TMP86CH21U中文资料

BAS86中⽂资料DATA SHEETProduct speci?cationSupersedes data of 1996Mar 201996Oct 01DISCRETE SEMICONDUCTORSBAS86Schottky barrier diodelfpageM3D121Schottky barrier diode BAS86FEATURESLow forward voltageHigh breakdown voltage Guard ring protected Hermetically-sealed small SMD package. APPLICATIONSUltra high-speed switching Voltage clamping Protection circuits Blocking diodes.DESCRIPTION Planar Schottky barrier diode with anintegrated protection ring againststatic discharges.This surface mounted diode isencapsulated in a hermetically sealedSOD80C glass SMD package withtin-plated metal discs at each end. Itis suitable for “automatic placement”and as such it can withstandimmersion soldering.Fig.1 Simplified outline (SOD80C), pin configuration and symbol.handbook, halfpageMAM190k aCathode indicated by a grey band.LIMITING VALUESIn accordance with the Absolute Maximum Rating System (IEC 134).SYMBOL PARAMETER CONDITIONS MIN.MAX.UNIT V R continuous reverse voltage?50VI F continuous forward current?200mAI F(AV)average forward current see Fig.2?200mAI FRM repetitive peak forward current t p≤1sec.;δ≤0.5?500mAI FSM non-repetitive peak forward current t p=10ms5AT stg storage temperature?65+150°CT j junction temperature?125°CT amb operating ambient temperature?65+125°CSchottky barrier diodeBAS86ELECTRICAL CHARACTERISTICS T amb =25°C unless otherwise speci?ed.Note1.Pulsed test: t p =300µs;δ=0.02.THERMAL CHARACTERISTICS Note1.Refer to SOD80 standard mounting conditions.SYMBOL PARAMETERCONDITIONSMAX.UNIT V Fforward voltagesee Fig.3I F =0.1mA 300mV I F =1mA 380mV I F =10mA 450mV I F =30mA 600mV I F =100mA900mV I R reverse current V R =40V; see Fig.4; note 15µA t rr reverse recovery time when switched from I F =10mA to I R =10mA;R L =100?; measured at I R =1mA; see Fig.64ns C d diode capacitancef =1MHz; V R =1V; see Fig.58pFSYMBOL PARAMETERCONDITIONSVALUE UNIT R th j-a thermal resistance from junction to ambientnote 1320K/WSchottky barrier diodeBAS86GRAPHICAL DATAFig.2 Derating curve.handbook, halfpage 050100250050100150I F(AV)(mA)T ( C)amboMRA540Fig.3Forward current as a function of forward voltage; typical values. handbook, halfpage10I F V F (V)310(mA)21011011.20.80.40MSA892(3)(2)(1)(3)(2)(1)(1)T amb =125°C.(2)T amb =85°C.(3)T amb =25°C. (1)T amb =85°C.(2)T amb =25°C.(3)T amb =?40°C. handbook, halfpage 10510(nA)I R 4103102101011500MGC68610203040V R(3)Fig.4Reverse current as a function of reverse voltage; typical values.f =1MHz.Fig.5Diode capacitance as a function of reverse voltage; typical values.handbook, halfpage05012C d 048(pF)MGC68710203040V R (V)Schottky barrier diode BAS86Fig.6 Reverse recovery definitions.handbook, halfpage 90%10%t fQ dI dttIFI RMRC129 - 1F rSchottky barrier diodeBAS86PACKAGE OUTLINEDEFINITIONS LIFE SUPPORT APPLICATIONSThese products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale.Data sheet status Objective speci?cation This data sheet contains target or goal speci?cations for product development.Preliminary speci?cation This data sheet contains preliminary data; supplementary data may be published later.Product speci?cation This data sheet contains ?nal product speci?cations.Limiting valuesLimiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the speci?cation is not implied. Exposure to limiting values for extended periods may affect device reliability.Application informationWhere application information is given, it is advisory and does not form part of the speci?cation.Dimensions in mm. Cathode indicated by a grey band.Fig.7 SOD80C.handbook, full pagewidthMBA390 - 21.601.453.73.30.30.3O。

德国EPCOS 等进口元器件泄放大雷电流能力强、残压低专利插拔不断线技术双接触保证插拔过程中信号的连续性专利可靠性接地技术全包围式紧固型导轨接触面色标识别模式（指示）信号类型快速识别核心技术-信号电涌可靠的温控脱扣技术过载响应能力进一步提升高质量外壳可靠的模块鉴别锁及释放按钮全胶封内芯保证器件结构稳定支持热插拔便于产品更换及检查核心技术-电源电涌故障指示，遥信触点便于产品更换及检查特有电弧隔断技术提升电气性能关于优倍安全栅国家标准主编单位中石化安全栅框架协议单位工信部两化融合贯标单位工信部智能工厂标准化示范验证单位江苏省电涌保护器工程技术研究中心南京优倍电气有限公司成立于2002年，江苏省高新技术企业。

公司致力于安全栅、隔离器、温度变送器、电涌保护器、安全继电器等工业信号接口仪表的研发制造，并为以上产品国标组组长单位，主持起草《隔离式安全栅》等国家标准。

优倍电气是国内该专业市场的主要供应商之一，品牌及品质享受盛誉。

公司为工信部两化融合体系贯标试点单位、工信部智能工厂标准化示范验证单位、江苏省、南京市首批示范智能工厂。

先后被江苏省省委、省政府授予百家江苏省优秀企业、江苏制造突出贡献奖优秀企业、江苏科技小巨人企业等光荣称号。

公司总部及新建并投产运营的优倍智造园均位于南京江宁经济技术开发区，占地面积30亩，全公司现有员工160余名，建有江苏省研究生工作站、江苏省电涌保护器工程技术研究中心、南京市工程应用研究中心，在工业测控领域有着深厚的科研基础及广泛的应用经验，产品获得多项国内、国际认证。

SILIEC 61508I目录Contents雷电电涌防护知识新能源石油石化电网建设智能安防176通信系统电涌保护T 系列通信系统电涌保护器55电源系统电涌保护P 系列电源系统电涌保护器测量、控制系统电涌保护S-FLT 系列热插拔信号电涌保护器S-FLS 系列超薄型信号电涌保护器S-FLP 系列现场管式信号电涌保护器73147附录测量、控制系统应用指南83III V VII型号代码的含义交流电源类产品保护系统：2P ：单相TN-S 系统 ； 3P ：TN-C 、IT 系统 P+N ：单相TT 系统 ； 3P+N ：TN-S 、TT 系统工作电压/电涌电流：385/40：385VAC/40kA ； 255/40：255VAC/40kA 385/60：385VAC/60kA ； 255/60：255VAC/60kA 385/80：385VAC/80kA ； 260/25：260VAC/25kA 440/25：440VAC/25kA ； 760/25：760VAC/25kA . . . . . .产品类型：FL 防雷产品系列：P ：P 系列PFLx xxx--例：型号为P-FL-385/40×2P 的产品为优倍电气的P 系列的电源T 2类防雷产品，产品的最大工作电压为385V ，产品的泄放电流能力为40kA ，是由2片S P D 保护模块组成，适用于单相220VAC 交流电源TN-S 系统。

Tuning Fork Level SwitchContents1.Models (4)2.Wiring (5)3.Fork Sensing Spot (6)4.Magnetic Test (6)5.Output Status (7)6.Installation (8)7.Simple Troubleshooting (9)1. Models2. WiringPower supply is DC. Output is PNP / NPN. Please see Figure 1.PNP wiring:●High (Max.) Mode: No. 1 pin (Brown) is connected to L-. No.3 pin (Blue) isconnected to L+. Output is connected to No. 2 pin (Black) , then connectedto L-. No. 4 pin (Yellow Green) goes to ground.●Low (Min.) Mode: number 1 pin (Brown) is connected to L-. No.2 pin(Black) is connected to L+.●Output is connected to No. 3 pin (Blue), then connected to L-. No. 4 pin(Yellow Green) goes to ground.PNP wiring:●High (Max.) Mode: No. 1 pin (Brown) is connected to L+. No.3 pin (Blue) isconnected to L-. Output is connected to No. 2 pin (Black) , then connectedto L+. No. 4 pin (Yellow Green) goes to ground.●Low (Min.) Mode: No. 1 pin (Brown) is connected to L+. No.2 pin (Black) isconnected to L-. Output is connected to No. 3 pin (Blue) , then connected toL+. No. 4 pin (Yellow Green) goes to ground.3. Fork Sensing SpotLTUM1 fork sensing spot is shown as Figure 3 below. Considering testingmedium is water (S.G.=1 g/cm3) , sensing spot is at the fillister about 23mmfrom the tip. If testing medium has S.G. lower than 1g/cm3, sensing spot would be above the fillister. In contrast, sensing spot will be below the fillister.4. Magnetic TestAfter the switch is installed and powered, magnetic test function can beperformed accordingly. The testing point is marked on the housing label. User holds the magnet and moves it close to testing point, the output status will switch from NO. to NC. or NC to NO. and red LED would switch ON or OFF while fork continues to vibrate. When magnet is pulled away from the testing point, theoutput status and red LED would return as default while fork continues to vibrate.The purpose of testing is to confirm the wiring and functioning are correct.5. Output StatusLTUM1 is equipped with two wires power supply. Relay output is connected in two wiring power (L+/–) , which offers Min./ Max. modes according to different pin numbers. When powered with 20 to 250、50/60 Hz Vac / Vdc, top of housing would light up with blue LED.●Low (Min.) Mode: Tuning fork switch will be actuated 3 seconds after thepower is on. Relay is NO and red LED indication is off.When tuning fork is covered by testing medium, vibration stops and relaybecomes NC. Red LED indication is on.●High (Max.) Mode: Tuning fork switch will be actuated 3 seconds after thepower is on. Relay is NC and red LED indication is on. When tuning fork iscovered by testing medium, vibration stops and relay becomes numbeRRed LED indication is on.●Flashing red indicates abnormal: Possible causes overloads or short-circuitload back, equipment malfunction or wear tuning fork probe.6. InstallationHorizontal Installation:1. Can be applied in viscosity, powder and, liquid. Do not inst.(Figure 1)2. When installing the product, The position hole plug must be upwarddirection.If not, incorrect installation could be damage the product.(Figure 2)(Figure 1) (Figure 2)Vertical Installation:1. Opening of the two fork blades is to be as the flow direction. (Figure 3)2. Do not install near substance inlet. (Figure 4)(Figure 3)(Figure 4)7. Simple Troubleshooting11 M5733/0119。

