TC1303A-AA0EUN中文资料

Data Sheet AccessC-230 provides Wi-Fi networks that require less time and resources to deploy and maintain compared to traditional devices, resulting in significant cost savings.•Plug and play provisioning using either Cloud or On-premise deployments - Arista Access Points take less than two minutes to activate and configure after connecting to the cloud•Support for up to eight individual SSIDs per radio providing maximum flexibility in network design•Network controls like NAT, Firewall and QoS implemented at the Access Point, ensuring faster and more reliable networks •Continuous scanning of all 2.4 GHz and 5 GHz channels by a dedicated 2x2 third radio provides a dynamic, 360-degree view of the RF environment to assist in RF optimization and client handling•Network availability and performance assurance using the third radio as a client to conduct on-demand and scheduled connectivity and performance tests•Smart steering addresses sticky client issues by automatically pushing clients with low data rates to a better access point•Band steering manages channel occupancy, pushing clients to the 5 GHz channel for optimal throughput•Smart load balancing distributes load evenly across neighbouring APs to optimize the use of network resources•Arista Wi-Fi’s distributed data plane architecture continues to serve users and secure the network even if connection with the management plane is interrupted•Interference avoidance from LTE/3G small/macro cells in commonly used TDD/FDD frequency bandsSecurityC-230 offers complete visibility and control of the wireless airspace ensuring network integrity while actively protecting users without manual intervention.•C-230 is equipped with industry leading fully integrated wireless intrusion prevention capabilities•Multifunction third radio provides uninterrupted spectrum scanning or client emulation for always on security coverage alongside dedicated 2.4G/5G client radios.•Arista’s patented Marker Packets TM help accurately detect rogue access points on any network while minimizing false positives•Third radio used as a dedicated security sensor for 24x7x365 scanning and automated over-the-air (OTA) prevention•Deterministic rogue AP detection and prevention by monitoring all WiFi and non-WiFi VLANs.•Over-the-air and on-the-wire prevention techniques assure automatic and reliable threat prevention to keep unauthorized clients and rogue APs off the network without impacting authorized connections.•Access Points autonomously scan for wireless threats and enforce security policy even if disconnected from the cloud management plane•VLAN monitoring enables a virtual connection to non-WiFi networks for complete network rogue detection and preventionAnalyticsThe C-230 collects telemetry on connected and unconnected WiFi clients and supports immersive guest network experiences that help Arista’s customers develop and reinforce the relationship with their end customers.•Reports of customer footfall, demographic, loyalty and other analytics provide insightful and actionable information.•Supports proximity marketing programs that trigger when certain devices are present, which includes automatic messaging vis MMSin-browser notifications and real time notifications sent to 3rd party systems that alert to the presence of enrolled devices.Data SheetWiFi SpecificationsIEEE 802.11a/n/ac/axFrequency BandScanning TransmissionAll regions USA & Canada (FCC/IC)Europe (ETSI) 5GHz Band4.92 ~5.08 GHz5.15 ~ 5.25 GHz 5.25 ~ 5.35 GHz 5.47~ 5.725 GHz 5.725~ 5.825 GHz5.15 ~ 5.25 GHz 5.25 ~ 5.35 GHz 5.725~ 5.825 GHz5.15 ~ 5.25 GHz 5.25 ~ 5.35 GHz 5.47~ 5.725 GHzDynamic Frequency Selection DFS and DFS2 Modulation Type OFDM / OFDMA Peak Data Rates Up to 2.4 GbpsAntennaIntegrated modular high efficiency PIFA antenna x4 (peak gain: 3.9 dBi)Operational Specifications Input Power12V DC (5.5mm overall diameter/2.1mm center pin hole) PoE+ power•••Full function U SB off Max EIRP 1 of 31.5 dBm at 5GHz, 28 dBm at 2.4GHz 5 GHz limited to 2x2 operation2 access radios; one 2x2:2 2.4GHz and one 4x4:4 5GHz radio for simultaneous dual band access.1 multi-function 2x2 radio for continuous WIPS and client connectivity tests Number of RadiosMU-MIMO4X4 on 5GHz radio and 2X2 on 2.4GHz radioNumber of Spatial Streams 4 for 5GHz radios, 2 for 2.4GHz radio, 2 for multipurpose radio Maximum EIRP35dBm on 5GHz radio (max) and 31dBm on 2.4GHz radio (max)1; 80+80MHz Non-Contiguous Channel Bonding No Bandwidth AgilityYes3G/4G Macro and Small Cells InterferenceMitigation YesFrequency Bands 22.4-2.4835 GHz, 4.9-5.0GHz, 5.15-5.25 GHz; (UNII-1), 5.25-5.35 GHz, 5.47-5.6 GHz, 5.650-5.725 GHz (UNII-2), 5.725-5.85 GHz (UNII-3)Dynamic Frequency SelectionSupported in compliance to all latest amendments from FCC, CE, IC, TELEC, KCC, NCC and ANZ regarding certifications.Max Clients Supported 1024 (512 clients per radio) (dependent upon use cases)1 Max EIRP will be restricted to Country/Regulatory domain limits 2The frequency ranges are restricted to Country/Regulatory domain limits•PoEData SheetIEEE802.11b/g/n/axFrequency BandScanning TransmissionAll regions USA & Canada (FCC/IC) Europe (ETSI)2.4GHz Band2400 ~ 2483.5 MHz 2400 ~ 2473.5 MHz 2400 ~ 2483.5 MHz Modulation Type DSSS / OFDM / OFDMAPeak Data Rates Up to 0.6 GbpsAntenna Integrated modular high efficiency PIFA antenna x2 (peak gain: 3 dBi)Receive Sensitivity5GHz 2.4GHzMode Rate Sensitivit y (dBm)802.11a 6 Mbps-93 54 Mbps-7611n_HT20MCS 0-94 MCS 7-7611n_HT40MCS 0-91 MCS 7-7311ac_VHT20MCS 0-94 MCS 8-7211ac_VHT40MCS 0-91 MCS 9-6811ac_VHT80MCS 0-88 MCS 9-6511ax_HE20MCS 0-94 MCS 11-6511ax_HE40MCS 0-91 MCS 11-6211ax_HE80MCS 0-88MCS 11-59Mode Rate Sensitivit y (dBm)802.11b1 Mbps-9811 Mbps-90802.11g6 Mbps-9354 Mbps-7711n_HT20MCS 0-94MCS 7-7611n_HT40MCS 0-91MCS 7-7311ax_HE20MCS 0-94MCS 11-6511ax_HE40MCS 0-91MCS 11-62Data Sheet Maximum EIRP5GHz 2.4GHzMode Rate Power(dBm)802.11a6 ~ 18 Mbps 35 24 ~ 54 Mbps 35802.11n_HT20 MCS 0 ~ 4 35 MCS 5 ~ 7 35802.11n_HT40 MCS 0 ~ 4 35 MCS 5 ~ 7 35802.11ac_VHT20 MCS 0 ~ 4 35 MCS 5 ~ 7 35 MCS 8 ~ 9 35802.11ac_VHT40 MCS 0 ~ 4 35 MCS 5 ~ 7 35 MCS 8 ~ 9 34802.11ac_VHT80 MCS 0 ~ 4 35 MCS 5 ~ 7 35 MCS 8 ~ 9 34802.11ax_HE20MCS 0 ~ 4 35 MCS 5 ~ 7 35 MCS 8 ~ 9 35 MCS 10- 11 34802.11ax_HE40MCS 0 ~ 4 35 MCS 5 ~ 7 35 MCS 8 ~ 9 34 MCS 10- 11 34802.11ax_HE80MCS 0 ~ 4 35MCS 5 ~ 7 34MCS 8 ~ 9 34MCS 10 ~ 11 34Mode!Rate!Power(dBm)!802.11b 1 ~ 11 Mbps 31802.11g6 ~ 18 Mbps 3124 ~ 54 Mbps 31802.11n_HT20MCS 0 ~ 4 31MCS 5 ~ 7 31802.11n_HT40MCS 0 ~ 4 31MCS 5 ~ 7 31802.11ax_HE20MCS 0 ~ 4 31MCS 5 ~ 7 29MCS 8 ~ 9 29MCS 10 ~ 11 29802.11ax_HE40MCS 0 ~ 4 31MCS 5 ~ 7 29MCS 8 ~ 9 28MCS 10 ~ 11 28Pe ak Gain:3.9dBiData SheetRegulatory Specifications RF a nd ElectromagneticCountry CertificationUSA FCC Part 15.247, 15.407 Canada ICEuropeCE EN300.328, EN301.893, EN301 489-1, EN55032, EN62311Countries covered under Europe certification: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czechia, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Ireland, Italy,Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, United Kingdom.*For complete country certification records, please visit the site: https:///en/support/product-certificateSafetyCountryCertificationUSA UL 60950 UL 2043 CanadacUL 60950European Union (EU) EN 60950, EN 62368-1 TaiwanCNS14336-1Ordering Information Access PointPart NumberDescriptionAP-C230 C-230 4x4 tri radio 802.11ax (WiFi 6) access point with internal antennas AP-C230-SS-5Y C-230 AP with 5 years bundled Cognitive Cloud SW subs cription AP-C230-SS-3Y C-230 AP with 3 years bundled Cognitive Cloud SW subscriptionPart NumberDescriptionPWR-AP-W4 Universal AC power supply for C-230, 12VDC, 3.3AHeadquartersSupportSales5453 Great America Parkway SantaClara, California 95054408-547-5500support-wifi@408-547-5502866-476-0000sales@ 408-547-5501 866-497-0000Copyright 2023 Arista Networks, Inc. The information contained herein is subject to change without notice. Arista, the Arista logo and EOS are trademarks of Arista Networks. Other product or service names may be trademarks or service marks of others.October 26, 2023Mounting OptionsFor details of mounting options, see the Access Points Mounting Brackets Guide P owerPWR-AP-PLUS-NAOne port PoE+ injector for use with all Access Point models. Includes USA power cord. Not for outdoor use.。

