AVR_Product_ReferenceJan07选型手册

AVR单片机选型指南引言：AVR（Advanced Virtual RISC）是由意法半导体（STMicroelectronics）公司开发的一种基于RISC（精简指令集计算机）原理的8位单片机系列，具有高性能、低功耗和强大的功能。

AVR单片机广泛应用于各种嵌入式系统中，如智能家居、工业控制、汽车电子、医疗电子等。

在选择AVR单片机时，需要考虑多个因素，包括性能要求、接口需求、存储容量、功耗、成本等。

本文将介绍AVR单片机的选型指南。

一、性能需求在选型AVR单片机时，首先需要考虑的是性能需求。

性能需求包括处理器速度、存储容量和外设接口等。

处理器速度决定了单片机的处理能力，通常以时钟频率来衡量，常见的频率有8MHz、16MHz等。

存储容量包括Flash（程序存储器）和RAM（数据存储器），一般以字节为单位来衡量。

外设接口包括模拟输入输出（ADC/DAC）、数字输入输出（GPIO）、串口（UART/I2C/SPI）等，根据具体应用需求选择相应的外设接口。

二、功耗需求另一个重要的考虑因素是功耗需求。

AVR单片机以其低功耗的特点而闻名，不论是在待机模式还是在运行模式下，都能有效降低功耗。

对于一些对电池寿命要求较高的应用，如便携式设备，选择低功耗的AVR单片机是一个不错的选择。

三、成本需求成本也是选型时需要考虑的一个因素。

AVR单片机有多个系列，每个系列中有不同的型号，价格也有所不同。

根据项目的预算，可以选择不同价格段的单片机。

一般来说，较低端的单片机价格较低，功能相对较少；而较高端的单片机则价格较高，功能更丰富。

四、开发环境和支持在选择AVR单片机时，还需要考虑开发环境和技术支持。

开发环境包括编译器、调试器和开发板等。

意法半导体公司提供了多种开发工具和支持资源，如Atmel Studio集成开发环境和Atmel START软件框架，可以提高开发效率。

此外，还可以参考开发社区、技术文档和视频教程等，获取更多的技术支持。

A VR_PQ1A 开发板广告材料A VR_PQ1A A VR 单片机开发板（A VR 单片机实验板）一、A VR 系列单片机开发板（实验板）A VR 系列的单片机都具备在线编程接口，其中的Mega 系列（本开发板使用的就是Mega16）还具备JTAG 仿真和下载功能。

片内含有看门狗电路、片内程序Flash、同步串行接口SPI、异步串口UART、多数单片机（如本实验板使用的Mega16）还内嵌了AD 转换器、EEPROM、模拟比较器、PWM 定时计数器、TWI （IIC）总线、硬件乘法器、独立振荡器的实时计数器RTC、片内标定的RC 振荡器等片内外设，可以满足各种开发需求。

A VR 系列单片机的I/O 接口还具有很强的驱动能力，灌电流可直接驱动继电器、LED、数码管等器件，从而省去驱动电路，便于开发而且节省开发成本。

A VR 的Mega 系列单片机由于有上电复位功能、片内集成RC 振荡器，所以只要一个电源就可以工作，不需要任何外接元件，如Mega16，出厂时的芯片熔丝默认是使用片内1MHz RC 振荡器，所以只要电源就可以工作。

A VR 单片机编程的时候除了 C 语言外，还支持Basic 语言，集成编译环境非常多，很容易开发出良好的应用程序。

本开发板可使用于多种型号的A VR 单片机，本板主配ATmega16 单片机。

除了丰富的硬件资源外，还配有仿真器，可以很方便的调试硬件，大大减小调试周期。

所有IO 口全部引出，用户可以任意扩展功能。

二、A VR_PQ1A 开发板（实验板）实例程序（演示程序）( 1 ) LED LED 灯驱动程序，两种演示方式( 2 ) SMG 数码管驱动程序，循环滚动显示数字1-6( 3 ) 1602 1602 液晶驱动程序，除正常显示ASCII 码外，还教你如何显示中文( 4 ) 12864 12864 液晶驱动程序，显示汉字和图形。

液晶为带字库的ST7920 控制器的液晶。

NW5061产品规格书V0.1NW5061 Product Datasheet V0.1产品历史版本与声明-Product Revision History and Clarification1. 产品描述-Product Description (3)2. 系统框图- System Block Diagram (3)3. 产品外观-Product Appearence (4)4. 硬件规格与性能- Hardware and Technical Spec (4)4.1 硬件规格- HW Spec (4)4.2 极限环境参数- Absolute Maximum Rating (5)4.3 Wi-Fi接收特性-Receiver Characteristics (5)4.4 Wi-Fi发射特性- Transmiter Characteristics (6)4.4 蓝牙规格- Bluetooth characteristics (6)5. 配置信息- Config information (7)6. 品质与交付-Quality and (7)6.1 可靠性- Reliability Requirements (7)6.2 测试交付清单- Test Deliverable List (8)7. 订单信息-Order Information (9)8. 声明-Disclaimer (9)1. 产品描述-Product DescriptionNW5061是一款用于开发IoT设备的高性能，低成本的WLAN模块如WLAN扬声器，智能玩具，家庭网关，智能产品应用等。

模块基于君正X1000/富驰利兴DM6291A SoC，主控频率可达1.0GHz，集成32MB/256MB LPDDR，可选4~32MB nor或128MB~256MB Nand Flash，配置802.11b/g/n或802.11b/g/n/acWi-Fi方案最高无线速率可达433.3Mbps以及蓝牙4.1 BLE，同时提供了两个50 pin的插排扩展接口作为各外设功能扩展如GPIO，I2C，Audio out，MMC/SD/SDIO，USB OTG，UART，Ethernet MAC，SLCD，PWM，I2S/MIC，Camera DVP等。