CTU空气断路器和负荷开关产品目录施耐德电气善用其效尽享其能全球能效管理专家施耐德电气为世界100多个国家提供整体解决方案，其中在能源与基础设施、工业过程控制、楼宇自动化和数据中心与网络等市场处于世界领先地位，在住宅应用领域也拥有强大的市场能力。

致力于为客户提供安全、可靠、高效的能源，施耐德电气2011年的销售额为224亿欧元，拥有超过130,000名员工。

施耐德电气助您——善用其效，尽享其能！施耐德电气在中国1987年，施耐德电气在天津成立第一家合资工厂梅兰日兰，将断路器技术带到中国，取代传统保险丝，使得中国用户用电安全性大为增强，并为断路器标准的建立作出了卓越的贡献。

90年代初，施耐德电气旗下品牌奇胜率先将开关面板带入中国，结束了中国使用灯绳开关的时代。

施耐德电气的高额投资有力地支持了中国的经济建设，并为中国客户提供了先进的产品支持和完善的技术服务，中低压电器、变频器、接触器等工业产品大量运用在中国国内的经济建设中，促进了中国工业化的进程。

目前，施耐德电气在中国共建立了53个办事处，28家工厂，7个物流中心，1个研修学院，3个研发中心，1个实验室，700多家分销商和遍布全国的销售网络。

施耐德电气中国目前员工数近28,000人。

通过与合作伙伴以及大量经销商的合作，施耐德电气为中国创造了成千上万个就业机会。

施耐德电气能效管理平台凭借其对五大市场的深刻了解、对集团客户的悉心关爱，以及在能效管理领域的丰富经验，施耐德电气从一个优秀的产品和设备供应商逐步成长为整体解决方案提供商。

今年，施耐德电气首次集成其在建筑楼宇、IT、安防、电力及工业过程和设备等五大领域的专业技术和经验，将其高质量的产品和解决方案融合在一个统一的架构下，通过标准的界面为各行业客户提供一个开放、透明、节能、高效的能效管理平台，为企业客户节省高达30％的投资成本和运营成本。

转变p为了更好的改变带给电力生活前所未有的高效无忧目录概述 (6)功能和特性 (12)推荐安装方式 (35)尺寸和连接 (46)电路图 (61)附加特性 (66)选型指南 (68)相关产品简介 (81)随着我国供电系统的发展，从住宅小区配电间、箱式变电站，到输变电站和城农网改造，现代配电网络正发生着变化：供电网络规模不断扩大；配电系统保护日益复杂；供电可靠性、连续性要求不断提高；电力管理难度更大；用户的需求不断从电力供给转向电力服务……CTU系列低压断路器，为输配电系统量身定做，全面满足上述供电系统需求：●秉承施耐德电气一贯出色品质，经典的高可靠、免维护、高环境适应性设计！●零飞弧、完善锁定、双重绝缘、人性化操作，提供最高等级的安全！●经典的保护功能和基础的测量功能，实现最简约的选择！CTU系列低压断路器基于供配电客户需求进行全新设计，引领先进供电系统应用理念：●两进线一母联自动投切系统，实现低压系统智能切换！●独特合环控制功能，避免线路切换产生停电或晃电！●全新环保设计，贯穿产品寿命每一阶段！转变，为更可靠、更高效、更智能的配电网络应用而改变，我们为现在和将来而设想：现代供配电网络——能否通过优化电网管理，使系统运行维护更加便捷、高效；能否通过完备应用，带给用户更多价值、服务！高标准的环境适应性CTU系列低压断路器所具备的高环境适应能力，可以保障配电系统在剧烈环Array境变化或严酷环境条件下依然稳定运行，例如建筑领域常用的箱式变电站，无空调环境的地下配电室，或空间狭小的安装环境。

Eaton 111586Eaton Moeller series xPole - PKP42 RCBO - residual-current circuit breaker with overcurrent protection. RCD/MCB, 32A, 30mA, MCB trip curve B, 2 p, RCCB trip char.: ACGeneral specificationsEaton Moeller series xPole - PKP42 RCBO - residual-current circuit breaker with overcurrent protection111586401508111146686 mm 75 mm 37 mm 0.25 kg CE Marked RoHS conformCE PKP42-32/2/B/003Product NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications Model Code32 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.4.5 kAMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.3Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.0 kA50 HzIs the panel builder's responsibility.20.03 AType AC, AC current sensitive.40 °C0 W eaton-xpole-pkp42-rcbo-catalog-ca019055en-en-us.pdf eaton-xpole-protective-devices-catalog-ca019014en-en-us.pdfDA-DC-03_PKP.2eaton-xeffect-frbm6/m-characteristic-curve-003.jpgeaton-xpole-afdd-characteristic-curve-002.jpgeaton-xeffect-frbm6/m-dimensions-002.jpgeaton-xpole-pkp42-3d-drawing.jpgIL019140ZUeaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdfeaton-xeffect-frbm6/m-wiring-diagram-003.jpgRated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingRated switching capacity (IEC/EN 61009)10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityCurrent limiting class10.2.5 Lifting10.2.3.1 Verification of thermal stability of enclosures Rated short-circuit breaking capacity (EN 60947-2) Frequency rating10.8 Connections for external conductorsNumber of poles (total)Fault current ratingSensitivity typeAmbient operating temperature - maxHeat dissipation per pole, current-dependentBuilt-in depth Catalogues Certification reports Characteristic curve DrawingsInstallation instructions Wiring diagrams70 mmConnectable conductor cross section (solid-core) - min1 mm²10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Number of polesTwo-poleAmbient operating temperature - min-25 °C10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Rated switching capacity4.5 kAEquipment heat dissipation, current-dependent5.5 WTripping characteristicB10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Static heat dissipation, non-current-dependent0 WApplicationSwitchgear for residential and commercial applications10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Voltage typeACNumber of poles (protected)2Leakage current typeACRated short-circuit breaking capacity (EN 61009-1)4.5 kATrippingNon-delayedOperating ambient temperature - min-25 °CHeat dissipation capacity0 WRelease characteristicBImpulse withstand currentPartly surge-proof, 250 AProduct rangePKP42Width in number of modular spacings210.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Rated short-circuit breaking capacity (EN 61009)4.5 kAOperating ambient temperature - max40 °CVoltage rating230 V10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Connectable conductor cross section (solid-core) - max25 mm²Degree of protectionIP20Overvoltage categoryIIIPollution degree210.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Connectable conductor cross section (multi-wired) - min1 mm²Rated impulse withstand voltage (Uimp)4 kV10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Basic functionCombined RCD/MCB devicesRated current32 AConnectable conductor cross section (multi-wired) - max25 mm²TypeRCBO10.2.2 Corrosion resistanceMeets the product standard's requirements.Surge current capacity0.25 kA10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Rated short-circuit breaking capacity (IEC 60947-2)0 kADisconnection characteristicUndelayedProduct applicationSwitchgear for industrial and advanced commercial applicationsRated operational voltage (Ue) - maxEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia230 V250 VRated insulation voltage (Ui)。

符合标准：GB/T 16917.1安装、使用产品前，请仔细阅读使用说明书并妥善保管、备用CDB6PLEiN漏电断路器使用说明书安全告知在安装、操作、运行、维护、检查之前，请务必认真阅读本说明书，并按照说明书上的内容准确安装、使用本产品。

危险：严禁湿手操作断路器；使用中，严禁触摸导电部位；维护与保养时，必须确保产品不带电；严禁用短路的办法来测试产品；注意：安装、维护与保养时，应由具有专业资格的人员操作；产品的各项特性出厂时已整定，使用中不能自行拆装或随意调节；使用前请确认产品额定电压、额定电流、频率及特性是否符合工作要求；本产品接线时，进线从上方接入，出线从下方接出；导线伸入接线孔后拧紧接线螺钉，拧紧导线的扭矩为1.5N•m，使导线不得松动、拔出，裸露铜导线不能露在接线端外；本产品对同时接触被保护电路的相线和中性线引起的触电危险不能进行保护；对进线端前的中性线断相后接触被保护电路的相线引起的触电危险不能进行保护。

本产品防护等级IP20不具备防尘功能，当用于灰尘较多的场合时，请安装于密封较好的终端箱中；如果产品在开箱时有破损或异常响声，应立即停止使用并联系销售商；本产品在漏电保护、过载保护或短路保护分断后，应先排除故障再恢复合闸，否则影响产品的使用寿命；本产品安装后，不能使用绝缘电阻摇表测试仪测试产品所保护线路相线和中性线之间的绝缘电阻；本产品在使用或储存、运输过程中，均不得受雨水侵袭和跌落；本产品不适用于频繁启动的电动机、电热设备、电容柜、高感性或高容性负载和高温环境等特殊场合；产品报废时，请做好废弃物处理，谢谢您的合作。

目 录1主要用途及适用范围 (1)2产品型号及含义 (1)3正常使用、安装及运输条件 (2)3.1正常使用、安装条件 (2)3.2正常贮存和运输条件 (2)4技术特性 (3)4.1主要技术性能参数 (3)4.2其它技术参数 (4)5外形及安装尺寸 (4)6安装和使用（维护） (5)7故障分析 (6)8开箱检查 (7)9公司承诺 (7)1 主要用途及适用范围CDB6PLEiN系列剩余电流动作断路器主要用于交流50Hz、额定工作电压230V、额定工作电流6A～40A的电路中。

多年来，Masterpact 断路器在世界范围内建立了空气断路器技术的新标准，包括技术革新的Micrologic 控制单元，优化的体积尺寸，安全使用的产品特性以及强大的智能通信等附加功能，成为低压配电领域的领导者。