Eaton 132593Eaton Moeller® series PKZM4 Circuit-breaker, Ir= 24 - 32 A, Screw terminals, Terminations: IP2X PKZM4-32-CBGeneral specificationsEaton Moeller® series PKZM4 Motor-protective circuit-breaker1325934015081295289PKZM4-32-CB 160 mm 165 mm 55 mm 1.18 kgCSA-C22.2 No. 5-09 CSA Class No.: 1432-01 UL CECSA File No.: 165628 UL File No.: E31593 UL 489UL Category Control No.: DIVQ VDE 0660 CSAIEC/EN 60947-2Not usable as a main switchProduct NameCatalog Number EANModel Code Product Length/Depth Product Height Product Width Product Weight CertificationsCatalog NotesTurn buttonComplete device with protection unitFor protection of cables and conductors Line and cable protectionThree-pole 30,000 operations (at 400V, AC-3)30,000 Operations (Main conducting paths)DIN rail (top hat rail) mounting optional40 Operations/hIII3Motor protective circuit breakerFinger and back-of-hand proof, Protection against direct contact when actuated from front (EN 50274)6000 V AC15 g, Mechanical, According to IEC/EN 60068-2-27, Half-sinusoidal shock 10 msFeeder and branch circuit as BCPD, (UL/CSA)DIN rail (top hat rail) mounting-5 - 40 °C to IEC/EN 60947, VDE 0660≤ 0.25 %/K, residual error for T > 40°-25 - 55 °C, Operating rangeMax. 2000 m -25 °C 1 x (0.75 - 16) mm², ferrule to DIN 462282 x (0.75 - 16) mm²14 - 8Actuator type Features Functions Number of poles Lifespan, electricalLifespan, mechanicalMounting MethodOperating frequencyOvervoltage categoryPollution degreeProduct categoryProtectionRated impulse withstand voltage (Uimp) Shock resistanceSuitable forTemperature compensationAltitudeAmbient operating temperature - minTerminal capacity (flexible with ferrule)Terminal capacity (flexible with ferrule AWG)55 °C25 °C40 °C40 °C80 °CDamp heat, constant, to IEC 60068-2-78 Damp heat, cyclic, to IEC 60068-2-301 x (0.75 - 16) mm²2 x (0.75 - 16) mm²14 - 614 mm3.3 Nm, Screw terminals, Main cable50 Hz60 Hz32 A600 V690 V32 A60 kA DC, up to 250 V DC, Main conducting paths65 kA, 480 Y/277 V, SCCR (UL/CSA)22 kA, 600 Y/347 V, SCCR (UL/CSA)± 20% tolerance, Trip blocks496 A, Irm, Setting range max.Basic device fixed 15.5 x Iu, Trip Blocks Screw terminalsAmbient operating temperature - maxAmbient operating temperature (enclosed) - min Ambient operating temperature (enclosed) - max Ambient storage temperature - minAmbient storage temperature - maxClimatic proofing Terminal capacity (solid)Terminal capacity (solid/stranded AWG) Stripping length (main cable) Tightening torqueRated frequency - minRated frequency - maxRated operational current (Ie)Rated operational voltage (Ue) - min Rated operational voltage (Ue) - max Rated uninterrupted current (Iu)Short-circuit currentShort-circuit current rating (UL 489 CSA 22.2-5.09) Short-circuit release ConnectionNumber of auxiliary contacts (change-over contacts) Number of auxiliary contacts (normally closed contacts) Number of auxiliary contacts (normally open contacts)0 A 32 A 18 W0 W6 W32 A0 WMeets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to beOverload release current setting - min Overload release current setting - max 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 Pvs10.2.2 Corrosion resistance10.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shockevaluated.Does not apply, since the entire switchgear needs to beevaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.The panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Is the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.Save time and space thanks to the new link module PKZM0-XDM32ME Motor Starters in System xStart - brochureProduct Range Catalog Switching and protecting motorsSwitching and protecting motors - catalogDA-DC-00004232.pdfDA-DC-00004067.pdfeaton-manual-motor-starters-characteristic-pkzm4-characteristic-curve-002.epseaton-manual-motor-starters-pkzm4-characteristic-curve.epseaton-manual-motor-starters-characteristic-pkzm4-characteristic-curve.eps eaton-motorstarters-tripping-characteristic-pkzm4-mccb-characteristic-curve.epseaton-manual-motor-starters-mounting-l-pkz0-indicator-light-dimensions.epseaton-manual-motor-starters-circuit-breaker-pkzm4-dimensions.eps eaton-manual-motor-starters-circuit-breaker-pkzm4-3d-drawing.eps eaton-manual-motor-starters-pkzm4-mccb-3d-drawing.epsDA-CE-ETN.PKZM4-32-CBIL03402025Zeaton-motors-starters-pkzm4-motor-protective-circuit-breaker-instruction-leaflet-il03407012z.pdfWIN-WIN with push-in technologyMN03402002Z_DE_ENDA-CS-pkzm4_cbDA-CD-pkzm4_cb10.6 Incorporation of switching devices and components10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material 10.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility10.13 Mechanical function BrochuresCatalogsCertification reports Characteristic curveDrawingseCAD model Installation instructionsInstallation videos Manuals and user guides mCAD modelWiring diagramsEaton 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./socialmediaeaton-manual-motor-starters-transformer-pkzm0-wiring-diagram.eps。

CI1303数据手册高性能神经网络智能语音芯片SSOP24长8.6mm 宽6mm 高1.64mm•脑神经网络处理器（BNPU）–BNPU V3，支持DNN\TDNN\RNN\CNN 等神经网络及并行矢量运算，可实现语音识别、声纹识别、端侧NLP、命令词自学习、语音检测及深度学习降噪等功能•CPU 和存储器–CPU 主频可达220MHz –内置4MBytes Flash 存储器–内置640KBytes SRAM–内置512bit eFuse，可用于应用加密•Audio Codec–高性能低功耗audio ADC，SNR ≥95dB –低功耗audio DAC，SNR ≥95dB•音频接口–1路IIS 接口，支持主从可配–1路双通道PDM 接口•ADC 和PWM–内置1通道12bit SAR ADC –支持6路PWM 接口•GPIO–10个高速GPIO，响应速率可达20MHz –其中7个GPIO 支持5V 输入•复位和电源管理–内置电源管理单元PMU–PMU 输入电压范围: 3.6V 到5.5V –内置上电复位（POR）–内置电压检测(PVD)•时钟–内置RC 振荡器，也支持外接晶体振荡器；开发者可根据不同应用方案选择采用内置RC 或者外接晶体作为芯片时钟源•通讯接口–1路IIC 接口–3路UART 接口，支持5V 通讯，支持最高3Mbps 速率•定时器和看门狗–内置4组32位定时器和2组看门狗目录1概述 (3)1.1功能描述 (3)1.2芯片规格 (4)2引脚图和功能描述 (6)2.1引脚图 (6)2.2管脚描述 (7)2.3复用功能 (9)3电气特性 (10)4封装信息 (12)5订购信息 (12)6应用方案 (14)6.1应用参考电路图 (14)6.2应用其它注意事项 (15)1概述1.1功能描述CI1303是启英泰伦研发的新一代高性能神经网络智能语音芯片，集成了启英泰伦自研的脑神经网络处理器BNPU V3和CPU内核，系统主频可达220MHz，内置高达640KByte的SRAM，集成PMU电源管理单元和RC振荡器，集成双通道高性能低功耗Audio Codec和多路UART、IIC、IIS、PWM、GPIO、PDM等外围控制接口。