AVR MicrocontrollersATMEL® CORPORATIONA VR® Microcontrollers: Product Line ReferenceJanuary 2006 Customer EditionTable of Contents1AVR Product Family (2)1.1P RODUCT S ELECTION G UIDE - TINY AVR® (2)1.2P RODUCT S ELECTION G UIDE - MEGA AVR® (3)1.3P RODUCT S ELECTION G UIDE – PICO P OWER™AVR (4)1.4P RODUCT S ELECTION G UIDE –AVR32 (4)1.5P RODUCT S ELECTION G UIDE – MEGA AVR LCD AND ASSP AVR (5)1.6P RODUCT S ELECTION G UIDE –AVR Z-L INK® (5)1.7P RODUCT S ELECTION G UIDE –A UTOMOTIVE AVR (6)2Application Area in Focus: Comparing power consumption (7)2.1.1AVR BOD vs. TI BOR (7)2.1.2Protection in sleep modes (8)2.2O VERALL POWER CONSUMPTION (8)3AVR Development Tools (9)3.1T OOLS R EFERENCE (9)3.2AVR S TUDIO®T OOLS AND D EVICE S UPPORT (10)4Documentation (12)4.1D ATASHEETS (12)4.2A PPLICATION N OTES (13)2 Application Area in Focus: Comparing power consumptionWritten by: Andreas Eieland, Applications Engineer, System Solutions GroupFigure 1 Atmel picoPower technologyIt is a known fact that there are two main competitors in the ultra low power MCU market. Atmel with the picoPower megaAVRs and Texas Instruments (TI) with the MSP430F2xx series.Lately there has been debate among development engineers, which MCU is the lowest power consumer. In most cases these discussions are based on readouts from datasheets and not real world applications. When using the datasheets to compare parts it is paramount to compare apples to apples to get the numbers right.We will address this and other issues that are important when comparing AVRs to MSP430s in this article. 2.1.1 AVR BOD vs. TI BORMany compare the TI Brown-out reset (BOR) to the AVR Brown-out detect (BOD), based on this they claim that TI have lower power consumption. This is not correct. The TI BOR circuitry is comparable in functionality, power consumption, and protection level to the AVR Power-on-Reset circuitry. The TI BOR and the AVR POR are both considered being “Zero-Power”.To achieve the same level of protection as the AVR BOD, which is present on all picoPower megaAVRs, you have to use the TI Supply Voltage Supervisor (SVS). The SVS is not present on any parts in the ultra low power MSP430F2xx series. It is only available onlarger, more expensive MSP430s. Figure 2: the Atmel picoPower BOD response timeWhen enabled the TI SVS is active in all operating modes. The additional current consumed by the SVS is maximum 15 µA. Though the AVR sleeping BOD has a slightly higher maximum consumption of 20 µA in active mode, power is saved compared to the SVS and other traditional BODs byautomatically disabling the BOD during sleep mode. The BOD is automatically re-enabled when the controller wakes up from sleep mode and is active before the AVR executes any instructions. This approach provides superior protection with substantially less power drain as the majority of the time is normally spent in sleep mode in low power applications – not in active mode.2.1.2Protection in sleep modes.The accuracy of BODs is directly proportional to the current they consume. Low- or zero-power BODs tend to be both slow and inaccurate, while more accurate, faster BODs consume more power. Since BODs usually remain on in sleep mode, they represent a substantial drag on battery life. As a result, most vendors of ultra low power MCUs, sacrifice accuracy and speed to reduce current consumption.In some comparisons it is claimed that the sleeping BOD does not provide sufficient protection in sleep modes since the Brown out detector is turned off. This claim is based on the belief that one cannot predict when a brown out condition occurs. This is not true! In any battery powered system the voltage drops when the current consumption is high. The current consumption is high when the device is in active mode. If the battery voltage drops to below the BOD threshold while the part is in sleep mode, there will be no Flash or EEPROM corruption. The POR is active in all operating modes and will prevent the MCU from performing illegal or undefined operations inside the MCU and on the I/O pins. When the part wakes up, the BOD will trigger immediately if the voltage is to low. This ensures that no code is executed when the system behavior is undefined. With the sleeping BOD the picoPower controllers get the best of both worlds, very good protection while in active mode, and no power consumption penalty in sleep.2.2Overall power consumptionThere is no family of microcontrollers today that will have the lowest power consumption in all possible applications. Power consumption will always be dependent on the suitability of the MCU to the application. We do however claim that the AVR picoPower devices are the market leader in ultra low power technology, as it will give the lowest power consumption in the majority of applications.Comparing total power consumption for an application implemented with different controllers is a complex task. Things one has to take into consideration are energy consumed per instruction, amount of instructions needed to perform the operation, and how long time the application can stay in sleep. Depending on the level of system integration on the MCU, it might be necessary to add extra components to the design. The additional power consumption from these parts must also be added. The MSP430 BOR is an example of this. The BOR has a very slow response time and does not give sufficient protection in many high-speed systems. An external BOD is needed to ensure reliable operation, this adds to the total current consumption. The rule of thumb to reduce power consumption for all MCUs, when not considering external circuitry, is to stay in active mode for the shortest possible time, go to the deepest possible sleep-mode, and stay in the sleep mode for the longest possible time before waking up again. The time spent in active mode is very short for most low-power applications. Hence it is the power consumption in sleep that will make or break the power budget.Figure 3 Average power consumption exampleThe computational performances of the AVR and MSP430 cores are in the same range. For some applications the AVR is better, for other the MSP430 is better. As with power consumption there is no single part, or family of parts, that give the best performance for all applications. The MSP430 is a 16 bit MCU and will be better than the AVR in many applications that use 16 bit arithmetic’s, but the AVR uses fewer cycles in most other applications.AVR MCUs can run up to 25% faster than the MSP430F2xx series. In addition to this the picoPower megaAVRs has lower power consumption than TI in sleep modes and does not require an external BOD. Shorter time in active mode combined with lower power consumption in sleep gives the AVR picoPower devices lower overall power consumption than the MSP430F2xx in most ultra low power applications.Figure 4 Atmel AVR picoPower devicesFor more information about AVR picoPower see: /products/AVR/picopower/3A VR Development ToolsAtmel provides a complete range of development tools for the AVR products.3.1Tools ReferencePart Number DescriptionSoftwareAVR Studio 4.12 Front end software for AVR development toolsStarter KitsSTK500 AVR Starter Kit with AVR Studio InterfaceSTK501 Expansion of STK500 to support 64-pin megaAVR devicesSTK502 Expansion of STK500 for 64-pin LCD AVR devicesSTK503 Expansion of STK500 for 100-pin megaAVR devicesSTK504 Expansion of STK500 for 100-pin LCD AVR devicesSTK505 Expansion of STK500 for 14-pin SOIC and 20-pin PDIP AVR devicesSTK520 Expansion of STK500 for 90PWM devicesSTK525 Starter Kit for AT90USB devicesSTK1000 Starter Kit for AVR32AP7xxx devicesEvaluation Kits90EIT1 AVR Embedded Internet Tool KitAVRBFLY ATmega169 Demo Board with LCD and SpeakerAVRMC100 BLDC Motor Control with AT90PWM3AVRMC200 AC Induction Motor KitAVRMC201 Induction Motor for ATAVRMC200AVRFBKIT DALI Dimmable Fluorescent Ballast KitAVRRTOS AVR Real Time Operating System development kitPart Number Description90USBKEY AVR USB Key Demonstration KitAVRRZ200 Z-Link Demonstration KitAKSTK512-3 RemoteAccessControl – Unidirectional Kit 315 MHzAKSTK512-4 RemoteAccessControl – Unidirectional Kit 434 MHzDevelopment KitsDVK90CAN1 DVK90CAN1 Development Kit for AT90CAN devicesAVRSB100 Smart Battery Development Kit for Atmega406AVRISP2 ISP programmer for all AVR ISP devicesAVRRZ502 Z-Link RF Accessory KitAVRDRAGON Starterkit supporting On-Chip Debugging and programming for AVR. (AVR Dragon will support OCD for all AVRs with 32 kB or less Flash memory and programming for all AVRs. Sesection “AVR Studio Tools and Device Support” for current device support. More devicesupport will be available soon )EmulatorsICE50 AVR In-Circuit Emulator for all megaAVR and new tinyAVR devices.JTAGICE2 JTAGICE mkII On-Chip Debugger supporting all AVR and AVR32 with debugWIRE or JTAG interfaceJTAGPROBE JTAGICE mkII Probe including Flex CablesADAPTEST ICE50 Test AdapterADAPMEGA8 ICE50 Mega8 PDIP personality adapterADAPMEGA32 ICE50Mega8535/16/32PDIP personality adapterADAP128_TOP ICE50 Mega64/128 TQFP personality adapter (top module); requires one AT64PSKT_BOT as the bottom moduleADAP169_TOP ICE50 Mega169 TQFP personality adapter (top module); requires one AT64PSKT_BOT as the bottom moduleADAPMEGA162 ICE50 Mega8515/162 PDIP personality adapterADAPTINY26 ICE50 Tiny26 PDIP personality adapterADAPTINY13 ICE50 Tiny13 PDIP personality adapterADAPT2313 ICE50 Tiny2313 PDIP personality adapterATADAPCAN01 STK500/501 90CAN128 CAN adapterICE50MEM ICE50 memory extension card for mega2560/2561ICE50PROBE ICE40/50 Probe including Flex CablesICE50POD ICE40 and ICE50 POD replacement kit3.2AVR Studio® Tools and Device SupportAVR Studio 4.12 with the latest Service Pack supports all new Atmel debug platforms and devices. Some of the old devices are not supported. See below for a table of currently supported tools and devices in AVR Studio. This support is in progress, and the table below is not guaranteed to be complete when this is read. This information can also be found in the AVR Studio online help and on /avrThe latest AVR Studio SW can be found on: /dyn/products/tools_card.asp?tool_id=2725Device Simulator/AssemblerJTAGICEmkII Starter kitAVRDragonAVR ISPmkIIATtiny11 • STK500ATtiny12 • STK500 •ATtiny13 ••STK500 ••ATtiny15 • STK500 •ATtiny24 ••STK500 + STK505 •ATtiny25 ••STK500 ••ATtiny26 •STK500 (+ STK505) •Device Assembler mkII Starter kit Dragon mkII ATtiny261 ••STK500 (+ STK505) •ATtiny28 • STK500ATtiny44 ••STK500 + STK505 •ATtiny45 ••STK500 ••ATtiny461 ••STK500 (+ STK505) •ATtiny84 ••STK500 + STK505 •ATtiny85 ••STK500 ••ATtiny861 ••STK500 (+ STK505) •ATtiny2313 ••STK500 ••ATmega48 ••STK500 ••ATmega8 • STK500 •(Programmingonly)•ATmega88 ••STK500 ••ATmega8515 • STK500 •ATmega8535 • STK500 •ATmega16 ••STK500 ••ATmega162 ••STK500 •ATmega164P ••STK500 •ATmega165 ••STK500 + STK502 •ATmega165P ••STK500 + STK502 •ATmega168 ••STK500 ••ATmega169 ••STK500 + STK502 •ATmega169P ••STK500 + STK502 •ATmega32 ••STK500 ••ATmega324P ••STK500 •ATmega325 ••STK500 + STK502 •ATmega325P ••STK500 + STK502 ••ATmega3250 ••STK500 + STK504 •ATmega3250P ••STK500 + STK504 ••ATmega329 ••STK500 + STK502 •ATmega329P ••STK500 + STK502 ••ATmega3290 ••STK500 + STK504 •ATmega3290P ••STK500 + STK504 ••ATmega64 ••STK500 +STK501 •ATmega640 ••STK500 + STK503 •ATmega644 ••STK500 •ATmega644P ••STK500 •ATmega645 ••STK500 + STK502 •ATmega6450 ••STK500 + STK504 •ATmega649 ••STK500 + STK502 •ATmega6490 ••STK500 + STK504 •ATmega128 ••STK500 + STK501•(Programmingonly)•ATmega1280 ••STK500 + STK503 •ATmega1281 ••STK500 + STK501 •ATmega2560 ••STK500 + STK503 •ATmega2561 ••STK500 + STK501 •ATmega406 ••AT90CAN32 ••STK500 + STK501 +ATADAPCAN1•AT90CAN64 ••STK500 + STK501 +ATADAPCAN1•Device Assembler mkII Starter kit Dragon mkIIAT90CAN128 ••STK500 + STK501 +ATADAPCAN1•AT90PWM2 ••STK500 + STK520 •AT90PWM3 ••STK500 + STK520 •AT90USB646 ••STK500 + STK525 •AT90USB647 ••STK500 + STK525 •AT90USB1286 ••STK500 + STK525 •AT90USB1287 ••STK500 + STK525 •AT32AP7000 •STK1000AT32AP7001 •STK1000AT32AP7002 •STK10004DocumentationAll documents listed can be downloaded from Atmel Corporation’s web site: underthe product section. For other documentation, please send your request to avr@.4.1DatasheetsThe datasheets of all AVR devices can be downloaded.AVR: /dyn/products/datasheets.asp?family_id=607.AVR32: /dyn/products/datasheets.asp?family_id=682Family Devices LanguagePreliminary Summary Complete LastUpdate Auto AVR ATtiny25/45/85 Automotive English X X 09/2006 Auto AVR ATmega48/88/168 Automotive English X 09/2006 Auto AVR ATmega88 Automotive - 150°CSpecification - Appendix AEnglish X 09/2006 Auto AVR AT90CAN128 Automotive English X X 09/2006 CAN AVR AT90CAN32/64/128 English X X X 11/2006 CAN AVR AT90CAN128 English X X 05/2006 LCD AVR ATmega169(V English X X 07/2006 LCD AVR ATmega169(V) Chinese X X 9/04 LCD AVR ATmega329/3290/649/6490 English X X X 11/2006 USB AVR AT90USB1287/1286/646/647 English X X 02/06 Lighting AVR AT90PWM2, AT90PWM3 English X X 12/2006AVR Z-Link AT86RF230 ZigBee™/IEEE802.15.4-Transceiver English X X06/2006megaAVR ATmega48/88/168 EnglishXXX12/2006 megaAVR ATmega48/88/168 ChineseX X02/05 megaAVR ATmega8(L) English X X10/2006 megaAVR ATmega8(L) Chinese X7/04 megaAVR ATmega8515(L) English X X10/2006 megaAVR ATmega8515(L) Chinese X9/04 megaAVR ATmega8535(L) EnglishX X X10/2006 megaAVR ATmega8535(L) ChineseX X9/04 megaAVR ATmega16(L) English X X10/2006 megaAVR ATmega16(L) Chinese X10/04 megaAVR ATmega162(V) English X X 04/06 megaAVR Atmega164P/324P/644P EnglishX X X10/2006 megaAVR ATmega165(V) English X X X08/2006 megaAVR ATmega32(L) English X X10/2006 megaAVR ATmega32(L) ChineseX X09/04 megaAVR ATmega325/3250/645/6450 English X X X 11/2006Family Devices LanguagePreliminary Summary Complete LastUpdate megaAVR ATmega64(L) English X X10/2006 megaAVR ATmega64(L) ChineseX X09/04megaAVR ATmega640/1280/1281/2560/2561 English X X X09/2006megaAVR ATmega644 EnglishX X X09/2006 megaAVR ATmega128(L) English X X10/2006 megaAVR ATmega128(L) Chinese X05/04 picoPower megaAVR ATmega164P/324P/644P English X X X09/2006 picoPower megaAVR ATmega165P(V) EnglishXXX11/2006 picoPower megaAVR ATmega325P/3250P English X X X 12/2006picoPower LCD megaAVR ATmega169P(V) EnglishXXX11/2006picoPower LCD megaAVR ATmega329P/3290P EnglishXXX12/2006Smart Battery AVR ATmega406 English X X X 07/2006 tinyAVR ATtiny11/12 English XX07/2006 tinyAVR ATtiny13 EnglishXXX10/04 tinyAVR ATtiny13 ChineseX X04/04 tinyAVR ATtiny15L English XX06/05 tinyAVR ATtiny2313 EnglishXXX04/2006 tinyAVR ATtiny2313 ChineseX X07/04 tinyAVR ATtiny24/44/84 EnglishXXX09/2006 tinyAVR ATtiny25/45/85 EnglishXXX12/2006 tinyAVR ATtiny26(L) English XX10/2006 tinyAVR ATtiny26(L) ChineseX X12/03 tinyAVR ATtiny261/461/861 EnglishXXX11/2006 tinyAVR ATtiny28(L)(V) English XX07/2006USB AVR AT90USB1286, AT90USB1287,AT90USB646, AT90USB647 English X X07/2006USB AVR USB DFU Bootloader Datasheet English 04/06 AVR32 AT32AP7000 EnglishXXX10/2006 AVR32 AVR32 Architecture Manual English X X 02/06AVR32 AVR32 Technical ReferenceManual English X X06/2006AVR32 AVR32 Java Technical ReferenceManual English X X10/20064.2Application NotesThe application notes for all AVR devices can be downloaded.AVR: /dyn/products/app_notes.asp?family_id=607AVR32: /dyn/products/app_notes.asp?family_id=682Note Number Description Last Update AVR000 Register and Bit-Name Definitions for the AVR Microcontroller 4/98 AVR001 Conditional Assembly and Portability Macros 3/05 AVR030 Getting Started with IAR Embedded Workbench for Atmel AVR 10/04 AVR031 Getting Started with ImageCraft C for AVR 5/02 AVR032 Linker Command Files for the IAR ICCA90 Compiler 5/02 AVR033 Getting Started with the CodeVision AVR C Compiler 5/02 AVR034 Mixing C and Assembly Code with AVR Embedded Workbench for AVR 4/03 AVR035 Efficient C Coding for AVR 1/04 AVR040 EMC Design Considerations 06/2006 AVR042 AVR Hardware Design Considerations 06/2006 AVR053 Calibration of the Internal RC Oscillator 05/2006Note Number Description Last Update AVR054 Run-time calibration of the internal RC oscillator 02/2006 AVR055 Using a 32kHz XTAL for run-time calibration of the internal RC 02/2006 AVR060 JTAGICE 01/04 Protocol 4/03 AVR061 STK500AVR063 LCD Driver for the STK®504 04/2006 AVR064 STK502 – A Temperature Monitoring System with LCD Output 02/2006 AVR065 LCD Driver for the STK502 02/2006 AVR067 JTAGICE mkII Communication Protocol 04/2006 AVR068 STK500 Communication Protocol 06/2006 AVR069 AVRISP mkII Communication Protocol 02/2006 AVR070 Modifying AT90ICEPRO to Support Emulation of AT90 5/02 AVR072 Accessing 16-bit I/O Registers 5/02 AVR073 Accessing 10- and 16-bit registers in ATtiny261/461/86112/2006 AVR074 Upgrading AT90ICEPRO to ICE10 5/02 AVR080 ATmega103 Replaced by ATmega128 01/04 AVR081 ReplacingAT90S4433 by ATmega8 7/03ATmega161 by ATmega162 01/04 AVR082 ReplacingATmega163 by ATmega16 09/05 AVR083 ReplacingAVR084 ReplacingATmega323 by ATmega32 7/03AT90S8515 by ATmega8515 1/04 AVR085 ReplacingAVR086 ReplacingAT90S8535 by ATmega8535 7/03 AVR087 Migrating between ATmega8515 and ATmega162 7/03 AVR088 Migrating between ATmega8535 and ATmega16 1/04 AVR089 Migrating between ATmega16 and ATmega32 6/03 AVR090 Migrating between ATmega64 and ATmega128 6/03 AVR091 Replacing AT90S2313 by ATtiny2313 10/03 AVR092 Replacing ATtiny11/12 by ATtiny13 10/03 AVR093 Replacing AT90S1200 by ATtiny2313 10/03 ATmega8 by ATmega88 4/05 AVR094 ReplacingAVR095 Migrating between ATmega48, ATmega88 and ATmega168 2/04 AVR096 Migrating from ATmega128 to AT90CAN128 3/04 AVR097 Migration between Atmega128 and ATmega2561 07/2006 AVR098 Migration between ATmega169, ATmega329 and ATmega649 04/2006 AT90S4433 by ATmega48 07/04 AVR099 ReplacingEEPROM 09/05 AVR100 AccessingtheAVR101 High Endurance EEPROM Storage 9/02 AVR102 BlockRoutines 5/02 AVR103 Using the EEPROM Programming Modes 3/05 AVR104 Buffered Interrupt Controlled EEPROM Writes 7/03 AVR105 Power Efficient High Endurance Parameter Storage in Flash Memory 9/03 AVR106 C functions for reading and writing to Flash memory 08/2006 AVR107 Interfacing AVR serial memories 3/05 AVR108 Setup and Use of the LPM Instructions 5/02 AVR109 Self-programming 6/04 AVR120 Characterization and Calibration of the ADC on an AVR 02/2006 AVR121 Enhancing ADC resolution by oversampling 09/05 AVR128 Setup and Use the Analog Comparator 5/02 AVR130 Setup and use the AVR Timers 2/02 AVR131 Using the AVR’s High-speed PWM 9/03 AVR132 Using the Enhanced Watchdog Timer 11/03 AVR133 Long Delay Generation Using the AVR Microcontroller 2/04 AVR134 Real-Time Clock using the Asynchronous Timer 08/2006 AVR135 Using Timer Capture to Measure PWM Duty Cycle 10/2005 AVR136 Low-jitter Multi-channel Software PWM05/06 AVR137 Writing Software Compatible for AT90PWM2/3 and AT90PWM2B/3B12/2006family run-time calibration of the Internal RC oscillator09/2006 AVR140 ATmega48/88/168Note Number Description Last Update AVR151 Setup and use of the SPI 09/05 AVR155 Accessing I2C LCD Display Using the AVR 2-Wire Serial Interface 09/05 AVR180 External Brown-Out Protection 5/02 AVR182 Zero Cross Detector 1/04 AVR191 Anti-Pinch Algorithm for AVR Adaptation Procedure11/2006 AVR200 Multiply and Divide Routines 05/2006 AVR201 Using the AVR Hardware Multiplier 6/02 Arithmetic 5/02 AVR202 16-BitArithmetic 1/03 AVR204 BCDAVR220 BubbleSort 5/02 AVR221 Discrete PID controller 05/2006 AVR222 8-Point Moving Average Filter 5/02 AVR223 Digital Filters with AVR 9/02 Bootloader 4/05 AVR230 DESBootloader 08/2006 AVR231 AESAVR236 CRC Check of Program Memory 5/02 AVR240 4x4 Keypad-Wake Up on Keypress 06/2006 AVR241 Direct driving of LCD display using general I/O 5/04 AVR242 8-bit Microcontroller Multiplexing LED Drive & a 4x4 Keypad 5/02 AVR243 Matrix Keyboard Decoder 1/03 AVR244 UART as ANSI Terminal Interface 11/03 AVR245 Code Lock with 4x4 Keypad and I2C™ LCD 10/2005 AVR270 USB Mouse Demonstration 02/2006Demonstration 02/2006 KeyboardAVR271 USBAVR272 USB CDC Demonstration UART to USB Bridge 04/2006 AVR273 USB Mass Storage Implementation 04/2006 AVR301 C Code for Interfacing AVR® to AT17CXX FPGA Configuration Memory 1/04Gateway 3/05 AVR303 SPI-UARTAVR304 Half Duplex Interrupt Driven Software UART 8/97 AVR305 Half Duplex Compact Software UART 09/05 AVR306 Using the AVR UART in C 7/02 AVR307 Half Duplex UART Using the USI Module 10/03 AVR308 Software LIN Slave 5/02 AVR309 Software Universal Serial Bus (USB) 02/2006 AVR310 Using the USI Module as a I2C Master 9/04 AVR311 Using the TWI Module as a I2C Slave 10/04 AVR312 Using the USI Module as a I2C Slave 09/05 AVR313 Interfacing the PCAT Keyboard 09/05 AVR314 DTMFGenerator 5/02 AVR315 Using the TWI Module as a I2C Master 10/04 AVR316 SMBus Slave Using the TWI Module 10/2005 AVR317 Using the USART on the ATmega48/88/168 as a SPI master 11/04 AVR318 Dallas 1-Wire® Master 10/04 AVR319 Using the USI module for SPI communication 11/04 AVR320 Software SPI Master 09/05 AVR322 LIN v1.3 Protocol Implementation on Atmel AVR Microcontrollers 12/05 AVR323 Interfacing GSM modems02/2006 AVR325 High-Speed Interface to Host EPP Parallel Port 2/02 AVR328 USB Generic HID Implementation 1/06 AVR329 USB Firmware Architecture 02/2006 AVR335 Digital Sound Recorder with AVR and Serial Data Flash 4/05 AVR336 ADPCMDecoder 1/05Utility for AVR 09/05ReceiveAVR350 XmodemCRCAVR360 Step Motor Controller 4/03 AVR400 Low Cost A/D Converter 5/02 AVR401 8-Bit Precision A/D Converter 2/03Note Number Description Last Update AVR410 RC5 IR Remote Control Receiver 5/02 AVR411 Secure Rolling Code Algorithm for Wireless Link04/06 AVR414 User Guide - ATAVRRZ502 - Accessory Kit12/2006 AVR415 RC5 IR Remote Control Transmitter 5/03 AVR433 Power Factor Corrector (PFC) with AT90PWM2 Re-triggable High Speed PSC 03/2006 AVR434 PSC Cookbook 10/2006 AVR435 BLDC/BLAC Motor Control Using a Sinus Modulated PWM Algorithm 09/2006 AVR440 Sensorless Control of Two-Phase Brushless DC Motor 09/05 AVR441 Intelligent BLDC Fan Controller with Temperature Sensor and Serial Interface 9/05 AVR442 PC Fan Control using ATtiny13 9/05 AVR443 Sensor-based control of three phase Brushless DC motor 02/2006 AVR444 Sensorless control of 3-phase brushless DC motors 10/2005 AVR446 Linear speed control of stepper motor06/200606/2006 AVR447 Sinusoidal driving of three-phase permanent magnet motor usingATmega48/88/168AVR448 Control of High Voltage 3-Phase BLDC Motro 05/2006 AVR449 Sinusoidal driving of 3-phase permanent magnet motor using ATtiny261/461/86110/2006 AVR450 Battery Charger for SLA, NiCd, NiMH and Li-ion Batteries 09/2006 AVR452 Sensor-based Control of Three Phase Brushless DC Motors Using CAN128 64 3203/2006 or mega128 64 usiAVR453 Smart Battery Reference Design 02/2006 AVR454 Users Guide – ATAVRSB100 – Smart Battery Development Board 06/2006Server 5/02 WebAVR460 EmbeddedAVR461 Quick Start Guide for the Embedded Internet Toolkit 5/02 AVR462 Reducing the Power Consumption of ATEIT1 3/02 meter 7/04 AVR465 EnergyAVR480 Anti-Pinch System for Electrical Window 12/2006 AVR492 Brushless DC Motor Control using AT90PWM3 7/0507/2006 AVR493 Sensorless Commutation of Brushless DC Motor (BLDC) using AT90PWM3 andATAVRMC10012/05 AVR494 AC Induction Motor Control Using the constant V/f Principle and a Natural PWMAlgorithm02/2006 AVR495 AC Induction Motor Control Using the Constant V/f Principle and a Space-vectorPWM AlgorithmAVR500 Migration between Atmega64 and Atmega645 9/04 AVR501 Replacing ATtiny15 with ATtiny25 3/05 AVR502 Migration between Atmega165 and ATmega325 11/04 AVR503 Replacing AT90S/LS2323 or AT90S/LS2343 with ATtiny25 09/05 AVR504 Migrating from ATtiny26 to ATtiny261/461/861 10/2006 AVR505 Migration between Atmega16/32 and ATmega164/324/644 06/2006Atmega169 to ATmega169P 06/2006 AVR506 MigrationfromAVR507 Migration from ATmega329 to ATmega329P 11/2006ATmega644 to ATmega644P 07/2006 AVR508 MigrationfromAVR509 Migration between ATmega169P and ATmega329P 11/2006 AVR510 Migration between ATmega329/649 and ATmega3290/649007/2006 AVR511 Migration from ATmega3290 to ATmega3290P11/2006 AVR910 In-SystemProgramming 11/00 AVR911 AVR Open-source Programmer 7/0405/2006 AVR914 CAN & UART based Bootloader for AT90CAN32, AT90CAN64, &AT90CAN128AVR32000Introduction to AVR32 header files05/2006 AVR32100 Using the AVR32 USART 4/06 AVR32101 Configuring the AVR32 Interrupt Controller 4/06 AVR32102Using the AVR32 SDRAM Controller05/2006 AVR32105Master and Slave SPI Driver05/2006 AVR32107 Using TWI as a master on the AVR32 4/06Note Number Description Last Update AVR32108Peripheral Direct Memory Access Driver05/2006 AVR32110Using the AVR32 Timer/Counter05/2006 AVR32111Using the AVR32 PIO Controller05/2006 AVR32113Configuration and Use of the Memory Management Unit09/2006© 2007 Atmel Corporation. All Rights Reserved. Atmel®, logo and combinations thereof, Everywhere You Are®,AVR® , Z-Link® and others,are registered trademarks, picoPower™ and others are trademarks of Atmel Corporation or its subsidiaries. Other terms and product names may be trademarks of others.。