今天，我们以客户价值为出发点，面向多种低压配电系统特别是建筑行业，为客户带来全新的Masterpact MTE 空气断路器。

继承了施耐德电气一贯的优秀品质，Masterpact MTE 将为客户提供更加安全可靠的低压配电保护方案。

额定电流：400A ～4000A● 2种框架规格● Ics =Icu =50/65/85 kA ● 抽屉式/固定式● 3极/ 4极Micrologic 控制单元● MTE MIC 2.0/5.0● MTE MIC 5.0A/6.0A ● MTE MIC 5.0D/6.0D● 负荷开关MTE NA,HA相关认证● 中国强制认证 CCC ● 中国船级认证 CCS标准配置● 电动储能配置● 机械储能配置D: 电能表型A: 电流表型标准型型号包含如下配置 (**)固定式: 断路器本体+控制单元+ 水平接线 (*) +储能马达+ 分励线圈+合闸线圈+ 指示触点+门框 抽屉式: 断路器本体+抽架+控制单元+水平接线 (*) + 储能马达+分励线圈+ 合闸线圈+指示触点+门框+安全挡板+灭弧罩盖MTE 04 N 3 D 20 0(*) 对 MTE40 可以选择垂直接线方式控制回路电压0: 机械储能 (无线圈)2: 电动储能/AC220V 3: 电动储能/AC380V 4: 电动储能/DC220V控制单元:20: MTE Micrologic 2.0二段保护50: MTE Micrologic 5.0三段保护5A: MTE Micrologic 5.0A 三段保护+电流表6A: MTE Micrologic 6.0A 三段保护+电流表+接地故障5D: MTE Micrologic 5.0D 三段保护+功率表6D: MTE Micrologic 6.0D 三段保护+功率表+接地故障00: 负荷开关, 无控制单元型式D: 抽屉式; F: 固定式极数3: 3极; 4: 4极断路器额定电流 (范围：04/400A-40/4000A)断路器分断类型N: 50kA, 65kA; H: 65kA, 85kA; S: 负荷开关断路器类型Masterpact MTE低压空气断路器和负荷开关产品简介AC220VCE 连接 AC380VCD 退出DC220VCT 实验AC220VCE 连接AC380V CD 退出DC220VCT 实验AC220V CE 连接AC380V CD 退出DC220VCT 实验请在方框内 (o ) 打√或填入相应字符断路器 附件 数量 型号 可增 CB EIP PF MNVSPO(*) VBP VSPD VPEC VPOCCCS 加OF 二次 相间 合闸准 失压 位置可编程 本体OFF 按钮锁 抽架退出 抽架门 抽架摇入 接线方式 证书 触点 端子罩 隔板备触点线圈 触点(*****)触点(***)位置锁 定装置位置钥匙锁 联锁联锁 (**)(****)(*) 选择“本体OFF 位置锁”选项后再选择具体“锁芯”的配置。

一、烧录工具1.编程器: ALL-11（A）2.适配器：BM11197或BM11188一个（TMP86P807NG用BM11197，TMP86PH46NG用BM11188，TMP86P202NG使用BM11203）3.PC电脑一台二、烧录软件版本信息ALL-11 Universal Programmer V3.10三、调试方法：适用于ALL-11（A）1.确认防静电手环接地良好后，戴上防静电手环。

2.连接编程器，启动PC电脑3.将适配器缺口朝上装于编程器的锁紧内，并将锁紧担杆拉下；4.烧录时BM11197或BM11188上的开关打到“N”方向；5.双击电脑桌面上快捷方式“WACCESS”，（方便起见，可先在桌面上建一快捷方式）如下图所示：6.选择菜单项“Device”进入“Manufacture list”选择“Toshiba”，点击“OK”按钮。

7.出现Type list窗口，选左上角的EPROM，右边选择“TC571000”型号，点击“RUN”按钮。

8.选择菜单SETUP下拉至modify programmer mapping确定，进入Modify programmerbuffer mapping窗口，根据单片机型号，按下图所示设置Device和Buffer值；单片机TMP86P807NG设置方法单片机TMP86PH46NG设置方法单片机TMP86P202NG设置方法9.点击OK钮后，0001FFFF会自动改变为FFFF；10.此时可调文件，选菜单FILE下拉至“Load file to programmer buffer”确定，调用所需文件（*.h16），选定后点击“打开”钮。

(注：调用的文件必须与《芯片拷贝申请记录表》上的程序名称一致)项不用改写（变），点击OK钮。

致即可进入下一步骤。

13.点击“Auto ”按钮；打开下图所示窗口；将图中圈选项打勾；14.点击“RUN ”按钮，即可开始烧录；15.如烧录OK ，右面板上方会显示OK 字样，如烧录错误，则用红色字体显示“Error ”字样。

Eaton MPNC083CEAXX2FEaton Magnum low voltage power circuit breaker, Magnum PXR,Narrow frame, 800 A, 100 kA, Three-pole, Drawout horizontal withmotorized racking mounting, PXR20 LSIGAM trip unitGeneral specificationsEaton Magnum low voltage power circuitbreakerMPNC083CEAXX2F78668960976414.6 in16.8 in12.5 in95 lbCCC Marked SABA ListedCE Marked NEMA Compliant CSA CertifiedKEMA CertifiedLloyd's Register Certified ANSIUL ListedABS CertifiedDNV GL CertifiedProduct Name Catalog NumberUPCProduct Length/Depth Product Height Product Width Product Weight Compliances CertificationsNarrow Three-pole Magnum PXRNarrow Magnum PXR20 LSIG ARMSThree-pole800 A100 kAIC100 kAIC800 AZone selective interlocking application paper Magnum circuit breakers with Power Xpert Release trip units product aid Selevctive coordination application paper - IA0120000E3Magnum PXR and PD-SB double and double narrow frame UL Certificate of ComplianceMagnum PXR and PD-SB standard and narrow frame UL Certificate of ComplianceMagnum PXR low voltage power circuit breakers user manual Power Xpert Release trip unit for Magnum PXR circuit breakers PXR 20/25 user manualMicrosoft Word - Power Xpert Protection Manager Quick StartFrame Number of poles TypeFrame Series Trip TypeNumber of poles Rated uninterrupted current (Iu)Interrupt rating Interrupt rating Rated uninterrupted current (Iu)Application notesBrochuresCatalogsCertification reportsManuals and user guidesEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All Rights Reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaGuide.docxPower Xpert Protection Manager x64 22.6 1 Power Xpert Protection Manager x32 22.06 1 Eaton Specification Sheet - MPNC083CEAXX2F Low voltage circuit breakers guide spec Magnum PXR 20/25 electronic trip units time current curves Molded case and low-voltage power circuit breaker health Cyber security white paperSafer by design: arc energy reduction techniquesSoftware, firmware, and applications Specifications and datasheetsTime/current curvesWhite papers。

产品目录Masterpact MT低压空气断路器和隔离开关Masterpact MT Masterpact MT高效可靠的性能确保供电的连续性智能便捷的电能管理促进节能增效绿色环保的设计助力可持续发展早期的 Masterpact 产品设立了世界范围空气断路器的新标准，多年后，许多制造厂也开发具有 Masterpact 革新特点如分断原理，模块化设计和复合材料的产品。

今天，施耐德电气又推出最新的 Masterpact MT 新产品，除了具有传统断路器特点之外 (抽出式，选择性和低维护性)，它们又具有了体积优化，内置通讯和测量功能。

Masterpact MT 采用最新技术，增强了产品性能和安全性，是具有容易安装、用户界面友好、操作方便、设计容易的划时代产品。

Masterpact MT系列断路器已通过中国3C 认证及船级社认证。

E 58856E 58880出色源于个性新型M a s t e rp a c tMasterpact MT 七种分断类型N1 - 标准型，适用于分断低等级短路电流N2 - 适用于一般的应用场合H1 - 适用于分断工业环境的高等级短路电流或两台变压器并联运行的电气系统中H1b- 适用于短路电流较大的工业行业H2 - 高性能型，适用于可能产生非常高短路电流的重工业领域H3 - 适用于既需要高性能的分断能力，又需要高水平配合的场合L1 - 具有高限流能力，用以保护馈电单元或当变压器额定功率提高时，提高开关柜的性能水平易集成于通信网Masterpact MT 可集成于一般管理系统中，优化设备的操作和维护。