TC1303 DFNAdjustable OutputDemo BoardUser’s Guide © 2006 Microchip Technology Inc.DS51617ADS51617A-page ii © 2006 Microchip Technology Inc.Information contained in this publication regarding device applications and the like is provided only for your convenience and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications.MICROCHIP MAKES NO REPRESENTATIONS OR WARRANTIES OF ANY KIND WHETHER EXPRESS OR IMPLIED, WRITTEN OR ORAL, STATUTORY OR OTHERWISE, RELATED TO THE INFORMATION,INCLUDING BUT NOT LIMITED TO ITS CONDITION,QUALITY , PERFORMANCE, MERCHANTABILITY OR FITNESS FOR PURPOSE . Microchip disclaims all liability arising from this information and its use. Use of Microchip devices in life support and/or safety applications is entirely at the buyer’s risk, and the buyer agrees to defend, indemnify and hold harmless Microchip from any and all damages, claims,suits, or expenses resulting from such use. No licenses are conveyed, implicitly or otherwise, under any Microchip intellectual property rights.TrademarksThe Microchip name and logo, the Microchip logo, Accuron, dsPIC, K EE L OQ , micro ID , MPLAB, PIC, PICmicro, PICSTART, PRO MATE, PowerSmart, rfPIC and SmartShunt areregistered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries.AmpLab, FilterLab, Migratable Memory, MXDEV, MXLAB, SEEVAL, SmartSensor and The Embedded Control Solutions Company are registered trademarks of Microchip Technology Incorporated in the U.S.A.Analog-for-the-Digital Age, Application Maestro, CodeGuard, dsPICDEM, , dsPICworks, ECAN, ECONOMONITOR, FanSense, FlexROM, fuzzyLAB,In-Circuit Serial Programming, ICSP , ICEPIC, Linear Active Thermistor, Mindi, MiWi, MPASM, MPLIB, MPLINK, PICkit, PICDEM, , PICLAB, PICtail, PowerCal, PowerInfo, PowerMate, PowerTool, REAL ICE, rfLAB, rfPICDEM, Select Mode, Smart Serial, SmartTel, TotalEndurance, UNI/O, WiperLock and ZENA are trademarks of Microchip Technology Incorporated in the U.S.A. and other countries.SQTP is a service mark of Microchip Technology Incorporated in the U.S.A.All other trademarks mentioned herein are property of their respective companies.© 2006, Microchip Technology Incorporated, Printed in the U.S.A., All Rights Reserved.Printed on recycled paper.Note the following details of the code protection feature on Microchip devices:•Microchip products meet the specification contained in their particular Microchip Data Sheet.•Microchip believes that its family of products is one of the most secure families of its kind on the market today, when used in the intended manner and under normal conditions.•There are dishonest and possibly illegal methods used to breach the code protection feature. All of these methods, to ourknowledge, require using the Microchip products in a manner outside the operating specifications contained in Microchip’s Data Sheets. Most likely, the person doing so is engaged in theft of intellectual property.•Microchip is willing to work with the customer who is concerned about the integrity of their code.•Neither Microchip nor any other semiconductor manufacturer can guarantee the security of their code. Code protection does not mean that we are guaranteeing the product as “unbreakable.”Code protection is constantly evolving. We at Microchip are committed to continuously improving the code protection features of our products. Attempts to break Microchip’s code protection feature may be a violation of the Digital Millennium Copyright Act. If such acts allow unauthorized access to your software or other copyrighted work, you may have a right to sue for relief under that Act.Microchip received ISO/TS-16949:2002 certification for its worldwide headquarters, design and wafer fabrication facilities in Chandler and Tempe, Arizona, Gresham, Oregon and Mountain View, California. The Company’s quality system processes and procedures are for its PICmicro ® 8-bit MCUs, K EE L OQ ® code hopping devices, Serial EEPROMs, microperipherals, nonvolatile memory and analogproducts. In addition, Microchip’s quality system for the design and manufacture of development systems is ISO 9001:2000 certified.TC1303 DFN ADJUSTABLE OUTPUTDEMO BOARD USER’S GUIDETable of ContentsPreface (1)Introduction (1)Document Layout (1)Conventions Used in this Guide (2)Recommended Reading (2)The Microchip Web Site (3)Customer Support (3)Document Revision History (3)Chapter 1. Product Overview1.1 Introduction (5)1.2 What is the TC1303 DFN Adjustable Output Demo Board? (6)1.3 What the TC1303 DFN Adjustable Output Demo Board Kit includes (6)Chapter 2. Installation and Operation2.1 Introduction (7)2.2 Features (7)2.3 Getting Started (7)Appendix A. Schematic and LayoutsA.1 Introduction (11)A.2 Board – Schematic (12)A.3 Board – Top Silk Screen Layer (13)A.4 Board – Top Metal Layer (14)A.5 Board – Bottom Metal Layer (15)Appendix B. Bill Of Materials (BOM)Worldwide Sales and Service (18)© 2006 Microchip Technology Inc.DS51617A-page iiiTC1303 DFN Adjustable Output Demo Board User’s Guide NOTES:DS51617A-page iv© 2006 Microchip Technology Inc.TC1303 DFN ADJUSTABLE OUTPUTDEMO BOARD USER’S GUIDEPrefaceAll documentation becomes dated, and this manual is no exception. Microchip tools and documentation are constantly evolving to meet customer needs, so some actual dialogsand/or tool descriptions may differ from those in this document. Please refer to our web site () to obtain the latest documentation available.Documents are identified with a “DS” number. This number is located on the bottom of each page, in front of the page number. The numbering convention for the DS number is“DSXXXXXA”, where “XXXXX” is the document number and “A” is the revision level of the document.For the most up-to-date information on development tools, see the MPLAB® IDE on-line help.Select the Help menu, and then Topics to open a list of available on-line help files.INTRODUCTIONThis chapter contains general information that will be useful to know before using theTC1303 DFN Adjustable Output Demo Board . Items discussed in this chapter include:•Document Layout•Conventions Used in this Guide•Recommended Reading•The Microchip Web Site•Customer Support•Document Revision HistoryDOCUMENT LAYOUTThis document describes how to use the TC1303 DFN Adjustable Output Demo Board. The manual layout is as follows:•Chapter 1.“Product Overview” – Important information about the TC1303 DFNAdjustable Output Demo Board .•Chapter 2.“Installation and Operation” – Includes instructions on how to getstarted with this user’s guide and a description of the user’s guide.•Appendix A.“Schematic and Layouts” – Shows the schematic and layoutdiagrams for the TC1303 DFN Adjustable Output Demo Board .•Appendix B.“Bill Of Materials (BOM)” – Lists the parts used to build theTC1303 DFN Adjustable Output Demo Board .© 2006 Microchip Technology Inc.DS51617A-page 1TC1303 DFN Adjustable Output Demo Board User’s GuideDS51617A-page 2© 2006 Microchip Technology Inc.CONVENTIONS USED IN THIS GUIDEThis manual uses the following documentation conventions:RECOMMENDED READINGThis user's guide describes how to use TC1303 DFN Adjustable Output Demo Board. The following Microchip documents are available and recommended as supplemental reference resources.TC1303A/TC1303B/TC1303C Data Sheet, "500mA Synchronous Buck Regulator, + 300mA LDO with Power-Good Output" (DS21949)This data sheet provides detailed information regarding the TC1303 product family.DOCUMENTATION CONVENTIONSDescriptionRepresentsExamplesArial font:Italic characters Referenced books MPLAB ® IDE User’s Guide Emphasized text ...is the only compiler...Initial capsA window the Output window A dialogthe Settings dialogA menu selectionselect Enable Programmer QuotesA field name in a window or dialog“Save project before build”Underlined, italic text with right angle bracket A menu pathFile>SaveBold characters A dialog button Click OKA tabClick the Power tab ‘b nnnnA binary number where n is a digit‘b00100, ‘b10Text in angle brackets < > A key on the keyboard Press <Enter>, <F1>Courier font:Plain CourierSample source code #define START Filenames autoexec.bat File paths c:\mcc18\hKeywords_asm, _endasm, static Command-line options -Opa+, -Opa-Bit values0, 1Italic Courier A variable argumentfile .o , where file can be any valid filename0x nnnnA hexadecimal number where n is a hexadecimal digit 0xFFFF , 0x007A Square brackets [ ]Optional arguments mcc18 [options] file[options]Curly brackets and pipe character: { | }Choice of mutually exclusive arguments; an OR selection errorlevel {0|1}Ellipses...Replaces repeated text var_name [,var_name...]Represents code supplied by user void main (void){ ...}PrefaceTHE MICROCHIP WEB SITEMicrochip provides online support via our web site at . This website is used as a means to make files and information easily available to customers.Accessible by using your favorite Internet browser, the web site contains the followinginformation:•Product Support – Data sheets and errata, application notes and sampleprograms, design resources, user’s guides and hardware support documents,latest software releases and archived software•General Technical Support – Frequently Asked Questions (FAQs), technicalsupport requests, online discussion groups, Microchip consultant programmember listing•Business of Microchip – Product selector and ordering guides, latest Microchippress releases, listing of seminars and events, listings of Microchip sales offices,distributors and factory representativesCUSTOMER SUPPORTUsers of Microchip products can receive assistance through several channels:•Distributor or Representative•Local Sales Office•Field Application Engineer (FAE)•Technical Support•Development Systems Information LineCustomers should contact their distributor, representative or field application engineerfor support. Local sales offices are also available to help customers. A listing of salesoffices and locations is included in the back of this document.Technical support is available through the web site at: In addition, there is a Development Systems Information Line which lists the latestversions of Microchip's development systems software products. This line also pro-vides information on how customers can receive currently available upgrade kits.The Development Systems Information Line numbers are:1-800-755-2345 – United States and most of Canada1-480-792-7302 – Other International LocationsDOCUMENT REVISION HISTORYRevision A (July 2006)•Initial Release of this Document.© 2006 Microchip Technology Inc.DS51617A-page 3TC1303 DFN Adjustable Output Demo Board User’s Guide NOTES:DS51617A-page 4© 2006 Microchip Technology Inc.TC1303 DFN ADJUSTABLE OUTPUTDEMO BOARD USER’S GUIDE© 2006 Microchip Technology Inc.DS51617A-page 5Chapter 1. Product Overview1.1INTRODUCTIONStep-down-converter choices include a variety of linear and switching regulators. The TC1303C Adjustable Output Regulator provides a unique combination of a 500mA synchronous buck regulator and 300mA Low-Dropout Regulator (LDO) with a Power-Good (PG) monitor to provide a highly integrated solution of dual supply applications for devices like Cellular Phones, Portable Computers, USB-Powered Devices, Hand Held instruments, etc. The device provides a very cost-effective solution with minimal board space because of the high-frequency operation of the buckconverter, which reduces the size requirements of the external inductor and capacitor, the minimal external component requirement by the LDO and the small DFN (dual flat no leads) package size.The 500mA synchronous buck regulator switches at a fixed frequency of 2.0MHz when the load is heavy, providing a low-noise, small-size solution. When the load on the buck output is reduced to light levels, it changes operation to a pulse frequency modulation (PFM) mode to minimize quiescent current drawn from the battery. No inter-vention is necessary for smooth transition from one mode to another.The LDO provides a 300mA auxiliary output that requires a single 1µF ceramic output capacitor, minimizing board area and cost. Typical dropout voltage for the LDO output is 137mV for a 200mA load.For the TC1303C, the power-good output is based on the regulation of the buck regu-lator output, the LDO output or the combination of both. Additional protection features include UVLO, overtemperature and overcurrent protection on both outputs.This chapter covers the following topics.•What is the TC1303 DFN Adjustable Output Demo Board?•What the TC1303 DFN Adjustable Output Demo Board Kit includes.FIGURE 1-1:TC1303 DFN Adjustable Output Demo Board Block Diagram.INPUT VOLTAGE:2.7V - 5.5VResistor DividerNetworkLDO Regulator Output Voltage 2.5V @300mASwitch S1 for SHDN1 and SHDN2TC1303C500mA Synchronous Buck Regulator + 300mA LDO with Power-Good OutputBuck Regulator Output Voltage 1.8V,2.5V,3.3V,4.0V @500mATC1303 DFN Adjustable Output Demo Board User’s Guide1.2WHAT IS THE TC1303 DFN ADJUSTABLE OUTPUT DEMO BOARD?The TC1303 DFN Adjustable Output demo board demonstrates the use of Microchip’sTC1303C device in applications that require dual supply voltage.The demo board isused to evaluate the TC1303C device over the input voltage range, output voltage andcurrent range for both the synchronous buck regulator output and the low dropout linearregulator output.Test points are provided to monitor the Input voltage, Output voltage, shut down controland power good signal.1.3WHAT THE TC1303 DFN ADJUSTABLE OUTPUT DEMO BOARD KITINCLUDESThis TC1303 DFN Adjustable Output Demo Board kit includes:•TC1303 DFN Adjustable Output Demo Board (102-00092)•TC1303 DFN Adjustable Output Demo Board User’s Guide(Electronic version on CD-ROM)•Analog and Interface Products Demonstration Boards CD-ROM (DS21912)DS51617A-page 6© 2006 Microchip Technology Inc.TC1303 DFN ADJUSTABLE OUTPUTDEMO BOARD USER’S GUIDE Chapter 2. Installation and Operation2.1INTRODUCTIONThe TC1303 DFN Adjustable Output Demo Board demonstrates the use of Microchip'sTC1303C 500mA Synchronous Buck Regulator, + 300mA LDO with Power-Goodoutput device for dual supply voltage applications.2.2FEATURESTheTC1303 DFN Adjustable Output Demo Board has the following features.•Test points for applying Input voltage (2.7V to 5.5V)•Using Potentiometer, one can set the Buck regulator output voltage from 1.8V to4.0V•Fixed LDO regulator output voltage of 2.5V•Test points for connecting external loads:-Buck regulator Output V OUT1 = 0mA to 500mA-LDO regulator Output V OUT2 = 0mA to 300mA•Test points for monitoring:-Power-Good Output for both V OUT1 and V OUT2-Shutdown for V OUT1 and Shutdown for V OUT2-Feedback voltage•Switch S1 can used to perform the shutdown operation on V OUT1 and V OUT22.3GETTING STARTEDThe TC1303 DFN Adjustable Output Demo Board is fully assembled and tested forevaluating the TC1303C device. The board requires the use of an external input volt-age source of (2.7V to 5.5V) and maximum external load of 500mA for buck regulatoroutput and 300mA for LDO regulator output.2.3.1Power Input and Output Connection2.3.1.1POWERING THE TC1303 DFN ADJUSTABLE OUTPUT DEMO BOARDFor normal operation, it is necessary to pull up the shutdown pins of TC1303C device,the pull up is provided through switch S1 provided on-board.1.Apply the Input voltage (2.7V to 5.5V for normal operation) to the board testpoints to TP1 (+V IN) and TP2 (P GND) (refer to Figure2-1).2.Connect the buck regulator load (0mA to 500mA for normal operation) to theboard test points TP3 (V OUT1) and TP4 (P GND).The output voltage can be variedfrom 1.8V to 4.0V using the potentiometer provided on-board. By turning thepotentiometer clockwise or counterclockwise, the voltage can be increased ordecreased within the 1.8V to 4.0V range.3.Connect the LDO regulator load (0mA to 300mA for normal operation) to testpoint TP6 (V OUT2) and TP10 (A GND). The LDO regulator provides a fixed outputvoltage of 2.5V.© 2006 Microchip Technology Inc.DS51617A-page 7TC1303 DFN Adjustable Output Demo Board User’s GuideDS51617A-page 8© 2006 Microchip Technology Inc.4.The power-good output signal is available on the test point TP5 (PG).5.The switch S1, position 1 and position 2 are used to determine the SHDN1 and SHDN2 modes for the TC1303C device.6.With switch S1, position 1 pushed to the right, the SHDN1 pin is pulled up andthe output V OUT1 of the TC1303C device is enabled. When switch S1, position 1 is to the left, the TC1303C device is in low quiescent current SHDN1 mode andthe output V OUT1 is disabled. The signal is available on test point TP8.7.Similarly with switch S1, position 2 pushed to the right, the SHDN2 pin is pulledup and the output V OUT2 of the TC1303C device is enabled. When switch S1, position 2 is to the left, the TC1303C device is in low quiescent current SHDN2mode and the output V OUT2 is disabled. The signal is available on test point TP7.FIGURE 2-1:Setup Configuration DiagramInstallation and Operation© 2006 Microchip Technology Inc.DS51617A-page 92.3.1.2APPLYING LOAD TO TC1303 DFN ADJUSTABLE OUTPUT DEMOBOARDA variable resistive load can be used to verify the line and load regulation. The loadresistance is connected between the points TP3 and TP4 for the buck regulator. Tomeasure the output voltage, connect the common point of multi-meter to TP4 and thepositive terminal to TP3. By varying the load one can verify the load regulation bymeasuring the output voltage over entire load range of 0mA to 500mA. Similarly, byvarying the line voltage from 2.7V to 5.5V and checking the output voltage, the lineregulation can be calculated.The best way to evaluate the TC1303 DFN Adjustable Output Demo Board is to dig intothe circuit. Measure voltages and currents with a DVM and probe the board with anoscilloscope.Calculating Adjustable Output VoltageThe buck regulator output voltage is adjustable by using two external resistors as avoltage divider. For adjustable-output voltages, it is recommended that the top resistordivider value be 200kohm. The bottom resistor can be calculated using the followingformula.EQUATION 2-1:ExampleFor setting the output voltage to 3.2V.EQUATION 2-2:The R BOT resistor can be set using the potentiometer (R7) provided on board so as toprovide an output voltage of 3.2V.R BOT R TOP V FB V OUT1V FB –------------------------------------⎠⎟⎞⎝⎜⎛×=Where:R TOP=Top resistor (200 kohm)V OUT1=Output Voltage V FB=0.8V R BOT =Bottom resistorWhere:R TOP=200 kohm V OUT1= 3.2V V FB =0.8VR BOT 200 kohm 0.8V 3.2V 0.8V –----------------------------⎠⎞⎝⎛×=66.66 kohm=TC1303 DFN Adjustable Output Demo Board User’s Guide NOTES:DS51617A-page 10© 2006 Microchip Technology Inc.TC1303 DFN ADJUSTABLE OUTPUTDEMO BOARD USER’S GUIDE Appendix A. Schematic and LayoutsA.1INTRODUCTIONThis appendix contains the following schematics and layouts for the TC1303 DFNAdjustable Output Demo board:•Board – Schematic•Board – Top Silk Screen Layer•Board – Top Metal Layer•Board – Bottom Metal Layer© 2006 Microchip Technology Inc.DS51617A-page 11TC1303 DFN Adjustable Output Demo Board User’s GuideDS51617A-page 12© 2006 Microchip Technology Inc.Schematic and Layouts© 2006 Microchip Technology Inc.DS51617A-page 13TC1303 DFN Adjustable Output Demo Board User’s GuideDS51617A-page 14© 2006 Microchip Technology Inc.Schematic and Layouts© 2006 Microchip Technology Inc.DS51617A-page 15TC1303 DFN Adjustable Output Demo Board User’s Guide NOTES:DS51617A-page 16© 2006 Microchip Technology Inc.TC1303 DFN ADJUSTABLE OUTPUTDEMO BOARD USER’S GUIDE© 2006 Microchip Technology Inc.DS51617A-page 17Appendix B. Bill Of Materials (BOM)TABLE B-1:BILL OF MATERIALS (BOM)QTY ReferenceDescriptionManufacturerPart Number 1C1Cap Ceramic 4.7μF 6.3V X5R 0805Panasonic ® - ECG ECJ-2FB0J475K 1C2Cap 10uF 6.3V Ceramic X5R 0805Panasonic - ECG ECJ-2FB0J106M 1C3Cap 33pF 50V Cerm Chip 0805 SMD Panasonic - ECG ECJ-2VC1H330J 2C4,C5Cap 1uF 16V Ceramic 0805 X5R Panasonic - ECG ECJ-2FB1C105K 1L1Inductor power shield 4.7μH Coiltronics/Div of Coo-per/Bussmann SD3118-4R7-R 3R1, R2, R3Res 1.0M Ohm 1/8W 5% 0805 SMD Panasonic - ECG ERJ-6GEYJ105V 1R4Res 200K Ohm 1/8W 1% 0805 SMD Panasonic - ECG ERJ-6ENF2003V 1R5Res 4.99K Ohm 1/8W 1% 0805 SMD Panasonic - ECG ERJ-6ENF4991V 1R6Res 49.9K Ohm 1/8W 1% 0805 SMD Panasonic - ECG ERJ-6ENF4992V 1R7Trimpot 500K Ohm 11 Trn 5mm Top Murata Electronics ®North AmericaPVG5A504C01R001S1Switch Dip 2 Pos half pitch SMTITT Industries / C&K Div TDA02H0SK110TP1, TP2, TP3, TP4, TP5, TP6, TP7, TP8, TP9, TP10PC Test point compact SMTKeystone ® Electronics50161U1IC PWM 500mA/ LDO 300mA 10 DFN Microchip Technology Inc TC1303C-ZI0EMFAMERICASCorporate Office2355 West Chandler Blvd. Chandler, AZ 85224-6199 Tel: 480-792-7200Fax: 480-792-7277 Technical Support: Web Address:Asia Pacific OfficeSuites 3707-14, 37th Floor Tower 6, The Gateway Habour City, KowloonHong KongTel: 852-2401-1200Fax: 852-2401-3431 AtlantaAlpharetta, GATel: 770-640-0034Fax: 770-640-0307BostonWestborough, MATel: 774-760-0087Fax: 774-760-0088 ChicagoItasca, ILTel: 630-285-0071Fax: 630-285-0075DallasAddison, TXTel: 972-818-7423Fax: 972-818-2924DetroitFarmington Hills, MITel: 248-538-2250Fax: 248-538-2260 KokomoKokomo, INTel: 765-864-8360Fax: 765-864-8387Los AngelesMission Viejo, CATel: 949-462-9523Fax: 949-462-9608San JoseMountain View, CATel: 650-215-1444Fax: 650-961-0286 TorontoMississauga, Ontario, CanadaTel: 905-673-0699Fax: 905-673-6509ASIA/PACIFICAustralia - SydneyTel: 61-2-9868-6733Fax: 61-2-9868-6755China - BeijingTel: 86-10-8528-2100Fax: 86-10-8528-2104China - ChengduTel: 86-28-8676-6200Fax: 86-28-8676-6599China - FuzhouTel: 86-591-8750-3506Fax: 86-591-8750-3521China - Hong Kong SARTel: 852-2401-1200Fax: 852-2401-3431China - QingdaoTel: 86-532-8502-7355Fax: 86-532-8502-7205China - ShanghaiTel: 86-21-5407-5533Fax: 86-21-5407-5066China - ShenyangTel: 86-24-2334-2829Fax: 86-24-2334-2393China - ShenzhenTel: 86-755-8203-2660Fax: 86-755-8203-1760China - ShundeT el: 86-757-2839-5507Fax: 86-757-2839-5571China - WuhanTel: 86-27-5980-5300Fax: 86-27-5980-5118China - XianTel: 86-29-8833-7250Fax: 86-29-8833-7256ASIA/PACIFICIndia - BangaloreTel: 91-80-4182-8400Fax: 91-80-4182-8422India - New DelhiTel: 91-11-5160-8631Fax: 91-11-5160-8632India - PuneTel: 91-20-2566-1512Fax: 91-20-2566-1513Japan - YokohamaTel: 81-45-471- 6166Fax: 81-45-471-6122Korea - GumiTel: 82-54-473-4301Fax: 82-54-473-4302Korea - SeoulTel: 82-2-554-7200Fax: 82-2-558-5932 or82-2-558-5934Malaysia - PenangTel: 60-4-646-8870Fax: 60-4-646-5086Philippines - ManilaTel: 63-2-634-9065Fax: 63-2-634-9069SingaporeTel: 65-6334-8870Fax: 65-6334-8850Taiwan - Hsin ChuTel: 886-3-572-9526Fax: 886-3-572-6459Taiwan - KaohsiungTel: 886-7-536-4818Fax: 886-7-536-4803Taiwan - TaipeiTel: 886-2-2500-6610Fax: 886-2-2508-0102Thailand - BangkokTel: 66-2-694-1351Fax: 66-2-694-1350EUROPEAustria - WelsTel: 43-7242-2244-3910Fax: 43-7242-2244-393Denmark - CopenhagenTel: 45-4450-2828Fax: 45-4485-2829France - ParisTel: 33-1-69-53-63-20Fax: 33-1-69-30-90-79Germany - MunichTel: 49-89-627-144-0Fax: 49-89-627-144-44Italy - MilanTel: 39-0331-742611Fax: 39-0331-466781Netherlands - DrunenTel: 31-416-690399Fax: 31-416-690340Spain - MadridTel: 34-91-708-08-90Fax: 34-91-708-08-91UK - WokinghamTel: 44-118-921-5869Fax: 44-118-921-5820 W ORLDWIDE S ALES AND S ERVICE06/08/06DS51617A-page 18© 2006 Microchip Technology Inc.。