SM7dBVocal Microphone with Active PreampSM7dB online user guide.Version: 2.0 (2023-I)Table of ContentsSM7dB Vocal Microphone with Active Preamp3 SAFETY PRECAUTIONS3 General Description3 Powering the SM7dB Preamplifier 3 Preamplifier Best Practices 3 Using Variable Impedance Mic Preamplifiers4 Microphone Placement4 Windscreen 5Adjust Back Panel Switches5 Switching Microphone Orientation 6 Install or Remove the Stand Adapter 7 Specifications8 Accessories 11 Furnished Accessories11 Replacement Parts 11 Certifications 11SM7dBVocal Microphone with Active PreampSAFETY PRECAUTIONSBefore using this product, please read and save the enclosed warnings and safety instructions.WARNING: Ignoring these warnings may cause severe injury or death as a result of incorrect opera­tion.If water or other foreign objects enter the inside of the device, fire or electric shock may result.Do not attempt to modify this product. Doing so could result in personal injury and/or product failure.CAUTION: Ignoring these cautions may cause moderate injury or property damage as a result of in­correct operation.Never disassemble or modify the device, as failures may result.Do not subject to extreme force and do not pull on the cable or failures may result.Keep the microphone dry and avoid exposure to extreme temperatures and humidity.General DescriptionThe Shure SM7dB dynamic microphone has a smooth, flat, wide-range frequency response appropriate for content creation, speech, music, and beyond. A built­in active preamplifier provides up to +28 dB of low­noise, flat, transparent gain while pre­serving frequency response for a clean, classic sound. The SM7dB's built-in preamp delivers the legendary sound of theSM7B, completely uncompromised and without the need for an in­line preamplifier. The SM7dB back panel switches allow cus­tomized frequency response and the ability to adjust or bypass the preamp.Powering the SM7dB PreamplifierImportant: The SM7dB requires +48 V phantom power to operate with the preamplifier engaged. It will operate in bypass mode without phantom power.To deliver audio directly to a computer, use an audio interface with an XLR input that provides +48 V phantom power, such as the Shure MVi or MVX2U, and turn phantom power on.When connecting to a mixer, use only balanced, microphone-level inputs with phantom power. Turn phantom power on for the channel your SM7dB is connected to.Depending on your interface or mixer, phantom power may be enabled through a switch, a button, or control software. Refer to the user guide for your interface or mixer to learn how to engage phantom power.Preamplifier Best PracticesThe SM7dB features a built­in active preamplifier which provides up to +28 dB of low­noise, flat, transparent gain that opti­mizes audio performance.Adjust the gain level on the SM7dB before adjusting levels on your interface or mixer. This approach maximizes the signal-to-noise ratio for a cleaner, clearer sound.In podcast or quiet vocal applications, you are more likely to need the +28 dB setting, while louder talkers or singers may only need the +18 dB setting. For instrumental applications, you may find that the +18 dB or the bypass settings reach the ideal in­put levels.Using Variable Impedance Mic PreamplifiersSelect the highest available impedance setting on the external preamp when using the built-in preamp.If you are using a low impedance setting to change the tonality for creative purposes, bypass the SM7dB's built-in preamp. Keeping the SM7dB preamp engaged with a low-impedance setting will not yield the same changes in tone.Microphone PlacementSpeak directly into the mic, 1 to 6 inches (2.54 to 15 cm) away to block off­axis noise. For a warmer bass response, move clos­er to the microphone. For less bass, move the microphone away from you.Velcro Cable TieUse the enclosed velcro tie to secure the cable.WindscreenUse the standard windscreen for general voice and instrumental applications.When you speak, you may hear vocal pops from some consonant sounds (known as plosives). To prevent more plosive sounds and wind noise, you can use the larger A7WS windscreen.Adjust Back Panel Switches1.2.3.4.5.6.7.① Bass Rolloff Switch To reduce the bass, push the top-left switch down. This can help lower background hum from A/C, HVAC, or traffic.② Presence Boost For a brighter sound in mid-range frequencies, push the top-right switch up. This can help improve vocal clarity.③ Bypass Switch Push the bottom-left switch to the left to bypass the preamp and achieve the classic SM7B sound.④ Preamp Switch To adjust the gain on the built-in preamp, push the bottom-right switch to the left for +18 dB and to the right for +28 dB.Switching Microphone OrientationBoom and Microphone Stand Mounting ConfigurationThe SM7dB can be mounted on a boom arm or a stand. The default setup for the SM7dB is for a boom mount. To keep the rear panel facing upright when mounted on a stand, reconfigure the mounting assembly.To set up the SM7dB for a microphone stand:Remove tightening nuts on the sides.Remove the fitted washers, the lock washers, the outer brass washers, and the brass sleeves.Slide the bracket off the microphone. Be careful not to lose the washers still on the microphone.Invert and rotate the bracket. Slide it back onto the bolts over the brass and plastic washers still on the microphone. The bracket should fit so the XLR connector faces the rear of the microphone and the Shure logo on the back of the mi­crophone is right-side up.Replace the brass sleeves. Be sure they are seated properly within the inner washers.Replace the outer brass washers, the lock washers, and the fitted washers.Replace the tightening nuts and tighten the microphone at the desired angle.Note: If the tightening nuts do not hold the microphone in place, you may need to re-position the brass sleeves and the washers.Mounting Assembly - Exploded View① Tightening nut② Fitted washer③ Lock washer④ Brass washers⑤ Brass sleeve⑥ Mounting bracket⑦ Plastic washer⑧ Response switches⑨ Switch cover⑩ WindscreenInstall or Remove the Stand AdapterTo mount the microphone on a 3/8 in. stand, insert the included brass stand adapter and tighten it with a coin or screwdriver.Important: Make sure that the slots on the adapter face outward.SpecificationsTypeDynamic (moving coil)Frequency Response50 to 20,000 HzPolar PatternCardioidOutput ImpedancePreamp engaged27 ΩBypass mode150 ΩRecommended Load>1k ΩSensitivityFlat response bypass mode­59 dBV/Pa[1] (1.12 mV)Flat response +18 preamp engaged-41 dBV/Pa[1] (8.91 mV)Flat response +28 preamp engaged-31 dBV/Pa[1] (28.2 mV)Hum Pickup(typical, at 60 Hz, equivalent SPL/mOe)11 dBPreamplifier Equivalent Input Noise(A-weighted, typical)-130 dBVPolarityPositive pressure on diaphragm produces positive voltage on pin 2 with respect to pin 3Power Requirements(with preamp engaged)48 V DC [2] phantom power (IEC-61938) 4.5 mA, maximumWeight0.837 kg (1.875 lbs)HousingBlack enamel aluminum and steel case with black foam windscreen[1] 1 Pa=94 dB SPL[2]All specifications measured with a 48 Vdc phantom power supply. The microphone operates at lower voltages, but with slightly decreased headroom and sensitivity.Typical Frequency ResponseTypical Polar PatternOverall DimensionsAccessoriesFurnished AccessoriesBlack Foam Windscreen RK345BLarge Black Foam Windscreen for SM7, also see RK345A7WS5/8" to 3/8" Thread Adapter31A1856Replacement PartsCartridge for SM7dB RPM106BBlack Windscreen for SM7dB RK345BNut and Washers for SM7dB Yoke Mount RPM604BCertificationsCE NoticeHereby, Shure Incorporated declares that this product with CE Marking has been determined to be in compliance with Euro­pean Union requirements.The full text of the EU declaration of conformity is available at the following site: https:///en­EU/support/declara­tions-of-conformity.UKCA NoticeHereby, Shure Incorporated declares that this product with UKCA Marking has been determined to be in compliance with UK­CA requirements.The full text of the UK declaration of conformity is available at the following site: https:///en­GB/support/declara­tions-of-conformity.Waste Electrical and Electronic Equipment (WEEE) DirectiveIn the European Union and the United Kingdom, this label indicates that this product should not be disposed of with household waste. It should be deposited at an appropriate facility to enable recovery and recycling.Please consider the environment, electric products and packaging are part of regional recycling schemes and do not belong to regular household waste.Registration, Evaluation, Authorization of Chemicals (REACH) DirectiveREACH (Registration, Evaluation, Authorization of Chemicals) is the European Union (EU) and the United Kingdom (UK) chemical substances regulatory framework. Information on substances of very high concern contained in Shure products in a concentration above 0.1% weight over weight (w/w) is available upon request.。

The data on this sheet represent typical values. Since application variables are a major factor in product performance, this information should serve only as a general guide. Valspar assumes no obligation or liability for use of this information . UNLESS VALSPARAGREES OTHERWISE IN WRITING, VALSPAR MAKES NO WARRANTIES, EXPRESS OR IMPLIED, AND DISCLAIMS ALL IMPLIED WARRANTIES INCLUDING WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR USE ORDate: August 1, 2010(supersedes all previous revisions)Graintone Plus™ Universal Dye Concentrates-HAPs Free TECHNICAL DATA SHEETPHYSICAL PROPERTIES (objective specifications) VDS1051-Red VDS1054-OrangeVDS1052-Yellow VDS1056-BrownVDS1053-Black Viscosity: Weight Solids: Volume Solids: Weight/Gallon: Theoretical Coverage: Flash Point: Air Quality Information: VOC: AIM VOC: VOC Ratio VHAP: Photochemically Reactive?: N/A 26.0-35.7% 15.5-27.50%8.6-9.2 1bs/galN/A88-110ºF Closed Cup5.82-6.41lbs/gal or 695.5-766g/lN/A1.8-2.81lb VOC/lb solid0.0lb VHAP/lb solidNo Valspar’s GRAINTONE Plus™ Universal Dye Concentrates are concentrated dye colorants used to tint both solvent and waterborne stain bases, sealers and topcoats. These universal dye colorants allow the user to create stains and specialty coatings in both solvent and waterborne products with superior transparency, clarity and depth of color. They are typically used to make NGR (Non-Grain Raising) stains which are used as a first step in a multi-step system. They can also be added to washcoats, sealers, and topcoats to make transparent toners/shaders. These universal dye concentrates are for tinting purposes only and are notdesigned to be used directly on wood without first adding toan approved stain or coating. This product is designed forprofessional application only. For Wood Substrates Only.OTHER INFORMATION •Use in both solvent and waterborne products •Won’t fade like most dyes •Outstanding clarity •Make custom toners and shaders •Add depth of color without obscuring the wood grain.•Unlimited color options through custom tinting • HAPs Fre Dry Times (78°F, 50%RH): Air Dry To Touch/Handle: N/A To Sand/Recoat: N/A To Stack: Force Dry To Flash: N/ATo Bake: N/ACool Down: N/ATo Stack:Shelf life: 18 months unopened. These dye concentrates willincrease in color strength if not properly sealed immediatelyafter use.Application Equipment:N/ARecommended Tip Sizes:N/ANote: All information provided is typical (as formulated) andwill not represent exact values for every product. For specificAir Quality Data for each product, VOC reports are availableupon request.*As allowable within regulatory compliance requirements YYT0013 YYT1009 VWS0680 Zenith™ waterborne clear stain bases All Valspar Wood Finishes solvent based clear sealers and topcoats These products are recommended for professional application and are designed for interior use only. Always pre-test the system on your substrate and under your line conditions to verify suitability to the application and to avoid potential need for costly refinishing. Valspar Wood Finishes products are designed to protect and enhance the natural beauty of wood, but cannot eliminate natural discoloration or deterioration of wood as it ages.Additional notes:Do not mix with other finishing systems or deviate fromthese finishing recommendations. Valspar will not be heldliable for finish failures resulting from the mixing ofproducts or deviations from finishing recommendations.FINISHING RECOMMENDATIONSGeneral: Surface must be clean and dust free with moisture content of 6-8% prior to finishing. Remove all dirt, dust, wax and wood marks. Proper sanding and preparation of the wood is critical to achieving consistent results. New Wood: Finish sand surface (150-180 grit) and remove all sanding dust.Painted or Varnished Wood: Remove all paint or varnish then follow new wood instructions.Before using, mix product by hand, or use mechanical agitation such as an air mixer until there is no material on the bottom of the container. All products should be stirred well before use and, for best results, continuously agitated while in use.General: Always pre-test the system on your substrate to verify suitability of the application.These dye concentrates are used to tint approved solvent, and water based Valspar Wood Finishes stain bases, sealers, and topcoats (see companion products section of this document).Maximum recommended tint strength:When tinting as a NGR stain:YYT0013,YYT1009-10% by weightLWS2700-10% by weightWhen adding to a wiping stain to add color depth and dimension-LWS1000, LWS0750,VWS0680-10% by weight When adding to a solvent based washcoat, sealer, or topcoat- 1-5% by weightNOTE: These dye concentrates are NOT compatible with VWS0909, VWS055X, or VWS025X series stains or bases.Drying Time:Dry to touch: Refer to the Technical Data Sheet for the Product you are tintingDry to sand and recoat: Refer to the Technical Data Sheet for the Product you are tintingDo not apply if the material or substrate temperature is below 55ºF.This product is best applied when surface and air temperatures are between 55º-90º F (~12-32°C) and when relative humidity is below 50% during application and drying time.Refer to your local regulations for compliance requirements for cleaning solvents. Dispose of dirty solvent and cleaning rags in a safe and compliant manner. Solvent or lacquer soaked rags should be stored in water-filled, closed containers prior to disposal.Store in a cool, dry place. Close all containers after use. Do not store near heat or sparks. Spills should be cleaned up with non-sparking tools. See the product MSDS for complete safety information.Always pre-test the system on your substrate and under your line conditions to verify suitability to the application and avoid potential need for costly refinishing. All dry times listed are as tested under ideal indoor environmental conditions of 78°F (26°C) with relative humidity not exceeding 50%. These products are recommended for use under temperature conditions of 55º-90º F (~12-32°C)and when relative humidity is below 50% during application and drying time. Low temperatures, poor air circulation or high humidity will extend dry times. Valspar strongly recommends against use of these products if temperatures of air, material, or surface to be coated are below 55°F (12°C) or below the dew point. Abnormal conditions of temperature or humidity may adversely affect product performance. Please contact your authorized Valspar Wood Finishes distributor for additional product use recommendations and finishing guidance.The data on this sheet represent typical values. Since application variables are a major factor in product performance, this information should serve only as a general guide. Valspar assumes no obligation or liability for use of this information. UNLESS VALSPARAGREES OTHERWISE IN WRITING, VALSPAR MAKES NO WARRANTIES, EXPRESS OR IMPLIED, AND DISCLAIMS ALLIMPLIED WARRANTIES INCLUDING WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR USE OR。

