAD2F3.25 正反加减T3 STAGE FRAD3F3.26 正反加减T4 STAGE FRAD4F3.27 正反加减T5 STAGE FRAD5F3.28 正反加减T6 STAGE FRAD6F3.29 正反加减T7 STAGE FRAD7F3.30 摆频加速时间 SWAP F ACC 1 F3.31 摆频减速时间 SWAP F ACC 2 F4.00 PID模式 PID MODEF4.01 PID反馈 PID F SELF4.02 变送器模式 SENSOR MODEF4.03 反馈偏置电压 F BIAS VOLF4.04 反馈滤波时间 FEED FILTERF4.05 反馈显示系数 PID G COEFFF4.06 PID输入值 K/C PID INPT F4.07 比例P增益 P GAINF4.08 积分时间常数 PID I TIMEF4.09 微分时间常数 PID D TIMEF4.10 积分作用范围 PID I LIMITF4.11 本机地址号码 ADDRESS CODE F4.12 串行波特率 BAUD RATEF4.13 串行效验方式 PARITY MODEF4.14 保留 RESERVEF5.00 电机额定功率MOTO RTD POW F5.01 电机额定电压MOTO RTD VOL F5.02 电机额定电流 MOTO RTD CUR F5.03 电机额定转速 MOTO RTD SPD F5.04 电机连线方式 MOTO C TDTY F5.05 电机参数自测 MOTO AUTOTUN设定状态代码中文英文F5.06 定子电阻 STATOR RESISF5.07 定子电感STATOR INDUCT F5.08 空载励磁电流EXCI TATION C F5.09 负偏增益K3 GAIN K3F5.10 LP屏蔽功能 SHIELD FUNCF5.11 机器使用时间 RUNNING TIME F5.12 变频器机型 MODE F5.13 变频器额定Pe RATED PEF5.14 变频器额定Ve RATED VEF5.15 变频器额定Ie RATED IEF5.16 厂家密码 PASSWORDF5.17 XXXX XXXXF5.18 XXXX XXXXF5.19 XXXX XXXXF5.20 XXXX XXXXF5.21 XXXX XXXX运行状态代码中文英文C00 输出频率 OUTPUT FREQ C01 输入频率 INPUT FREQC02 PID输入PID INPUTC03 PID反馈PID FEED BACK C04 电流标幺值 CURRENT PER C05 电流实际值 M CURRENT C06 电压标幺值 VOLTAGE PER C07 电压实际值 M VOLTAGEC08 直流母线电压 DC VOLTAGE C09 机械速度 MOTOR SPEED C10 OL计数OL LEVELC11 运行时段 STAGEC12 程序运行时间 STAGE TIME 故障状态代码中文英文无故障/正常 00短路故障 SC过热故障 OH缺相故障 LPI C故障 EC瞬时过压 HOU稳态过压 SOUE00 瞬时欠压 HLU稳态欠压 SLU瞬时过流 HOC稳态过流 SOC过载 OL手动取消 STP自由停车 SEE电阻异常 SRE电流异常 SCEE01 故障输出频率 ERR FREQE02 故障输出电流 ERR CRUUENTE03 故障直流电压 ERR DC VOLE04 故障运行方向 ERR DIRECTE05 故障运行状态 ERR STATEE06 故障保护状态 PRET STATEE07 前一次故障 FIRST ERRE08 前二次故障 SECOND ERRE09 前三次故障 THIRD ERRSINE003 系列变频器操作一般步骤操作SINE003系列通用变频器的常规步骤：l 阅读变频器说明书；l 变频器主回路、控制回路接线；l 断开负载（若要进行电机参数自辩识，不要则跳过此步骤）；l 变频器上电；l 恢复出厂值（F2.29=3）；l 设定电机铭牌参数F1.21,F5.00,F5.01,F5.02,F5.03,F5.04，这些参数必须设定）；l 电机参数自辩识（不要则跳过此步骤）；l 断电，连接负载再上电（未断开负载，跳过此步骤）； l 参数设定（与设备要求匹配。

M27C4054Mbit (512Kb x 8)OTP EPROMMarch 19991/15AI0160119A0-A18Q0-Q7V PPV CC M27C405V SS8GEFigure 1.Logic Diagram5V ±10%SUPPLY VOLTAGE in READ OPERATIONPIN COMPATIBLE with the 4Mbit,SINGLE VOLTAGE FLASH MEMORY FAST ACCESS TIME:70nsLOW POWER CONSUMPTION:–Active Current 30mA at 5MHz –Standby Current 100µAPROGRAMMING VOLTAGE:12.75V ±0.25V PROGRAMMING TIMES–Typical 48sec.(PRESTO II Algorithm)–Typical 27sec.(On-Board Programming)ELECTRONIC SIGNATURE –Manufacturer Code:20h –Device Code:B4DESCRIPTIONThe M27C405is a 4Mbit EPROM offered in the OTP (one time programmable)range.It is ideally suited for microprocessor systems requiring large programs,in the application where the contents is stable and needs to be programmed only one time and is organised as 524,288by 8bits.The M27C405is pin compatible with the industry standard 4Mbit,single voltage Flash memory.It can be consideredas a Flash Low Cost solution for production quantities.The M27C405is offered in PDIP32,PLCC32and TSOP32(8x 20mm)packages.A0-A18Address Inputs Q0-Q7Data Outputs E Chip Enable G Output Enable V PP Program Supply V CC Supply Voltage V SS GroundTable 1.Signal NamesPLCC32(K)321PDIP32(B)TSOP32(N)8x 20mmA1A0Q0A7A4A3A2A6A5A13A10A8A9Q7A14A11G E Q5Q1Q2Q3V SSQ4Q6A17V PP A16A12A18V CCA15AI01602M27C4058123456791011121314151632313029282726252423222120191817Figure 2A.DIP Pin ConnectionsAI01603A 17A8A10Q 517A1A0Q0Q 1Q 2Q 3Q 4A7A4A3A2A6A59V P P A91A 16A11A13A 12Q732A 18V C C M27C405A 15A14Q 6G E 25V S S Figure 2B.LCC Pin ConnectionsA1A0Q0A7A4A3A2A6A5A13A10A8A9Q7A14A11G E Q5Q1Q2Q3Q4Q6A17A18A16A12V PP V CC A15AI01604M27C405 (Normal)8191617242532V SS Figure 2C.TSOP Pin ConnectionsDEVICE OPERATIONThe modesof operationsof theM27C405are listed in the Operating Modes table.A single power sup-ply is required in the read mode.All inputs are TTL levels except for V pp and 12V on A9for Electronic Signature.Read ModeThe M27C405has two control functions,both of which must be logically active in order to obtain data at the outputs.Chip Enable (E)is the power control and should be used for device selection.Output Enable (G)is the output control and should be used to gate data to the output pins,inde-pendent of device selection.Assuming that the addresses are stable,the address access time (t AVQV )is equalto the delayfrom E to output (t ELQV ).Data is availableat the output after a delay of t GLQV from the falling edge of G,assuming that E has been low and the addresses have been stable for at least t AVQV -t GLQV .Standby ModeThe M27C405has a standby mode which reduces the active current from 30mA to 100µA.The M27C405is placed in the standby mode by apply-ing a CMOShigh signal to the E input.When in the standbymode,the outputsare in a high impedance state,independent of the G input.2/15M27C405Mode E G A9V PP Q0-Q7 Read V IL V IL X V CC or V SS Data Out Output Disable V IL V IH X V CC or V SS Hi-Z Program V IL Pulse V IH X V PP Data In Verify V IH V IL X V PP Data Out Program Inhibit V IH V IH X V PP Hi-Z Standby V IH X X V CC or V SS Hi-Z Electronic Signature V IL V IL V ID V CC Codes Note:X=V IH or V IL,V ID=12V±0.5VTable3.Operating ModesIdentifier A0Q7Q6Q5Q4Q3Q2Q1Q0Hex Data Manufacturer’s Code V IL0010000020h Device