TC1303BFeatures•Dual-Output Regulator (500mA Buck Regulator and 300mA Low-Dropout Regulator)•Power-Good Output with 300ms Delay•Total Device Quiescent Current = 65µA, Typ.•Independent Shutdown for Buck and LDO Outputs•Both Outputs Internally Compensated •Synchronous Buck Regulator:-Over 90% Typical Efficiency- 2.0MHz Fixed Frequency PWM(Heavy Load)-Low Output Noise-Automatic PWM to PFM mode transition-Adjustable (0.8V to 4.5V) and Standard FixedOutput Voltages (0.8V, 1.2V, 1.5V, 1.8V, 2.5V,3.3V)•Low-Dropout Regulator:-Low-Dropout Voltage=137mV Typ. @200mA-Standard Fixed Output Voltages(1.5V, 1.8V, 2.5V, 3.3V)•Power-Good Function:-Monitors LDO Output Function (TC1303B)-300ms Delay Used for Processor Reset •Small 10-pin 3X3 DFN or MSOP Package Options•Operating Junction Temperature Range:--40°C to +125°C•Undervoltage Lockout (UVLO)•Output Short Circuit Protection •Overtemperature ProtectionApplications•Cellular Phones•Portable Computers•USB Powered Devices•Handheld Medical Instruments•Organizers and PDAs DescriptionThe TC1303B combines a 500mA synchronous buck regulator and 300mA Low-Dropout Regulator (LDO) with a power-good monitor to provide a highly integrated solution for devices that require multiple supply voltages. The unique combination of an integrated buck switching regulator and low-dropout linear regulator provides the lowest system cost for dual-output voltage applications that require one lower processor core voltage and one higher bias voltage. The 500mA synchronous buck regulator switches at a fixed frequency of 2.0MHz when the load is heavy providing a low noise, small-size solution. When the load on the buck output is reduced to light levels, it changes operation to a Pulse Frequency Modulation (PFM) mode to minimize quiescent current draw from the battery. No intervention is necessary for smooth transition from one mode to another.The LDO provides a 300mA auxiliary output that requires a single 1µF ceramic output capacitor, minimizing board area and cost. The typical dropout voltage for the LDO output is 137mV for a 200mA load.For the TC1303B, the power-good output logic level is based on the regulation of the LDO output only. The buck regulator can be turned on and off without affecting the power-good signal.The TC1303B is available in either the 10-pin DFN or MSOP package.Additional protection features include: UVLO, overtemperature and overcurrent protection on both outputs.For a complete listing of TC1303B standard parts, con-sult your Microchip representative.Package Type10-Lead DFN12687910543SHDN2V IN2V OUT2A GNDP GNDL XV IN1SHDN1V FB1/V OUT1PG10-Lead MSOP12687910543SHDN2V IN2V OUT2A GNDP GNDL XV IN1SHDN1V FB1/V OUT1PG500mA Synchronous Buck Regulator,+ 300mA LDO with Power-Good Output© 2005 Microchip Technology Inc.DS21949A-page 1TC1303BDS21949A-page 2© 2005 Microchip Technology Inc.Functional Block DiagramSynchronous BUCK RegulatorNDRVPDRVP GNDV IN1L XDriverP GNDControlV OUT1/V FB1V IN2SHDN1PGV REFLDOV OUT2A GNDA GNDP GNDUndervoltage LockoutUVLOUVLOSHDN2V REFTC1303BPG Generator with Delay(UVLO)© 2005 Microchip Technology Inc.DS21949A-page 3TC1303BTypical Application Circuits10-Lead DFN12687910543SHDN2V IN2V OUT2A GNDP GND L XV IN1SHDN1V OUT1PG4.7µFProcessor RESETInput Voltage 4.7µH4.7µF2.1V @1µF3.3V @4.5V to5.5V Adjustable Output Application121k Ω200k Ω 4.99k Ω33pF 12687910543SHDN2V IN2V OUT2A GNDP GND L X V IN1SHDN1V OUT1PG4.7µFProcessor RESET4.7µH4.7µF1.5V @ 500mA1µF2.5V @ 300mA2.7V to 4.2VTC1303BV OUT1V OUT2V IN V OUT1V OUT21.0µF*Optional Capacitor V IN2300mA500mANote: Connect DFN package exposed pad to A GND .10-Lead MSOPFixed Output ApplicationTC1303BNoteTC1303BDS21949A-page 4© 2005 Microchip Technology Inc.1.0ELECTRICALCHARACTERISTICSAbsolute Maximum Ratings †V IN - A GND ......................................................................6.0V All Other I/O ..............................(A GND - 0.3V) to (V IN + 0.3V)L X to P GND ..............................................-0.3V to (V IN + 0.3V)P GND to A GND ...................................................-0.3V to +0.3V Output Short Circuit Current .................................Continuous Power Dissipation (Note 7)..........................Internally Limited Storage temperature.....................................-65°C to +150°C Ambient Temp. with Power Applied.................-40°C to +85°C Operating Junction Temperature...................-40°C to +125°C ESD protection on all pins (HBM)....................................... 3kV† Notice: Stresses above those listed under “Maximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operational listings of this specification is not implied.Exposure to maximum rating conditions for extended periods may affect device reliability.DC CHARACTERISTICSElectrical Characteristics: V IN1=V IN2=SHDN1,2=3.6V,C OUT1=C IN =4.7µF, C OUT2=1µF,L =4.7µH, V OUT1 (ADJ)=1.8V, I OUT1=100ma, I OUT2=0.1mA T A =+25°C. Boldface specifications apply over the T A range of -40°C to +85°C .ParametersSymMinTypMaxUnitsConditionsInput/Output Characteristics Input VoltageV IN 2.7— 5.5V Note 1, Note 2, Note 8Maximum Output Current I OUT1_MAX 500——mA Note 1Maximum Output Current I OUT2_MAX 300——mA Note 1Shutdown CurrentCombined V IN1 and V IN2 Current I IN_SHDN—0.051µA SHDN1=SHDN2=GND TC1303B Operating I Q I Q—65.0110µA SHDN1=SHDN2=V IN2I OUT1=0mA,I OUT2=0mA Synchronous Buck I Q —38—µA SHDN1 = V IN , SHDN2 = GND LDO I Q + Voltage Monitor I Q —46—µA SHDN1 = GND, SHDN2 = V IN2Shutdown/UVLO/Thermal Shutdown CharacteristicsSHDN1,SHDN2,Logic Input Voltage Low V IL ——15%V IN V IN1=V IN2=2.7V to 5.5V SHDN1,SHDN2,Logic Input Voltage High V IH 45——%V IN V IN1=V IN2=2.7V to 5.5V SHDN1,SHDN2,Input Leakage Current I IN -1.0±0.011.0µAV IN1=V IN2=2.7V to 5.5V SHDNX =GND SHDNY =V IN Thermal ShutdownT SHD —165—°C Note 6, Note 7Thermal Shutdown Hysteresis T SHD-HYS —10—°C Undervoltage Lockout (V OUT1 and V OUT2)UVLO 2.4 2.55 2.7V V IN1 FallingUndervoltage Lockout Hysteresis UVLO -HYS—200—mVNote 1:The Minimum V IN has to meet two conditions: V IN ≥ 2.7V and V IN ≥ V RX + V DROPOUT , V RX = V R1 or V R2.2:V RX is the regulator output voltage setting.3:TCV OUT2 = ((V OUT2max – V OUT2min ) * 106)/(V OUT2 * D T ).4:Regulation is measured at a constant junction temperature using low duty cycle pulse testing. Load regulation is tested over a load range from 0.1mA to the maximum specified output current.5:Dropout voltage is defined as the input to output voltage differential at which the output voltage drops 2% below its nominal value measured at a 1V differential.6:The maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junctiontemperature and the thermal resistance from junction to air. (i.e. T A , T J , θJA ). Exceeding the maximum allowable power dissipation causes the device to initiate thermal shutdown.7:The integrated MOSFET switches have an integral diode from the L X pin to V IN , and from L X to P GND . In cases where these diodes are forward-biased, the package power dissipation limits must be adhered to. Thermal protection is not able to limit the junction temperature for these cases.8:V IN1 and V IN2 are supplied by the same input source.TC1303BSynchronous Buck Regulator (V OUT1)Adjustable Output Voltage Range V OUT10.8— 4.5VAdjustable Reference FeedbackVoltage (V FB1)V FB10.780.80.82VFeedback Input Bias Current(I FB1)I VFB1—-1.5—nAOutput Voltage Tolerance Fixed(V OUT1)V OUT1-2.5±0.3+2.5%Note2Line Regulation (V OUT1)V LINE-REG—0.2—%/V V IN =V R+1V to 5.5V,I LOAD = 100mALoad Regulation (V OUT1)V LOAD-REG—0.2—%V IN=V R+1.5V,I LOAD=100mA to500mA (Note1)Dropout Voltage V OUT1V IN – V OUT1—280—mV I OUT1 = 500mA, V OUT1=3.3V(Note5)Internal Oscillator Frequency F OSC 1.6 2.0 2.4MHzStart Up Time T SS—0.5—ms T R = 10% to 90%R DSon P-CHANNEL R DSon-P—450650mΩI P=100mAR DSon N-CHANNEL R DSon-N—450650mΩI N=100mAL X Pin Leakage Current I LX-1.0±0.01 1.0μA SHDN = 0V, V IN = 5.5V, L X = 0V,L X = 5.5VPositive Current Limit Threshold+I LX(MAX)—700—mALDO Output (V OUT2)Output Voltage Tolerance (V OUT2)V OUT2-2.5±0.3+2.5%Note2Temperature Coefficient TCV OUT—25—ppm/°C Note3Line RegulationΔV OUT2/ΔV IN-0.2±0.02+0.2%/V(V R+1V) ≤ V IN≤ 5.5VLoad Regulation, V OUT2≥ 2.5VΔV OUT2/I OUT2-0.750.1+0.75%I OUT2 = 0.1mA to 300mA(Note4)Load Regulation, V OUT2 < 2.5VΔV OUT2/I OUT2-0.900.1+0.90%I OUT2 = 0.1mA to 300mA(Note4)Dropout Voltage V OUT2 > 2.5V V IN – V OUT2—137205300500mV I OUT2 = 200mA (Note5)I OUT2=300mAPower Supply Rejection Ratio PSRR—62—dB f ≤ 100Hz, I OUT1 = I OUT2 = 50mA,C IN = 0µFOutput Noise eN— 1.8—µV/(Hz)½ f ≤ 1kHz, I OUT2=50mA,SHDN1=GNDOutput Short Circuit Current (Average)I OUT sc2—240—mA R LOAD2≤ 1ΩDC CHARACTERISTICS (CONTINUED)Electrical Characteristics: V IN1=V IN2=SHDN1,2=3.6V,C OUT1=C IN=4.7µF, C OUT2=1µF,L=4.7µH, V OUT1 (ADJ)=1.8V,I OUT1=100ma, I OUT2=0.1mA T A=+25°C. Boldface specifications apply over the T A range of -40°C to +85°C.Parameters Sym Min Typ Max Units ConditionsNote1:The Minimum V IN has to meet two conditions: V IN≥ 2.7V and V IN≥ V RX + V DROPOUT, V RX = V R1 or V R2.2:V RX is the regulator output voltage setting.3:TCV OUT2 = ((V OUT2max – V OUT2min) * 106)/(V OUT2 * D T).4:Regulation is measured at a constant junction temperature using low duty cycle pulse testing. Load regulation is tested over a load range from 0.1mA to the maximum specified output current.5:Dropout voltage is defined as the input to output voltage differential at which the output voltage drops 2% below its nominal value measured at a 1V differential.6:The maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junction temperature and the thermal resistance from junction to air. (i.e. T A, T J, θJA). Exceeding the maximum allowable powerdissipation causes the device to initiate thermal shutdown.7:The integrated MOSFET switches have an integral diode from the L X pin to V IN, and from L X to P GND. In cases where these diodes are forward-biased, the package power dissipation limits must be adhered to. Thermal protection is notable to limit the junction temperature for these cases.8:V IN1 and V IN2 are supplied by the same input source.© 2005 Microchip Technology Inc.DS21949A-page 5TC1303BDS21949A-page 6© 2005 Microchip Technology Inc.Wake-Up Time (From SHDN2 mode), (V OUT2)t WK —31100µs I OUT1 = I OUT2 = 50mA Settling Time (From SHDN2 mode), (V OUT2)t S—100—µsI OUT1 = I OUT2 = 50mAPower-Good Voltage Range PGV PG1.01.2—5.55.5VT A = 0°C to +70°C T A = -40°C to +85°C V IN ≤ 2.7 I SINK = 100µA PG Threshold High (V OUT1 or V OUT2)V TH_H —9496% of V OUTX On Rising V OUT1 or V OUT2V OUTX =V OUT1 or V OUT2PG Threshold Low (V OUT1 or V OUT2)V TH_L 8992—% of V OUTX On Falling V OUT1 or V OUT2V OUTX =V OUT1 or V OUT2PG Threshold Hysteresis (V OUT1 and V OUT2)V TH_HYS —2—% of V OUTXV OUTX =V OUT1 or V OUT2PG Threshold Tempco ΔV TH /ΔT —30—ppm/°C PG Delayt RPD —165—µs V OUT1 or V OUT2=(V TH + 100mV)to (V TH - 100mV)PG Active Time-out Periodt RPU140262560msV OUT1or V OUT2=V TH -100mV to V TH +100mV,I SINK = 1.2mAPG Output Voltage LowPG_V OL——0.2VV OUT1o r V OUT2=V TH -100mV , I PG = 1.2mA V IN2>2.7VI PG = 100µA, 1.0V <V IN2< 2.7V PG Output Voltage HighPG_V OH 0.9*V OUT2——VV OUT1 or V OUT2=V TH + 100mV V OUT2 ≥ 1.8V, I PG =-500µA VOUT2 < 1.8V,I PG =-300µADC CHARACTERISTICS (CONTINUED)Electrical Characteristics: V IN1=V IN2=SHDN1,2=3.6V,C OUT1=C IN =4.7µF, C OUT2=1µF,L =4.7µH, V OUT1 (ADJ)=1.8V, I OUT1=100ma, I OUT2=0.1mA T A =+25°C. Boldface specifications apply over the T A range of -40°C to +85°C .ParametersSym Min Typ Max Units ConditionsNote 1:The Minimum V IN has to meet two conditions: V IN ≥ 2.7V and V IN ≥ V RX + V DROPOUT , V RX = V R1 or V R2.2:V RX is the regulator output voltage setting.3:TCV OUT2 = ((V OUT2max – V OUT2min ) * 106)/(V OUT2 * D T ).4:Regulation is measured at a constant junction temperature using low duty cycle pulse testing. Load regulation is tested over a load range from 0.1mA to the maximum specified output current.5:Dropout voltage is defined as the input to output voltage differential at which the output voltage drops 2% below its nominal value measured at a 1V differential.6:The maximum allowable power dissipation is a function of ambient temperature, the maximum allowable junctiontemperature and the thermal resistance from junction to air. (i.e. T A , T J , θJA ). Exceeding the maximum allowable power dissipation causes the device to initiate thermal shutdown.7:The integrated MOSFET switches have an integral diode from the L X pin to V IN , and from L X to P GND . In cases where these diodes are forward-biased, the package power dissipation limits must be adhered to. Thermal protection is not able to limit the junction temperature for these cases.8:V IN1 and V IN2 are supplied by the same input source.TC1303BTEMPERATURE SPECIFICATIONSElectrical Specifications: Unless otherwise indicated, all limits are specified for: V IN = +2.7V to +5.5V Parameters Sym Min Typ Max Units Conditions Temperature RangesT J-40—+125°C Steady stateOperating Junction TemperatureRangeStorage Temperature Range T A-65—+150°CMaximum Junction Temperature T J——+150°C TransientThermal Package ResistancesThermal Resistance, 10L-DFNθJA—41—°C/W Typical 4-layer board withInternal Ground Plane and 2 Viasin Thermal PadThermal Resistance, 10L-MSOPθJA—113—°C/W Typical 4-layer board withInternal Ground Plane© 2005 Microchip Technology Inc.DS21949A-page 7TC1303BDS21949A-page 8© 2005 Microchip Technology Inc.2.0TYPICAL PERFORMANCE CURVESNote: Unless otherwise indicated, V IN1= V IN2=SHDN1,2=3.6V,C OUT1=C IN =4.7µF,C OUT2=1µF,L =4.7µH,V OUT1 (ADJ)=1.8V, T A =+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A =+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.FIGURE 2-1:I Q Switcher and LDO Current vs. Ambient Temperature.FIGURE 2-2:I Q Switcher Current vs. Ambient Temperature.FIGURE 2-3:I Q LDO Current vs. AmbientTemperature.FIGURE 2-4:V OUT1 Output Efficiency vs. Input Voltage (V OUT1 = 1.2V).FIGURE 2-5:V OUT1 Output Efficiency vs. I OUT1 (V OUT1 = 1.2V).FIGURE 2-6:V OUT1 Output Efficiency vs. Input Voltage (V OUT1 = 1.8V).Note:The graphs and tables provided following this note are a statistical summary based on a limited number of samples and are provided for informational purposes only. The performance characteristics listed herein are not tested or guaranteed. In some graphs or tables, the data presented may be outside the specifiedoperating range (e.g., outside specified power supply range) and therefore outside the warranted range.TC1303B Note: Unless otherwise indicated, V IN1= V IN2=SHDN1,2 =3.6V, C OUT1=C IN=4.7µF,C OUT2=1µF,L=4.7µH,V OUT1 (ADJ)=1.8V, T A=+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A=+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.FIGURE 2-7:V OUT1 Output Efficiency vs.I OUT1 (V OUT1 = 1.8V).FIGURE 2-8:V OUT1 Output Efficiency vs.Input Voltage (V OUT1 = 3.3V).FIGURE 2-9:V OUT1 Output Efficiency vs.I OUT1 (V OUT1 = 3.3V).FIGURE 2-10:V OUT1 vs. I OUT1(V OUT1 = 1.2V).FIGURE 2-11:V OUT1 vs. I OUT1(V OUT1 = 1.8V).FIGURE 2-12:V OUT1 vs. I OUT1(V OUT1 = 3.3V).© 2005 Microchip Technology Inc.DS21949A-page 9TC1303BDS21949A-page 10 2005 Microchip Technology Inc.Note: Unless otherwise indicated, V IN1= V IN2=SHDN1,2 =3.6V, C OUT1=C IN =4.7µF, C OUT2=1µF, L =4.7µH,V OUT1 (ADJ)=1.8V, T A =+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A =+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.OUT1 Switching Frequencyvs. Input Voltage.OUT1 Switching Frequency vs. Ambient Temperature.OUT1 Adjustable Feedback Voltage vs. Ambient Temperature.OUT1 Switch Resistancevs. Input Voltage.Resistance vs. Ambient Temperature.OUT1 Dropout Voltage vs. Ambient Temperature.Note: Unless otherwise indicated, V IN1= V IN2=SHDN1,2 =3.6V, C OUT1=C IN=4.7µF,C OUT2=1µF,L=4.7µH,V OUT1 (ADJ)=1.8V, T A=+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A=+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.FIGURE 2-19:V OUT1 and V OUT2 HeavyLoad Switching Waveforms vs. Time.FIGURE 2-20:V OUT1 and V OUT2 LightLoad Switching Waveforms vs. Time.FIGURE 2-21:V OUT2 Output Voltage vs.Input Voltage (V OUT2 = 1.5V).FIGURE 2-22:V OUT2 Output Voltage vs.Input Voltage (V OUT2 = 1.8V).FIGURE 2-23:V OUT2 Output Voltage vs.Input Voltage (V OUT2 = 2.5V).FIGURE 2-24:V OUT2 Output Voltage vs.Input Voltage (V OUT2= 3.3V).Note: Unless otherwise indicated, V IN1= V IN2=SHDN1,2 =3.6V, C OUT1=C IN=4.7µF,C OUT2=1µF,L=4.7µH,V OUT1 (ADJ)=1.8V, T A=+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A=+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.FIGURE 2-25:V OUT2 Dropout Voltage vs.Ambient Temperature (V OUT2 = 2.5V).FIGURE 2-26:V OUT2 Dropout Voltage vs.Ambient Temperature (V OUT2 = 3.3V).FIGURE 2-27:V OUT2 Line Regulation vs.Ambient Temperature.FIGURE 2-28:V OUT2 Load Regulation vs.Ambient Temperature.FIGURE 2-29:PG Active Delay Time-outvs. Ambient Temperature.FIGURE 2-30:PG Threshold Voltage vs.Ambient Temperature.Note: Unless otherwise indicated, V IN1= V IN2=SHDN1,2 =3.6V, C OUT1=C IN=4.7µF,C OUT2=1µF,L=4.7µH,V OUT1 (ADJ)=1.8V, T A=+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A=+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.FIGURE 2-31:PG Output Voltage LevelLow vs. Ambient Temperature.FIGURE 2-32:PG Output Voltage LevelHigh vs. Ambient Temperature.FIGURE 2-33:V OUT2 Power Supply RippleRejection vs. Frequency.FIGURE 2-34:V OUT2 Noise vs. Frequency.FIGURE 2-35:V OUT1 Load Step Responsevs. Time.FIGURE 2-36:V OUT2 Load Step Responsevs. Time.Note: Unless otherwise indicated, V IN1= V IN2=SHDN1,2 =3.6V, C OUT1=C IN=4.7µF,C OUT2=1µF,L=4.7µH,V OUT1 (ADJ)=1.8V, T A=+25°C. Boldface specifications apply over the T A range of -40°C to +85°C. T A=+25°C. Adjustable or fixed output voltage options can be used to generate the Typical Performance Characteristics.FIGURE 2-37:V OUT1 and V OUT2 Line StepResponse vs. Time.FIGURE 2-38:V OUT1 and V OUT2 StartupWaveforms.FIGURE 2-39:V OUT1 and V OUT2 ShutdownWaveforms.FIGURE 2-40:Power-Good Output Timing.3.0PIN DESCRIPTIONSThe descriptions of the pins are listed in Table3-1. TABLE 3-1:PIN FUNCTION TABLE3.1LDO Shutdown Input Pin (SHDN2) SHDN2 is a logic level input used to turn the LDO Reg-ulator on and off. A logic high (> 45% of V IN), will enable the regulator output. A logic low (< 15% of V IN) will ensure that the output is turned off.3.2LDO Input Voltage Pin (V IN2)V IN2 is a LDO power input supply pin. Connect variable input voltage source to V IN2. Connect V IN1 and V IN2 together with board traces as short as possible. V IN2 provides the input voltage for the LDO regulator. An additional capacitor can be added to lower the LDO regulator input ripple voltage.3.3LDO Output Voltage Pin (V OUT2)V OUT2 is a regulated LDO output voltage pin. Connect a 1µF or larger capacitor to V OUT2 and A GND for proper operation.3.4Power-Good Output Pin (PG)PG is an output level indicating that V OUT2 (LDO) is within 94% of regulation. The PG output is configured as a push-pull for the TC1303B.3.5Analog Ground Pin (A GND)A GND is the analog ground connection. Tie A GND to the analog portion of the ground plane (A GND). See the physical layout information in Section 5.0 “Application Circuits/Issues” for grounding recommendations. 3.6Buck Regulator Output Sense Pin(V FB/V OUT1)For V OUT1 adjustable output voltage options, connect the center of the output voltage divider to the V FB pin. For fixed-output voltage options, connect the output of the buck regulator to this pin (V OUT1). 3.7Buck Regulator Shutdown InputPin (SHDN1)regulator on and off. A logic-high (> 45% of V IN), will enable the regulator output. A logic-low (< 15% of V IN) will ensure that the output is turned off.3.8Buck Regulator Input Voltage Pin(V IN1)V IN1 is the buck regulator power input supply pin. Connect a variable input voltage source to V IN1. Connect V IN1 and V IN2 together with board traces as short as possible.3.9Buck Inductor Output Pin (L X) Connect L X directly to the buck inductor. This pin carries large signal-level current; all connections should be made as short as possible.3.10Power Ground Pin (P GND)Connect all large-signal level ground returns to P GND. These large-signal, level ground traces should have a small loop area and length to prevent coupling of switching noise to sensitive traces. Please see the physical layout information supplied in Section 5.0“Application Circuits/Issues” for grounding recommendations.3.11Exposed Pad (EP)For the DFN package, connect the EP to A GND with vias into the A GND plane.Pin Function1SHDN2Active Low Shutdown Input for LDO Output Pin2V IN2Analog Input Supply Voltage Pin3V OUT2LDO Output Voltage Pin4PG Power-good Output Pin5A GND Analog Ground Pin6V FB / V OUT1Buck Feedback Voltage (Adjustable Version) / Buck Output Voltage (Fixed Version) Pin 7SHDN1Active Low Shutdown Input for Buck Regulator Output Pin8V IN1Buck Regulator Input Voltage Pin9L X Buck Inductor Output Pin10P GND Power Ground PinEP ExposedPad For the DFN package, the center exposed pad is a thermal path to remove heat from the device. Electrically this pad is at ground potential and should be connected to A GND.4.0DETAILED DESCRIPTION4.1Device OverviewThe TC1303B combines a 500mA synchronous buck regulator with a 300mA LDO and a power-good output. This unique combination provides a tiny, low-cost solution for applications that require two or more voltage rails. The buck regulator can deliver high-output current over a wide range of input-to-output voltage ratios while maintaining high efficiency. This is typically used for the lower-voltage, high-current processor core. The LDO is a minimal parts-count solution, (single-output capacitor), providing a regulated voltage for an auxiliary rail. The typical LDO dropout voltage (137mV @ 200mA) allows the use of very low input-to-output LDO differential voltages, minimizing the power loss internal to the LDO pass transistor. A power-good output is provided, indicating that the LDO output is in regulation (TC1303B). Additional features include independent shutdown inputs, UVLO, overcurrent and overtemperature shutdown.4.2Synchronous Buck RegulatorThe synchronous buck regulator is capable of supply-ing a 500mA continuous output current over a wide range of input and output voltages. The output voltage range is from 0.8V (min) to 4.5V (max). The regulator operates in three different modes and automatically selects the most efficient mode of operation. During heavy load conditions, the TC1303B buck converter operates at a high, fixed frequency (2.0MHz) using current mode control. This minimizes output ripple and noise (less than 8mV peak-to-peak ripple) while main-taining high efficiency (typically > 90%). For standby or light load applications, the buck regulator will automat-ically switch to a power-saving Pulse Frequency Modulation (PFM) mode. This minimizes the quiescent current draw on the battery, while keeping the buck output voltage in regulation. The typical buck PFM mode current is 38µA. The buck regulator is capable of operating at 100% duty cycle, minimizing the voltage drop from input to output for wide input battery-powered applications. For fixed-output voltage applica-tions, the feedback divider and control loop compensa-tion components are integrated, eliminating the need for external components. The buck regulator output is protected against overcurrent, short circuit and over-temperature. While shut down, the synchronous buck N-channel and P-channel switches are off, so the L X pin is in a high-impedance state (this allows for connecting a source on the output of the buck regulator as long as its voltage does not exceed the input voltage).4.2.1FIXED FREQUENCY PWM MODE While operating in Pulse Width Modulation (PWM) mode, the TC1303B buck regulator switches at a fixed 2.0MHz frequency. The PWM mode is suited for higher load current operation, maintaining low output noise and high conversion efficiency. PFM to PWM mode transition is initiated for any of the following conditions.•Continuous inductor current is sensed•Inductor peak current exceeds 100mA•The buck regulator output voltage has droppedout of regulation (step load has occurred)The typical PFM-to-PWM threshold is 80mA.4.2.2PFM MODEPFM mode is entered when the output load on the buck regulator is very light. Once detected, the converter enters the PFM mode automatically and begins to skip pulses to minimize unnecessary quiescent current draw by reducing the number of switching cycles per second. The typical quiescent current for the switching regulator is less than 35µA. The transition from PWM to PFM mode occurs when discontinuous inductor current is sensed, or the peak inductor current is less than 60mA (typ.). The typical PWM to PFM mode threshold is 30mA. For low input-to-output differential voltages, the PWM to PFM mode threshold can be low due to the lack of ripple current. It is recommended that V IN1 be one volt greater than V OUT1 for PWM to PFM transitions.4.3Low Drop Out Regulator (LDO)The LDO output is a 300mA low-dropout linear regula-tor that provides a regulated output voltage with a single 1µF external capacitor. The output voltage is available in fixed options only, ranging from 1.5V to 3.3V. The LDO is stable using ceramic output capaci-tors that inherently provide lower output noise and reduce the size and cost of the regulator solution. The quiescent current consumed by the LDO output is typically less than 20µA, with a typical dropout voltage of 137mV at 200mA. The LDO output is protected against overcurrent and overtemperature.。