通信结构是开放式的。

通过接口可适用于任何协议。

隔离开关隔离开关直接由断路器派生出来的，具有高质量和高性能的特点。

根据型号，隔离开关有 3 种 HA 、NA 和 HF 。

HF 安装了瞬时保护装置，防止短路时合闸。

一旦合闸，隔离开关不再提供保护与普通开关一样。

隔离开关常用于母联上。

特殊应用p 1000V 交流Masterpact NW H10 型断路器和隔离开关，800A 到 4000A ，3 极或 4 极，抽屉式，型号为 H10。

Eaton 269471Eaton Moeller® series EMT6 Thermistor overload relay formachine protection, 1N/O+1N/C, 24-240VAC/DC, with reclosing lockoutGeneral specificationsEaton Moeller® series EMT6 Thermistor overload relay269471EMT6-KDB4015082694715103 mm 83 mm 23 mm 0.132 kgCSA File No.: 12528 IEC/EN 60947 CSA-C22.2 No. 14 IEC/EN 61000-4-3 CSACSA Class No.: 3211-03 IEC/EN 60947-8 IEC/EN 61000-4-2 CE UL 508UL File No.: E29184 ULUL Category Control No.: NKCR VDE 0660 EN 55011Product NameCatalog NumberModel Code EANProduct Length/Depth Product Height Product Width Product Weight CertificationsScrew connectionManual resetNotifications of mains and faults via LED display Short-circuit in the sensor cableTest function via separate buttonExternal reset possibleManual or remote resetting0 °C0 °C IP20As requiredIII3EMT6 thermistor overload relay for machine protectionFinger and back-of-hand proof, Protection against direct contact when actuated from front (EN 50274)6000 V AC4000 V AC250 V AC, Between the contacts, According to EN 61140250 V AC, Between the contacts and power supply, According to EN 6114010 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 10 msAC/DC-25 °C 60 °C 25 °C 45 °C 8 kV1 kV, Signal cable2 kV, Supply cableAccording to IEC/EN 61000-4-46 kV, Electrostatic discharge (ESD)Electric connection typeFunctionsTemperature measuring range - min Temperature measuring range - max Degree of protectionMounting positionOvervoltage categoryPollution degreeProduct categoryProtectionRated impulse withstand voltage (Uimp) Safe isolationShock resistanceVoltage typeAmbient operating temperature - minAmbient operating temperature - maxAmbient operating temperature (enclosed) - min Ambient operating temperature (enclosed) - max Air dischargeBurst impulse Contact discharge Electromagnetic fields45 °C85 °CDamp heat, cyclic, to IEC 60068-2-30 Damp heat, constant, to IEC 60068-2-783 V/m at 1.4 - 2 GHz (according to IEC EN 61000-4-3)1 V/m at 2.0 - 2.7 GHz (according to IEC EN 61000-4-3)10 V/m at 80 - 1000 MHz (according to IEC EN 61000-4-3) 10 V (according to IEC/EN 61000-4-6)Class B (EN 55011)2 kV, symmetrical, power pulses (Surge), EMCAccording to IEC/EN 61000-4-5, power pulses (Surge), EMC 4 kV, asymmetrical, power pulses (Surge), EMC1 x (0.5 - 2.5) mm², flexible with ferrule1 x (0.5 - 2.5) mm², solid2 x (0.5 - 1.5) mm², flexible with ferrule20 - 14 AWG, solid or stranded2 x (0.5 - 1.5) mm², solidM3.5, Terminal screw2, Terminal screw, Pozidriv screwdriver1 x 6 mm, Terminal screw, Standard screwdriver 1.2 Nm, Screw terminals 6 A0.85 - 1.1 V x Uₑ2 W at DC3.5 VA at AC24 V240 V24 V240 V24 V240 V400 V3 A at AC-14, 380 V 400 V 415 V (NC) 1 A at AC-15, 300 V (NC)3 A at AC-14, 400 V (NC)Ambient storage temperature - minAmbient storage temperature - max Climatic proofing Immunity to line-conducted interference Radio interference classSurge ratingTerminal capacityScrew size Screwdriver size Tightening torque Conventional thermal current ith of auxiliary contacts (1-pole, open)Pick-up voltagePower consumptionRated control supply voltage (Us) at AC, 50 Hz - minRated control supply voltage (Us) at AC, 50 Hz - maxRated control supply voltage (Us) at AC, 60 Hz - minRated control supply voltage (Us) at AC, 60 Hz - maxRated control supply voltage (Us) at DC - minRated control supply voltage (Us) at DC - maxRated insulation voltage (Ui)Rated operational current (Ie)3 A at AC-14, 300 V (NO) 1 A at AC-15, 300 V (NO)1 A at AC-15, 380 V 400 V 415 V (NO) 3 A at AC-15, 220 V 230 V 240 V 3 A at AC-14, 300 V (NC)3 A at AC-14, 380 V 400 V 415 V (NO) 3 A at AC-15, 220 V 230 V 240 V (NO) 1 A at AC-15, 380 V 400 V 415 V (NC) 3 A at AC-15, 220 V 230 V 240 V (NC)240 V1600 ΩMax. 6 A gG/gL, Fuse, Contacts3600 Ω600 V110 W0 W 0 W 0 A0.8 W EMR6 - EMT6 - ETR4 brochure DA-DC-00003984.pdf DA-DC-00004614.pdf eaton-tripping-emt6-thermistor-overload-relay-characteristic-curve.eps eaton-tripping-thermistor-relay-emt6-dimensions.eps eaton-tripping-devices-relay-emt6-thermistor-overload-relay-dimensions.epseaton-tripping-devices-relay-emt6-thermistor-overload-relay-3d-drawing-002.eps Rated operational voltage (Ue) - max Reset resistance Short-circuit protection rating Trip resistance Voltage rating - max Number of contacts (change-over contacts)Number of contacts (normally closed contacts)Number of contacts (normally open contacts)Equipment heat dissipation, current-dependent PvidHeat dissipation capacity PdissHeat dissipation per pole, current-dependent PvidRated operational current for specified heat dissipation (In)Static heat dissipation, non-current-dependent Pvs BrochuresCertification reports Characteristic curveDrawingseCAD modelEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaETN.EMT6-KDB eaton-emt6-thermistor-overload-motor-protection-relays-instruction-leaflet-il03407100z.pdf MN03407006Z_DE_EN DA-CS-emt6_db DA-CD-emt6_db eaton-tripping-devices-auto-mode-emt6-thermistor-overload-relay-wiring-diagram.epsInstallation instructionsManuals and user guides mCAD model Wiring diagrams。

百科特奥品牌除湿机机型归类总结百科特奥品牌除湿机机型归类总结百科特奥品牌中心，环境湿度控制技术专家，专业从事干燥通风空气处理，除湿、加湿、消毒、防潮等开发、生产，从业10余年的专业技术团队，专业设计生产除湿机，家用除湿机，工业除湿机，防爆除湿机，防爆空调，特种除湿机，百科特奥品牌中心，引进来自日本的先进的室内环境湿度控制技术和生产工艺，为你提供打造干燥舒适的室内空间环境的优质除湿机，百科特奥除湿机，具有外形高雅大方，设计新颖和具有安装维修方便等特点，百科特奥除湿机采用丹甫斯、松下、日立、大金、三菱等名牌压缩机、微电脑控制、噪声低、湿度显示、直观了然、性能优越、操作简便等众多优点。

家用、实验室、库房、车间、档案室等场所防潮除湿，抽湿袪霉，袪霉杀菌，袪霉净化最佳的选择百科特奥除湿机执行标准国家GB4706.32-2012、GB4706.1-2005，GB4343.1-2009，GB17625.1-2012标准，2013年10月起开始执行百科特奥家用除湿机系列特点及参数 1.全塑设计，美观大方 2.移动万向轮，轻便放置 3.无触点水位开关，水满自动报警 4.3公斤的水箱，水满自动停机 5.自动除霜 6.环保家用型，名牌往压缩机（丹甫斯）型号除湿面积除湿量规格DH-820B 机械型20-35M2 20升/天310*280*580mm DH-818E 液晶型20-35M2 18升/天613345245mm DH-826E 液晶型20-40M2 26升/天613345245mm DH-826D 液晶型20-40M2 26升/天310*280*580mm DH-838E数码型40-65m2 38升/天440330640mm DH-858E数码型60-90m2 58升/天440330640mm 百科特奥商用除湿机系列特点及参数往复式压缩机，旋转式压缩机，脚底装有四角万向轮，可以移动自如、上前吹式出风口，下前进风口、数字显示，湿度自由控制、自动化霜功能、在环境温度低于18度一下自动化霜（合资品牌蓝海压缩机，日立压缩机）型及号除湿面积除湿量规格DH-838D 液晶型40-65m2 38升/天440*330*640mm DH-858D 液晶型60-90m2 58升/天440*330*640mm DH-890C 数码型90-130m2 90升/天420*480*960mm DH-890D 液晶型90-130m2 90升/天420*480*960mm DH-8138C 数码型100-160M2 138升/天420*480*1030mm DH-8138D 液晶型100-160M2 138升/天420*480*1030mm 百科特奥工业除湿机系列特点及参数采用国际名牌大金压缩机、三菱压缩机，脚底装有四角万向轮，可以移动自如、上前吹式出风口、正前出风口，下前进风口、数码显示，湿度自由控制、自动化霜功能、在环境温度低于18度以下自动化霜北京除湿机专卖，顺义除湿机，海淀除湿机，大兴除湿机，百科特奥朝阳除湿机专卖型号除湿面积除湿量规格DH-8150C 数码型150-230m2 150升/天500*600*1020mm DH-8150D 液晶型150-230M2 150升/天600*600*1020mm DH-8168C 数码型200-280M2 168升/天405*605*1620mm DH-8168D 液晶型200-280M2 168升/天650*600*1950mm DH-8192C 数码型260-320M2 192升/天405*605*1620mm DH-8240C 数码型300-400M2 240升/天470*770*1700mm DH-8360C 数码型400-600M2 360升/天520*1200*1745mm DH-8480C 数码型600-800M2 480升/天520*1200*1745mm 百科特奥除湿机产品型号详解DH 是除湿机英文单词Dehumidifevs的缩写，8是我公司所有除湿机的序列编号的通用字（8喻意谐音发财），8后面的数字代表除湿机的24小时标准工况（温度30°，湿度RH80）的除湿量，B、C、D、E只是做了产品的开发先后顺序的区分。