Code V IH10110100B4h Table4.Electronic SignatureTwo Line Output ControlBecause OTP EPROMs are usually used in larger memory arrays,this product features a2line con-trol function which accommodates the use of mul-tiple memory connection.The two line control function allows:a.the lowest possible memory power dissipation,plete assurance that output bus contentionwill not occur.For the most efficientuse of thesetwo controllines, E should be decoded and used as the primary device selecting function,while G should be made a common connection to all devices in the array and connected to the READ line from the system control bus.This ensures that all deselectedmem-ory devices are in their low power standby mode and that the output pins are only active when data is required from a particular memory device.Symbol Parameter Value Unit T A Ambient Operating Temperature(3)–40to125°CT BIAS Temperature Under Bias–50to125°CT STG Storage Temperature–65to150°C V IO(2)Input or Output Voltages(except A9)–2to7VV CC Supply Voltage–2to7VV A9(2)A9Voltage–2to13.5VV PP Program Supply Voltage–2to14V Notes:1.Except for the rating”Operating Temperatur e Range”,stresses above those listed in the Table”Absolute Maximum Ratings”may cause permanent damage to the device.These are stress ratings only and operation of the device at these or any otherconditions above those indicated in the Operating sections of this specification is not implied.Exposure to Absolute MaximumRating conditions for extended periods may affect device reliability.Refer also to the STMicroelectronics SURE Program and other relevant quality documents.2.Minimum DC voltage on Input or Output is–0.5V with possible undershoot to–2.0V for a period less than20ns.Maximum DCvoltage on Output is V CC+0.5V with possible overshoot to V CC+2V for a period less than20ns.3.Depends on range.Table2.Absolute Maximum Ratings(1)3/15M27C405Symbol ParameterTest ConditionMinMax Unit C IN Input Capacitance V IN =0V 6pF C OUTOutput CapacitanceV OUT =0V12pFNote: 1.Sampled only,not 100%tested.Table 6.Capacitance (1)(T A =25°C,f =1MHz )AI018223VHigh Speed0V1.5V2.4VStandard 0.4V2.0V 0.8VFigure 3.AC Testing Input Output Waveform AI01823B1.3VOUTC LC L =30pF for High Speed C L =100pF for Standard C L includes JIG capacitance3.3k Ω1N914DEVICE UNDER TESTFigure 4.AC Testing Load CircuitHigh SpeedStandard Input Rise and Fall Times ≤10ns ≤20ns Input Pulse Voltages0to 3V 0.4V to 2.4V Input and Output Timing Ref.Voltages1.5V0.8V and 2VTable 5.AC Measurement Conditions4/15M27C405Symbol ParameterTest Condition Min Max Unit I LI Input Leakage Current 0V ≤V IN ≤V CC ±10µA I LO Output Leakage Current 0V ≤V OUT ≤V CC ±10µA I CC Supply CurrentE =V IL ,G =V IL ,I OUT =0mA,f =5MHz30mA I CC1Supply Current (Standby)TTL E =V IH 1mA I CC2Supply Current (Standby)CMOS E >V CC –0.2V 100µA I PP Program Current V PP =V CC10µA V IL Input Low Voltage –0.30.8V V IH(2)Input High Voltage 2V CC +1V V OL Output Low Voltage I OL =2.1mA 0.4V V OHOutput High Voltage TTL I OH =–400µA 2.4V Output High Voltage CMOSI OH =–100µAV CC –0.7VVNotes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP.2.Maximum DC voltage on Output is V CC +0.5V.Table 7.Read Mode DC Characteristics (1)(T A =0to 70°C or –40to 85°C;V CC =5V ±10%;V PP =V CC )SymbolAltParameterTest ConditionM27C405Unit-70(3)-80-90MinMax MinMax MinMax t AVQV t ACC Address Valid to Output Valid E =V IL ,G =V IL708090ns t ELQV t CE Chip Enable Low to Output Valid G =V IL 708090ns t GLQV t OE Output Enable Low to Output Valid E =V IL 354040ns t EHQZ (2)t DF Chip Enable High to Output Hi-Z G =V IL 030030030ns t GHQZ (2)t DF Output Enable High to Output Hi-Z E =V IL 030030030ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V IL0nsNotes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP.2.Sampled only,not 100%tested.3.In case of 70ns speed see High Speed AC Measurement conditions.Table 8A.Read Mode AC Characteristics (1)(T A =0to 70°C or –40to 85°C;V CC =5V ±10%;V PP =V CC )5/15M27C405SymbolAltParameterTest ConditionM27C405Unit-100-120-150MinMax MinMax MinMax t AVQV t ACC Address Valid to Output Valid E =V IL ,G =V IL100120150ns t ELQV t CE Chip Enable Low to Output Valid G =V IL 100120150ns t GLQV t OE Output Enable Low to Output Valid E =V IL 506060ns t EHQZ (2)t DF Chip Enable High to Output Hi-Z G =V IL 030040050ns t GHQZ (2)t DF Output Enable High to Output Hi-Z E =V IL 030040050ns t AXQXt OHAddress Transition to Output TransitionE =V IL ,G =V IL000ns Notes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP.2.Sampled only,not 100%tested.Table 8B.Read Mode AC Characteristics (1)(T A =0to 70°C or –40to 85°C;V CC =5V ±10%;V PP =V CC )AI00724BtAXQXtEHQZA0-A18EGQ0-Q7tAVQVtGHQZtGLQVtELQVVALID Hi-ZVALIDFigure 5.Read Mode AC Waveforms6/15M27C405Symbol ParameterTest Condition MinMax Unit I LI Input Leakage Current 0≤V IN ≤V CC±10µA I CC Supply Current 50mA I PP Program Current E =V IL50mA V IL Input Low Voltage –0.30.8V V IH Input High Voltage 2V CC +0.5V V OL Output Low Voltage I OL =2.1mA 0.4V V OH Output