2-1393810-7Axicom Cradle Relay N, Signal Relays, 125VAC Contact Voltage Rating, 150VDCContact Voltage Rating, 647mW Signal Relay Coil Power Rating (DC)10/05/2020 01:18PM | Page 1 For support call+1 800 522 6752Relays, Contactors & Switches>Relays>Signal Relays>Signal Relays: 5 amp, Monostable DCSignal Relay Terminal Type:PCB-THTSignal Relay Mounting Type:Screw Mount, SocketSignal Relay Coil Power Rating (DC):647 mWContact Voltage Rating:150 VDCAll Signal Relays: 5 amp, Monostable DC (138)FeaturesProduct Type FeaturesRelay Type Cradle N Relay V23154/V23162Relay Style Cradle N RelayProduct Type RelayElectrical CharacteristicsCoil Power Rating Class600 – 800 mWActuating System AC/DCInput Voltage150 VDCInsulation Initial Dielectric Between Open Contacts500 VrmsContact Limiting Short-Time Current 2 AInsulation Initial Dielectric Between Contacts and Coil1000 VrmsInsulation Initial Dielectric Between Coil/Contact Class500 – 1000 VInsulation Initial Dielectric Between Adjacent Contacts500 VrmsPower Consumption800 mWInsulation Initial Resistance1000 MΩContact Limiting Making Current 2 ACoil Resistance890 ΩContact Limiting Continuous Current 2 ACoil Type MonostableContact Limiting Breaking Current 2 A2-1393810-7 ACTIVEAxicomTE Internal #:2-1393810-7Axicom Cradle Relay N, Signal Relays, 125VAC Contact VoltageRating, 150VDC Contact Voltage Rating, 647mW Signal Relay CoilPower Rating (DC)View on >Axicom Cradle Relay N|Coil Type MonostableContact Limiting Breaking Current 2 AContact Voltage Rating150 VDCSignal Relay Coil Power Rating (DC)647 mWSignal Relay Coil Voltage Rating24 VDCSignal Relay Contact Switching Voltage (Max)150 VDCSignal Relay Coil Magnetic System Monostable, DCBody FeaturesWeight20 g[.706 oz]Contact FeaturesContact Plating Material GoldContact Current Class0 – 2 AContact Special Features Single ContactSignal Relay Terminal Type PCB-THTSignal Relay Contact Current Rating 2 ASignal Relay Contact Arrangement 2 Form C (CO)Contact Material NickelContact Number of Poles2Termination FeaturesTermination Type Solder TerminalsMechanical AttachmentSignal Relay Mounting Type Screw Mount, SocketDimensionsWidth Class (Mechanical)16 – 20 mmWidth19 mm[.748 in]Height30 mm[1.181 in]Length Class (Mechanical)20 – 25 mmHeight Class (Mechanical)25 – 30 mmLength24 mm[.945 in]Dimensions (L x W x H) (Approximate)19 x 24 x 30 mm[.748 x .945 x 1.181 in]Usage ConditionsEnvironmental Ambient Temperature (Max)70 °C[158 °F]Environmental Ambient Temperature Class50 – 70°CEnvironmental Category of Protection RTI10/05/2020 01:18PM | Page 2 For support call+1 800 522 6752Environmental Category of Protection RTIOperating Temperature Range-40 – 70 °COperation/ApplicationPerformance Type StandardPackaging FeaturesPackaging Method Box & CartonProduct ComplianceFor compliance documentation, visit the product page on >EU RoHS Directive 2011/65/EU CompliantEU ELV Directive 2000/53/EC CompliantChina RoHS 2 Directive MIIT Order No 32, 2016No Restricted Materials Above ThresholdEU REACH Regulation (EC) No. 1907/2006Current ECHA Candidate List: JUN 2020(209)Candidate List Declared Against: JAN 2019(197)Does not contain REACH SVHCHalogen Content Low Halogen - Br, Cl, F, I < 900 ppm perhomogenous material. Also BFR/CFR/PVCFreeSolder Process Capability Wave solder capable to 265°CProduct Compliance DisclaimerThis information is provided based on reasonable inquiry of our suppliers and represents our current actual knowledgebased on the information they provided. This information is subject to change. The part numbers that TE has identified asEU RoHS compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalentchromium, mercury, PBB, PBDE, DBP, BBP, DEHP, DIBP, and 0.01% for cadmium, or qualify for an exemption to theselimits as defined in the Annexes of Directive 2011/65/EU (RoHS2). Finished electrical and electronic equipment productswill be CE marked as required by Directive 2011/65/EU. Components may not be CE marked. Additionally, the partnumbers that TE has identified as EU ELV compliant have a maximum concentration of 0.1% by weight in homogenousmaterials for lead, hexavalent chromium, and mercury, and 0.01% for cadmium, or qualify for an exemption to these limitsas defined in the Annexes of Directive 2000/53/EC (ELV). Regarding the REACH Regulation, the information TE provideson SVHC in articles for this part number is based on the latest European Chemicals Agency (ECHA) ‘Guidance onrequirements for substances in articles’ posted at this URL: https://echa.europa.eu/guidance-documents/guidance-on-reachCompatible Parts10/05/2020 01:18PM | Page 3 For support call+1 800 522 675210/05/2020 01:18PM | Page 4For support call+1 800 522 6752TE Model / Part #2-1676172-1RN 0805 120K 0.1% 10PPM CUT LENGTHTE Model / Part #6116689-12X8 OFFSET STK MJ,8P,PNL GNDTE Model / Part #6-103414-618 MODII HDR SRST SHRD LFTE Model / Part #2-1393217-3RE032018TE Model / Part #ZPF000000000019485FDBA 56-18-32 SX-K 090TE Model / Part #ZPF000000000019464FDBA 56-18-32 SN-K 090TE Model / Part #YDTS20F25-61JNV001D38999: Square Flange, 25-61 insertTE Model / Part #6-2176362-7RQ 0402 196R 0.1% 10PPM 5K RLTE Model / Part #5-2176328-6CRGP 1206 390K 1%TE Model / Part #106506-215P.HDP20 REC.ASSY.Signal Relays(209)TE Model / Part #1393827-1V23154Z1021TE Model / Part #CAT-AX41-C8422CRADLE RELAY ACCESSORYAlso in the Series Axicom Cradle Relay NCustomers Also BoughtDocumentsDocumentsCAD Files3D PDF3DCustomer View ModelENG_CVM_CVM_2-1393810-7_A.2d_dxf.zipEnglishCustomer View ModelENG_CVM_CVM_2-1393810-7_A.3d_igs.zipEnglishCustomer View ModelENG_CVM_CVM_2-1393810-7_A.3d_stp.zipEnglishTerms and ConditionsBy downloading the CAD file I accept and agree to the of use.Datasheets & Catalog PagesIndustrial Relays Quick Reference GuideEnglishProduct SpecificationsProduct SpecificationEnglishDefinitions RelaysEnglish10/05/2020 01:18PM | Page 5 For support call+1 800 522 6752。