CDB6LEi-125 User Manual■Please carefully read this User Manual beforeinstalling and operating the product, and keep thismanual properly for future referenceSafety NoticePlease carefully read this manual before the installation, operation, run, maintenance, and inspection of the product, and install and operate this product properly according to the contents of the instructions.Danger:●It is prohibited to operate the circuit breaker with your wet hands;●It is prohibited to touch the conductive part during operation;●Make sure that the product is de-electrified during maintenance and service;●It is prohibited to use the short circuit method to test the product;Caution:●The installation, maintenance, and service shall be carried out by the qualified professionals;●The three-pole and four-pole are only suitable for the power supply of three phase system;●The characteristics of the product have been set in factory, and the product cannot be installed, disassembled oradjusted without permission during operation;●Please confirm that the rated voltage, rated current, frequency, and characteristics of the product meet theworking requirements before use;●In order to prevent short circuit between phases, the exposed wire or copper busbar on the wiring terminal shallbe subject to the insulation treatment;●To test insulation resistance or power frequency withstand voltage, please disconnect the electronic componentbetween the current circuit, otherwise the product performance may be damaged;●This product only provides the protection for electric leakage fault occurred at the load end of the product;●The electric leakage protection of this product is not suitable for less and wrong wiring connections●If found damage or abnormal sound when unpacking the product, please stop the operation immediately andcontact the supplier;●This product is not suitable for some special applications such as frequent startup of motor, electric heatingequipment, capacitor cabinet, high conductive and high capacitive load, and high temperature environment.●When scrapping the product, please dispose the product waste properly; thanks for your cooperation.Table of Contents1 Main Purpose and Scope of Application (1)2 Product Model and Its Meanings (1)3 Normal Operation, Installation, and Transport Conditions (2)4 Technical Features (2)4.1 Main technical performance parameters (2)4.2 Other technical parameters (3)5 Outline and Installation Dimensions (3)6 Installation and Operation (Maintenance) (4)7 Troubleshooting (5)8 Unpacking Inspection (6)9 Company Commitment (6)1 Main Purpose and Scope of ApplicationCDB6LEi-125 series residual current operated circuit breaker (Hereinafter referred to residual current operated circuit breaker) has electric leakage (electric shock), overload, and short circuit protection functions, and can has optional overvoltage and undervoltage protection functions according to the needs.This residual current operated circuit breaker is primarily used in the AC 50/60Hz line with the rated voltage 230V/400V, 240/415V, and with rated current up to 125A and below to provide the protection for indirect contact with people and the overcurrent protection for the line of the buildings and similar objects. The residual current operated circuit breaker with overvoltage protection can also provide the protection for excess increase of the volage cause by failure of the power grid. This series residual current operated circuit breaker has been more and more adopted in the low voltage power distribution system as the backup protection for the grounding fault, and the electric shock due to direct contact and indirect contact.2 Panel IntroductionPress once monthlyPress before power-onLoad endLegends:1 Power end2 Company logo3 Series symbol4 Rated current: 63A, 80A, 100A, 125A5 ON/OFF indicator6 Product model (a letter “G” is added for overvoltage model, and a letter “A” is added for A type electric leakage model)7 Identification on load end8 Load end9 N pole identification 10 Test button 11 Isolation symbol 12 Reset button 13 Residual current breaking time 14 Rated frequency 15 Available category 16 Set current © Ii=8.5In (for power distribution), (D) Ii=12In (for motor protection) 17 Rated residual operating current 18 Rated short circuit breaking capacity Icu: 10kA, Ics=75% Icu 19 Rated voltage 20 Compliance mark 21 Rated impulse withstand voltage 22 Rated residual making and breaking capacity 23 IT not available 24 Certification mark 25 Wiring diagram3 Normal Operation, Installation, and Transport Conditionsa) The upper limit of the ambient air temperature does not exceed +70℃, and the lower limit is not below -35℃, and the mean temperature within 24h does not exceed +35℃。

防漏电插排技术参数英文回答：Electrical safety is of utmost importance in our daily lives, and one crucial device that helps prevent electrical accidents is the leakage protection socket strip, also known as the anti-leakage power strip or the ground fault circuit interrupter (GFCI) power strip. This device is designed to protect users from electric shock by detecting any leakage current and cutting off the power supply instantly.The main technical parameters to consider when choosing a leakage protection socket strip are as follows:1. Rated Current: This refers to the maximum current that the power strip can handle safely. It is important to choose a power strip with a rated current that meets the requirements of the devices you plan to plug into it. For example, if you have multiple appliances with a combinedcurrent draw of 10A, you should choose a power strip with a rated current higher than 10A to ensure safe operation.2. Rated Voltage: This parameter specifies the maximum voltage that the power strip can handle. It is important to choose a power strip with a rated voltage that matches the voltage of your electrical system. In most cases, the standard rated voltage is 220V or 110V, depending on the country.3. Leakage Current: This parameter indicates the maximum allowable leakage current that the power strip can detect. The lower the leakage current, the more sensitive the power strip is to detecting potential electrical faults.A typical leakage current for a high-quality power strip is around 5mA.4. Response Time: This refers to the time it takes for the power strip to cut off the power supply after detecting a leakage current. A shorter response time ensures faster protection against electric shock. A good power stripshould have a response time of less than 25ms.5. Overload Protection: In addition to leakage protection, some power strips also provide overload protection. This feature prevents excessive current flow and protects the connected devices from damage. When the current exceeds the rated current of the power strip, it automatically cuts off the power supply. This is especially useful when using power-hungry devices such as air conditioners or heaters.To illustrate the importance of these technical parameters, let's consider a scenario where I have a power strip with a rated current of 10A and a rated voltage of 220V. I have plugged in a hairdryer that draws a current of 8A. One day, due to a faulty wire in the hairdryer, a leakage current of 6mA occurs. In this case, the powerstrip should detect the leakage current and cut off the power supply immediately, protecting me from potential electric shock.中文回答：防漏电插排是我们日常生活中非常重要的电气安全设备之一，它能够帮助我们预防电气事故。