精度通道数输出型V/A200.0005100001 Delta-sigma Voltage 018 51 R-2R Voltage 016 51 R-2R Voltage 016 11 R-2R Voltage -1816 11 R-2R Voltage -5.516211 R-2R Voltage -5.516111 R-2R Voltage 01620.52 R-2R Current 01620.51 R-2R Current 01620.54 R-2R Current 01620.52 R-2R Current 01620.51 R-2R Current 016 64 R-2R Voltage -16.516 158 String Voltage -16.516 158 String Voltage -16.51630.651 String Voltage -5.516160.651 String Voltage -6160.043104 String Voltage -6160.043101 String Voltage 016 58 String Voltage 0160.284 String Voltage 0160.284 String Voltage 0 DAC856216 72 String Voltage 0160.281 String Voltage 0160.2104 String Voltage 0160.2104 String Voltage 0160.2102 String Voltage 0160.2101 String Voltage 0160.2101 String Voltage 016 84 String Voltage 0160.1101 String Voltage 0160.093104 String Voltage 0160.093102 String Voltage 0160.093101 String Voltage 0160.093101 String Voltage 016 61 String Voltage 0160.1104 R-2R Voltage -10160.251 R-2R Voltage -10160.251 R-2R Voltage -10160.089104 R-2R Voltage -10160.17251 R-2R Voltage -10160.1124 R-2R Voltage -2.5160.1124 R-2R Voltage -2.5160.1104 R-2R Voltage -2.5160.1102 R-2R Voltage -2.5160.1101 R-2R Voltage -2.5160.089104 R-2R Voltage -2.5160.089102 R-2R Voltage -2.5160.093101 R-2R Voltage -2.5160.086101 R-2R Voltage 0160.1101 R-2R Voltage 0160.086101 R-2R Voltage -10160.1101 R-2R Voltage -10168000.0112 Current sink Current 2168000.0112 Current sink Current 2165000.0122 Current sink Current 2165000.0122 Current sink Current 21610000.01042 Current sink Current 21610000.01041 Current sink Current 21610000.01041 Current sink Current 2168000.01042 Current sink Current 2166250.01042 Current sink Current 2160.000520001 Delta-sigma Voltage 0141250.0351 Current source Current 2142000.031 Current source Current 21420.51 R-2R Current 01420.52 R-2R Current 01420.54 R-2R Current 01420.52 R-2R Current 01420.51 R-2R Current 014 61 String Voltage 014 64 R-2R Voltage -16.514 158 String Voltage -16.514 158 String Voltage -16.514 58 String Voltage 014 84 String Voltage 014 84 String Voltage 0DAC816214 72 String Voltage 0144000.021 Current source Current 2142750.022 Current source Current 2142750.022 Current source Current 2142400 Current sink Current120.28611 String Voltage 0120.23312 String Voltage 0120.23311 String Voltage 0120.28611 String Voltage 0120.28318 String Voltage 012111 String Voltage 0120.10231 String Voltage 0120.10234 String Voltage 0120.102 4 String Voltage 0120.10234 String Voltage 0120.28611 String Voltage 0120.28318 String Voltage 0120.28318 String Voltage 0120.28318 String Voltage 0120.075 2.52 String Voltage 0121250.0351 Current source Current 2126661 R Ladder Voltage 0.78122000.031 Current source Current 2120.16741 R-2R Voltage -10120.2541 R-2R Voltage -10120.28411 R-2R Current 012100.22 R-2R Current 012100.21 R-2R Current 01250.21 R-2R Current 012 1.250.82 R-2R Current 012 1.250.82 R-2R Current 012 1.250.82 R-2R Current 012 158 String Voltage -16.5120.1104 R-2R Voltage -10120.1104 R-2R Voltage -1012 158 String Voltage -16.512 64 R-2R Voltage -16120.089104 R-2R Voltage -10120.089104 R-2R Voltage -10 ACTIVE 12 78 String Voltage 0 120.1104 R-2R Voltage -10120.1104 R-2R Voltage -2.5120.143101 R-2R Voltage -2.5120.089104 R-2R Voltage 0120.089104 R-2R Voltage 0120.089104 R-2R Voltage 0120.089104 R-2R Voltage -2.5120.1101 R-2R Voltage -2.5120.13102 R-2R Voltage -2.5120.132101 R-2R Voltage 0ACTIVE 12 78 String Voltage 0 120.043104 String Voltage 0120.043104 String Voltage 0120.05101 String Voltage 012 58 String Voltage 012 84 String Voltage 012 84 String Voltage 0 DAC756212 72 String Voltage 0120.558 String Voltage 012 54 String Voltage 012152 String Voltage 012152 String Voltage 0120.551 String Voltage 0120.095101 String Voltage 0120.095101 String Voltage 012 152 String Voltage -512 152 String Voltage -512 61 String Voltage 0122750.022 Current source Current 0122750.022 Current source Current 212400.0252 Current source Current 0.5100.2780.82 String Voltage 0100.28318 String Voltage 0100.093 2.52 String Voltage 0100.28318 String Voltage 0100.10231 String Voltage 0100.10234 String Voltage 0100.07512.51 String Voltage 0101250.0351 Current source Current 2102000.031 Current source Current 2102000.031 Current source Current 2 ACTIVE 10 78 String Voltage 0 100.18894 String Voltage 0100.18894 String Voltage 010 91 String Voltage 010 152 String Voltage -510 152 String Voltage -510 61 String Voltage 0102750.022 Current source Current 2102750.022 Current source Current 280.28318 String Voltage 080.28318 String Voltage 080.045108 String Voltage 080.107 2.54 String Voltage 080.2780.82 String Voltage 080.09332 String Voltage 080.23311 String Voltage 080.10231 String Voltage 080.008104 R-2R Voltage 080.048104 R-2R Voltage 08100.12 R-2R Current -108100.12 R-2R Current -108100.11 R-2R Current -1080.14354 R-2R Voltage -580.14354 R-2R Voltage -580.045108 String Voltage 080.048104 String Voltage 08300.031 I-steering Voltage 081000.0351 Current source Current 282000.031 Current source Current 2 ACTIVE 8 78 String Voltage 080.18884 String Voltage 080.18884 String Voltage 08 81 String Voltage 08 152 String Voltage -58 61 String Voltage 08 61 String Voltage 0ACTIVE 0.2561001 I-steering Current输入方式基准源E/I5.5 Serial SPI 1120 2.5 Ext 4.75 5.5 Serial SPI 1218 6 Ext 1.7 5.5 Serial SPI 1116 6 Ext 2.7 18 Serial SPI 1116 0.015 Ext 2.7 5.5 Serial SPI 1116 0.015 Ext 2.7 5.5 Serial SPI 1116 0.015 Ext 2.7 5.5 Serial SPI 1116 0.015 Ext 2.72 Parallel 1116 0.025 Ext 2.72 Parallel 1116 0.025 Ext 2.72 Serial SPI 1116 0.0275 Ext 2.72 Serial SPI 1116 0.025 Ext 2.72 Serial SPI 1116 0.025 Ext 2.7 16.5 Serial SPI 1116 280 Ext 2.7 33 Parallel 1416 107 Ext 2.7 33 Serial SPI 1416 115 Ext 2.75.5 Serial SPI 0.56416115100175 Ext 1.86 Serial SPI 16416115100175 Ext 1.86 Serial I2C 16416 2.7 Ext 2.7 5.5 Serial I2C 16516 0.42 Ext 2.7 5.5 Serial SPI 112168363 2.2 Int/Ext 2.7 5.5 Serial SPI 18168879 3.1 Int/Ext 1.8 5.5 Serial SPI 18168879 3.1 Int/Ext 1.85 Serial SPI 11216 0.5 Int/Ext5.5 Serial SPI 18168879 2.6 Int/Ext 2.7 5.5 Serial SPI 1121695873 Ext 1.8 5.5 Serial SPI 1121695873 Ext 1.8 5.5 Serial SPI 181695873 Ext 2.7 5.5 Serial SPI 1816 1 Ext 2.7 5.5 Serial SPI 181695871 Ext 2.7 5.5 Parallel 16516 4.75 Ext 1.8 5.5 Parallel 16516 0.72 Ext 1.8 5.5 Serial SPI 164169469 2.7 Ext 2.7 5.5 Serial SPI 165169469 1.35 Ext 2.7 5.5 Serial SPI 16416 0.72 Ext 2.7 5.5 Serial SPI 16416 0.72 Ext 2.7 5.5 Serial SPI 281588660.14 Ext 1.8 10 Parallel 1216 50 Ext 4.75 10 Parallel 1316 100 Int/Ext 4.75 10 Parallel 1316 100 Int/Ext 4.75 10 Serial SPI 2216 50 Ext 4.75 10 Serial SPI 3316 100 Int/Ext 4.75 2.5 Parallel 3316 18 Int/Ext 5.25 2.5 Serial SPI 1316 18 Int/Ext 4.75 2.5 Parallel 2315 7.5 Ext 4.75 2.5 Parallel 2315 2.5 Ext 4.752.5 Parallel 2315 2.5 Ext 4.752.5 Parallel 2315 1.8 Ext 4.752.5 Serial SPI 2315 7.5 Ext 4.752.5 Serial SPI 2315 2.5 Ext 4.752.5 Serial SPI 2315 1.8 Ext 4.7510 Serial SPI 2215 525 Int 4.510 Parallel 1216 525 Int 4.510 Serial SPI 1116 525 Int 4.510 Parallel 1215 525 Int 4.520 Parallel 24 79801750 Int 1.7120 Parallel 24 79801750 Int 1.7120 Parallel 36 75801410 Int 1.7120 Parallel 912 7272445 Int 1.6520 Parallel LVDS 24 79811300 Int 1.7120 Parallel LVDS 24 7981800 Int 1.7120 Parallel LVDS 24 7981650 Int 1.7120 8 Byte Wide LVDS 24 77831150 Int 1.7120 8 Byte Wide LVDS 24 7783950 Int 1.712.8 Serial SPI 1216 1.2 Ext 2.720 Parallel 3.57 75175 Ext 320 Parallel 2.53 76170 Int/Ext 2.72 Parallel 1114 0.025 Ext 2.72 Parallel 1114 0.025 Ext 2.72 Serial SPI 1114 0.0275 Ext 2.72 Serial SPI 1114 0.025 Ext 2.72 Serial SPI 0.5114 0.025 Ext 2.75.5 Serial SPI 141488660.14 Ext 1.8 16.5 Serial SPI 1114 260 2.733 Parallel 1214 107 2.733 Serial SPI 1214 115 Ext 2.755.5 Serial SPI 0.54148363 2.2 Int/Ext 2.75.5 Serial SPI 12148779 2.9 Int/Ext 1.85.5 Serial SPI 12148779 2.9 Int/Ext 1.85 Serial SPI 0.5314 0.5 Int/Ext5.5 Parallel LVDS 24 74660 Int 3.1520 Parallel 2 3.5 7176435 Int 1.6520 Parallel 34 7784330 Int 320 Parallel 34147784330 Int 3 Parallel LVDS 1.757.5 2000 Int5.1 Parallel 0.53127874 2.7 Int/Ext 2.75.1 Serial SPI 14127472 4.5 Int/Ext 2.75.1 Serial SPI 14127579 4.5 Int/Ext 2.75.1 Parallel 0.53127874 2.7 Int/Ext 2.75.1 Serial SPI 1612 18 Int/Ext 2.75.1 Parallel 14127872 4.3 Ext 2.75.1 Serial SPI 14127672 1.8 Ext 2.7 5.1 Serial SPI 141274700.9 Ext 2.7 5.1 Serial SPI 14127470 3.6 Ext 2.7 5.1 Serial SPI 14127470 3.6 Ext 2.75.1 Serial SPI 14127470 3.6 Ext 2.7 5.1 Parallel 14127872 1.2 Ext 2.7 5.1 Serial SPI 1612 18 Ext 2.7 5.1 Serial SPI 1612 18 Ext 2.75.1 Serial SPI 1612 18 Ext 2.7 5.1 Serial SPI 1412 3 Ext 4.5 20 Parallel 24 75175 Int/Ext 33.8 I2C SPI 1.3812 0.15 2.220 Parallel 1.75 2.5 75170 Int/Ext 2.7 10 Parallel 0.50.2512 270 Int/Ext 4.5 10 Parallel 0.50.2512 625 Int 4.5 1 Serial SPI 1112 2.5 Ext 4.75 1 Parallel 1112 0.0275 Ext 2.7 1 Parallel 1112 0.0275 Ext 2.7 1 Serial SPI 1112 0.025 Ext 2.7 1 Parallel 10.512 1 Ext 4.5 1 Parallel 10.512 1 Ext 4.5 1 Serial SPI 10.512 1 Ext 4.5 33 Parallel 1112 107 Ext 2.7 10 Parallel 1112 45 Ext 4.75 10 Parallel 1112 45 Ext 4.75 33 Serial SPI 1112 115 Ext 2.7 16 Serial SPI 1112 260 Ext 2.7 10 Serial SPI 1112 45 Ext 4.75 10 Serial SPI 1112 45 Ext 4.75 5.5 Serial I2C 0.25112 3.4 Int/Ext10 Parallel 1112 15 Ext 4.75 2.5 Parallel 1112 15 Ext 4.75 2.5 Parallel 1112 2.5 Int/Ext 4.75 4.1 Serial SPI 1112 2.4 Ext 3 1.3 Serial SPI 1112 2.4 Ext 31.3 Serial SPI 111212 15 Ext 4.752.5 Serial SPI 111212 15 Ext 4.75 2.5 Serial SPI 1112 1.8 Ext 4.75 2.5 Serial SPI 11123.5 Int4.75 4.1 Serial SPI 1112 5 Int 4.755.5 Serial I2C 0.25112 3.4 Ext4.1 Serial I2C 812 0.85 Ext 2.75.5 Serial I2C 1812 1.8 Ext 2.7 5.5 Serial I2C 412 0.85 Ext 2.7 5.5 Serial SPI 0.251128363 2.2 Int/Ext 2.7 5.5 Serial SPI 0.51128179 2.9 Int/Ext 2.7 5.5 Serial SPI 0.51128179 2.9 Int/Ext 1.8 5 Serial SPI 0.250.7512 0.5 Int/Ext5.5 Serial SPI 0.5112 4.5 Ext 2.7 5.5 Serial SPI 0.5112 3.5 Ext 2.7 5.5 Serial SPI 0.5112 0.675 Ext 2.7 5.5 Serial SPI 0.5112 0.675 Ext 2.7 5.5 Serial SPI 0.5112 0.27 Ext 2.7 5 Serial SPI 1812 0.3 Ext 2.7 5.5 Serial SPI 1812 0.345 Ext 2.7 5 Serial SPI 0.25112 0.5 Int/Ext5 Serial SPI 0.25112 0.5 Ext5.5 Serial SPI 111281650.14 Ext 1.8 5.5 Parallel 22 7381330 Ext 3 20 Parallel 22127381330 Ext 3 2 Parallel 3.5812617529 Int/Ext 2.7 5.1 Serial SPI 0.51105662 4.2 Int/Ext 2.7 5.1 Serial SPI 121010 18 Int/Ext 2.7 5.1 Serial SPI 0.51106864 1.8 Ext 2.7 5.1 Serial SPI 1210 18 Ext 2.7 5.1 Serial SPI 1 1.51062680.9 Ext 2.7 5.1 Serial SPI 111068703 Ext 2.7 5.1 Serial SPI 0.5110 0.75 Ext 4.5 20 Parallel 0.51 77175 Int/Ext 3 20 Parallel 0.51 170 Ext , Int20 Parallel 0.51 68170 Int/Ext 2.7 5.5 Serial I2C 0.20.510 3.4 Ext5.5 Serial I2C 0.5210 1.5 Ext5.5 Serial I2C 0.5210 500 Ext 2.75 5.5 Serial I2C 0.5210 160 Ext 2.75 5 Serial SPI 0.20.510 0.5 Int/Ext5 Serial SPI 0.20.510 0.5 Ext5.5 Serial SPI 0.50.51069650.14 Ext 1.8 20 Parallel 10.5 6380290 Int/Ext 3 20 Parallel 10.5106380290 Int/Ext 3 5.1 Serial SPI 110.48 18 Int/Ext 2.7 5.1 Serial SPI 118 18 Ext 2.7 5.1 Serial SPI 0.918 12 Ext 2.7 5.1 Serial SPI 0.50.5857603 Ext 2.75.1 Serial SPI 0.5185762 4.2 Int/Ext 2.75.1 Serial SPI 0.20.585450 2.4 Ext 2.75.1 Serial SPI 0.20.5857620.9 Int/Ext 2.75.1 Serial SPI 0.20.585760 2.1 Ext 2.75.1 Serial SPI 0.918 3.6 Ext 2.75.1 Serial SPI 0.918 6 Ext 2.710 Parallel 0.50.58 20 Ext 10.810 Parallel 0.50.58 7.5 Ext 4.7510 Parallel 0.50.58 5 Ext 4.7510 Parallel 118 90 Ext 4.510 Parallel 118 75 Ext 4.55 Serial SPI 0.918 15 Ext 4.755 Serial SPI 0.918 8 Ext 4.7550 Parallel 0.50.5 80 Ext 4.7520 Parallel 0.51 5067100 Ext 320 Parallel 0.50.5 67170 Int/Ext 2.75.5 Serial I2C 0.10.258 3.4 Ext5.5 Serial I2C 0.250.58 1.5 Ext5.5 Serial I2C 0.250.58 1.5 Ext 2.755.5 Serial I2C 0.2518 0.4 Ext 2.75 Serial SPI 0.080.258 0.5 Ext5.5 Serial SPI 0.250.2588165 Ext 1.85.5 Serial SPI 0.250.25855630.14 Ext 1.8 Bitstream 120 18 1.65封装5.25 4.75 4.75 Catalog 16SSOP/QSOP5.5 2.7 5.5 Catalog 24VQFN5.5 2.7 5.5 Catalog 24VQFN5.5-1818 Catalog 16TSSOP5.5 2.7 5.5 Catalog 14VQFN5.5 2.7 5.5 Catalog 14SOIC, 14VQFN5.5 2.7 5.5 Catalog 8SOIC5.5 2.7 5.5 Catalog 38TSSOP5.5 2.7 5.5 Catalog 28SSOP5.5 2.7 5.5 Catalog 28SSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 8MSOP, 8SON5.5 4.7524 Catalog 40VQFN, 48TQFP5.5 4.536 Catalog 56QFN, 64TQFP5.5 4.536 Catalog 48VQFN, 64TQFP546 Catalog 16TSSOP546 Catalog 16TSSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 8MSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 16TSSOPCatalog 10MSOP, 10SON5.5 2.7 5.5 Catalog 8MSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 8MSOP5.5 2.7 5.5 Catalog 8MSOP5.5 2.7 5.5 Catalog 8MSOP5.5 2.7 5.5 Catalog 48TQFP5.5 2.7 5.5 Catalog 32TQFP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 8MSOP5.5 2.7 5.5 Catalog 8MSOP, 8SON5.5 2.7 5.5 Catalog 8MSOP5.5 1.8 5.5 Catalog 6SC705.2514.2515.75 Catalog 48SSOP5.2514.2515.75 Catalog 48LQFP5.2514.2515.75 Catalog 48LQFP5.2514.2515.75 Catalog 48SSOP5.2514.2515.75 Catalog 24SSOP5.25 4.75 4.75 Catalog 64LQFP5.25 4.75 5.25 Catalog 64LQFP5.25 4.75 5.25 Catalog 48SSOP5.25 4.75 5.25 Catalog 32LQFP5.25 4.75 5.25 Catalog 32LQFP5.25 4.75 5.25 Catalog 32TQFP5.25 4.75 5.25 Catalog 48SSOP5.25 4.75 5.25 Catalog 32LQFP5.25 4.75 5.25 Catalog 20SSOP5.511.416.5 Catalog 16SOIC5.511.416.5 Catalog 28SOIC5.511.416.5 Catalog 16SOIC5.511.416.5 Catalog 28SOIC2.1533.6 Catalog 64VQFN2.1533.6 Catalog 64VQFN2.1533.6 Catalog 100HTQFP1.953 3.6 Catalog 100HTQFP2.1533.6 Catalog 64VQFN2.1533.6 Catalog 64VQFN2.1533.6 Catalog 64VQFN2.1533.6 Catalog 48VQFN2.1533.6 Catalog 48VQFN3.3 2.7 3.3 Catalog 16SSOP/QSOP5.53 5.5 Catalog 28SOIC, 28TSSOP5.5 2.7 5.5 Catalog 28SOIC, 28TSSOP5.5 2.7 5.5 Catalog 28SSOP5.5 2.7 5.5 Catalog 38TSSOP5.5 2.7 5.5 Catalog 28SSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 8MSOP, 8SON5.5 1.8 5.5 Catalog 6SC705 4.7518 Catalog 40VQFN, 48TQFP5 4.7518 Catalog 56QFN, 64TQFP5 4.7518 Catalog 48VQFN, 64TQFP5.5 2.7 5.5 Catalog 14TSSOP, 16TSSOP5.5 2.7 5.5 Catalog 16TSSOP1.82.7 5.5 Catalog 16TSSOPCatalog 10MSOP, 10SON3.6 3.15 3.6 Catalog 48HTQFP1.953 3.6 Catalog 48HTQFP3.63 3.6 Catalog 48TQFP3.63 3.6 Catalog 48TQFP3 3.6 Catalog 252BGA5.25 2.7 5.25 Catalog 20SOIC, 20TSSOP5.25 2.7 5.25 Catalog 8SOIC5.25 2.7 5.25 Catalog 8MSOP, 8SOIC5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 8PDIP, 8SOIC5.5 2.7 5.5 Catalog 8MSOP, 8PDIP, 8SOIC5.5 2.7 5.5 Catalog 16DIESALE5.5 2.7 5.5 Catalog 16DIESALE5.5 2.7 5.5 Catalog 16SOIC, 16TSSOP5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 20DIESALE5.5 2.7 5.5 Catalog 20DIESALE5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 4.5 5.5 Catalog 8SOIC5.53 5.5 Catalog 28SOIC, 28TSSOP3.6 2.2 3.6 Catalog5.5 2.7 5.5 Catalog 28SOIC, 28TSSOP5.511.416.5 Catalog 28SOIC5.511.416.5 Catalog 28SOIC5.25 4.75 5.25 Catalog 8SOIC5.5 2.5 5.5 Catalog 40WQFN5.5 2.7 5.5 Catalog 20TSSOP5.5 2.7 5.5 Catalog 10MSOP5.5 4.5 5.5 Catalog 24SOIC5.5 4.5 5.5 Catalog 24SOIC5.5 4.5 5.5 Catalog 16SOIC5 4.7518 Catalog 56QFN, 64TQFP5.2514.2515.75 Catalog 28PLCC, 28SOIC5.2514.2515.75 Catalog 28PLCC, 28SOIC5.5 4.533 Catalog 48VQFN, 64TQFP5 4.7518 Catalog 40VQFN, 48TQFP5.2514.2515.75 Catalog 16SOIC5.2514.2515.75 Catalog 16SOIC2.7 5.5 Catalog 16TSSOP, 24VQFN5.25 4.75 5.25 Catalog 28SOIC5.25 4.75 5.25 Catalog 28SOIC5.25 4.75 5.25 Catalog 20SSOP3.63 3.6 Catalog 16SOIC, 20SSOP3.63 3.6 Catalog 16SOIC, 20SSOP5.25 4.75 5.25 Catalog 16SOIC, 20SSOP5.25 4.75 5.75 Catalog 16SOIC, 20SSOP5.25 4.75 5.25 Catalog 24SSOP5.25 4.75 5.25 Catalog 8SOIC5.25 4.75 5.25 Catalog 8SOIC2.7 5.5 Catalog 16TSSOP, 24VQFN5.5 2.7 5.5 Catalog 10MSOP5.25 2.75 5.25 Catalog 16TSSOP5.5 2.7 5.5 Catalog 6SOT-235.5 2.7 5.5 Catalog 14TSSOP, 16TSSOP5.5 2.7 5.5 Catalog 16TSSOP5.5 2.7 5.5 Catalog 16TSSOPCatalog 10MSOP, 10SON5.5 2.7 5.5 Catalog 32QFN5.5 2.7 5.5 Catalog 10MSOP5.5 2.7 5.5 Catalog 16QFN5.5 2.7 5.5 Catalog 16QFN5.5 2.7 5.5 Catalog 12USON5.5 2.7 5.5 Catalog 8MSOP, 8SOT-235.5 2.7 5.5 Catalog 6SOT-23, 8MSOP Catalog 12WQFNCatalog 12WQFN5.5 1.8 5.5 Catalog 6SC703.63 3.6 Catalog 48TQFP3.63 3.6 Catalog 48TQFP3.3 2.7 3.3 Catalog 48TQFP5.25 2.7 5.25 Catalog 8SOIC5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 8SOIC5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 8MSOP, 8SOIC5.5 2.7 5.5 Catalog 16SOIC, 16TSSOP5.5 4.5 5.5 Catalog 8MSOP, 8PDIP, 8SOIC5.53 5.5 Catalog 28SOIC, 28TSSOP Automotive 28TSSOP5.5 2.7 5.5 Catalog 28SOIC, 28TSSOP 2.7 5.5 Catalog 16TSSOP, 24VQFN 2.7 5.5 Catalog 10MSOP5.25 2.75 5.25 Catalog 16TSSOP5.25 2.75 5.25 Catalog 6SOT-23Catalog 12WQFNCatalog 12WQFN5.5 1.8 5.5 Catalog 6SC703.63 3.6 Catalog 48TQFP3.63 3.6 Catalog 48TQFP5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.5 2.7 5.5 Catalog 20SOIC, 20TSSOP5.25 2.7 5.25 Catalog 16PDIP, 16SOIC5.5 2.7 5.5 Catalog 16SOIC, 16TSSOP5.5 2.7 5.5 Catalog 8SOIC5.5 2.7 5.5 Catalog 8SOIC5.5 2.7 5.5 Catalog 8MSOP, 8SOIC5.5 2.7 5.5 Catalog 8MSOP, 8SOIC5.5 2.7 5.5 Catalog 14SOIC5.25 2.7 5.5 Catalog 14PDIP, 14SOIC15.7510.815.75 Catalog 20PDIP, 20SOIC5.25 4.7515.75 Catalog 20PDIP, 20PLCC, 20SO, 20SOIC, 20TSSOP5.25 4.75 5.25 Catalog 16PDIP, 16SO, 16SOIC, 16TSSOP, 20PLCC5.511.416.5 Catalog 20PDIP, 20SOIC5.511.416.5 Catalog 24SOIC5.25 4.75 5.25 Catalog 16PDIP, 16SOIC5.25 4.75 5.25 Catalog 14PDIP, 14SOIC5.25 4.75 5.25 Catalog 20SOIC5.53 5.5 Catalog 28SOIC, 28TSSOP5.5 2.7 5.5 Catalog 28SOIC, 28TSSOP2.7 5.5 Catalog 16TSSOP, 24VQFN2.7 5.5 Catalog 10MSOP5.25 2.75 5.25 Catalog 16TSSOP5.25 2.75 5.25 Catalog 6SOT-23Catalog 12WQFN5.5 1.8 5.5 Automotive 6SC705.5 1.8 5.5 Catalog 6SC703.64.755.25 Catalog 16TSSOP描述7.15 | 1ku 20 位 Δ-Σ 低功耗数模转换器16.90 | 1ku 单通道 18 位低噪声电压输出数模转换器8.00 | 1ku 单通道 16 位低噪声电压输出数模转换器8.00 | 1ku 16-Bit, Ultra-Low Power, 10V Output (Unbuffered) Digital-to-Analog Converte 7.95 | 1ku 16 位、超低功耗、电压输出数模转换器7.95 | 1ku 16 位、超低功耗、电压输出数模转换器7.95 | 1ku 16 位超低功耗电压输出数模转换器8.65 | 1ku Dual, Parallel Input, 16-Bit, Multiplying Digital-to-Analog Converter8.50 | 1ku 16 位并行输入乘法 DAC16.95 | 1ku 16 位、四路、串行输入乘法数模转换器8.40 | 1ku 16 位、双串行输入乘法数模转换器7.15 | 1ku 16 位串行输入乘法数模转换器26.95 | 1ku 16 位四路高精度 +/-15V 输出数模转换器21.95 | 1ku 八路、低功耗、16 位 +/-15V 输出并行输入数模转换器21.95 | 1ku 八路、低功耗、16 位 +/-15V 输出串行输入数模转换器1.85 | 1ku 16 位高速低噪声电压输出数模转换器1.85 | 1ku 16 位高速低噪声电压输出数模转换器12.85 | 1ku 低功耗四路轨至轨输出 16 位 I2C 输入 DAC3.20 | 1ku 低功耗轨至轨输出 16 位 I2C 输入 DAC10.95 | 1ku 具有 2.5V、2ppm/℃ 内部参考的 16 位、八通道、超低短时脉冲波形干扰、电压输出 7.65 | 1ku 16-Bit, Quad Chanel, Ultra-Low Glitch, Vltg Output DAC w/2.5V, 5ppmC Intrnl 7.65 | 1ku 16-Bit, Ultra-Low Glitch, Voltage Output D/A Conv with 2.5V, 5ppm/C Interna 具有 2.5V、2ppm/C 内部参考的 16 位、双通道、 超低短时脉冲波形干扰、电压输出 2.90 | 1ku 具有 2.5V、2ppm/℃ 内部参考的 16 位、超低短时脉冲波形干扰、电压输出 DAC6.75 | 1ku 16 位、四通道、超低短时脉冲波形干扰、电压输出数模转换器6.75 | 1ku 16 位、四通道、超低短时脉冲波形干扰、电压输出数模转换器3.20 | 1ku DAC8552：16 位双路电压输出数模转换器2.35 | 1ku 16 位、超低短时脉冲波形干扰、电压输出数模转换器2.60 | 1ku 16 位、超低短时脉冲波形干扰、电压输出 DAC12.20 | 1ku 四路 16 位四路轨至轨电压输出并行接口数模转换器3.25 | 1ku 具有 1.8V 兼容并行接口和轨至轨电压输出的低功耗 16 位数模转换器8.75 | 1ku 2.7V 至 5.5V 四通道 16 位串行输入 DAC5.35 | 1ku 具有串行接口和轨至轨电压输出的 16 位双通道低功耗模数转换器3.00 | 1ku 低功耗轨至轨输出 16 位串行输入数模转换器3.00 | 1ku 乘法、低功耗、轨至轨输出、16 位串行输入数模转换器2.90 | 1ku 采用 SC70 封装的 16 位、单通道、80uA、1.8V-5.5V DAC31.45 | 1ku 16 位四路电压输出数模转换器12.40 | 1ku 具有内部参考的 16 位单通道并行接口8.30 | 1ku 具有内部 +10V 参考和并行 I/F 的 16 位单通道数模转换器31.45 | 1ku 16 位四路电压输出串行输入数模转换器8.20 | 1ku 具有内部 +10V 参考和串行 I/F 的 16 位单通道数模转换器25.95 | 1ku 数模转换器；四路、16 位、12uS 稳定时间、+/- 1 LSB DNL28.75 | 1ku 16 位四路电压输出数模转换器19.95 | 1ku 16 位四路电压输出数模转换器14.70 | 1ku 具有并行接口和复位到最小等级功能的 16 位双路电压输出 DAC14.70 | 1ku 具有并行接口和复位到中间等级功能的 16 位双路电压输出 DAC9.10 | 1ku 16 位电压输出数模转换器19.95 | 1ku 16 位四路电压输出数模转换器10.45 | 1ku 具有串行接口的 16 位双路电压输出 DAC5.95 | 1ku 串行输入 16 位电压输出数模转换器19.85 | 1ku 具有串行数据接口的 16 位数模转换器19.85 | 1ku 具有 16 位总线接口的 16 位数模转换器14.50 | 1ku 具有串行数据接口的 16 位数模转换器14.50 | 1ku 具有 16 位总线接口的 16 位数模转换器28.95 | 1ku 16 位 800 MSPS 2x-8x 内插双通道数模转换器 (DAC)37.45 | 100u 具有集成 PLL 的 16 位 800MSPS 2x-8x 内插双通道数模转换器28.15 | 100u 16 位 500 MSPS 2x-8x 内插双通道数模转换器 (DAC)26.70 | 1ku 具有 16x 内插的高性能 16 位 500MSPS 双 DAC39.95 | 100u 16 位 1.0 GSPS 2x-4x 内插双通道数模转换器 (DAC)38.70 | 100u 16 位 1.0GSPS 2x-4x 内插数模转换器 (DAC)34.40 | 100u 16 位 1.0GSPS 数模转换器 (DAC)33.70 | 100u 双路 16 位 800MSPS 通信 DAC31.20 | 100u 双路 16 位 625MSPS 通信 DAC6.60 | 1ku 16 位 Δ-Σ 低功耗数模转换器9.20 | 1ku 14 位 125 MSPS CommsDAC，差动 介于 2mA 至 20mA 的可伸缩电流输出8.35 | 1ku 可伸缩电流输出在 2mA 与 20mA 之间的 14 位 165MSPS SpeedPlus(TM) DAC5.50 | 1ku 14 位单通道并行接口乘法数模转换器6.15 | 1ku Dual, Parallel Input, 14-Bit, Multiplying Digital-to-Analog Converter12.65 | 1ku 14 位四通道串行接口乘法数模转换器6.10 | 1ku 14 位双通道串行接口乘法数模转换器4.60 | 1ku 14 位单通道串行接口乘法数模转换器2.65 | 1ku 采用 SC70 封装的 14 位、单通道、80uA、1.8V-5.5V DAC19.95 | 1ku 四路 14 位高准确度 +/-15V 输出串行输入数模转换器17.95 | 1ku 八路、低功耗、14 位 +/-15V 输出并行输入数模转换器17.95 | 1ku 八路、低功耗、14 位 +/-15V 输出串行输入数模转换器10.20 | 1ku 具有 2.5V、2ppm/℃ 内部参考的 14 位、八通道、超低短时脉冲波形干扰、电压输出 6.85 | 1ku 16-Bit, Quad Channel, Ultra-Low Glitch, Vltg Output DAC w/2.5V, 5ppmC Intrn 6.85 | 1ku 16-Bit, Quad Chanel, Ultra-Low Glitch, Vltg Output DAC w/2.5V, 5ppmC Intrnl 具有 2.5V、2ppm/C 内部参考的 14 位、双通道、 超低短时脉冲波形干扰、电压输出 31.25 | 1ku 14 位 400MSPS 数模转换器18.75 | 1ku 具有 2x/4x 插值滤波器的14 位 400 CommsDAC14.20 | 1ku Dual 14-Bit 275 MSPS Digital-to-Analog Converter14.20 | 1ku 数模转换器45.00 | 1ku 14 位 2.4GSPS 数模转换器4.35 | 1ku 12 位，DAC，并行，电压输出，可编程内部 参考，建立时间、功耗、1 通道4.65 | 1ku 12 位、1 或 3.5us DAC，具有串行输入、双路 DAC、可编程内部参考和稳定时间、功4.55 | 1ku 12 位 1us DAC，具有串行输入、可编程内部参考和稳定时间5.90 | 1ku 12 位 DAC，具有并行电压输出可编程内部参考设置时间、功耗、8 位微控制器兼容接 11.10 | 1ku 具有内部参考的 2.7V 至 5.5V 12 位 8 通道串行 DAC4.10 | 1ku 12 位单通道并行 DAC，具有电压输出、低功耗和异步更新5.10 | 1ku 12 位 2.5us 双路 DAC，具有串行输入、可编程稳定时间、在 Q temp 温度范围内运行 3.30 | 1ku 12 位 3us DAC 串行输入可编程设置时间/功耗，电压 O/P 范围 = 2x 基准电压11.00 | 1ku 采用晶圆芯片级封装的 2.7V 至 5.5V 12 位 DAC9.00 | 1ku 2.7V to 5.5V, 12-Bit Quad DAC in Wafer Chip Scale Package9.30 | 1ku 12 位 3us 四路 DAC，具有串行输入、可编程稳定时间、低功耗和 H/W 或 S/W 断电功 3.30 | 1ku 12 位，DAC，并行电压输出，可编程设定时间/功耗，自动断电10.65 | 1ku 采用晶圆芯片级封装的 2.7V 至 5.5V、12 位和 10 位八路 DAC12.15 | 1ku 采用晶圆芯片级封装的 2.7V 至 5.5V、12 位和 10 位八路 DAC10.65 | 1ku 2.7V 至 5.5V 12 位 8 通道串行 DAC4.40 | 1ku 12 位、2.5us 二路 DAC、串行输入、可编程稳定时间、同步更新、低功耗6.60 | 1ku 12 位、125MSPS、CommsDAC、差动 介于 2mA 至 20mA 的可变电流输出集成模拟外设。