Product:1303EPUCATSNAKE Category 6A Cable, 4 Pair, S/FTP, PVC PUR upjacketedProduct DescriptionCATSNAKE Category 6A Cable, 4 Pair, S/FTP, PVC PUR upjacketedTechnical SpecificationsProduct OverviewConstruction DetailsConductorInsulationCable CoreInner ShieldOuter ShieldOuter JacketElectrical CharacteristicsElectricalsDelayMax. Delay Skew Nom. Velocity of Prop.25 ns/100m77%High FrequencyFrequency[MHz]Max. Insertion Loss(Attenuation)Min.NEXT[dB]Min.PSNEXT[dB]Min.ACR[dB]Min.PSACR[dB]Min. ACRF(ELFEXT) [dB]Min. PSACRF(PSELFEXT) [dB]Min. RL(Return Loss)[dB]Min.PSANEXT[dB]Min.PSAACRF[dB]Min.TCL[dB]Min.ELTCTL[dB]1 2.5 dB/100m75.372.372.869.868652067674035 4 4.6 dB/100m66.363.361.758.75653236766.23423 107.1 dB/100m60.357.353.250.24845256758.23015 169 dB/100m57.254.248.345.343.940.9256754.12810.9 31.212.6 dB/100m52.949.950.447.338.135.123.66748.325.1 5.1 62.518 dB/100m48.445.430.427.432.19.121.565.642.32210023 dB/100m45.342.322.319.3282520.162.538.22012525.8 dB/100m43.840.8181526.123.119.46136.31920033.1 dB/100m40.837.87.7 4.72219185832.21725037.3 dB/100m39.336.32-1201717.356.530.21630041.1 dB/100m38.135.1-3-618.515.517.355.328.750054.3 dB/100m34.831.8-19.5-22.5141117.35224.2Table Notes:Reference standard: IEC 61156-6Transfer ImpedanceFrequency Max. Transfer Impedance1 Mhz Max. 50 mOhm/m10 Mhz Max. 100 mOhm/m30 Mhz Max. 200 mOhm/m100 Mhz Max. 1000 mOhm/mTransfer ImpedanceClass:Grade 2Screening Class:Type IbTable Notes:Coupling AttenuationVoltageVoltage Rating72 VMechanical CharacteristicsTemperatureOperating Installation-30°C to +60°C0°C To +50°CTrailing/Flexing PropertiesMotion Number of Cycles Radius Speed Acceleration Traverse LengthTrailing/Bending2,000,00080 mm 5 m/s 5 m/s² 5 mBend RadiusStationary Min.Installation Min.35 mm (1.4 in)70 mmMax. Pull Tension:75 N (17 lbf)Bulk Cable Weight:83 kg/kmStandards and ComplianceEnvironmentalSuitability:Indoor/OutdoorFlammability /Reaction to Fire:IEC 60332-1IEEE Compliance:PoE: IEEE 802.3bt Type 1, Type 2, Type 3, Type 4Data Category:Category 6ATIA/EIA Compliance:ANSI/TIA 568.2-DISO/IEC Compliance:ISO/IEC 11801-1CENELECCompliance:EN 50173-1, Segregation class according EN50174-2 = cEuropean DirectiveEU CE MarkCompliance:Product NotesNotes:Electrical values are expected performance based on cable testing and representative performance within a typical Belden system.HistoryUpdate and Revision:Revision Number: 0.468 Revision Date: 03-02-2022VariantsItem #Color Putup Type Length UPC/EAN1303EPU.00152Black Reel152 m87196050009891303EPU.00305Black Reel305 m87196050010091303EPU 010500Black Reel500 ft6128253818081303EPU.00500Black Reel500 m87196050010161303EPU 0101000Black Reel1,000 ft6128253817851303EPU.001500Black Reel1,500 m87196050009721303EPU 0101640Black Reel1,640 ft6128253817921303EPU.003000Black Reel3,000 m8719605000996© 2022 Belden, IncAll Rights Reserved.Although Belden makes every reasonable effort to ensure their accuracy at the time of this publication, information and specifications described here in are subject to error or omission and to change without notice, and the listing of such information and specifications does not ensure product availability.Belden provides the information and specifications herein on an "ASIS" basis, with no representations or warranties, whether express, statutory or implied. In no event will Belden be liable for any damages (including consequential, indirect, incidental, special, punitive, or exemplary damages) whatsoever, even if Belden has been advised of the possibility of such damages, whether in an action under contract, negligence or any other theory, arising out of or in connection with the use, or inability to use, the information or specifications described herein.All sales of Belden products are subject to Belden's standard terms and conditions of sale.Belden believes this product to be in compliance with all applicable environmental programs as listed in the data sheet. The information provided is correct to the best of Belden's knowledge, information and belief at the date of its publication. This information is designed only as a general guide for the safe handling, storage, and any other operation of the product itself or the one that it becomes a part of. The Product Disclosure is not to be considered a warranty or quality specification. Regulatory information is for guidance purposes only. Product users are responsible for determining the applicability of legislation and regulations based on their individual usage of the product.。