CUBEFuse™ Compact Circuit Protector UL 98 DisconnectSwitch (cat. no. CCP2B)2011/65/EUDescriptionThe revolutionary Bussmann™ series Compact Circuit Protector UL ® 98 Disconnect Switch (CCP2B) with CUBEFuse™ is a horsepower rated fused circuit disconnect. Primarily used in the Bussmann series Quik-Spec™ Coordination Panelboard, the CCP2B with CUBEFuse simplifies selective coordination for code compliance and features a lockout/tagout feature for isolating individual branch circuit loads to promote safe work practices.Features•Uses finger-safe, current-limiting Class CF CUBEFuse with Class J performance available in time-delay or fast-acting versions from 1 to 100 amps•Patented amp rating rejection feature helps prevent overfusing• High 200 kA short-circuit current rating •Disconnect rated to provide a means for load isolation • 600 Vac• Up to 125 Vdc ratings• UL 98 Listed disconnect switch• 1-, 2- and 3-pole versions are horsepower rated • UL and cULus Listed•Open fuse indication lamp per pole speeds troubleshooting•Additional open fuse indication can be provided by using the time-delay indicating CUBEFuse in ratings from 6 to 100 amps•Built-in switch/fuse interlock prevents removing or installing a fuse while energized•Permanent lockout/tagout and lock-on provision using a 1/4” lock•IEC 60947-3 AC-21A (up to 30 A)1612Technical Data 1161Effective September 2024CUBEFuse Compact Circuit Protector (CCP2B)/bussmannseriesSpecifications:Switch amp ratings and rejection breaks•15, 20, 30, 40, 50, 60, 70, 90 and 100 APoles•1-, 2- and 3-polesVolts• 600 Vac •125 Vdc** Switch amp rating and installed fuse amp rating dependent, see catalog number table for details.Agency information• UL 98 Listed, Guide WHTY , File E302370•cULus to Canadian Standard 22.2 No. 4, Guide WHTY7, File E302370• RoHS compliant • CE•IEC 60947-3 AC-21A (up to 30 A)Lineside bolt-on bus connector and torque•Bolt-mounted design fits into Quik-Spec Coordination Panelboard bus•#10-32 UNC hex flange Phillips screw; 2.8 N•m (25 lb-in)Loadside box lug terminal conductor data•See conductor table for detailsLoadside fork terminal•Max. 30 A suitable for use with:• 10-24 screw for switches up to 60 A •1/4-28 screw for switches from 70 to 100 ALockout/tagout•1/4” lockLocal open fuse indication light•Light illumination requires closed circuit and minimum 90 voltsCarton quantity and shipping weight70 to 100 amp switches62.6 (1.18)Environmental dataStorage and operating temperature -20°C to 75°C**** For fuse performance under or above 25°C, consult fuse performance derating charts.Available Bussmann series fusesCFPeak™ CUBEFuse (6-100 A)600 Vac/300 Vdc 9000Non-indicating time-delay,Low-Peak CUBEFuse (1-100 A)Non-indicating fast-actingCUBEFuse (1-100 A)600 Vac/dc 2147Switch handle Lockout/tagout provisionLoadside fork terminalLoadside box lug terminalLocal open fuse indication lightSwitch ON and OFF symbolsCUBEFuse base1-Pole2-Pole3-poleCCP2B-1-_CFCCP2B-2-_CFCCP2B-3-_CFCCP2B lock on device (sold as accessory)Set screw size:5/64”x3/8”, 8-32 thread Allen wrench size: 5/64”Lock on device for CCP2B disconnect switches up to 60 ampsCCP2B-60-LODLock on device for select CCP2B basesCCP2B-X-15CF*CCP2B-X-20CF*CCP2B-X-30CF*CCP2B-X-40CF*CCP2B-X-50CF*CCP2B-X-60CF**(X = 1,2,3 poles)•Lock Shackle Size = ¼” dia. max•Flammability rating of lock on device PA12-GB nylon resin = 94V-03Technical Data 1161Effective September 2024CUBEFuse Compact Circuit Protector (CCP2B)/bussmannseriesCatalog numbers and ratingsCCP2B-1-15CF 1125 Vdc 1 to 15TCF1RN, TCF3RN, TCF6RN, TCF10RN, TCF15RNTCF6, TCF10, TCF15FCF1RN, FCF3RN, FCF6RN, FCF10RN, FCF15RN15200 kA AC100 kA DC0.5 Hp @ 120 VCCP2B-2-15CF 2600 Vac, 125 Vdc 1.5 Hp @ 240 V CCP2B-3-15CF 3600 Vac 3 Hp @ 240 V 5 Hp @ 480 V 7.5 Hp @ 600 V CCP2B-1-20CF 1600 Vac, 125 Vdc 1 to 20TCF17-1/2RN,TCF20RNTCF17-1/2, TCF20FCF20RN 200.75 Hp @ 120 VCCP2B-2-20CF 2600 Vac, 125 Vdc 2 Hp @ 240 V CCP2B-3-20CF 3600 Vac 3 Hp @ 240 V 7.5 Hp @ 480 V 10 Hp @ 600 V CCP2B-1-30CF 1600 Vac, 125 Vdc 1 to 30TCF25RN, TCF30RN TCF25, TCF30FCF25RN, FCF30RN301.5 Hp @ 120 VCCP2B-2-30CF 2600 Vac, 125 Vdc 3 Hp @ 240 V CCP2B-3-30CF 3600 Vac 5 Hp @ 240 V 15 Hp @ 480 V 10 Hp @ 600 V CCP2B-1-40CF 1600 Vac, 125 Vdc 1 to 40TCF35RN, TCF40RN TCF35, TCF40FCF35RN, FCF40RN402.0 Hp @ 120 VCCP2B-2-40CF 2600 Vac, 125 Vdc 3 Hp @ 240 V CCP2B-3-40CF 3600 Vac 7.5 Hp @ 240 V 20 Hp @ 480 V 10 Hp @ 600 V CCP2B-1-50CF 1600 Vac, 125 Vdc* 1 to 50TCF45RN, TCF50RN TCF45, TCF50FCF45RN, FCF50RN503.0 Hp @ 120 VCCP2B-2-50CF 2600 Vac, 125 Vdc* 5 Hp @ 240 V CCP2B-3-50CF 3600 Vac 7.5 Hp @ 240 V 20 Hp @ 480 V 10 Hp @ 600 V CCP2B-1-60CF 1600 Vac, 125 Vdc* 1 to 60TCF60RN TCF60FCF60RN 603.0 Hp @ 120 VCCP2B-2-60CF 2600 Vac, 125 Vdc*7.5 Hp @ 240 V CCP2B-3-60CF 3600 Vac 7.5 Hp @ 240 V 20 Hp @ 480 V 10 Hp @ 600 V CCP2B-1-70CF 1600 Vac, 125 Vdc 1 to 70TCF70RN TCF70FCF70RN 703.0 Hp @ 120 VCCP2B-2-70CF 2600 Vac, 125 Vdc 7.5 Hp @ 240 V CCP2B-3-70CF 3600 Vac 15 Hp @ 240 V 30 Hp @ 480 V 40 Hp @ 600 V CCP2B-1-90CF 1600 Vac, 125 Vdc** 1 to 90TCF90RN TCF90FCF80RN, FCF90RN905.0 Hp @ 120 VCCP2B-2-90CF 2600 Vac, 125 Vdc**10 Hp @ 240 V CCP2B-3-90CF 3600 Vac 20 Hp @ 240 V 50 Hp @ 480 V 40 Hp @ 600 V CCP2B-1-100CF 1600 Vac, 125 Vdc** 1 to 100TCF100RN TCF100FCF100RN 1005.0 Hp @ 120 VCCP2B-2-100CF 2600 Vac, 125 Vdc**10 Hp @ 240 V CCP2B-3-100CF3600 Vac20 Hp @ 240 V 50 Hp @ 480 V 40 Hp @ 600 V† 1 and 3 A indicating CUBEFuse not available.†† Not for use with motors.††† Any amp rating less than or equal to the switch max fuse rating may be installed. E.g., TCF15 can be installed in the CCP2B-1-20CF .†††† Indicating or non-indicating time-delay CUBEFuse only.* 125 Vdc for installed fuse amp ratings up to 40 A. 24 Vdc for installed fuse amp ratings from 45 to 60 A.**125 Vdc for installed fuse amp ratings up to 80 A, 24 Vdc for installed fuse amp ratings from 90 to 100 A.4Technical Data 1161Effective September 2024CUBEFuse Compact Circuit Protector (CCP2B)/bussmannseriesBox lug conductor data75°C Cu 12-18Stranded, Class B to K Single2.26 (20)10 2.82 (25)8 4.52 (404-6 5.08 (45)1-3 6.21 (55)3-12Stranded, Class B to K Dual3.95 (35)12-18Stranded, UL ferrule, Class B/CSingle2.26 (20)103.95 (35)1-84.52 (40)10-18Twin†2.26 (20)6-8 2.82 (25)10-18Solid Single 2.26 (20)10-18Dual 2.26 (20)8-18Class KSingle 2.26 (20)1-6 3.39 (30)3-10Dual5.08 (45)8-18Class K, UL ferruleSingle 2.26 (20)1-6 3.39 (30)6-18Twin2.26 (20)† Two stranded conductors placed in one UL Listed twin ferrule.5Technical Data 1161Effective September 2024CUBEFuse Compact Circuit Protector (CCP2B)/bussmannseries Dimensions — in (mm)70-100 A switchesFor details on the CCP2B and its use in the Quik-Spec Coordination Panelboard, see data sheet no. 1160.0.515-60 A switchesCUBEFuse Compact Circuit Protector (CCP2B) T echnical Data 1161Effective September 2024Motor sizing table:Low-Peak™ TCF_ andTCF_RN time-delay Class CF fuses115 Vac, 1-Phase 0.25 5.8101515 0.3337.2151515 0.59.8152020 0.7513.8252530 116253035 1.520303545 224404550 3345060N/A 5**5690100N/A230 Vac,1-Phase 0.167 2.2666 0.25 2.9666 0.333 3.661010 0.5 4.9101010 0.75 6.9151515 18151517.5 1.510152020 212202525 317253035 528455060 7.54060N/A N/A 10**508090N/A200 Vac, 3-Phase0.5 2.56660.75 3.7610101 4.8101010 1.5 6.9151515 27.8151517.5 31117.52020 517.5303535 7.525.3404550 20**62.1100N/A N/A208 Vac, 3-Phase0.5 2.46660.75 3.5610101 4.61010101.5 6.610151527.5151515310.617.52020516.72530357.524.240455020**59.490N/AN/A230 Vac, 3-Phase0.75 3.26661 4.21010101.561015152 6.815151539.6152020515.22530307.52235404520**5490100N/A460 Vac, 3-Phase0.51.13330.751.63331 2.16661.536662 3.46663 4.810101057.61515157.51117.5202010142525301521354045202740506050**65100N/A N/A575 Vac, 3-Phase0.50.93330.751.333311.73331.52.46662 2.76663 3.9610105 6.11015157.59152020101117.5202040**41708080Note: Use Code max column for low to moderate reverse/jog/plugapplications.* Heavy Start permitted only if Code Max does not allow motor start-up.** I f equipment terminations are rated for 60°C conductors only, the 60°Cconductor ampacities must be utilized and therefore larger conductor sizes orconduit sizes may be required.Eaton1000 Eaton BoulevardCleveland, OH 44122Bussmann Division114 Old State RoadEllisville, MO 63021United States/bussmannseries© 2024 EatonAll Rights ReservedPrinted in USAPublication No. 1161 - BU-SB18055September 2024The only controlled copy of this Data Sheet is the electronic read-only version located on the Eaton Network Drive. All other copies of this document are by definition uncontrolled. This bulletin is intended to clearly present comprehensive product data and provide technical information that will help the end user with design applications. Eaton reserves the right, without notice, to change design or construction of any products and to discontinue or limit distribution of any products. Eaton also reserves the right to change or update, without notice, any technical information contained in this bulletin. Once a product has been selected, it should be tested by the user in all possible applications.Eaton, Bussmann, Quik-Spec and CUBEFuseare valuable trademarks of Eaton in the U.S.and other countries. Y ou are not permittedto use the Eaton trademarks without priorwritten consent of Eaton.CSA is a registered trademark of the Canadian Standards Group.NEC is a registered trademark of the National Fire Protection Association, Inc.UL is a registered trademark of the Underwriters Laboratories, Inc.Follow us on social media to get thelatest product and support information.。