High Voltage TTL I OH =–400µA2.4V V IDA9Voltage11.512.5VNote: 1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP .Table 9.Programming Mode DC Characteristics (1)(T A =25°C;V CC =6.25V ±0.25V;V PP =12.75V ±0.25V)Symbol Alt ParameterTest ConditionMin MaxUnit t AVEL t AS Address Valid to Chip Enable Low 2µs t QVEL t DS Input Valid to Chip Enable Low 2µs t VPHEL t VPS V PP High to Chip Enable Low 2µs t VCHEL t VCS V CC High to Chip Enable Low 2µs t ELEH t PW Chip Enable Program Pulse Width95105µs t EHQX t DH Chip Enable High to Input Transition2µs t QXGL t OES Input Transition to Output Enable Low2µs t GLQV t OE Output Enable Low to Output Valid100ns t GHQZ t DFP Output Enable High to Output Hi-Z0130ns t GHAXt AHOutput Enable High to Address TransitionnsNotes:1.V CC must be applied simultaneously with or before V PP and removed simultaneously or after V PP .2.Sampled only,not 100%tested.Table 10.ProgrammingMode AC Characteristics (1)(T A =25°C;V CC =6.25V ±0.25V;V PP =12.75V ±0.25V)7/15M27C405tAVPLVALIDAI00725A0-A18Q0-Q7V PPV CCGDATA INDATA OUTEtQVELtVPHELtVCHELtEHQXtELEHtGLQV tQXGLtGHQZtGHAXPROGRAM VERIFYFigure 6.Programming and Verify Modes AC WaveformsSystem ConsiderationsThe power switching characteristics of Advanced CMOS OTP EPROMs require careful decoupling of the devices.The supply current,I CC ,has three segments that are of interest to the system de-signer :the standbycurrent level,the active current level,and transient current peaks that are pro-duced by the falling and rising edges of E.The magnitude of the transient current peaks is de-pendenton the capacitiveand inductiveloading of the device at the output.The associated transient voltage peaks can be suppressed by complying with the two line output control and by properly selected decoupling ca-pacitors.It is recommended that a 0.1µF ceramic capacitor be used on every device between V CC and V SS .Thisshould be a high frequencycapacitor of low inherent inductance and should be placed as close to the device as possible.In addition,a4.7µF bulk electrolytic capacitor should be used between V CC and V SS for every eight devices.The bulk capacitor should be located near the power supply connection point.The purpose of the bulk capacitor is to overcome the voltage drop caused by the inductive effects of PCB traces.ProgrammingWhen delivered,all bits of the M27C405are in the ’1’state.Datais introducedby selectively program-ming ’0’s into the desired bit locations.Although only ’0’s will be programmed,both ’1’s and ’0’s can be present in the data word.The M27C405is in the programming mode when V PP input is at 12.75V,G is at V IH and E is pulsed to V IL .The data to be programmed is applied to 8bits in parallel to the data output pins.The levels required for the address and data inputs are TTL.V CC is specified to be 6.25V ±0.25V.8/15M27C405AI00760Bn =0Last AddrVERIFYE =100µs Pulse++n =25++AddrV CC =6.25V,V PP =12.75VFAILCHECK ALL BYTES 1st:V CC =6V 2nd:V CC =4.2VYES NOYESNOYESNO Figure 7.Programming FlowchartPRESTO II Programming AlgorithmPRESTO II Programming Algorithm allows the whole array to be programmed with a guaranteed margin,in a typicaltime of 52.5seconds.Program-ming with PRESTO II consists of applying a se-quence of 100µs program pulses to each byte until a correct verify occurs (see Figure 7).During pro-gramming and verify operation,a MARGIN MODE circuit is automaticallyactivated in order to guaran-tee that each cell is programmed with enough margin.No overprogram pulse is applied since the verify in MARGIN MODE provides the necessary margin to each programmed cell.Program InhibitProgramming of multipleM27C405sin parallelwith different data is also easily accomplished.Except for E,all like inputs including G of the parallel M27C405may be common.A TTL low level pulse appliedto a M27C405’sE input,with V PP at 12.75V,will program that M27C405.A high level E input inhibits the other M27C405s from being pro-grammed.Program VerifyA verify (read)should be performed on the pro-grammed bits to determinethat they were correctly programmed.The verify is accomplished with G at V IL ,E at V IH ,V PP at 12.75V and V CC at 6.25V.On-Board ProgrammingProgramming the M27C405may be performed directly in the application circuit,however this re-quires modification to the PRESTO II Algorithm (see Figure 8).For in-circuit programming V CC is determined by the user and normally is compatible with other componentsusing the same supply volt-age.It is recommended that the maximum value of V CC which remains compatible with the circuit is used.Typically V CC =5.5V for programming systems us-ing V CC =5V is recommended.The value of V CC does not affect the programming,it gives a higher test capability in VERIFY mode.V PP must be kept at 12.75volts to maintain and enable the programming.AI01349n =0Last AddrVERIFY?E =10µs Pulse++n =25++AddrV PP =12.75VFAILCHECK ALL BYTESV PP =V CCYESNOYESNOYESNO SET MARGIN MODEE =10µs PulseFigure 8.On-Board Programming Flowchart9/15M27C405Warning:compatibility with