2012 - 2013 Specifier's Guide美国邦纳选型指南｜PLC&HMI ｜光电传感器｜工业安全产品｜机器视觉｜测量检测传感器｜｜工业无线网络产品｜工业智能指示灯｜旋转编码器｜激光读码器｜年风雨历练 版图跨越全球美国邦纳工程国际有限公司，始建于1966年，历经近45年的风雨历练，已成为当今世界最大的工业控制器( PLC & HMI )、变频器、光电传感器、测量检测、安全产品、工业无线网络产品、机器视觉、工业智能指示灯和旋转编码器的专业制造商之一，在世界主要地区均设有世界一流的生产、销售及服务机构。

丰富的产品选择、迅速的交货期、强大的技术支持、同行业最强大的研发能力，所有这一切都确保了美国邦纳在光电领域中领先者的地位。

美国邦纳致力于为客户提供以传感为核心的综合自动化解决方案，以“创新和服务”为企业使命的美国邦纳工程公司，正凭借着世界一流的精英团队、贴心服务、优质产品、先进技术及战略性的眼光，为邦纳的新世纪版图拓展写就华彩篇章，为更多企业的发展壮大提供领先、可靠的控制和检测解决方案。

46传感器市场领导者为您的企业保驾护航过去的15年，在由第三方组织的工程师购买意向调查中，邦纳公司连续50次位于第一位。

而且“财富500强”的大多数公司的传感器也是选用的邦纳公司的产品，他们依靠着邦纳的产品顺利实现了可靠的自动化解决方案。

汽车、家电药品、食品……无论您的企业属于哪个行业，邦纳都有先进的技术、可靠的产品，帮助您实现企业生产的自动化，提高产品的生产效率和质量，为您的企业发展保驾护航。

丰富的产品线，值得您应需选择邦纳拥有超过15,000多种产品，拥有同行业内最完整的产品线，生产包括光电及超声波传感器，视觉传感器、机床安全产品、测量与检测传感器，并且可以为客户各种应用提供解决方案。

我们每天发运数千件产品，平均每3.5秒就有一个邦纳的产品被安装使用！无论您想检测或测量何种部件或材料，邦纳都可以为您提供合适的产品和解决方案。

XILINX FPGA开发平台用户手册AV7K300开发板AV7K300开发板用户手册2/39芯驿电子科技（上海）有限公司文档版本控制文档版本修改内容记录REV1.0创建文档AV7K300开发板用户手册目录文档版本控制 (2)一、开发板简介 (5)二、AC7K325B核心板 (7)(一)简介 (7)(二)FPGA芯片 (8)(三)DDR3DRAM (9)(四)QSPI Flash (13)(五)时钟配置 (15)(六)LED灯 (16)(七)电源 (17)(八)结构图 (19)(九)连接器管脚定义 (19)三、扩展板 (28)(一)简介 (28)(一)光纤接口 (29)(二)PCIe插槽 (30)(三)SDI输出接口 (32)(四)SDI输入接口 (33)(五)USB转串口 (34)(六)SD卡槽 (34)(七)40针扩展口 (35)(八)按键和LED灯 (37)(九)JTAG调试口 (38)(十)电源 (38)(十一)结构尺寸图 (39)3/39AV7K300开发板用户手册4/39芯驿电子科技（上海）有限公司芯驿电子科技（上海）有限公司基于XILINX KINTEX-7开发平台的开发板（型号：AV7K300）2020款正式发布了正式发布了，为了让您对此开发平台可以快速了解，我们编写了此用户手册。

这款KINTEX-7FPGA 开发平台采用核心板加扩展板的模式，方便用户对核心板的二次开发利用。

核心板使用XILINX 的KINTEX-7芯片XC7K325的解决方案，含挂载了4片512MB 的高速DDR3SDRAM 芯片和1片128Mb 的QSPI FLASH 芯片。

在底板设计上我们为用户扩展了丰富的外围接口，比如1个PCIex8接口、4路光纤接口、2路SDI 输出接口、2路SDI 输入接口、1路UART 串口接口、1路SD 卡接口、2个40针扩展接口等等。

满足用户各种高速数据交换，数据存储，视频传输处理以及工业控制的要求，是一款"专业级“的FPGA 开发平台。

部分产品快速选型手册 2011/2012 海格电气公司为了给中国市场广大用户提供更好的产品服务，我们现将原在公司内部物流管理层所用的部分产品物流编号(物流型号，开放给广大用户使用，并据此重新编制了对应的空气断路器和塑壳断路器的“快速选型手册”。

当用户使用本手册时，需要参考以前刊印的海格产品选型手册相关内容。

我们保证了原“产品样本型号”与内部的“物流型号”在对同一特定产品的唯一性。

在工程设计中，无论使用“产品样本型号”还是“物流型号” 都可由用户自愿选择。

当然使用“物流型号”会给用户带来某些方面的便利。

这也是我们公布“物流型号”的初衷。

我们声明：海格电气公司保留今后对产品型号解释权。

如有疑问欢迎咨询海格电气公司市场部及销售人员。

非常感谢广大客户长期以来对海格电气公司的支持和信赖，我们承诺：继续做好对中国市场广大客户的产品服务。

谨礼！目录 ACB产品物流型号命名方法 HDC系列MCCB物流型号命名方法 HBC系列MCCB物流型号命名方法 HVN系列ELCB物流型号命名方法MSG选型对照表(ACB/MCCB 1 2 3 4 5 25 27 29 附录：基本术语常用公式2011/2012年年历分断能力字母代码说明样本型号分断能力的字母表示 H N E S P ACB 55KA 65KA 80KA 物流型号分断能力的字母表示 HDC HBC ELCB 25KA35KA 35KA 50KA 50KA 50KA 80KA HDC HBC ELCB ACB 25KA H 55KA 35KA50KA F 50KA 50KA N 65KA 80KA E 80KA S 80KA 100KA P 100KA 1 ACB产品物流型号命名方法 HW 附件 N 1000A D / 3P / LSI / HW：海格主开关系列空气断路器分断能力 N：65kA（框架I、II） S：80kA （框架II、III） P：100kA（框架III）控制器 LS-两段式 LSLCD两段式,液晶屏 LSI-三段式 LSILCD-三段式.液晶屏 LSIG-四段式 LSIGLCD-四段式,液晶屏可选附件 MX: 分励继电器 (电压可选择 UV: 欠压继电器 (瞬时 (电压可选择 UV-D: 欠压继电器 (延时 (电压可选择 CF: 故障指示触点MH: 储能电机 (电压可选择 PF: 准备合闸触点 BL: OFF锁代号 (详见样本安装形式F-固定式 D-抽出式标配附件 4NO+4NC辅助触点分励继电器(电压可选择合闸继电器(电压可选择储能电机 (电压可选择框架II： 2000A 2500A 额定电流(A 框架I： 630A 800A 1000A 1250A 1600A 框架III：3200A 4000A 极数 3P(可以缺省 4P 注: 附件需要标出电压时230Vac可缺省举例：HWN1600A/ D/3P/ LSI /UV+CF 说明：In=1600A,分断能力65kA，抽出式,3P，三段式保护控制器，带故障指示触点，欠压继电器。