♦Watchdog timer•Interrupt sources/reset output (Programmable)♦Serial interface•8-bit SIO:1ch•8-bit UART: 1 ch♦10-bit successive approximation type AD converter•Analog input: 8 ch♦Key-on wakeup: 4 ch♦Dual clock operation•Single/dual-clock mode♦Nine power saving operating modes•STOP mode:Oscillation stops. Battery/capacitor backup.Port output hold/high-impedance.•SLOW 1, 2 mode:Low power consumption operation using low-frequency clock (32.768 kHz)•IDLE 0 mode:CPU stops, and peripherals operate using high-frequency clock of time-base-timer. Release by INTTBT interrupt.•IDLE 1 mode:CPU stops, and peripherals operate using high-frequency clock.Release by interrupts.•IDLE 2 mode:CPU stops, and peripherals operate using high and low frequency clock.Release by interrupts.•SLEEP 0 mode:CPU stops, and peripherals operate using low-frequency clock of time-base-timer. Release by INTTBT interrupt.•SLEEP 1 mode:CPU stops, and peripherals operate using low-frequency clock.Release by interrupts.•SLEEP 2 mode:CPU stops, and peripherals operate using high and low frequency clock.Release by interrupts.♦Wide operating voltage:4.5 to 5.5 V at 16 MHz/32.768 kHz2.7 to 5.5 V at 8 MHz/32.768 kHzNote:The operating voltage, the operating temperature and the operating current are different between TMP86FH46 and TMP86C846/H46.About details, please refer to electrical characteristics of each products.Pin FunctionThe TMP86FH46 has MCU mode and serial PROM mode.(1)MCU modeIn the MCU mode, the TMP86FH46 is a pin compatible with the TMP86C846/H46 (Make sure to fix the TEST pin to low level).(2)Serial PROM modeThe serial PROM mode is set by fixing TEST pin, P10 and P11 at “high” respectively when RESET pin is fixed “low”.After release of reset, the built-in BOOT ROM program is activated and the built-in flash memory is rewritten by serial I/F (UART).Pin Name (Serial PROM mode)Input/OutputFunctionsPin Name(MCU mode)BOOT1/RXD Input/Input Fix “High” during reset. This pin is used asRXD pin after releasing reset.P10BOOT2/TXD Input/Output Fix “High” during reset. This pin is used asTXD pin after releasing reset.P11TEST Input Fix to “High”.RESET I/O Reset signal input or an internal error reset output.VDD, AVDDPower supply 5 VVSS, AVSS0 VVAREF Leave open or apply reference voltage.P07 to P00, P15 to P12, P22 to P20,P37 to P30, P47 to P40Fix to “Low” or “High”.XIN InputSelf oscillation with resonator (2 MHz, 4 MHz, 8 MHz, 16 MHz) XOUT Output1.1.2Data MemoryTMP86FH46 has a built-in 512-byte data memory (Static RAM).1.1.3Input/Output Circuitry(1)Control pinsThe control pins of the TMP86FH46 are the same as those of the TMP86C846/H46.(2)I/O portsThe I/O circuitries of TMP86FH46 I/O ports are the same as the those of TMP86C846/H46.2.4Interface Specifications for UARTThe following shows the UART communication format used in serial PROM mode.Before on-board programming can be executed, the communication format on the external controller side must also be setup in the same way as for this product.Note that although the default baud rate is 9,600 bps, it can be changed to other values as shown in Table 2.4.1. The Table 2.4.2 shows an operating frequency and baud rate in serial PROM mode. Except frequency which is not described in Table 2.4.2 can not use in serial PROM mode.Baud rate (Default): 9,600 bps Data length: 8 bits Parity addition: None Stop bit length: 1 bitTable 2.4.1 Baud Rate Modification DataTable 2.4.2 Operating Frequency and Baud Rate in Serial PROM ModeNote:“Reference Frequency” shows the high-frequency area supported in serial PROM mode.Except the above frequency can not be supported in serial PROM mode.2.5CommandThere are five commands in serial PROM mode. After reset release, the TMP86FH46 waits a matching data (5AH).Table 2.5.1 Command in Serial PROM ModeBaud rate modification data04H05H07H0AH18H28HBaud rate (bps)76800625003840031250192009600Reference BaudRate (Baud)76800625003840031250192009600Baud RateModification Data04H05H 07H 0AH 18H 28H Reference Frequency (MHz)(bps)(%)(bps)(%)(bps)(%)(bps)(%)(bps)(%)(bps)(%)2––––––––––9615+0.164––––––312500.0019231+0.169615+0.168––625000.0038462+0.16312500.0019231+0.169615+0.161676923+0.16625000.0038462+0.16312500.0019231+0.169615+0.16Command DataOperation ModeRemarks5AH SetupMatching data. Always start with this command after reset release. 30H Flash memory writingWriting to area from C000H to FFFFH is enable.60H RAM loader Writing to area from 0050H to 0230H is enable.90H Flash memory SUM output The checksum of entire flash memory area (from C000H to FFFFH)is output in order of the upper byte and the lower byte.C0HProduct discrimination code outputProduct discrimination code, that is expressed by 13 bytes data, is output.2.6Operation ModeThere are four operating modes in serial PROM mode: Flash memory writing mode, RAM loader mode, flash memory SUM output mode and product discrimination code output mode. For details about these modes, refer to (1) Flash memory writing mode through (4) Product discrimination code output mode.(1)Flash memory writing modeThe data are written to the specified flash memory addresses. The controller should send thewrite data in the Intel Hex format (Binary). For details of writing data format, refer to 2.7“Flash Memory Writing Data Format”.If no errors are encountered till the end record, the SUM of 16 Kbytes of flash memory iscalculated and the result is returned to the controller.To execute the flash memory writing mode, the TMP86FH46 checks the passwords except ablank product. If the passwords did not match, the program is not executed.(2)RAM loader modeThe RAM loader transfers the data into the internal RAM that has been sent from thecontroller in Intel Hex format. When the transfer has terminated normally, the RAM loadercalculates the SUM and sends the result to the controller before it starts executing the userprogram. After sending of SUM, the program jumps to the start address of RAM in which thefirst transferred data has been written. This RAM loader function provides the user's own wayto control on-board programming.To execute the RAM loader mode, the TMP86FH46 checks the passwords except a blankproduct. If the passwords did not match, the program is not executed.(3)Flash memory SUM output modeThe SUM of 16 Kbytes of flash memory is calculated and the result is returned to thecontroller.The BOOT ROM does not support the reading function of the flash memory. Instead, it hasthis SUM command to use. By reading the SUM, it is possible to manage Revisions ofapplication programs.(4)Product discrimination code output modeThe product discrimination code is output as a 13-byte data, that includes the start addressand the end address of ROM. (In case of TMP86FH46, the start address is C000H and the endaddress is FFFFH.) Therefore, the controller can recognize the device information by using thisfunction.2.6.1Flash Memory Writing Mode (Operation command: 30H)Table 2.6.1 shows flash memory writing mode process.Table 2.6.1 Flash Memory Writing Mode ProcessNote 1:“xxH × 3” denotes that operation stops after sending 3 bytes of xxH. For details, refer to 2.8“Error Code”.Note 2:Refer to 2.10 “Intel Hex Format (Binary)”.Note 3:Refer to 2.9 “Checksum (SUM)”.Note 4:Refer to 2.11 “Passwords”.Note 5:If all data of vector area are “00H” or “FFH”, the passwords comparison is not executedbecause the device is considered as blank product. However, it is necessary to specify the password count storage addresses and the password comparison start address even though it is a blank product. If a password error occurs, the UART function of TMP86FH46 stops without returning error code to the controller. Therefore, when a password error occurs, the TMP86FH46 should be reset by RESET pin input.Note 6:The time between data records needs over 1 ms.Number of Bytes TransferredTransfer Data from External Controller toTMP86FH46Baud RateTransfer Data from TMP86FH46 to ExternalControllerBOOT ROM1st byte 2nd byte Matching data (5AH)−9600 bps 9600 bps − (Baud rate auto set)OK: Echo back data (5AH)Error: Nothing transmitted 3rd byte 4th byteBaud rate modification data (See T able 2.4.1)−9600 bps 9600 bps−OK: Echo back dataError: A1H × 3, A3H × 3, 62H × 3(Note 1)5th byte 6th byte Operation command data (30H)−Changed new baud rate Changed new baud rate−OK: Echo back data (30H)Error: A1H × 3, A3H × 3, 63H × 3(Note 1)7th byte 8th byte Address 15 to 08 in which to store Password count (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 9th byte 10th byteAddress 07 to 00 in which to store Password count (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 11th byte 12th byte Address 15 to 08 in which to start Password comparison (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 13th byte 14th byte Address 07 to 00 in which to start Password comparison (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 15th byte :m'th byte Password string (Note 5)−Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted m'th + 1 byte :n'th − 2 byte Extended Intel format (binary)(Note 2, 6)Changed new baud rate−n'th − 1 byte −Changed new baud rate OK: SUM (High) (Note 3)Error: Nothing transmitted n'th byte −Changed new baud rate OK: SUM (Low) (Note 3)Error: Nothing transmitted n'th + 1 byte(Wait for the next operation)(Command data)Changed new baud rate−Description of flash memory writing mode1.The receive data in the 1st byte is the matching data. When the boot program starts in serialPROM mode, TMP86FH46 (Mentioned as “device” hereafter) waits for the matching data (5AH) to receive. Upon receiving the matching data, it automatically adjusts the UART’s initial baud rate to 9,600bps.2.When the device has received the matching data, the device transmits the data “5AH” as anecho back to the controller. If the device can not receive the matching data, the device does not transmit the echo back data and waits for the matching data again with changing baud rate.Therefore, the controller should send the matching data continuously until the device transmits the echo back data.3.The receive data in the 3rd byte is the baud rate modification data. The six kinds of baud ratemodification data shown in Table 2.4.1 are available. Even if baud rate changing is no need, be sure to send the initial baud rate data (28H: 9,600 bps). The changing of baud rate is executed after transmitting the echo back data.4.When the 3rd byte data is one of the baud rate modification data corresponding to the device'soperating frequency, the device sends the echo back data which is the same as received baud rate modification data. Then the baud rate is changed. If the 3rd byte data does not correspond to the baud rate modification data, the device stops UART function after sending3 bytes of baud rate modification error code: (62H).5.The receive data in the 5th byte is the command data (30H) to write the flash memory.6.When the 5th byte is one of the operation command data shown in Table 2.5.1, the devicesends the echo back data which is the same as received operation command data (in this case, 30H). If the 5th byte data does not correspond to the operation command data, the device stops UART function after sending 3 bytes of operation command error code: (63H).7.The 7th byte is used as an upper bit (Bit15 to bit8) of the password count storage address.When the receiving is executed correctly (No error), the device does not send any data. If the receiving error or password error occur, the device does not send any data and stops UART function.8.The 9th byte is used as a lower bit (Bit7 to bit0) of the password count storage address. Whenthe receiving is executed correctly (No error), the device does not send any data. If the receiving error or password error occur, the device does not send any data and stops UART function.9.The 11th byte is used as an upper bit (Bit15 to bit8) of the password comparison startaddress. When the receiving is executed correctly (No error), the device does not send any data. If the receiving error or password error occur, the device does not send any data and stops UART function.10.The 13th byte is used as a lower bit (Bit7 to bit0) of the password comparison start address.When the receiving is executed correctly (No error), the device does not send any data. If the receiving error or password error occur, the device does not send any data and stops UART function.11.The 15th through the m’th bytes are the password data. The number of passwords is the data(N) indicated by the password count storage address. The password data are compared for N entries beginning with the password comparison start address. The controller should send N bytes of password data to the device. If the passwords do not match, the device stops UART function without returning error code to the controller. If the data of vector addresses (FFE0H to FFFFH) are all “FFH”, the comparison of passwords is not executed because the device is considered as a blank