FLASH Memory Compatibility issues may arise when replacing the compatible Single Supply4Megabit FLASH Mem-ory(the M29F040)by the M27C405.The V PP pin of the M27C405corresponds to the ”W”pin of the M29F040.The M27C405V PP pin can withstand voltages up to12.75V,while the”W”pin of the M29F040is a normal control signal input and may be damaged if a high voltage is applied; special precautions must be taken when program-ming in-circuit.However if an already programmed M27C405is used,this can be directly put in place of the FLASH Memoryas theV PP input,when not in programming mode,is set to V CC or V SS.Changes to PRESTO II.The duration of the pro-gramming pulse is reduced to20µs,making the programming time of the M27C405comparable with the counterpart FLASH Memory.Electronic SignatureThe Electronic Signature(ES)mode allows the reading out of a binarycode from an OTP EPROM that will identify its manufacturer and type.this mode is intended for use by programming equip-ment to automatically match the device to be pro-grammed with its corresponding programming algorithm.This mode is functionalin the25°C±5°C ambient temperature range that is required when programming the M27C405.To activate the ES mode,the programming equipment must force 11.5Vto12.5V on address line A9of the M27C405 withV PP=V CC=5V.Two identifierbytes maythen be sequenced from the device outputs by toggling address line A0from V IL to V IH.All other address lines must be held at V IL during Electronic Signa-ture mode.Byte0(A0=V IL)represents the manu-facturer code and byte1(A0=V IH)the device identifier code.For the STMicroelectronics M27C405,these two identifier bytes are given in Table4and can be read-out on outputs Q0to Q7.10/15M27C405ORDERING INFORMATION SCHEMENote: 1.High Speed,see AC Characteristics section for further information.For a list of availableoptions (Speed,Package,etc...)or for further information on any aspect of this device,please contact the STMicroelectronics Sales Office nearest to you.Speed-70(1)70ns -8080ns -9090ns -100100ns -120120ns -150150nsPackage B PDIP32K PLCC32NTSOP328x 20mmTemperature Range 10to 70°C 6–40to 85°COption TRTape &Reel PackingExample:M27C405-80K1TR11/15PDIP32-32pin Plastic DIP,600mils widthPDIPA2A1A LB1B e1D SE1EN1CαeA eBD2Symbmm inches TypMin Max TypMin Max A – 5.08–0.200A10.38–0.015–A2 3.56 4.060.1400.160B 0.380.510.0150.020B1 1.52––0.060––C 0.200.300.0080.012D 41.7842.04 1.645 1.655D238.10–– 1.500––E 15.24––0.600––E113.5913.840.5350.545e1 2.54––0.100––eA 15.24–0.600––eB 15.2417.–780.6000.700L 3.18 3.430.1250.135S 1.78 2.030.0700.080α0°10°0°10°N3232Drawing is not to scale.12/15PLCC32-32lead Plastic Leaded Chip Carrier,rectangularPLCCD NeE1E1ND1NdCPBD2/E2eB1A1AR0.51(.020)1.14(.045)F A2Symbmm inches TypMin Max TypMin Max A 2.54 3.560.1000.140A1 1.52 2.410.0600.095A2–0.38–0.015B 0.330.530.0130.021B10.660.810.0260.032D 12.3212.570.4850.495D111.3511.560.4470.455D29.9110.920.3900.430E 14.8615.110.5850.595E113.8914.100.5470.555E212.4513.460.4900.530e 1.27––0.050––F 0.000.250.0000.010R 0.89––0.035––N 3232Nd 77Ne 99CP0.100.004Drawing is not to scale.13/15TSOP32-32lead Plastic Thin Small Outline,8x 20mmTSOP-aD1E1NCPBeA2AN/2DDIECLA1αSymbmm inches TypMinMax TypMinMax A 1.200.047A10.050.150.0020.007A20.95 1.050.0370.041B 0.150.270.0060.011C 0.100.210.0040.008D 19.8020.200.7800.795D118.3018.500.7200.728E 7.908.100.3110.319e 0.50--0.020--L 0.500.700.0200.028α0°5°0°5°N 3232CP0.100.004Drawing is not to scale.14/15Information furnished is believed to be accurate and reliable.However,STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringementof patents or other rights of third parties which may result from its use.No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics.Specifications mentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics©1999STMicroelectronics-All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia-Brazil-Canada-China-France-Germany-Italy-Japan-Korea-Malaysia-Malta-Mexico-Morocco-The Netherlands-Singapore-Spain-Sweden-Switzerland-Taiwan-Thailand-United Kingdom-U.S.A.15/15。

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Features∙ BV CEO > -300V∙ I C = -0.5A Continuous Collector Current ∙ I CM = -0.75A Peak Pulse Current∙ Ideal for Power Switching or Amplification Applications ∙ Complementary NPN Type: MJD340∙ Totally Lead-Free & Fully RoHS Compliant (Notes 1 & 2) ∙ Halogen and Antimony Free. “Green” Device (Note 3) ∙ Qualified to AEC-Q101 Standards for High ReliabilityMechanical Data∙ Case: TO252 (DPAK)∙ Case Material: Molded Plastic, "Green" Molding Compound UL Flammability Classification Rating 94V-0 ∙ Moisture Sensitivity: Level 1 per J-STD-020∙ Terminals: Finish – Matte Tin Plated Leads, Solderable per MIL-STD-202, Method 208 ∙Weight: 0.34 grams (Approximate)Ordering Information (Note 4)Notes: 1. No purposely added lead. Fully EU Directive 2002/95/EC (RoHS), 2011/65/EU (RoHS 2) & 2015/863/EU (RoHS 3) compliant.2. See https:///quality/lead-free/ for more information about Diodes Incorporated’s definitions of