维纳尔产品手册01005 D-固定式熔断器管座，E27/25A/500V，卡接固定，单相01006 D-固定式熔断器管座，E33/63A/690V，卡接固定，单相01008 PROFIL 连接夹，三T型，64 x 46，连接500-1260mm201009 底槽，230 x 1100，3线01010 底槽，230 x 700，3线01011 底槽，290 x 1100，3线带电缆槽或4线01012 底槽，290 x 700，3线带电缆槽或4线01017 边框支撑架，用于01 495和01 48501019 末端盖，用于01 017和01 495的组合体，宽度230mm01020 末端盖，用于01 017和01 495或01 485的组合体，宽度290mm01021 D-固定式熔断器管座，E27/25A/500V，三相，螺钉连接01022 D-固定式熔断器管座，E33/63A/690V AC，三相，螺钉连接01024 边框，封闭的，17x86x2400，上/下，供没有底槽的系统用01025 预留空间盖，1100mm，只适于支架01 02601026 支架，适用12-30x5/10双T形母线，用于预留空间盖板01 02501027 多层铜母线，360A, 2m，3x20x1,截面60mm201028 多层铜母线，462A, 2m，6x20x1,截面120mm201029 多层铜母线，645A, 2m，10x20x1,截面200mm201030 边框，切口的，17x86x2400,上/下，供没有底槽的系统用01032 连接夹, 用于母线 40 x 10，可用于1250A01033 连接夹, 用于母线 50 x 10，可用于1250A01034 连接夹, 用于母线 60 x 10，可用于1250A01035 多层铜母线，402A, 2m，6x15.5x0.8，截面74.4mm201037 槽边框, 17 x 36 x 1100，上/下，用于所有槽01038 槽边框, 17 x 36 x 700，上/下，用于所有槽01039 边框,封闭的，17x86x1100，上/下，供没有底槽的系统用01040 边框,封闭的，17x86x 700，上/下，供没有底槽的系统用01041 边框,切口的，17x86x1100，上/下，供没有底槽的系统用01042 边框,切口的，17x86x 700，上/下，供没有底槽的系统用01043 槽边框，用于宽槽，下， 77 x 36 x 110001044 槽边框，用于宽槽，下， 77 x 36 x 70001045 底槽，230x2400，3线01046 底槽，290x2400,带电缆槽,，3线带电缆槽或4线01047 螺拴连接夹，可插接，10mm厚以及双T型或三T型母线，M10x10，630A01048 槽边框，17x36x2400,上/下，用于所有槽01050 多层铜母线，253A,2m, 6x13x0.5，截面39mm201053 槽边框，用于宽槽，下， 77 x 36 x 240001054 多层铜母线，134A，3x9x0.8，截面21.6mm201055 多层铜母线，166A，8x6x0.5，截面24mm201056 母线架盖01058 D0-母线式熔断器管座,E18/63A/400V,宽36mm,10和双T型母线01059 定位环-钥匙，E27/E3301060 多层铜母线, 930 A, 5 x 50 x 1，截面250mm201061 多层铜母线,1775 A, 10 x 80 x 1，截面800mm201063 多层铜母线, 462 A, 6 x 20 x 1，截面120mm201064 多层铜母线，645 A, 10 x 20 x 1，截面200mm201068 通用导线连接夹，16-120mm2,5mm厚母线，440A 01075 多层铜母线，514A, 5x24x1，截面120mm201076 多层铜母线，800A, 10x24x1，截面240mm201077 防手指触电保护环，E27,塑料，用于熔断器座01078 防手指触电保护环，E33,塑料，用于熔断器座01079 多层铜母线，镀锡，带绝缘套，166 A，长 2 m，8 x 6 x 0.5 01080 盖, E 27，齿距41.501081 盖, E 33，齿距52.501082 盖, E 33，齿距50.001083 多层铜母线，134 A, 3 x 9 x 0.8，截面24mm201084 多层铜母线，245 A, 6 x 9 x 0.8，截面21.6mm201089 多层铜母线，320 A, 4 x 15.5 x 0.8，截面49.6mm201090 多层铜母线，402 A, 6 x 15.5 x 0.8，截面74.4mm201091 多层铜母线，455 A,10 x 15.5 x 0.8，截面124mm201092 连接夹,用于30 x 10的矩形母线，1250A01093 盖罩，228x200x8，30x5/10mm,双T型母线01094 连接夹，95-300mm2,可用于630A01095 多层铜母线， 640 A, 5 x 32 x 1，截面160mm201096 多层铜母线，1040 A, 10 x 32 x 1，截面320mm201097 多层铜母线， 760 A, 5 x 40 x 1，截面200mm201098 熔帽，D/E27/500V，陶瓷01099 多层铜母线, 1181 A, 10 x 40 x 1，截面400mm201100 熔帽，D/E33/500V,陶瓷01103 熔帽，D01/E14/400V AC/250V DC，陶瓷01104 熔帽，D02/E18/400V AC/250V DC，陶瓷01112 多层铜母线, 930 A, 5 x 50 x 1，截面250mm201113 多层铜母线,1395 A, 10 x 50 x 1，截面500mm201114 连接端子, 适用PE/N线，35 mm201119 端子架，用于PE/N-接地母线,螺钉01120 端子架，用于PE/N-接地母线,螺钉01121 端子架，用于PE/N-接地母线,卡接01123 多层铜母线，1600 A，10x63x1，截面630mm201125 多层铜母线，1775 A，10x80x1，截面800mm201126 接地母线，PE/N-,8线, 9x6.5x51.501127 接地母线，PE/N-,12线,9x6.5x77.501128 接地母线，PE/N-,16线,9x6.5x103.501129 接地母线，PE/N-,24线,9x6.5x15501130 接地母线，PE/N-,151线,9x6.5x100001138 母线架，60mm系统,3，4，5线，用于ISO-柜体VMS 01139 盖框，用于ISO-柜体VMS01141 母线加长连接夹, 95 mm，用于最大额定电流630A01143 接地端子，63A，绝缘PE/N-,7线，零线，蓝色01144 接地端子，63A，绝缘PE/N-,7线，保护线，绿/黄01145 母线加长连接夹，95mm，1600 A，双T型母线01152 梳形母线，1线，100A，齿距27mm，1m长01160 夹具, 用于10mm厚的多层铜母线01163 夹具导轨，2m，用于01 16001166 母线加长连接夹，12-20*5/10,最大630A01170 简化部件，适用于5mm母线，用于01 13801182 连接附件, 带插孔的端子，3 x 1.5 - 16mm2，尺寸0001184 多层铜母线，2.0m,10x24x1,800A，截面240mm201185 PROFIL 连接夹,双T型,41x36，连接400-800mm2,最大1600A01186 PROFIL 连接夹,三T型,101x46，连接1200-3600mm2,最大2500/3200A 01187 三T型母线，额定电流2500A,2.4m01188 三T型母线，额定电流2500A,0.45m01189 三T型母线，额定电流2500A,0.65m01190 双T型母线，额定电流1600A,3.6m01193 母线加长连接夹，150mm,适用于12-20x5/10母线01194 多层铜母线，6x9x0.8, 2m, 245A，截面43.2mm201196 多层铜母线，4x15.5x0.8, 2m, 320A，截面49.6mm201198 连接端子，16 - 95mm2，用于1线母线35mm201199 接线板，3线,带盖罩,95-185mm2,12x5-30x10和双T型母线01200 母线连接端子，15x5母线与70-150mm2缆搭接01201 母线连接端子，20x5-10与120-240mm2缆搭接01202 母线连接端子，25x5母线与150-300mm2缆搭接01203 通用导线连接夹，16-120mm2,10mm，双T和三T母线01204 标准铜母线，3.60m, 镀锡, 30x10，630A01205 直压板连接夹, 连接宽度25x1201206 直压板连接夹, 连接宽度40x2001207 直压板连接夹, 连接宽度50x3501218 直压板连接夹, 连接宽度63x4001222 直压板连接夹, 连接宽度80x4001223 双T型铜母线, 1250 A, 3.60 m，无镀层01224 双T型铜母线, 1250 A, 3.60 m，镀锡01225 双T型铜母线, 1250 A, 0.45 m，镀锡01226 双T型铜母线, 1250 A, 0.65 m，镀锡01227 三T型铜母线, 2500 A, 3.60 m，镀锡01228 连接端子, 16 - 95 mm2，用于3线梳形母线，前面连接01229 双T型铜母线，1600A, 3.60m，无镀层01230 通用母线架，3线，185系统,用于不打孔的矩形母线和异形截面母线01231 母线架，3线, 60mm系统 / 2500 A，用于双T型母线,不含末端盖01232 母线架，3线, 60mm系统 / 2500 A，用于三T型母线,不含末端盖01234 末端盖，用于01 231和01 23201236 封闭盖板，2400 x 48，用于双T型和三T型母线系统01237 封闭盖板，2400 x 76，用于双T型和三T型母线系统01238 封闭盖板，2400 x 106，用于双T型和三T型母线系统01240 接线板，3线，6 - 50 mm2，60mm系统，可用于最大300A01243 接线板，3线，35 - 120 mm2，60mm系统，可用于最大440A01244 母线盖，用于12 - 30 x 5母线，长1m01245 母线盖，用于12 - 30 x 10母线，长1m01249 双T型铜母线，1600A, 2.40m，无镀层01250 双T型铜母线，1250A, 2.40m，无镀层01251 母线盖，用于40 - 60 x 10母线，长1m01252 母线盖，用于双T形和三T形母线，长1m01253 多层铜母线，带护套，465 A, 长2 m，4 x 24 x 1，截面96mm2 01254 末端盖, 用于母线架01 47901255 多层铜母线，带护套，566 A, 长2 m，6 x 24 x 1，截面144mm2 01256 多层铜母线，带护套，860 A, 长2 m，6 x 40 x 1，截面240mm2 01257 接地端子，绝缘PE/N-,63A,7线, 零线，蓝色01258 接地端子，绝缘PE/N-,63A,7线 , 保护线，绿/黄色01273 多层铜母线，带护套，1985 A, 长2 m ，10 x 100 x 1，截面1000mm2 01274 母线加长连接夹, 2500 A，用于三T型母线，95 mm01275 母线加长连接夹, 2500 A，用于三T型母线，150 mm01284 通用导线连接夹， 1.5-16mm2,5mm母线，180A01285 通用导线连接夹， 4 - 35mm2,5mm母线，270A01287 通用导线连接夹，16 - 70mm2,5mm母线，400A01289 通用导线连接夹， 1.5-16mm2,10mm母线，180A01290 通用导线连接夹， 4 - 35mm2,10mm，双T和三T母线，270A 01292 通用导线连接夹，16 - 70mm2,10mm，双T和三T母线，400A 01295 连接件组，2500 A，用于弹性加长连接，三T型母线，3相01300 盖罩，用于01240中的单个端子01301 盖罩，用于01243中的单个端子01303 夹具，用于5-10mm的多层铜母线01318 展开式连接夹，95-185mm2，500A01319 展开式连接夹，用于最大30x20的矩形母线，750A01333 标识牌,用于带10个接线端子，15 x 64.5mm01347 母线架,3线，无末端盖，适合做中间支架01385 母线转接器, 63A, 81mm宽, 40mm系统01413 盖罩, 84x200mm2, 12-30x5/10mm,双T型母线01424 D0-条形盖, E18, 宽36mm01479 通用母线架，100mm系统, 适用30-60x10，3线01484 母线架，3线, 60mm系统, 630A01485 通用母线架，4线, 60mm系统, 630A01489 母线架，PE/N-,可单独安装，也可插接在01 500上01492 D0-母线式熔断器管座,E18/63A/400V,宽27mm,10和双T型母线01495 通用母线架，3线, 60mm系统, 630A，带内置螺钉孔01498 D0-母线式熔断器管座,E18/63A/400V,宽36mm,5，10和双T型母线01500 通用母线架，3线,60mm系统,630A01509 多层铜母线，2.0m,10x50x1,1395A，截面500mm201510 多层铜母线，2.0m,10x63x1,1600A，截面630mm201512 螺拴连接夹，10mm矩形母线,M5x8，360A01514 螺拴连接夹，10mm厚以及双T型或三T型母线,M8x8，490A01536 盖罩，54x130,用于最大70mm2的导线连接夹01541 磁环, 2 A, E 27, 粉色01542 磁环, 4 A, E 27, 褐色01543 磁环, 6 A, E 27, 绿色01544 磁环, 10 A, E 27, 红色01545 磁环, 16 A, E 27, 灰色01546 磁环, 20 A, E 27, 蓝色01547 磁环, 25 A, E 27, 黄色01548 磁环, 35 A, E 33, 黑色01549 磁环, 50 A, E 33, 白色01550 磁环, 63 A, E 33, 铜色01559 D-固定式熔断器管座，双侧,E27/25A/500V，螺钉连接01567 D-固定式熔断器管座，双侧,E27/25A/500V，卡接固定01568 D-固定式熔断器管座，双侧,E33/63A/690V AC，卡接固定01571 D-固定式熔断器管座,三相，双侧，E27/25A/500V，卡接固定01572 D-固定式熔断器管座,三相，双侧，E33/63A/690V AC，卡接固定01573 端盖, 适用于01 495和01 50001574 端盖, 适用于01 48501583 多层铜母线，10x15.5x0.8，2m，455A，截面124mm201586 直压板连接夹，30x3001587 直压板连接夹，35x3001590 盖罩，54x200mm,12-30x5/10mm,双T型母线01608 双T型铜母线，1600A，2.4m，镀锡01609 双T型铜母线，1250A，2.4m，镀锡01611 多层铜母线，2.0m，5x24x1，514A，截面120mm201612 多层铜母线，2.0m，5x32x1，640A,，截面160mm201613 多层铜母线，2.0m，10x32x1，1040A，截面320mm201614 多层铜母线，2.0m，760A，5x40x1，截面200mm201615 多层铜母线，2.0m，10x40x1，1181A，截面400mm201616 直压板连接夹，连接长x宽 32x4001617 直压板连接夹，连接长x宽 50x6301618 标准铜母线，12x 5, 2.4m, 200A, 镀锡01619 标准铜母线，15x 5, 2.4m, 250A, 镀锡01620 标准铜母线，20x 5, 2.4m, 320A, 镀锡01621 标准铜母线，25x 5, 2.4m, 400A, 镀锡01622 标准铜母线，30x 5, 2.4m, 450A, 镀锡01623 标准铜母线，12x10, 2.4m, 360A, 镀锡01624 标准铜母线，20x10, 2.4m, 520A, 镀锡01625 标准铜母线，30x10, 2.4m, 630A, 镀锡01626 标准铜母线，40x10,2.4m，850A01627 标准铜母线，50x10,2.4m，1000A01628 标准铜母线，60x10,2.4m，1250A01647 D0-母线式熔断器管座,E18/63A/400V,宽27mm,5，10和双T型母线01670 D-熔断器，gL,2A/500V,E2701671 D-熔断器，gL,4A/500V,E2701672 D-熔断器，gL,6A/500V,E2701673 D-熔断器，gL,10A/500V,E2701674 D-熔断器，gL,16A/500V,E2701675 D-熔断器，gL,20A/500V,E2701676 D-熔断器，gL,25A/500V,E2701677 D-熔断器，gL,35A/500V,E3301678 D-熔断器，gL,50A/500V,E3301679 D-熔断器，gL,63A/500V,E3301685 D0-熔断器，D01/gL2A，E1401686 D0-熔断器，D01/gL4A，E1401687 D0-熔断器，D01/gL6A，E1401688 D0-熔断器，D01/gL10A，E1401689 D0-熔断器，D01/gL16A，E1401690 D0-熔断器，D02/gL20A，E1801691 D0-熔断器，D02/gL25A，E1801692 D0-熔断器，D02/gL35A，E1801693 D0-熔断器，D02/gL50A，E1801694 D0-熔断器，D02/gL63A，E1801701 D-螺栓-定位部件，4A,褐色,E27/E3301702 D-螺栓-定位部件，6A,绿色,E27/E3301703 D-螺栓-定位部件，10A,红色,E27/E3301704 D-螺栓-定位部件，16A,灰色,E27/E3301705 D-螺栓-定位部件，20A,蓝色,E27/E3301706 D-螺栓-定位部件，25A,黄色,E27/E3301707 D-螺栓-定位部件，35A,黑色,E3301708 D-螺栓-定位部件，50A,白色,E3301709 D-螺栓-定位部件，63A,铜色,E3301715 D0-套筒-定位部件，D01,2A E14, 粉色01716 D0-套筒-定位部件，D01,4A E14, 褐色01717 D0-套筒-定位部件，D01,6A E14, 绿色01718 D0-套筒-定位部件，D01,10A E33，红色01719 D0-套筒-定位部件，D02,20A E18, 蓝色01720 D0-套筒-定位部件，D02,25A E18, 黄色01721 D0-套筒-定位部件，D02,35A E18, 黑色01722 D0-套筒-定位部件，D02,50A E18, 白色01724 特殊套筒定位部件，D01 用于E18, 2A, 粉色01725 特殊套筒定位部件，D01 用于E18, 4A, 褐色01726 特殊套筒定位部件，D01 用于E18, 6A, 绿色01727 特殊套筒定位部件，D01 用于E18,10A, 红色01728 特殊套筒定位部件，D01 用于E18,16A, 灰色01729 专用支撑簧，D01/E18，2-16A01730 定位套筒-钥匙，D01 - D0301741 螺栓-定位部件，2A,E27/E33 , 粉色01742 母线架，185mm系统,3-线,412x30x4001747 可插接的螺栓连接夹，M5,用于5mm厚的不打孔矩形母线01748 可插接的螺栓连接夹，M8,用于5mm厚的不打孔矩形母线01749 可插接的螺栓连接夹，M10,用于5mm厚的不打孔矩形母线01753 接线板，用于最大32x20的矩形母线01754 接线板，3线,带盖罩，150-300mm201756 盖罩，135x200x90，20-30x5/10mm,双T型母线01757 盖罩，270x200x90，20-30x5/10mm,双T型母线01759 展开式连接夹，长方截面母线,最大32x2001760 展开式连接夹，150-300mm201765 标准铜母线， 80x10,1500A,2.4m01766 标准铜母线，100x10,1800A,2.4m01767 标准铜母线，120x10,2100A,2.4m01774 母线架，12x5/10母线,3线 40mm系统01775 母线架，12x5/10母线,4线 40mm系统01783 空盖板，只用于0178401784 支座，适用于预留空盖板0178301788 D-磁环，E33, 2A, 粉色01789 D-磁环，E33, 4A, 褐色01790 D-磁环，E33, 6A, 绿色01791 D-磁环，E33,10A, 红色01792 D-磁环，E33,16A, 灰色01793 D-磁环，E33,20A, 蓝色01794 D-磁环，E33,25A, 黄色01823 母线加长连接夹, 630 A, 40 mm01827 母线加长连接夹, 1600 A, 50 mm01829 母线加长连接夹, 1600 A, 150 mm01831 双T型母线，1600 A，0.65 m01838 双T型母线，1600 A，0.45 m01876 母线架，1线,60mm系统，1600A01886 母线加长连接夹，(20-30)x(5/10)x150 ,630 A01888 带展开式连接夹的连接片，用于 30x20的矩形母线01890 带展开式连接夹的连接片，用于150-300mm2的导线01905 母线连接夹，夹子开口空间 31x2501906 PROFIL 连接夹，双T型, 51x21，连接500 - 750mm2 01907 PROFIL 连接夹，双T型, 64x21，连接600 - 900mm2 01911 PROFIL 连接夹，双T型, 64x36，连接600 - 1200mm2 01915 母线架，12x5/10,5线01917 D-固定式熔断器管座，双侧，E27/25A/500V01926 PE-和N-母线，带压板连接夹，63A,9x6.5x 61.5 01927 PE-和N-母线，带压板连接夹，63A,9x6.5x 124 01928 PE-和N-母线，带压板连接夹，63A,9x6.5x 186.5 01929 PE-和N-母线，带压板连接夹，63A,9x6.5x 249 01930 PE-和N-母线，带压板连接夹，63A,9x6.5x 311.5 01931 PE-和N-母线，带压板连接夹，63A,9x6.5x 374 01932 PE-和N-母线，带压板连接夹，63A,9x6.5x1000 01934 PROFIL 连接夹，用于双T型母线, 81x3601935 PROFIL 连接夹，用于双T型母线,101x3601936 PROFIL 连接夹，用于双T型母线, 51x3601945 盖，E27,宽52.5mm01979 D-固定式熔断器管座，双侧,E33/63A/690V AC01980 D0-条形盖，E18，宽27mm01981 D0-条形盖，E18, 宽54mm01990 母线加长连接夹，40mm01993 遮盖塞，E2701994 遮盖塞，E3301996 直压板连接夹，连接宽度 20 x 2501997 直压板连接夹，连接宽度 20 x 3001998 定位螺栓-钥匙，用于E27/E3302216 干线分线端子，1路2x70mm2输入，每路带2路50mm2输出，螺钉固定02217 干线分线端子，1路2x70mm2输入，每路带4路50mm2输出，螺钉固定02218 干线分线端子，4路2x25mm2输入，每路带1路16mm2输出，单侧输出02219 干线分线端子，5路2x25mm2输入，每路带1路16mm2输出，单侧输出02225 干线分线端子，1路2x25mm2输入，每路带2路16mm2输出，双侧输出02226 干线分线端子，1路2x25mm2输入，每路带4路16mm2输出，双侧输出02227 干线分线端子，1路2x25mm2输入，每路带6路16mm2输出，双侧输出02228 干线分线端子，1路2x25mm2输入，每路带2路16mm2输出，双侧输出02229 干线分线端子，1路输入，每路带2路输出/1路输入，每路带4路输出02230 干线分线端子，2路2x25mm2输入，每路带4路16mm2输出，双侧输出02231 干线分线端子，4路2x25mm2输入，每路带2路16mm2输出，双侧输出02232 干线分线端子，3路输入，每路带2路输出/1路输入，每路带4路输出02233 干线分线端子，4路2x25mm2输入，每路带4路16mm2输出，双侧输出02234 干线分线端子，3路2x25mm2输入，每路带2路输出/1路输入，带6路输出02235 干线分线端子，3路2x25mm2输入，每路带4路输出/1路输入，带6路输出02237 干线分线端子，3路2x25mm2输入，每路带4路输出/1路输入，带12路输出02238 干线分线端子，5路2x25mm2输入，每路带2路16mm2输出，双侧输出02242 干线分线端子，1路2x35mm2输入，每路带2路25mm2输出，卡式安装02243 干线分线端子，1路2x35mm2输入，每路带4路25mm2输出，卡式安装02244 干线分线端子，2路2x35mm2输入，每路带2路25mm2输出，卡式安装02246 干线分线端子，4路2x35mm2输入，每路带2路25mm2输出，卡式安装02247 干线分线端子，1路2x70mm2输入，每路带2路50mm2输出，卡式安装02248 干线分线端子，1路2x70mm2输入，每路带4路50mm2输出，卡式安装02262 干线分线端子，1路2x150mm2输入，每路带4路50mm2输出，螺钉固定02264 干线分线端子，5路2x25mm2输入，每路带2路16mm2输出，单侧输出02505 干线分线端子，4路2x35mm2输入，每路带2路25mm2输出，卡式安装02517 干线分线端子，4路2x35mm2输入，每路带2路35mm2输出,卡式安装02521 干线分线端子，1路2x35mm2输入，每路带2路35mm2输出,卡式安装02522 干线分线端子，2路2x35mm2输入，每路带2路35mm2输出,卡式安装02526 干线分线端子，1路2x35mm2输入，每路带4路35mm2输出,卡式安装02527 干线分线端子，2路2x35mm2输入，每路带4路35mm2输出,卡式安装02531 干线分线端子，1入1x25-120mm2，2出1x25-50,螺钉固定02533 干线分线端子，1入1x25-120mm2，2出1x25-50,卡式安装,和导轨平行02535 干线分线端子，1入1x25-120mm2，2出1x25-50,卡式安装,和导轨垂直02538 干线分线端子，5路2x35mm2输入，每路带2路25mm2输出，卡式安装02544 干线分线端子，3路2x35mm2输入，每路带2路输出/1路输入，带6路输出02562 转接夹子，2路，入/出螺钉02563 转接夹子，3路，入/出螺钉02564 