product.12.The receive data in the m’th + 1 through n’th − 2 byte are received as binary data in Intel Hexformat. No received data are echoed back to the controller. The data which is not the start mark (3AH for “:”) in Intel Hex format is ignored and does not send an error code to the controller until the device receives the start mark. After receiving the start mark, the device receives the data record, that consists of length of data, address, record type, writing data and checksum. After receiving the checksum of data record, the device waits the start mark data (3AH) again. The data of data record is temporarily stored to RAM and then, is written to specified flash memory by page (32 bytes) writing. For details of an organization of flash memory, refer to 2. “Serial PROM Mode”. Since after receiving an end record, the device starts to calculate the SUM, the controller should wait the SUM after sending the end record. If receive error or Intel Hex format error occurs, the device stops UART function without returning error code to the controller.13.The n’th − 1 and the n’th bytes are the SUM value that is sent to the controller in order of theupper byte and the lower byte. For details on how to calculate the SUM, refer to 2.9“Checksum (SUM)”. The SUM calculation is performed after detecting the end record, but the calculation is not executed when receive error or Intel Hex format error has occurred. The time required to calculate the SUM of the 16 Kbytes of Flash memory area is approximately 100 ms at fc = 16 MHz. After the SUM calculation, the device sends the SUM data to the controller. After sending the end record, the controller can judge that the transmission has been terminated correctly by receiving the checksum.14.After sending the SUM, the device waits for the next operation command data.2.6.2RAM Loader Mode (Operation command: 60H)Table 2.6.2 shows RAM loader mode process.Table 2.6.2 RAM Loader Mode ProcessNote 1:“xxH × 3” denotes that operation stops after sending 3 bytes of xxH. For details, refer to 2.8“Error Code”.Note 2:Refer to 2.10 “Intel Hex Format (Binary)”.Note 3:Refer to 2.9 “Checksum (SUM)”.Note 4:Refer to 2.11 “Passwords”.Number of Bytes TransferredTransfer Data from External Controller toTMP86FH46Baud RateTransfer Data from TMP86FH46 to ExternalControllerBOOT ROM1st byte 2nd byte Matching data (5AH)−9600 bps 9600 bps − (Baud rate auto set)OK: Echo back data (5AH)Error: Nothing transmitted 3rd byte 4th byteBaud rate modification data (See Table 2.4.1)−9600 bps 9600 bps−OK: Echo back dataError:A1H × 3, A3H × 3, 62H × 3(Note 1)5th byte 6th byteOperation command data (60H)−Changed new baud rate Changed new baud rate−OK: Echo back data (60H)Error: A1H × 3, A3H × 3, 63H × 3(Note 1)7th byte 8th byte Address 15 to 08 in which to store Password count (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 9th byte10th byte Address 07 to 00 in which to store Password count (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 11th byte 12th byte Address 15 to 08 in which to start Password comparison (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 13th byte 14th byte Address 07 to 00 in which to start Password comparison (Note 4)Changed new baud rate Changed new baud rate −OK: Nothing transmitted Error: Nothing transmitted 15th byte :m'th byte Password string (Note 5)−Changed new baud rate Changed new baud rate−OK: Nothing transmitted Error: Nothing transmitted m'th + 1 byte :n'th − 2 byte Extended Intel format (Binary)(Note 2)Changed new baud rate−n'th − 1 byte −Changed new baud rate OK: SUM (High) (Note 3)Error: Nothing transmitted n'th byte−Changed new baud rateOK: SUM (Low) (Note 3)Error: Nothing transmittedRAM−The program jumps to the start address of RAM in which the first transferred data has been written.Note 5:If all data of vector area are “00H” or “FFH”, the passwords comparison is not executed because the device is considered as blank product. However, it is necessary to specify the password count storage addresses and the password comparison start address even though it is a blank product. If a password error occurs, the UART function of TMP86FH46 stops without returning error code to the controller. Therefore, when a password error occurs, the TMP86FH46 should be reset by RESET pin input.Note 6:Do not send only end record after transferring of password string. If the TMP86FH46 receives the end record only after reception of password string, it does not operate correctly.Description of RAM loader mode1.The process of the 1st byte through the 4th byte are the same as flash memory writing mode.2.The receive data in the 5th byte is the RAM loader command data (60H) to write the user’sprogram to RAM.3.When the 5th byte is one of the operation command data shown in Table 2.5.1, the devicesends the echo back data which is the same as received operation command data (in this case, 60H). If the 5th byte data does not correspond to the operation command data, the device stops UART function after sending 3 bytes of operation command error code: (63H).4.The process of the 7th byte through the m’th byte are the same as flash memory writingmode.5.The receive data in the m’th + 1 through n’th − 2byte are received as binary data in Intel Hexformat. No received data are echoed back to the controller.The data which is not the start mark (3AH for “:”) in Intel Hex format is ignored and does not send an error code to the controller until the device receives the start mark. After receiving the start mark, the device receives the data record, that consists of length of data, address, record type, writing data and checksum. After receiving the checksum of data record, the device waits the start mark data (3AH) again. The data of data record is written to specified RAM by the receiving data. Since after receiving an end record, the device starts to calculate the SUM, the controller should wait the SUM after sending the end record. If receive error or Intel Hex format error occurs, the UART function of TMP86FH46 stops without returning error code to the controller.6.The n’th − 1 and the n’th bytes are the SUM value that is sent to the controller in order of theupper byte and the lower byte. For details on how to calculate the SUM, refer to 2.9“Checksum (SUM)”. The SUM calculation is performed after detecting the end record, but the calculation is not executed when receive error or Intel Hex format error has occurred.The SUM is calculated by the data written to RAM, but the length of data, address, record type and checksum in Intel Hex format are not included in SUM.7.The boot program jumps to the first address that is received as data in Intel Hex format aftersending the SUM to the controller.2.6.3Flash Memory Memory SUM Output Mode (Operation command: 90H)Table 2.6.3 shows flash memory SUM output mode process.Table 2.6.3 Flash Memory Memory SUM Output ProcessNote 1:“xxH × 3” denotes that operation stops after sending 3 bytes of xxH. For details, refer to 2.8“Error Code”.Note 2:Refer to 2.9 “Checksum (SUM)”Description of flash memory SUM output mode 1.The process of the 1st byte through the 4th byte are the same as flash memory writing mode.2.The receive data in the 5th byte is the flash memory SUM command data (90H) to calculate the entire flash memory.3.When the 5th byte is one of the operation command data shown in Table 2.5.1, the device sends the echo back data which is the same as received operation command data (in this case,90H). If the 5th byte data does not correspond to the operation command data, the device stops UART function after sending 3 bytes of operation command error code: (63H).4.The 7th and the 8th bytes are the SUM value that is sent to the controller in order of the upper byte and the lower byte. For details on how to calculate the SUM, refer to 2.9“Checksum (SUM)”.5.After sending the SUM, the device waits for the next operation command data.Number of Bytes TransferredTransfer Data from External Controller toTMP86FH46Baud RateTransfer Data from TMP86FH46 to ExternalControllerBOOT ROM 1st byte 2nd byte Matching data (5AH)−9600 bps 9600 bps − (Baud rate auto set)OK: Echo back data (5AH)Error: Nothing transmitted 3rd byte 4th byteBaud rate modification data (See Table 2.4.1)−9600 bps 9600 bps−OK: Echo back dataError: A1H × 3, A3H × 3, 62H × 3(Note 1)5th byte 6th byteOperation command data (90H)−Changed new baud rate Changed new baud rate−OK: Echo back data (90H)Error: A1H × 3, A3H × 3, 63H × 3(Note 1)7th byte −Changed new baud rate OK: SUM (High) (Note 2)Error: Nothing transmitted 8th byte −Changed new baud rate OK: SUM (Low) (Note 2)Error: Nothing transmitted 9th byte(Wait for the next operation)(Command data)Changed new baud rate−2.6.4Product Discrimination Code Output Mode (Operation command: C0H)Table 2.6.4 shows product discrimination code output mode process.Table 2.6.4 Product Discrimination Code Output ProcessNote:“xxH × 3” denotes that operation stops after sending 3 bytes of xxH. For details, refer to 2.8“Error Code”.Description of product discrimination code output mode 1.The process of the 1st byte through the 4th byte are the same as flash memory writing mode.2.The receive data in the 5th byte is the product discrimination code output command data (C0H).3.When the 5th byte is one of the operation command data shown in Table 2.5.1, the device sends the echo back data which is the same as received operation command data (in this case,C0H). If the 5th byte data does not correspond to the operation command data, the device stops UART function after sending 3 bytes of operation command error code: (63H).4.The 9th and the 19th bytes are the product discrimination code. For details, refer to 2.12“Product Discrimination Code”.5.After sending the SUM, the device waits for the next operation command data.Number of Bytes TransferredTransfer Data from External Controller toTMP86FH46Baud RateTransfer Data from TMP86FH46 to ExternalControllerBOOT ROM1st byte 2nd byte Matching data (5AH)−9600 bps 9600 bps − (Baud rate auto set)OK: Echo back data (5AH)Error: Nothing transmitted 3rd byte 4th byteBaud rate modification data (See Table 2.4.1)−9600 bps 9600 bps−OK: Echo back dataError: A1H × 3, A3H × 3, 62H × 3(Note 1)5th byte 6th byteOperation command data (C0H)−Changed new baud rate Changed new baud rate−OK: Echo back data (C0H)Error: A1H × 3, A3H × 3, 63H × 3(Note 1)7th byte Changed new baud rate 3AH Start mark 8th byteChanged new baud rate 0AH The number of transferdata (from 9th to 18th byte)9th byte Changed new baud rate 02H Length of address (2 bytes)10th byte Changed new baud rate 03H Reserved data 11th byte Changed new baud rate 00H Reserved data 12th byte Changed new baud rate 00H Reserved data 13th byte Changed new baud rate 00H Reserved data 14th byte Changed new baud rate 01H The number of ROM block(1 block)15th byte Changed new baud rate C0H First address of ROM(Upper 8 bits)16th byte Changed new baud rate 00H First address of ROM(Lower 8 bits)17th byte Changed new baud rate FFH End address of ROM(Upper 8 bits)18th byte Changed new baud rate FFH End address of ROM(Lower 8 bits)19th byte Changed new baud rate 3CH Checksum of transferreddata (from 9th to 18th byte)20th byte(Wait for the next operation)(Command data)Changed new baud rate−2.8Error CodeWhen the device detects an error, the error codes are sent to the controller.Table 2.8.1 Error Code2.9Checksum (SUM)(1)Calculation methodSUM consists of byte + byte.... + byte, the checksum of which is returned in word as the result.Namely, data is read out in byte and checksum of which is calculated, with the result returned in word.Example:The SUM returned when executing the flash memory write command, RAMloader command, or flash memory SUM command is calculated in the manner shown above.(2)Calculation dataThe data from which SUM is calculated are listed in Table 2.9.1 below.Table 2.9.1 Checksum Calculation DataTransmit DataMeaning of Transmit Data62H, 62H, 62H Baud rate modification error occurred.63H, 63H, 63H Operating command error occurred.A1H, A1H, A1H Framing error in received data occurred.A3H, A3H, A3HOverrun error in received data occurred.A1H If the data to be calculated consists of the four bytes shown to the left, SUM of the data isB2H A1H + B2H + C3H + D4H =02EAHSUM (HIGH)=02H SUM (LOW)=EAH C3H D4HOperating ModeCalculation Data RemarksFlash memory writing modeData in the entire area (16 Kbytes) of flashmemoryEven when written to part of the flash memory area,data in the entire memory area (16 Kbytes) iscalculated.The length of data, address, record type andchecksum in Intel Hex format are not included in SUM.Flash memory Checksum output modeRAM loader mode Data written to RAMThe length of data, address, record type andchecksum in Intel Hex format are not included in SUM.Product discrimination code out-put mode Checksum of transferred data (from 9th to 18th byte)For details, refer to “2.6.4 Product Discrimination Code Output Mode”.。