Hal ogen- and Antimony-free, "Green" and Lead-free.3. Halogen and Antimony free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm tot al Br + Cl) and <1000ppm antimony compounds.4. For packaging details, go to our website at https:///design/support/packaging/diodes-packaging/.Marking InformationTop ViewDevice SchematicPin Out ConfigurationTop ViewMJD350 = Product Type Marking Code = Manufacturers’ Code Marking YYWW = Date Code MarkingYY = Last Two Digits of Year (ex: 18 = 2018) WW = Week Code (01 to 53)TO252 (DPAK)TO252 (DPAK)MJD350Thermal Characteristics(@T A = +25°C, unless otherwise specified.)Notes: 5. For a device mounted on FR-4 PCB with minimum recommended pad layout.6. Refer to JEDEC specification JESD22-A114 and JESD22-A115.Thermal Characteristics and Derating InformationElectrical Characteristics(@T A = +25°C, unless otherwise specified.)Note: 7. Measured under pulsed conditions. Pulse width ≤300μs. Duty cycle ≤2%.Typical Electrical Characteristics(@T A = +25°C, unless otherwise specified.)Package Outline DimensionsPlease see /package-outlines.html for the latest version.TO252 (DPAK)Suggested Pad LayoutPlease see /package-outlines.html for the latest version.TO252 (DPAK)Note:For high voltage applications, the appropriate industry sector guidelines should be considered with regards to creepage and clearance distances between device Terminals and PCB tracking.7°±1°Seating Plane。

MPXV5100DP中⽂资料MPX5100Rev 10, 05/2005Freescale Semiconductor Technical DataFreescale Semiconductor, Inc., 2005. All rights reserved.Integrated Silicon Pressure Sensor On-Chip Signal Conditioned, Temperature Compensated, and CalibratedThe MPX5100 series piezoresistive transducer is a state-of-the-art monolithic silicon pressure sensor designed for a wide range of applications, but particularly those employing a microcontroller or microprocessor with A/D inputs. This patented, single element transducer combines advanced micromachiningtechniques, thin-film metallization, and bipolar processing to provide an accurate, high level analog output signal that is proportional to the applied pressure.Features ? 2.5% Maximum Error over 0° to 85°CIdeally suited for Microprocessor or Microcontroller-Based Systems Patented Silicon Shear Stress Strain Gauge Available in Absolute, Differential and Gauge Configurations Durable Epoxy Unibody Element Easy-to-Use Chip Carrier Option Typical ApplicationsPatient Monitoring Process Control Pump/Motor ControlPressure Switching ORDERING INFORMATIONDevice TypeOptionsCase No.MPX Series OrderNumber Device MarkingUNIBODY PACKAGE (MPX5100 SERIES)Basic Elements Absolute 867MPX5100A MPX5100A Differential867MPX5100D MPX5100D Ported Elements Differential Dual Ports 867C MPX5100DP MPX5100DP Absolute, Single Port 867B MPX5100AP MPX5100AP Gauge, Single Port 867B MPX5100GP MPX5100GP Gauge, Axial PC Mount 867FMPX5100GSX MPX5100D Gauge, Axial Port, SMT 482A MPXV5100GC6U MPXV5100G Gauge, Axial Port, DIP 482CMPX5V100GC7U MPXV5100G Gauge, Dual Port, SMT1351MPXV5100DPMPXV5100MPX5100/MPXV5100SERIESINTEGRATED PRESSURE SENSOR0 to 100 kpa (0 to 14.5 psi)15 to 115 kPa (2.2 to 16.7 psi)0.2 to 4.7 V Output PIN NUMBER (1)1.Pins 1, 5, 6, 7, and 8 are internal device connections. Do not connect to external circuitry or ground. Pin1 is noted by the notch in the lead.1N/C 5N/C 2V S 6N/C 3GND 7N/C 4V OUT8N/CPIN NUMBER (1)1.Pins 4, 5, and 6 are internal deviceconnections. Do not connect to external circuitry or ground. Pin 1 is noted by the notch in the lead.1V OUT 4N/C 2GND 5N/C 3V S6N/CMPX5100SensorsFigure 1. Fully Integrated Pressure Sensor SchematicTABLE 1. Maximum Ratings (1)1.Exposure beyond the specified limits may cause permanent damage or degradation to the device.RatingSymbol Value Unit Maximum Pressure (P1 > P2)P MAX 400kPa Storage Temperature T STG -40° to +125°C °C Operating TemperatureT A-40° to +125°C°CTABLE 2. Operating Characteristics (V S = 5.0 V DC , T A = 25°C unless otherwise noted, P1 > P2. Decoupling circuit shown in Figure 4 required to meet electrical specifications.)CharacteristicSymbol Min Typ Max Unit Pressure Range (1)Gauge, Differential: MPX5100D/MPX5100G/MPXV5100G Absolute: MPX5100A 1.0.1 kPa (kiloPascal) equals 0.145 psi.P OP015——100115kPaSupply Voltage (2)2.Device is ratiometric within this specified excitation range.V S 4.75 5.0 5.25V DC Supply CurrentI O —7.010mAdc Minimum Pressure Offset (3) (0 to 85°C)@ V S = 5.0 V 3.Offset (V OFF ) is defined as the output voltage at the minimum rated pressure.V OFF 0.0880.200.313V DC Full Scale Output (4)Differential and Absolute (0 to 85°C)@ V S = 5.0 V 4.Full Scale Output (V FSO ) is defined as the output voltage at the maximum or full rated pressure.V FSO 4.587 4.700 4.813V DC Full Scale Span (5)Differential and Absolute (0 to 85°C)@ V S = 5.0 V 5.Full Scale Span (V FSS ) is defined as the algebraic difference between the output voltage at full rated pressure and the output voltage at the minimum rated pressure.V FSS — 4.500—V DC Accuracy (6)6.Accuracy (error budget) consists of the