转接夹子，2路，入/出6-70mm2 压板连接夹02565 转接夹子，3路，入/出6-70mm2 压板连接夹02566 转接夹子，2路，入螺钉M8，出6-70mm2 压板连接夹02567 转接夹子，3路，入螺钉M8，出6-70mm2 压板连接夹02603 干线分线端子，3路4x25mm2输入,每路带4个25mm2端子02604 干线分线端子，4路4x25mm2输入,每路带4个25mm2端子02605 干线分线端子，5路4x25mm2输入,每路带4个25mm2端子02606 干线分线端子，4路4x25mm2输入,每路带4个25mm2端子,N蓝色02607 干线分线端子，5路4x25mm2输入,每路带4个25mm2端子,N蓝色,PE黄绿色02614 干线分线端子，4路4x25mm2输入,每路带4个25mm2端子,PE黄绿色02615 干线分线端子，3路输入,每路共4个端子以及1路N极带8个25mm2的端子03161 分离闸刀，尺寸 00,160A03162 分离闸刀，尺寸 1,250A03163 分离闸刀，尺寸 2,400A03164 分离闸刀，尺寸 3, 630A03173 连接端子，160 A，尺寸125mm，双侧带压板连接夹，用于NH-熔断器座03175 零线端子，160 A，2线，双侧带压板连接夹，用于NH-熔断器座03177 HLS-熔断器座，用于超快速熔断器，400A，尺寸110，1相，双侧带M10 03178 连接端子，160 A，尺寸125mm，双侧带框端子，用于NH-熔断器座03181 NH-熔断器 gL，4a,800A03182 NH-熔断器 gL，4a,1000A03183 NH-熔断器 gL，4a,1250A03184 NH-熔断器 gL，4a,1600A03185 分离闸刀，4a,1600A03193 连接端子，160 A，尺寸60mm，双侧带压板连接夹，用于NH-熔断器座03194 连接端子，160 A，尺寸60mm，双侧带框端子，用于NH-熔断器座03195 连接端子，250 A，尺寸100mm，双侧带M10，用于NH-熔断器座03196 连接端子，250 A，尺寸200mm，双侧带M10，用于NH-熔断器座03197 连接端子，630 A，尺寸100mm，双侧带M12，用于NH-熔断器座03198 连接端子，630 A，尺寸200mm，双侧带M12，用于NH-熔断器座03199 NH-母线式熔断器座，160A, 尺寸00，三相,60mm系统,上/下端连接03213 零线端子, 630A, 双侧带螺钉M12，用于NH-熔断器座03214 熔断器，美标，J级，70 A，快熔，600 V AC, 300 V DC03215 熔断器，美标，J级，80 A，快熔，600 V AC, 300 V DC03216 熔断器，美标，J级，90 A，快熔，600 V AC, 300 V DC03217 熔断器，美标，J级，100 A，快熔，600 V AC, 300 V DC03218 熔断器，美标，J级，110 A，快熔，600 V AC, 300 V DC03219 熔断器，美标，J级，125 A，快熔，600 V AC, 300 V DC03220 熔断器，美标，J级，150 A，快熔，600 V AC, 300 V DC03221 熔断器，美标，J级，175A，快熔，600 V AC, 300 V DC03222 熔断器，美标，J级，200 A，快熔，600 V AC, 300 V DC03223 熔断器，美标，J级，225 A，快熔，600 V AC, 300 V DC03224 熔断器，美标，J级，250 A，快熔，600 V AC, 300 V DC03225 熔断器，美标，J级，300 A，快熔，600 V AC, 300 V DC03226 熔断器，美标，J级，350 A，快熔，600 V AC, 300 V DC03227 熔断器，美标，J级，400 A，快熔，600 V AC, 300 V DC03228 熔断器，美标，J级，70 A，延时，600 V AC, 500 V DC03229 熔断器，美标，J级，80 A，延时，600 V AC, 500 V DC03230 熔断器，美标，J级，90 A，延时，600 V AC, 500 V DC03231 熔断器，美标，J级，100 A，延时，600 V AC, 500 V DC03232 熔断器，美标，J级，110 A，延时，600 V AC, 500 V DC03233 熔断器，美标，J级，125 A，延时，600 V AC, 500 V DC03234 熔断器，美标，J级，150 A，延时，600 V AC, 500 V DC03235 熔断器，美标，J级，175 A，延时，600 V AC, 500 V DC03236 熔断器，美标，J级，200 A，延时，600 V AC, 500 V DC03237 熔断器，美标，J级，225 A，延时，600 V AC, 500 V DC03238 熔断器，美标，J级，250 A，延时，600 V AC, 500 V DC03239 熔断器，美标，J级，300 A，延时，600 V AC, 500 V DC03240 熔断器，美标，J级，350 A，延时，600 V AC, 500 V DC03241 熔断器，美标，J级，400 A，延时，600 V AC, 500 V DC03350 NH-固定式熔断器座，160A, 尺寸00，螺钉M8,单相，隔板结构03351 NH-固定式熔断器座，160A, 尺寸00，螺钉M8,三相，隔板结构03354 NH-固定式熔断器座，160A, 尺寸00，压板连接夹,单相，隔板结构03355 NH-固定式熔断器座，160A, 尺寸00，压板连接夹,三相，隔板结构03359 隔板架，适用于03 350 - 03 35503367 母线架，5线, 40mm系统03369 NH-母线式熔断器座,160A,尺寸00,压板连接夹,单相,直接挂接在母线上03370 NH-母线式熔断器座,160A,尺寸00,螺钉M8,单相,直接挂接在母线上03377 隔板，适用于NH-熔断器座 03350 / 03351 / 03354 / 0335503384 NH-母线式熔断器座,250A,尺寸1,螺钉M10,单相,直接挂接在母线上03502 NH-通用插入手柄，尺寸 00 - 303518 母线式超快速熔断器座，400 A，三相，下端连接，M10螺钉03519 零线端子，160 A，双侧带螺钉M8，用于NH-熔断器座03520 母线式超快速熔断器座，160A，三相，上端连接，M8螺钉03521 NH-熔断器 gL, 2 A,尺寸 000, 500V03522 NH-熔断器 gL, 4 A,尺寸 000, 500V03523 NH-熔断器 gL, 6 A,尺寸 000, 500V03524 NH-熔断器 gL, 10 A,尺寸 000, 500V03525 NH-熔断器 gL, 16 A,尺寸 000, 500V03526 NH-熔断器 gL, 20 A,尺寸 000, 500V03527 NH-熔断器 gL, 25 A,尺寸 000, 500V03528 NH-熔断器 gL, 35 A,尺寸 000, 500V03529 NH-熔断器 gL, 50 A,尺寸 000, 500V03530 NH-熔断器 gL, 63 A,尺寸 000, 500V03531 NH-熔断器 gL, 80 A,尺寸 000, 500V03532 NH-熔断器 gL,100 A,尺寸 000, 500V03533 NH-熔断器 gL,125 A,尺寸 00, 500V03534 NH-熔断器 gL,160 A,尺寸 00, 500V03549 NH-熔断器 gL, 16 A,尺寸 1, 500V03550 NH-熔断器 gL, 20 A,尺寸 1, 500V03551 NH-熔断器 gL, 25 A,尺寸 1, 500V03552 NH-熔断器 gL, 35 A,尺寸 1, 500V03553 NH-熔断器 gL, 50 A,尺寸 1, 500V03554 NH-熔断器 gL, 63 A,尺寸 1, 500V03555 NH-熔断器 gL, 80 A,尺寸 1, 500V03556 NH-熔断器 gL,100 A,尺寸 1, 500V03557 NH-熔断器 gL,125 A,尺寸 1, 500V03558 NH-熔断器 gL,160 A,尺寸 1, 500V03559 NH-熔断器 gL,200 A,尺寸 1, 500V03560 NH-熔断器 gL,224 A,尺寸 1, 500V03561 NH-熔断器 gL,250 A,尺寸 1, 500V03562 NH-熔断器 gL, 35 A,尺寸 2, 500V03563 NH-熔断器 gL, 50 A,尺寸 2, 500V03564 NH-熔断器 gL, 63 A,尺寸 2, 500V03565 NH-熔断器 gL, 80 A,尺寸 2, 500V03566 NH-熔断器 gL,100 A,尺寸 2, 500V03567 NH-熔断器 gL,125 A,尺寸 2, 500V03568 NH-熔断器 gL,160 A,尺寸 2, 500V03569 NH-熔断器 gL,200 A,尺寸 2, 500V03570 NH-熔断器 gL,224 A,尺寸 2, 500V03571 NH-熔断器 gL,250 A,尺寸 2, 500V03572 NH-熔断器 gL,300 A,尺寸 2, 500V03573 NH-熔断器 gL,315 A,尺寸 2, 500V03574 NH-熔断器 gL,355 A,尺寸 2, 500V03575 NH-熔断器 gL,400 A,尺寸 2, 500V03577 NH-熔断器 gL,315 A,尺寸 3, 500V03579 NH-熔断器 gL,400 A,尺寸 3, 500V03581 NH-熔断器 gL,500 A,尺寸 3, 500V03582 NH-熔断器 gL,630 A,尺寸 3, 500V03585 NH-母线式熔断器座,160A,尺寸00,单相,压板连接夹, 拧紧在打孔母线上03587 NH-母线式熔断器座,160A,尺寸00,单相, 螺钉M8, 拧紧在打孔母线上03599 NH-母线式熔断器座,400A,尺寸2,螺钉M10,单相,直接挂接在母线上03601 NH-母线式熔断器座, 250A，尺寸1，单相, 拧紧在打孔母线上03620 零线端子,160A,双侧带压板连接夹，用于NH-熔断器座03623 NH-母线式熔断器座, 160A，尺寸00, 三相, 40mm系统，压板连接夹03631 NH-母线式熔断器座, 160A，尺寸00，三相，40mm系统, 螺钉M8 03654 NH-母线式熔断器座, 160A，尺寸00, 三相，60mm系统，压板连接夹03656 NH-母线式熔断器座, 160A，尺寸00，三相, 60mm系统，螺钉M8 03657 零线端子,250A,螺钉连接，双侧带螺钉M1003668 零线端子,160A,螺钉连接，双侧带压板连接夹03679 NH-条形熔断器座,尺寸00,160A, 三相, 压板连接夹连接, 100mm系统03692 铝接线端子，适用于尺寸00的NH-熔断器座03693 NH-母线式熔断器座,400A,尺寸2,三相，螺钉M10，下端连接,60mm 03694 NH-母线式熔断器座,400A,尺寸2,三相，带触摸保护,40mm系统03704 NH-母线式熔断器座,250A,尺寸1, 三相，螺钉M10，下端连接，60mm 03705 NH-母线式熔断器座，250A,尺寸1,三相, 带触摸保护,40mm系统03727 压板连接夹,尺寸00,用于NH-母线式熔断器负荷隔离开关03757 零线端子，NH-固定式熔断器座，400A,螺钉M10,适用于NH-熔断器座03758 NH-固定式熔断器座，160A,尺寸00,单相，螺钉M8,带触摸保护03759 NH-固定式熔断器座，160A,尺寸00,三相，螺钉M8,带触摸保护03760 NH-固定式熔断器座，160A,尺寸00,单相，压板连接夹,带触摸保护03761 NH-固定式熔断器座，160A,尺寸00,三相，压板连接夹,带触摸保护03762 NH-固定式熔断器座，250A,尺寸1,单相，螺钉M10,带触摸保护03763 NH-固定式熔断器座，250A,尺寸1,三相，螺钉M10,带触摸保护03764 NH-固定式熔断器座，250A,尺寸1,单相，压板连接夹,带触摸保护03765 NH-固定式熔断器座，250A,尺寸1,三相，压板连接夹,带触摸保护03766 NH-固定式熔断器座，400A,尺寸2,单相，螺钉M10,带触摸保护03767 NH-固定式熔断器座，400A,尺寸2,三相，螺钉M10,带触摸保护03768 NH-固定式熔断器座，630A,尺寸3,单相，螺钉M12,带触摸保护03769 NH-固定式熔断器座，630A,尺寸3,三相，螺钉M12,带触摸保护03790 NH-母线式熔断器座，630A,尺寸3,单相，螺钉M12,拧紧在打孔母线上03791 触摸保护，用于NH-熔断器座, 尺寸0003792 触摸保护，用于NH-熔断器座, 尺寸 103793 触摸保护，用于NH-熔断器座, 尺寸 203794 触摸保护，用于NH-熔断器座, 尺寸 303795 NH-母线式熔断器座，400A, 尺寸2, 单相，螺钉M10,拧紧在打孔母线上03825 NH-通用插入手柄，尺寸 00 - 3，带皮胀圈03835 铝接线端子，70-150mm2, 用于尺寸1和2的NH-熔断器座03836 铝接线端子，95-240mm2, 用于尺寸3的NH-熔断器座03849 隔离开关盖定位锁，辅助安装03908 NH-熔断器 gL, 6 A,尺寸 00, 690V03909 NH-熔断器 gL, 10 A,尺寸 00, 690V03910 NH-熔断器 gL, 16 A,尺寸 00, 690V03911 NH-熔断器 gL, 20 A,尺寸 00, 690V03912 NH-熔断器 gL, 25 A,尺寸 00, 690V03913 NH-熔断器 gL, 32 A,尺寸 00, 690V03914 NH-熔断器 gL, 35 A,尺寸 00, 690V03915 NH-熔断器 gL, 40 A,尺寸 00, 690V03916 NH-熔断器 gL, 50 A,尺寸 00, 690V03917 NH-熔断器 gL, 63 A,尺寸 00, 690V03918 NH-熔断器 gL, 80 A,尺寸 00, 690V03919 NH-熔断器 gL,100 A,尺寸 00, 690V03920 NH-熔断器 gL, 25 A,尺寸 1, 690V03922 NH-熔断器 gL, 35 A,尺寸 1, 690V03924 NH-熔断器 gL,250 A,尺寸 1, 690V03925 NH-熔断器 gL, 63 A,尺寸 1, 690V03927 NH-熔断器 gL,100 A,尺寸 1, 690V03928 NH-熔断器 gL,125 A,尺寸 1, 690V03929 NH-熔断器 gL,160 A,尺寸 1, 690V03930 NH-熔断器 gL,200 A,尺寸 1, 690V03938 NH-熔断器 gL,100 A,尺寸 2, 690V03941 NH-熔断器 gL,200 A,尺寸 2, 690V03942 NH-熔断器 gL,250 A,尺寸 2, 690V03943 NH-熔断器 gL,315 A,尺寸 2, 690V03945 NH-熔断器 gL,315 A,尺寸 3, 690V03946 NH-熔断器 gL,400 A,尺寸 3, 690V03947 NH-熔断器 gL,500 A,尺寸 3, 690V03949 NH-熔断器 gL,355A,尺寸3, 690V05182 零线端子，陶瓷座,螺钉,63A05188 零线端子，带插孔的连接夹, 63A05780 绝缘子，带内螺纹,M6,高30mm05781 绝缘子，带内螺纹,M6,高35mm05782 绝缘子，带内螺纹,M8,高35mm05783 绝缘子，带内螺纹,M8,高40mm05784 绝缘子，带内螺纹,M10,高40mm05785 绝缘子，带内螺纹,M6,高45mm05786 绝缘子，带内螺纹,M8,高45mm05787 绝缘子，带内螺纹,M10,高45mm05788 绝缘子，带内螺纹,M10,高50mm05789 绝缘子，带内螺纹,M10,高60mm05790 绝缘子，带内螺纹,M8,高50mm05800 绝缘子，带内螺纹,螺栓,M6,高30mm05801 绝缘子，带内螺纹,螺栓,M6,高35mm05802 绝缘子，带内螺纹,螺栓,M8,高35mm08824 压板连接件，适用于PE-和N-母线01 93208825 卡接固定件, 适用于PE-和N-母线01126-01129和01926-01932 10877 PE-和N-母线，100A,40xM8, 1m10879 PE-和N-母线，160A,30xM10,1m30322 连接件组，1600 A, 3线，用于弹性加长连接，双T型母线30388 转接器，250A，用于Siemens 3VF330473 连接件组，1600 A, 4线，用于弹性带角度的连接，双T型母线30807 金属支承导轨，72mm宽，35x7.530894 螺钉连接件，M8，尺寸 0030930 金属支承导轨，35 x 54 x 7.531001 梳形母线，1 线,30mm2，齿距27mm, 长1m,无镀层，隔条31004 标记牌，20 x 9mm31005 熔帽，D01/E 14/400V AC/250V DC，塑料31006 熔帽，D02/E 18/400V AC/250V DC，塑料31007 连接端子，35 mm2,用于31 00131012 梳形母线，3线,截面16 mm2，带绝缘套，隔条，齿距27mm, 长1m 31014 梳形母线，1线,截面16 mm2，带绝缘套，隔条，齿距27mm, 长1m 31022 带测试孔的D0螺帽，用于Cyklon，E1831023 不带测试孔的D0螺帽，用于Cyklon，E1831024 梳形母线，1线,截面16 mm2，带绝缘套，叉形，齿距27mm, 长1m 31026 梳形母线，3线,截面16 mm2，带绝缘套，叉形，齿距27mm, 长1m 31027 末端罩，适用于3线梳形母线31028 连接端子，用于1线梳形母线，侧面连接31029 连接端子，用于3线梳形母线，侧面连接31031 D0-固定式熔断器管座，E 14 / 16 A / 400 V，单相，用于叉型结构31032 D0-固定式熔断器管座，E 14 / 16 A / 400 V，三相，用于叉型结构31033 D0-固定式熔断器管座，E 18 / 63 A / 400 V，单相，用于叉型结构31034 D0-固定式熔断器管座，E 18 / 63 A / 400 V，三相，用于叉型结构31044 连接端子，用于31 033和31 03431051 D0-固定式熔断器管座，E 18 / 63 A / 400 V，三相，带双侧框端子31056 梳形母线，3线,截面35 mm2，带绝缘套，隔条，齿距27mm, 长1m 31057 梳形母线，1线,截面35 mm2，带绝缘套，隔条，齿距27mm, 长1m 31070 D-条形盖，E27, 宽42mm31071 D-条形盖，E33, 宽57mm31072 D-条形盖，E27, 宽84mm31073 D-条形盖，E33, 宽114mm31084 末端罩，用于3线梳形母线,35 mm231085 连接端子，用于3线梳形母线，正面连接，6-50mm231086 标识牌架，适用于Triton31098 熔帽，E27,500V，塑料31100 熔帽，E33,500V，塑料31101 梳形母线，75 A, 1线, 1 m, 16 mm231102 梳形母线，65 A, 3线, 1 m, 16 mm231103 连接端子，6 - 25 mm2，齿距18，侧面连接31104 熔帽，D01/E18/400V AC/250V DC，塑料31105 带圆柱形熔断器的开关，8x31/1P31106 带圆柱形熔断器的开关，零线在右侧，8x31/1P+N31107 带圆柱形熔断器的开关，8x31/2P31108 带圆柱形熔断器的开关，8x31/3P31109 带圆柱形熔断器的开关，零线在右侧，8x31/3P+N31110 带圆柱形熔断器的开关，10x38/1P31111 带圆柱形熔断器的开关，零线在右侧，10x38/1P+N31112 带圆柱形熔断器的开关，10x38/2P31113 带圆柱形熔断器的开关，10x38/3P31114 带圆柱形熔断器的开关，零线在右侧，10x38/3P+N31115 带圆柱形熔断器的开关，14x51/1P31116 带圆柱形熔断器的开关，零线在右侧，14x51/1P+N31117 带圆柱形熔断器的开关，14x51/2P31118 带圆柱形熔断器的开关，14x51/3P31119 带圆柱形熔断器的开关，零线在右侧，14x51/3P+N31120 带圆柱形熔断器的开关，22x58/1P31121 带圆柱形熔断器的开关，零线在右侧，22x58/1P+N31122 带圆柱形熔断器的开关，22x58/2P31123 带圆柱形熔断器的开关，22x58/3P31124 带圆柱形熔断器的开关，零线在右侧，22x58/3P+N31130 带圆柱形熔断器的开关，带LED，10 x 38 / 1P31131 带圆柱形熔断器的开关，带LED，10 x 38 / 1P+N31132 带圆柱形熔断器的开关，带LED，10 x 38 / 2P31133 带圆柱形熔断器的开关，带LED，10 x 38 / 3P31134 带圆柱形熔断器的开关，带LED，10 x 38 / 3P + N31135 带圆柱形熔断器的开关，带LED，14 x 51 / 1P31138 带圆柱形熔断器的开关，带LED，14 x 51 / 3P31140 带圆柱形熔断器的开关，带LED，22 x 58 / 1P31143 带圆柱形熔断器的开关，带LED，22 x 58 / 3P31157 连接端子，6 - 25 mm2，齿距18，侧面连接31158 母线式条形熔断器式负荷隔离开关，用于D0熔断器，60 mm，63A/400V 31160 母线式条形熔断器座, 用于10x38 NFC 圆柱形熔断器，60 mm，32A/690V 31161 D0-固定式熔断器管座，E14/16A/400V,单相, 带双侧框端子31163 带圆柱形熔断器的开关，零线在左侧，25 A / 400 V，8 x 31 / 1P + N 31164 带圆柱形熔断器的开关，零线在左侧，25 A / 400 V，8 x 31 / 3P + N 31165 带圆柱形熔断器的开关，零线在左侧，32 A / 690 V，10 x 38 / 1P + N 31166 带圆柱形熔断器的开关，零线在左侧，32 A / 690 V，10 x 38 / 3P + N 31167 带圆柱形熔断器的开关，零线在左侧，50 A / 690 V，14 x 51 / 1P + N 31168 带圆柱形熔断器的开关，零线在左侧，50 A / 690 V，14 x 51 / 3P + N 31169 D0-固定式熔断器管座，E18/63A/400V,单相, , 带双侧框端子31170 带圆柱形熔断器的开关，零线在左侧，125 A / 690 V，22 x 58 / 1P + N31171 带圆柱形熔断器的开关，零线在左侧，125 A / 690 V，22 x 58 / 3P + N 31172 D0-固定式熔断器管座，E14/16A/400V,三相, , 带双侧框端子31173 D-固定式熔断器管座(Triton)，E27/25A/500V,单相，可替代01173 31174 D-固定式熔断器管座(Triton)，E27/25A/500V,三相31175 D-固定式熔断器管座(Triton)，E33/63A/500V,单相，可替代01175 31176 D-固定式熔断器管座(Triton)，E33/63A/500V,三相31177 圆柱形熔断器 gG, 4 A, 8 x 31, 400V31178 圆柱形熔断器 gG, 6 A, 8 x 32, 400V31179 圆柱形熔断器 gG, 10 A, 8 x 31, 400V31180 圆柱形熔断器 gG, 16 A, 8 x 31, 400V31181 圆柱形熔断器 gG, 20 A, 8 x 31, 400V31182 圆柱形熔断器 gG, 2 A, 10 x 38, 500V31183 圆柱形熔断器 gG, 4 A, 10 x 38, 500V31184 圆柱形熔断器 gG, 6 A, 10 x 38, 500V31185 圆柱形熔断器 gG, 10 A, 10 x 38, 500V31186 圆柱形熔断器 gG, 16 A, 10 x 38, 500V31187 圆柱形熔断器 gG, 20 A, 10 x 38, 500V31188 圆柱形熔断器 gG, 25 A, 10 x 38, 500V31189 圆柱形熔断器 gG, 32 A, 10 x 38, 400V31190 圆柱形熔断器 gG, 10 A, 14 x 51, 690V31191 圆柱形熔断器 gG, 16 A, 14 x 51, 690V31192 圆柱形熔断器 gG, 20 A, 14 x 51, 690V31193 圆柱形熔断器 gG, 25 A, 14 x 51, 690V31194 圆柱形熔断器 gG, 32 A, 14 x 51, 500V31195 圆柱形熔断器 gG, 40 A, 14 x 51, 500V31196 圆柱形熔断器 gG, 50 A, 14 x 51, 400V31197 圆柱形熔断器 gG, 25 A, 22 x 58, 690V31198 圆柱形熔断器 gG, 32 A, 22 x 58, 690V31199 圆柱形熔断器 gG, 40 A, 22 x 58, 690V31200 圆柱形熔断器 gG, 50 A, 22 x 58, 690V31201 圆柱形熔断器 gG, 63 A, 22 x 58, 690V31202 圆柱形熔断器 gG, 80 A, 22 x 58, 690V31203 圆柱形熔断器 gG, 100A, 22 x 58, 500V31204 圆柱形熔断器 gG, 125A, 22 x 58, 400V31205 圆柱形熔断器 aR, 1 A, 10 x 38, 660V31206 圆柱形熔断器 aR, 2 A, 10 x 38, 660V31207 圆柱形熔断器 aR, 4 A，10 x 38, 660V31208 圆柱形熔断器 aR, 6 A，10 x 38, 660V31209 圆柱形熔断器 aR, 10 A，10 x 38, 660V31210 圆柱形熔断器 aR,12.5A, 10 x 38, 660V31211 圆柱形熔断器 aR, 16 A，10 x 38, 660V31212 圆柱形熔断器 aR, 20 A，10 x 38, 660V31213 圆柱形熔断器 aR, 25 A，10 x 38, 660V31214 圆柱形熔断器 aR, 30 A，10 x 38, 660V31215 圆柱形熔断器 aR, 10 A，14 x 51, 690V31216 圆柱形熔断器 aR, 16 A，14 x 51, 690V31217 圆柱形熔断器 aR, 20 A，14 x 51, 690V。