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未经大众公司康采恩集团标准部门的书面许可，不得转载、复印。

采购者只能通过相关的采购部门才能得到该标准。

©大众汽车公司在使用标准之前要检查是否为最新版本来源: N O L I S 部门第二页PV 1303：2001-032．概念2.1 恒定光所谓恒定光即在检验过程中试样以及耐光度标尺一直面对光源，也就是说，在检验过程中光源不会有明-暗的变化（光源转换）。

2.2 干照射即进行此项检验时不向被测物体喷水。

3．名称检验标准PV1303规定为热光照射。

4．要求由于零部件的安装位置不同，所要求的周期数在技术供货条件中已做出规定（请参见附件A-1）。

检验方法的要求与偏差要按照标准VW、技术供货条件TL或图纸以及产品放行规定来执行。

为了判断材质的耐光照性，有时需要在中间检验期间或照射检验之后加上其它的检测程序（例如进行电刷处理检测、克罗科计检测、马氏摩擦检测）。

5．检验5.1 原理即根据设备的条件对试样进行“恒定”和“干燥光”照射。

同时还需要考虑汽车车厢内的零部件的耐高温情况。

（用热光源照射）详细的检验条件在每项照射时间周期的说明中予以描述（根据DIN75202标准，1991版）。

5.2 检验设备必须使用光照检测设备，该光照检测设备必须符合DIN 75202标准的要求（例如，赫罗斯（Heraeus）公司的氙检测仪1200、1200CPS、Alpha氙检测仪、AlphaHE氙检测以及Beta氙检测仪，或者是阿特拉斯（Atlas）公司的Weather-Ometer CI35A，Fade-Ometer CI 3000、4000 型检测仪）。