following:?Linearity: Output deviation from a straight line relationship with pressure over the specified pressure range.Temperature Hysteresis:Output deviation at any temperature within the operating temperature range, after the temperature is cycled toand from the minimum or maximum operating temperature points, with zero differential pressure applied.Pressure Hysteresis:Output deviation at any pressure within the specified range, when this pressure is cycled to and from minimumor maximum rated pressure at 25°C.TcSpan:Output deviation over the temperature range of 0° to 85°C, relative to 25°C.TcOffset:Output deviation with minimum pressure applied over the temperature range of 0° to 85°C, relative to 25°C.?Variation from Nominal:The variation from nominal values, for Offset or Full Scale Span, as a percent of V FSS at 25°C.———±2.5%V FSS Sensitivity V/P —45—mV/kPa Response Time (7)t R — 1.0—ms Output Source Current at Full Scale Output I O+—0.1—mAdc Warm-Up Time (8)——20—ms Offset Stability (9)——±0.5—%V FSSV SSensing ElementV OUTGain Stage # 2and Ground Reference Shift CircuitryPins 1 and 5 through 8 are NO CONNECTS for small outline packages GNDThin Film Temperature Compensation and Gain Stage # 1Pins 4, 5, and 6 are NO CONNECTS for unibody packagesMPX5100SensorsON-CHIP TEMPERATURE COMPENSATION, CALIBRATION AND SIGNAL CONDITIONINGFigure 2 shows the sensor output signal relative to pressure input. Typical, minimum, and maximum output curves are shown for operation over a temperature range of 0× to 85×C using the decoupling circuit shown in Figure 4. The output will saturate outside of the specified pressure range.Figure 3 illustrates both the Differential/Gauge and the Absolute Sensing Chip in the basic chip carrier (Case 867). A fluorosilicone gel isolates the die surface and wire bonds from the environment, while allowing the pressure signal to be transmitted to the sensor diaphragm.The MPX5100 series pressure sensor operatingcharacteristics, and internal reliability and qualification tests are based on use of dry air as the pressure media. Media, other than dry air, may have adverse effects on sensorperformance and long-term reliability. Contact the factory for information regarding media compatibility in your application. Figure 2. Output Vs. Pressure DifferentialFigure 3. Cross Sectional Diagrams (Not to Scale)Figure 4 shows the recommended decoupling circuit for interfacing the output of the integrated sensor to the A/D inputof a microprocessor or microcontroller. Proper decoupling of the power supply is recommended.Figure 4. Recommended Power Supply Decoupling and Output Filtering (For additional output filtering, please refer to Application Note AN1646.)7.Response Time is defined as the time for the incremental changed in the output to go from 10% to 90% of its final value when sugected to a specified step change in pressure.8.Warm-Up Time is defined as the time required for the product to meet the specified output voltage after the Pressure has been stabilized. 9.Offset Stability is the product’s output deviation when subjected to 1000 hours of Pulsed Pressure, Temperature Cycling with Bias Test.O u t p u t V o l t a b e (V )543MAX102030405060708090100210110S p a n R a n g e (T y p )O u t p u t R a n g e (T y p )OffsetPressure (kPa)(Typ)MINTYPV out = V S *(0.009*P+0.04)± (Pressure Error * Temperature Factor * 0.009 * V S V S = 5.0 V ± 0.25 Vdc PE = 2.5TM = 1TEMP = 0 to 85°CFluorosilicone Gel Die Coat Wire BondLead FrameDieEpoxy PlasticCaseDifferential/Gauge ElementDie BondFluorosilicone GelDie Coat Wire BondLead FrameDieStainless Steel Metal CoverEpoxy PlasticCase Die BondAbsolute ElementStainless Steel Metal Cover470 pFVs+5.0 V0.01 µF GNDV OUT1.0 µFIPSOUTPUTMPX5100SensorsTransfer Function (MPX5100D, MPX5100G, MPXV5100G Nominal Transfer Value:V OUT = VS (P x 0.009 + 0.04)± (Pressure Error x Temp. Mult. x 0.009 x V S )V S = 5.0 V ±5% P kPaTemperature Error MultiplierMPX5100D/MPX5100G/MPXV5100G SeriesTemp Multiplier4.03.02.00.01.0-40-2020406014012010080- 4030 to 85°C 1+125°3Break Points Temperature in °CNote: The Temperature Multiplier is a linear response from 0° to -40°C and from 85° to 125°C. Pressure Error BandPressure in kPa3.02.01.0-1.0-2.0-3.00.0020406080100120Pressure Error (max)0 to 100 kPa± 2.5 kPaE r r o r (k P a )Error Limits for PressureMPX5100D/MPX5100G/MPXV5100G SeriesMPX5100SensorsTransfer Function (MPX5100A)Nominal Transfer Value:V OUT = V S (P x 0.009 + 0.095)± (Pressure Error x Temp. Mult. x 0.009 x V S )V S = 5.0 V ±5% P kPaTemperature Error MultiplierMPX5100A Temp Multiplier 4.03.02.00.01.0-40-2020406013012010080140- 4030 to 85°C 1+125°3Break Points Temperature in °CNote: The Temperature Multiplier is a linear response from 0° to -40°C and from 85° to 125°C.SeriesPressure Error BandPressure in kPa3.02.01.0-1.0-2.0-3.00.0020406080100130Pressure Error (max)15 to 115 kPa± 2.5 kPaE r r o r (k P a )Error Limits for PressureMPX5100A SeriesMPX5100SensorsPRESSURE (P1)/VACUUM (P2) SIDE IDENTIFICATION TABLEFreescale designates the two sides of the pressure sensor as the Pressure (P1) side and the Vacuum (P2) side. The Pressure (P1) side is the side containing fluoro silicone gel which protects the die from harsh media. The MPX pressure sensor is designed to operate with positive differential pressure applied, P1 > P2.The Pressure (P1) side may be identified by using Table 3 below.INFORMATION FOR USING THE SMALL OUTLINE PACKAGEMINIMUM RECOMMENDED FOOTPRINT FOR SURFACE MOUNTED APPLICATIONSSurface mount board layout is a critical portion of the total design. The footprint for the surface mount packages must be the correct size to ensure proper solder connection interface between the board and the package. With the correct footprint, the packages will self align when subjected to a solder reflow process. It is always recommended to design boards with a solder mask layer to avoid bridging and shorting between solderFigure5. Small Outline Package FootprintTABLE 3. PRESSURE (P1)/VACUUM (P2) SIDE IDENTIFICATION TABLEPart NumberCase TypePressure (P1) Side IdentifierMPX5100A, MPX5100D 867Stainless Steel Cap MPX5100DP867C Side with Part Marking MPX5100AP, MPX5100GP 867B Side with Port Attached MPX5100GSX 867F Side with Port Attached MPXV5100GC6U 482A Side with Port Attached MPXV5100GC7U 482C Side with Port Attached MPXV5100DP 1351Side with Part MarkingPACKAGE DIMENSIONSCASE 482A-01ISSUE ASMALL OUTLINE PACKAGECASE 482C-03ISSUE BSMALL OUTLINE PACKAGEMPX5100 SensorsPACKAGE DIMENSIONSCASE 867-08ISSUE NUNIBODY PACKAGECASE 867B-04ISSUE FUNIBODY PACKAGE MPX5100SensorsPACKAGE DIMENSIONSCASE 867C-05ISSUE FUNIBODY PACKAGECASE 867F-03ISSUE D UNIBODY PACKAGE MPX5100SensorsPACKAGE DIMENSIONSCASE 1351-01ISSUE OSMALL OUTLINE PACKAGEMPX5100SensorsNOTESMPX5100 SensorsHow to Reach Us:Home Page:/doc/95f5dc1a52d380eb62946da2.htmlE-mail:support@/doc/95f5dc1a52d380eb62946da2.htmlUSA/Europe or Locations Not Listed: Freescale SemiconductorTechnical Information Center, CH370 1300 N. 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Freescale Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Freescale Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages.“Typical” parameters that may be provided in Freescale Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals”, must be validated for each customer application by customer’s technical experts. Freescale Semiconductor does not convey any license under its patent rights nor the rights of others. Freescale Semiconductor products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Freescale Semiconductor product could create a situation where personal injury or death may occur. Should Buyer purchase or use Freescale Semiconductor products forany such unintended or unauthorized application, Buyer shall indemnify and hold Freescale Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Freescale Semiconductor was negligent regarding the design or manufacture of the part. Freescale? and the Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property of their respective owners.Freescale Semiconductor, Inc. 2005. All rights reserved.MPX5100。

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AVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single Chip GENERAL DESCRIPTIONAVX has combined the best electrical characteristics of itsTransGuard Transient Voltage Suppressors (TVS) and itsFeedthru C apacitors into a single chip for state-of-the-artovervoltage circuit protection and EMI reduction over abroad range of frequencies. This unique combination ofmultilayer ceramic construction in a feedthru configurationgives the circuit designer a single 0805 chip that respondsto transient events faster than any TVS device on the mar-ket today, and provides significant EMI attenuation when inthe off-state.The reduction in parallel inductance, typical of the feedthruchip construction when compared to the construction ofstandard TVS or ceramic capacitor chips, gives theTransFeed product two very important electrical advan-tages: (1) faster “turn-on” time. Calculated response timesof <200 pSec are not unusual with this device, and mea-sured response times range from 200 – 250 pSec. The TransFeed “turn-on” characteristic is less than half that of an equivalent TransGuard part — and TransGuards clamp transient voltages faster than any other bipolar TVS solution such as diodes; (2) the second electrical advantage of lower parallel inductance, coupled with optimal series inductance, is the enhanced attenuation characteristics of the TransFeed product. Not only is there significantly greater attenuation at a higher self-resonance frequency, but the roll-off characteristic becomes much flatter, result-ing in EMI filtering over a much broader frequency spec-trum. Typical applications include filtering/protection on Microcontroller I/O Lines, Interface I/O Lines, Power Line Conditioning and Power Regulation.TYPICAL APPLICATIONS• Fingerprint ID Circuit• Magnetic Field Circuit• LCD Dashboard DriverWhere designers are concerned with both transient voltage protection