为了确保供货商与验收者的检验结果可以相对照，在特殊情况下所选择使用的仪器类型必须与大众公司康采恩集团负责检验的部门进行协商。

建议将检验设备放置在可以调节温度的室内，否则的话可能需要使用空调装置。

第三页PV 1303：2001-03 5.3 光照条件下面所说明的滤光系统，其紫外线范围内的滤光边缘为320nm。

Eaton 236996Interruttore magnetotermico differenziale, 13 A, 30 mA, curva caratteristica LS: C, 1 polo+N, caratteristica di intervento interruttore automatico a corrente residua: corrente alternata PKN4-13/1N/C/003-MWGeneral specificationsEaton Moeller series xPole - PKN4 RCBO - interruttore magnetotermico differenziale con protezione da sovracorrente236996401508236996580 mm73 mm 35 mm 0.203 kgCon marchio CE RoHS conformCEPKN4-13/1N/C/003-MWNome prodottoSigla catalogo EANLunghezza/profondità del prodotto Altezza prodotto Larghezza prodotto Peso prodotto ConformitàCertificazione/i Codice modelloQuadro elettrico per applicazioni residenziali e commerciali PKN4Dispositivi RCD/MCB combinatiPolo singolo + N12CC13 A0.03 ATipo AC, Sensibile a corrente alternata.RCBO CA230 V230 V440 V4 kVParzialmente resistente alla corrente impulsiva, 250 A 50 HzCA4.5 kA4.5 kA0 kA4.5 kA4.5 kA0 kA0.25 kANon ritardatoProtezione da corto circuitoApplicazioneGamma prodottiFunzione di baseNumero di poliNumero di poli (protetti)Numero di poli (totale) Caratteristica d'intervento Caratteristica di rilascio Corrente nominaleValori nominali corrente di guasto Tipo di sensibilitàTipo Tipo di tensioneTensione nominaleTensione nominale di esercizio (Ue) - maxTensione nominale di isolamento (Ui)Tensione nominale di tenuta ad impulso (Uimp)Corrente di tenuta a impulsiClassificazione frequenzaTipo corrente di dispersioneCapacità di interruzione nominaleCapacità di interruzione nominale (IEC/EN 61009)Capacità di interruzione nominale in cortocircuito (EN 60947-2) Capacità di apertura nominale in cortocircuito (EN 61009) Capacità di apertura nominale in cortocircuito (EN 61009-1) Capacità di interruzione nominale in cortocircuito (IEC 60947-2) Capacità corrente di sovratensioneCaratteristica di disconnessioneInterventoIII2269.5 mmIP201 mm²25 mm²1 mm²25 mm²13 A 0 W 3,1 W 0 W0 W -25 °C 40 °C I requisiti della norma di prodotto sono soddisfatti.I requisiti della norma di prodotto sono soddisfatti.I requisiti della norma di prodotto sono soddisfatti.I requisiti della norma di prodotto sono soddisfatti.I requisiti della norma di prodotto sono soddisfatti.Non pertinente dal momento che l'intero quadro elettrico deve essere valutato.Non pertinente dal momento che l'intero quadro elettrico deve essere valutato.I requisiti della norma di prodotto sono soddisfatti.Categoria di sovratensioneGrado di inquinamento Larghezza in base al numero di distanziali modulariProfondità internaGrado di protezioneSezione del conduttore collegabile (nucleo pieno) - minSezione del conduttore collegabile (pieno) - maxSezione del conduttore collegabile (multifilo) - minSezione del conduttore collegabile (multifilo) - maxCorrente nominale di esercizio per dissipazione specifica (In) Dissipazione per polo, dipendente da corrente Dissipazione apparecchiature, dipendente da corrente Dissipazione statica non dipendente da correnteCapacità di dissipazioneTemperatura ambiente di esercizio - minTemperatura ambiente di esercizio - max 10.2.2 Resistenza alla corrosione10.2.3.1 Verifica stabilità termica custodie10.2.3.2 Verifica resistenza dei materiali isolanti al calore normale10.2.3.3 Resist. mat. isol. a fuoco/calore anomalo per effetto elett. interna10.2.4 Resistenza alla radiazione ultravioletta (UV)10.2.5 Sollevamento10.2.6 Impatto meccanico10.2.7 IscrizioniNon pertinente dal momento che l'intero quadro elettrico deve essere valutato.I requisiti della norma di prodotto sono soddisfatti.Non pertinente dal momento che l'intero quadro elettrico deve essere valutato.Non pertinente dal momento che l'intero quadro elettrico deve essere valutato.È responsabilità del costruttore del quadro elettrico.Rientra nella responsabilità del costruttore del quadro elettrico. Rientra nella responsabilità del costruttore del quadro elettrico. Rientra nella responsabilità del costruttore del quadro elettrico. Rientra nella responsabilità del costruttore del quadro elettrico.Il calcolo del riscaldamento è responsabilità del costruttore del quadro elettrico. Eaton fornirà i dati di dissipazione per i dispositivi.Rientra nella responsabilità del costruttore del quadro elettrico. Devono essere rispettate le specifiche per il quadro elettrico.Rientra nella responsabilità del costruttore del quadro elettrico. Devono essere rispettate le specifiche per il quadro elettrico.Per l'apparecchio i requisiti sono soddisfatti rispettando le indicazioni delle istruzioni per il montaggio (IL).3Commutazione simultanea N-neutroeaton-xpole-pkn4-rcbo-catalog-ca019044en-en-us.pdfeaton-xpole-pkn4-characteristic-curve-002.jpgeaton-xpole-pkn6-m-dimensions.jpgeaton-xpole-pkn6-m-3d-drawing.jpgeaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdfIL019140ZUDA-DC-03_N4DA-DC-03_PKNeaton-xeffect-frbm6/m-wiring-diagram.jpg10.3 Grado di protezione gruppi di componenti10.4 Distanze di isolamento10.5 Protezione da scosse elettriche10.6 Incorporamento di componenti e dispositivi di commutazione10.7 Collegamenti e circuiti elettrici interni10.8 Connessioni per conduttori esterni10.9.2 Rigidità elettrica potenza-frequenza10.9.3 Tensione di tenuta a impulso10.9.4 Test custodie in materiale isolante10.10 Riscaldamento10.11 Valore nominale di corto circuito10.12 Compatibilità elettromagnetica10.13 Funzione meccanica Classe di limitazione della corrente CaratteristicheCataloghiCharacteristic curveDisegniIstruzioni di installazioneReport di certificazioneSchemi di cablaggioEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. Tutti i diritti riservati. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

REVISED: 09.17.2020MSL = N/A: Not ApplicablePbR o HS/RoHS II C omplaint Electrical SpecificationsFEATURESAPPLICATIONSParametersMin.Typ.Max.Units NoteFrequency Range32.000080.0000MHz Standard Available Frequencies 32.0000, 37.4000, 38.4000, 40.0000, 45.0000, 48.0000, 52.0000, 60.0000,76.8000, 80.0000MHzContact Abracon for Nonstandard FrequenciesOperation ModeFundamentalOperating Temperature Range -40+85°C See Options Storage Temperature-40+125°C Frequency Tolerance @ +25°C -10+10ppm See options Frequency Stability over the Operating Temperature ( ref. to +25°C)-15+15ppmSee options Equivalent series resistance (R1)(over -40°C to +125°C) at 5pF plating load*< 45100Ω32.0000-32.9999MHz< 358033.0000-36.9999MHz < 255037.0000-80.0000MHzShunt capacitance (C0) 1.0pF Load capacitance (CL) 5.0pF See options Drive Level 10100μW Aging (1 year)-2+2ppm @25°C± 3°C Insulation Resistance500MΩ@100 Vdc ± 15V• World’s smallest At-Cut MHz Crystal (1.20 x 1.00 x 0.33 mm package)• Ideally suited for space constraint IoT, Wearables & Wireless applications• Simultaneously optimized for low plating load & ESR over extended temperature range• Enhanced performance for start-up time and power savings with Low Energy SoC’s• Low profile ideal for height constraint designs • Available with ±10 ppm set-tolerance• Wearables• Wireless Modules• Internet of Things (IoT)• Bluetooth / Bluetooth Low Energy (BLE)• Machine-to-Machine (M2M) Connectivity • Ultra-Low Power MCU’s, SoC’s, Transceivers • Near Field Communication •ISM Band Applications(*) Plating Load = Load Capacitance (CL)REVISED: 09.17.2020MSL = N/A: Not ApplicablePbR o HS/RoHS II C omplaint Options and Part IdentificationCustom ESR if other than standard R □□: Specify a value in Ω (e.g.: R40)ABM13W-MHz -Frequency in MHz Please specify the Frequency in MHz out to 4 digit accuracy after the decimal.(e.g. 32.0000MHz)Load Capacitance(pF)8: 8pF 7: 7pF 6: 6pF 5: 5pFOperating Temp.B: -20°C ~ +70°C N: -30°C ~ +85°C D: -40°C ~ +85°C J: -40°C ~ +105°C K: -40°C ~ +125°CFreq. Tolerance H7: ± 7 ppm 1: ± 10 ppm 7: ± 15 ppm 2: ± 20 ppmFreq. Stability U: ± 10 ppm (*)G: ± 15 ppm (**)X: ± 20 ppm (**)Y: ± 30 ppm (***)Z: ± 50 ppmPackaging Blank: Bulk T5: 5kpcs / reelNote 1:Contact Abracon for part number requests with carrier frequency callouts up to 5 & 6 digit accuracy after the decimal.(*) Only offered @ Operating Temp. Range options: B & N (**) Only offered @ Operating Temp. Range options: B, N, & D (***) Only offered @ Operating Temp. Range options: B, N, D, & J Contact ABRACON for tighter Frequency Stability options.[Note 1]Pb R o HS/RoHS II C omplaintMSL = N/A: Not Applicable Typical Frequency vs. Temperature Characteristics (ref. to +25°C):Typical ESR (Equivalent Series Resistance) vs. Temperature Characteristics:REVISED: 09.17.2020Pb R o HS/RoHS II C omplaintMSL = N/A: Not Applicable SPICE Models (based on typical values at 25ºC ± 3ºC):Typical Frequency Tolerance Distribution (at 25ºC ± 3ºC):REVISED: 09.17.2020Pb R o HS/RoHS II C omplaintMSL = N/A: Not Applicable Typical ESR Distribution (at 25ºC ± 3ºC):REVISED: 09.17.2020MSL = N/A: Not ApplicablePb R o HS/RoHS II C omplaint Mechanical DimensionsDimensions: mmPin #2: GND (Electrically connected to metallic package lid)Pin #4: NC (No internal connection, leave floating or connectto GND)Recommended Land PatternTop ViewBottom ViewREVISED: 09.17.2020REVISED: 09.17.2020MSL = N/A: Not ApplicablePbR o HS/RoHS II C omplaint Reflow ProfileZone Description Temperature Time 1Preheat / Soak T SMIN ~ T SMAX 160±10°C80 ~ 100 sec.2Reflow T L 220°C 50 ~ 70 sec. 3Peak heatT P260±5°C5 sec. MAX.T pT LT LT pT SMINT SMAX Ramp UpRamp DownCritical ZoneT L to T p231Time25PreheatT e m p e r a t u r ePb R o HS/RoHS II C omplaintMSL = N/A: Not Applicable Packaging:T5: Tape and reel (5,000pcs/reel)Dimensions: mmATTENTION:Abracon LLC’s products are COTS – Commercial-Off-The-Shelf products; suitable for Commercial, Industrial and, where designated, Automotive Applica-tions. Abracon’s products are not specifically designed for Military, Aviation, Aerospace, Life-dependant Medical applications or any application requiring high reliability where component failure could result in loss of life and/or property. For applications requiring high reliability and/or presenting an extreme operating environment, written consent and authorization from Abracon LLC is required. Please contact Abracon LLC for more information.REVISED: 09.17.2020。

tc3a07变频器说明书TC3A07变频器说明书第一章：产品概述1.1 产品简介TC3A07变频器是一种电力电子器件，用于控制电动机的转速和转矩，实现电机的能量调节和运动控制。

它采用先进的数字控制技术，具有高效、稳定、可靠的特点，广泛应用于工业生产线、机械设备、水泵、风机等领域。

1.2 主要特点TC3A07变频器具有以下主要特点：（1）高性能控制：采用先进的矢量控制算法，可实现电机的精确控制，提高生产效率。

（2）多种控制方式：支持多种控制方式，如V/F控制、矢量控制、速度闭环控制等，可根据实际需求进行选择。

（3）丰富的保护功能：具有过流、过载、过压、欠压、短路等多种保护功能，可有效保护电机和变频器的安全运行。

（4）高效节能：采用高性能IGBT器件和先进的PWM调制技术，具有高效节能的特点，可降低能耗、减少运行成本。

（5）人机界面友好：采用触摸屏进行参数设置和监控，操作简便、直观。

（6）可靠性高：采用国际先进的电磁兼容设计和优质元器件，具有高可靠性和稳定性。

（7）扩展性强：支持多种通信接口，可与上位机、PLC等设备进行通信，实现远程监控和控制。

1.3 技术指标TC3A07变频器的主要技术指标包括：（1）额定输入电压：220V/380V/660V等；（2）额定输出电压：0～额定电压；（3）额定输入电流：根据功率大小而定；（4）额定输出电流：根据功率大小而定；（5）控制方式：V/F控制、矢量控制等；（6）额定频率范围：0～400Hz等；（7）工作温度：-10℃～40℃等；（8）保护等级：IP20/IP54等。

第二章：安装与调试2.1 安装前准备在安装前需进行以下准备工作：（1）检查变频器及其附件是否齐全；（2）检查电源线路和接地是否符合要求；（3）检查电机是否符合要求，如绝缘性能、轴向游隙等；（4）确保安装环境通风良好，温度适宜。

2.2 安装步骤安装TC3A07变频器的步骤如下：（1）选择合适的安装位置，并将变频器固定在安装板上；（2）连接电源线路，接地可靠；（3）连接电机线路，注意正确接线；（4）连接外部控制信号线路，如启停信号、速度反馈信号等；（5）检查各线路连接是否牢固，避免松动或接触不良。