and EMI attenuation, either due to the electrical performance of their circuits or due to required compliance to specific EMC regulations, the TransFeed product is an ideal choice.YCapacitanceT oleranceY = +100/-50%2DCResistance1 = 0.150 Ohms2 = 0.200 Ohms3 = 0.250 OhmsEFeedthruCurrentD = 500 mAE = 750 mAF = 1.0 AmpDPackagingCodePcs./ReelD = 1,000R = 4,000T = 10,000VVaristor2Chip Size2 = 08053 = 0612FFeedthruCapacitor1No. ofElements05 Voltage05 =5.6VDC09 =9.0VDC14 = 14.0VDC18 = 18.0VDCAEnergyRatingX = 0.05JA = 0.1JC = 0.3J150VaristorClampingVoltage150 = 18V200 = 22V300 = 32V400 = 42V500 = 50VPT ermination FinishP = Ni/Sn Alloy (Plated)M = Ni/Sn Pb (Plated)HOW TO ORDERTRANSFEED ELECTRICAL SPECIFICATIONS (0805 CHIP SIZE)AVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single ChipFrequency (GHz)(d B )-10-20-30-40-50-60-700.010.11Frequency (GHz)(d B )10dB Attenuation vs FrequencyV W (DC)DC Working Voltage (V)V W (AC)AC Working Voltage (V)V B Typical Breakdown Voltage (V @ 1mA DC )V B Tol V B Tolerance is ±from Typical Value V C Clamping Voltage (V @ 1A 8x20µS )I L Maximum Leakage Current at the Working Voltage (µA)E T Transient Energy Rating (J, 10x1000µS)I P Peak Current Rating (A, 8x20µS)Cap Typical Capacitance (pF) @ 1MHz and 0.5 V DCR DC Resistance (Ohms)I FT Maximum Feedthru Current (A)AVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single Chip4 Pad Layoutmm (inches)TransFeed Array - V3F4 SeriesTVSProtection and EMI Attenuation in a 4-Element Array0-10-20-30-40-50-60-700.010.11Frequency (GHz)(d B )100-10-20-30-40-50-600.010.11Frequency (GHz)(d B )100-10-20-30-40-50-600.010.11Frequency (GHz)(d B )100-10-20-30-40-50-60-700.010.11Frequency (GHz)(d B )100-10-20-30-40-50-60-700.010.11Frequency (GHz)(d B )100-10-20-30-40-50-60-700.010.11Frequency (GHz)(d B )100-10-20-30-40-50-60-700.010.11Frequency (GHz)(d B )10INSERTION LOSS COMPARISON (TransFeed vs TransGuard)0805 – dB vs FrequencyAVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single ChipPERFORMANCE CHARACTERISTICSCURRENT vs TEMPERATURE0805 – 0.1 JouleCURRENT vs TEMPERATURE0805 – 0.3 JouleAVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single ChipPERFORMANCE CHARACTERISTICS18LC18V 14V5V 9V3025Note:Dashed PortionsNot Guaranteed200.30.50.75Current (Amps)C o m p o n e n t T e m p e r a t u r e (°C )118V14V 5V3025200.2500.50.75Current (Amps)C o m p o n e n t T e m p e r a t u r e (°C )1Discrete MLV ModelWhere:R v=Voltage Variable resistance (per VI curve)R p≥1012ΩC =defined by voltage rating and energy level R on =turn on resistanceL p =parallel body inductanceDiscrete MLVF ModelWhere:R v=Voltage Variable resistance (per VI curve)R p =Body IRC =defined by voltage rating and energy level R on =turn on resistanceL p =minimized parallel body inductance L s=series body inductanceTo Device Requiring ProtectionPCB To Device Requiring AVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single ChipPERFORMANCE CHARACTERISTICS AVX Multilayer Feedthru Varistors (MLVF) are an ideal choice for system designers with transient strike and broadband EMI/RFI concerns.Feedthru Varistors utilize a ZnO varistor material and the electrode pattern of a feedthru capacitor. This combination allows the package advantage of the feedthru and material advantages of the ZnO dielectric to be optimized.ZnO MLV Feedthrus exhibit electrical and physical advantages over standard ZnO MLVs. Among them are:1. Faster Turn on Time2. Broadband EMI attenuation3. Small size (relative to discrete MLV and EMI filter schemes)The electrical model for a ZnO MLV and a ZnO Feedthru MLV are shown below. The key difference in the model for the Feedthru is a transformation in parallel to series induc-tance. The added series inductance helps lower the injected transient peak current (by 2πfL) resulting in an additional ben-efit of a lower clamping voltage. The lowered parallel induc-tance decreases the turn on time for the varistor to <250ps.FEEDTHRU VARISTORSAVX Multilayer Ceramic Transient Voltage Suppressors TVS Protection and EMI Attenuation in a Single Chip PERFORMANCE CHARACTERISTICSAPPLICATIONS• EMI Suppression• Broadband I/O Filtering• Vcc Line ConditioningFEATURES• Small Size• Low ESR• Ultra-fast Response Time• Broad S21 Characteristics MARKET SEGMENTS • Computers• Automotive• Power Supplies• Multimedia Add-On Cards• Bar Code Scanners• Remote Terminals• Medical Instrumentation• Test Equipment• Transceivers• Cellular Phones / Pagersperformance features for MLV and MLVF is shown above.TYPICAL CIRCUITS REQUIRINGTRANSIENT VOL TAGEPROTECTION AND EMI FIL TERING The following applications and schematic diagrams show where TransFeed TVS/ EMI filtering devices might be used:• System Board Level Interfaces: (Fig. 1)Digital to RFAnalog to DigitalDigital to Analog• Voltage Regulation (Fig. 2)• Power Conversion Circuits (Fig. 3)• GaAs FET Protection (Fig. 4)Fig. 2 – Voltage RegulatorsFig. 3 – Power Conversion Circuits/Power Switching CircuitsFig. 4 – GaAs FET ProtectionFig. 1 – System Interface SPECIFICATION COMPARISON。