AVR系列单片机的选型指南AVR系列单片机是一种非常流行的嵌入式系统开发平台，由Atmel公司开发。

它们具有高性能、低功耗、易于编程和丰富的外设接口等特点，被广泛应用于各种嵌入式应用中，例如智能家居、汽车电子、工业自动化等领域。

在选择AVR系列单片机时，我们需要考虑以下几个方面：1. 功能需求：首先，需要明确所需的功能需求。

不同的AVR系列单片机具有不同的功能和性能特点，例如不同的处理器速度、内存容量和外设接口数量等。

根据实际需求，选择适合的单片机型号。

如果需要许多外设接口，可以选择较高级的型号，例如ATmega2560系列。

如果只需要基本的功能，可以选择较低级的型号，例如ATmega328P系列。

2.性能要求：其次，需要考虑性能要求。

AVR系列单片机的性能包括处理器速度、存储容量和计算能力等。

根据所需的性能要求，选择适当的处理器速度和内存容量。

如果需要高性能的应用，可以选择较高主频的型号。

如果需要较小和低功耗的应用，可以选择低主频的型号。

3. 开发工具支持：选择一个有良好的开发生态系统和工具链的单片机也是非常重要的。

AVR系列单片机拥有丰富的开发工具和支持资源，例如编译器、调试器、仿真器、烧录器等。

同时，开发人员可以通过Atmel Studio等IDE轻松进行开发和调试。

因此，选择一个广泛支持的单片机型号，将有助于开发过程的顺利进行。

4.供应链可靠性：在选择AVR系列单片机时，还需要考虑其供应链可靠性。

确保所选择的单片机型号在市场上具有较好的供应链支持，以保证后续的量产和维护的可行性。

总结来说，选择AVR系列单片机需要综合考虑功能需求、性能要求、开发工具支持和供应链可靠性等因素。

根据实际需求，并通过与开发工具、支持资源和供应链的比较，选择适合的AVR系列单片机型号，将有助于提高开发效率和项目成功率。

Device Name Flash (Kbytes)Pin Count Max. Operating Freq. (MHz)CPUAT32UC3A01281281446632-bit AVR AT32UC3A0128AU1281446632-bit AVR AT32UC3A02562561446632-bit AVR AT32UC3A0256AU2561446632-bit AVR AT32UC3A05125121446632-bit AVR AT32UC3A0512AU5121446632-bit AVR AT32UC3A11281281006632-bit AVR AT32UC3A1256AU2561006632-bit AVR AT32UC3A15125121006632-bit AVR AT32UC3A1512AU5121006632-bit AVR AT32UC3A31281281448432-bit AVR AT32UC3A3128S1281448432-bit AVR AT32UC3A32562561448432-bit AVR AT32UC3A3256AU2561446632-bit AVR AT32UC3A3256S2561448432-bit AVR AT32UC3A364641448432-bit AVR AT32UC3A364S641448432-bit AVR AT32UC3A41281281008432-bit AVR AT32UC3A4128S1281008432-bit AVR AT32UC3A42562561008432-bit AVR AT32UC3A4256S2561008432-bit AVR AT32UC3A464641008432-bit AVR AT32UC3A464S641008432-bit AVR AT32UC3B0128128646032-bit AVR AT32UC3B0128AU128646032-bit AVR AT32UC3B0256256646032-bit AVR AT32UC3B0512512646032-bit AVR AT32UC3B0512AU512646032-bit AVR AT32UC3B06464646032-bit AVRAT32UC3B1128128486032-bit AVR AT32UC3B1256256486032-bit AVR AT32UC3B1512512486032-bit AVR AT32UC3B16464486032-bit AVR AT32UC3C0128C1281446632-bit AVR AT32UC3C0256C2561446632-bit AVR AT32UC3C0512C5121446632-bit AVR AT32UC3C0512C AutomotiveAT32UC3C0512CAU5121446632-bit AVR AT32UC3C064C641446632-bit AVR AT32UC3C1128C1281006632-bit AVR AT32UC3C1256C2561006632-bit AVR AT32UC3C1512C5121006632-bit AVR AT32UC3C1512C AutomotiveAT32UC3C164C641006632-bit AVR AT32UC3C2128C128646632-bit AVR AT32UC3C2256C256646632-bit AVR AT32UC3C2512C512646632-bit AVR AT32UC3C2512C AutomotiveAT32UC3C264C64646632-bit AVR AT32UC3L0128128485032-bit AVR AT32UC3L01616485032-bit AVR AT32UC3L0256256485032-bit AVR AT32UC3L03232485032-bit AVR AT32UC3L06464485032-bit AVR AT90CAN12812864168-bit AVR AT90CAN128 Automotive12864168-bit AVR AT90CAN323264168-bit AVR AT90CAN32 Automotive3264168-bit AVR AT90CAN646464168-bit AVRAT90CAN64 Automotive6464168-bit AVR AT90PWM1824168-bit AVR AT90PWM1611620168-bit AVR AT90PWM2161624168-bit AVR AT90PWM2B824168-bit AVR AT90PWM3161632168-bit AVR AT90PWM3B832168-bit AVR AT90PWM81820168-bit AVR AT90USB128612864168-bit AVR AT90USB128712864168-bit AVR AT90USB1621632168-bit AVR AT90USB6466464168-bit AVR AT90USB6476464168-bit AVR AT90USB82832168-bit AVR ATmega12812864168-bit AVR ATmega1280128100168-bit AVR ATmega128112864168-bit AVR ATmega128412844208-bit AVR ATmega1284P12844208-bit AVR ATmega128A12864168-bit AVR ATmega161644168-bit AVR ATMEGA1621644168-bit AVR ATmega164A1644208-bit AVR ATmega164P1644208-bit AVR ATmega164P Automotive1644168-bit AVR ATmega164PA1644208-bit AVR ATmega164P-B Automotive1644168-bit AVR ATmega165P1664168-bit AVR ATmega165PA1664168-bit AVR ATmega1681632208-bit AVRATmega168 Automotive1632168-bit AVR ATmega168A1632208-bit AVR ATmega168P1632208-bit AVR ATmega168PA1632208-bit AVR ATmega168PA AutomotiveATmega168PB1632208-bit AVR ATmega169A1664168-bit AVR ATmega169P1664168-bit AVR ATmega169P Automotive1664168-bit AVR ATmega169PA1664168-bit AVR ATmega16A1644168-bit AVR ATmega16HVA162848-bit AVR ATmega16HVB164488-bit AVR ATmega16M11632168-bit AVR ATmega16M1 Automotive1632168-bit AVR ATmega16U21632168-bit AVR ATmega16U41644168-bit AVR ATmega2560256100168-bit AVR ATmega256125664168-bit AVR ATmega323244168-bit AVR ATmega324A3244208-bit AVR ATmega324P3244208-bit AVR ATmega324P Automotive3244168-bit AVR ATmega324PA3244208-bit AVR ATmega324P-B Automotive 3244168-bit AVR ATmega3253264168-bit AVR ATmega325032100168-bit AVR ATmega3250A32100208-bit AVR ATmega3250P32100208-bit AVR ATmega3250PA32100208-bit AVRATmega325A3264208-bit AVR ATmega325P3264208-bit AVR ATmega325PA3264208-bit AVR ATmega3283232208-bit AVR ATmega328P3232208-bit AVR ATmega328P Automotive3232168-bit AVR ATmega328PB3232208-bit AVR ATmega3293264168-bit AVR ATmega329032100168-bit AVR ATmega3290A32100208-bit AVR ATmega3290P32100208-bit AVR ATmega329A3264208-bit AVR ATmega329P3264208-bit AVR ATmega329PA3264208-bit AVR ATmega32A3244168-bit AVR ATmega32C1 Automotive3232168-bit AVR ATmega32HVB324488-bit AVR ATmega32M13232168-bit AVR ATmega32M1 Automotive3232168-bit AVR ATmega32U23232168-bit AVR ATmega32U43244168-bit AVR ATmega406404818-bit AVR ATmega48432208-bit AVR ATmega48 Automotive432168-bit AVR ATmega48A432208-bit AVR ATmega48P432208-bit AVR ATmega48PA432208-bit AVR ATmega48PA AutomotiveATmega48PB43218-bit AVR ATmega646464168-bit AVRATmega64064100168-bit AVR ATmega6446444208-bit AVR ATmega644A6444208-bit AVR ATmega644P6444208-bit AVR ATmega644P Automotive6444168-bit AVR ATmega644PA6444208-bit AVR ATmega644P-B Automotive6444168-bit AVR ATmega6456464168-bit AVR ATmega645064100168-bit AVR ATmega6450A64100208-bit AVR ATmega6450P64100208-bit AVR ATmega645A6464168-bit AVR ATmega645P6464168-bit AVR ATmega6496464168-bit AVR ATmega649064100168-bit AVR ATmega6490A64100208-bit AVR ATmega6490P64100208-bit AVR ATmega649A6464168-bit AVR ATmega649P6464168-bit AVR ATmega64A6464168-bit AVR ATmega64C1 Automotive6432168-bit AVR ATmega64M16432168-bit AVR ATmega64M1 Automotive6432168-bit AVR ATmega8832168-bit AVR ATmega8515844168-bit AVR ATmega853*******-bit AVR ATmega88832208-bit AVR ATmega88 Automotive832168-bit AVR ATmega88A832208-bit AVR ATmega88P832208-bit AVRATmega88PA832208-bit AVR ATmega88PA AutomotiveATmega88PB83218-bit AVR ATmega8A832168-bit AVR ATmega8HVA82848-bit AVR ATmega8U2832168-bit AVR ATtiny1016128-bit AVR ATtiny1318208-bit AVR ATtiny13A18208-bit AVR ATtiny16341620128-bit AVR ATtiny1671620168-bit AVR ATtiny167 Automotive1620168-bit AVR ATtiny20214128-bit AVR ATtiny2313220208-bit AVR ATtiny2313A220208-bit AVR ATtiny24214208-bit AVR ATtiny24 Automotive214168-bit AVR ATtiny24A214208-bit AVR ATtiny2528208-bit AVR ATtiny25 Automotive28168-bit AVR ATtiny26220168-bit AVR ATtiny261 Automotive220168-bit AVR ATtiny261A220208-bit AVR ATtiny28L22848-bit AVR ATtiny40.56128-bit AVR ATtiny40420128-bit AVR ATtiny4313420208-bit AVR ATtiny43U42088-bit AVR ATtiny44414208-bit AVR ATtiny44 Automotive414168-bit AVRATtiny441414168-bit AVR ATtiny44A414208-bit AVR ATtiny4548208-bit AVR ATtiny45 Automotive48168-bit AVR ATtiny461420208-bit AVR ATtiny461 Automotive420168-bit AVR ATtiny461A420208-bit AVR ATtiny48432128-bit AVR ATtiny50.56128-bit AVR ATtiny828832208-bit AVR ATtiny84814208-bit AVR ATtiny84 Automotive814168-bit AVR ATtiny841814168-bit AVR ATtiny84A814208-bit AVR ATtiny8588208-bit AVR ATtiny85 Automotive88168-bit AVR ATtiny861820208-bit AVR ATtiny861 Automotive820168-bit AVR ATtiny861A820208-bit AVR ATtiny87820168-bit AVR ATtiny87 Automotive820168-bit AVR ATtiny88832128-bit AVR ATtiny88 Automotive832168-bit AVR ATtiny916128-bit AVR ATUC128D3128644832-bit AVR ATUC128D4128484832-bit AVR ATUC128L3U128645032-bit AVR ATUC128L4U128485032-bit AVR ATUC256L3U256645032-bit AVR ATUC256L4U256485032-bit AVRATUC64D364644832-bit AVR ATUC64D464484832-bit AVR ATUC64L3U64645032-bit AVR ATUC64L4U64485032-bit AVR ATxmega128A1128100328-bit AVR ATxmega128A1U128100328-bit AVR ATxmega128A312864328-bit AVR ATxmega128A3U12864328-bit AVR ATxmega128A4U12844328-bit AVR ATxmega128B1128100328-bit AVR ATxmega128B312864328-bit AVR ATxmega128C312864328-bit AVR ATxmega128D312864328-bit AVR ATxmega128D412844328-bit AVR ATxmega16A41644328-bit AVR ATxmega16A4U1644328-bit AVR ATxmega16C41644328-bit AVR ATxmega16D41644328-bit AVR ATxmega16E51632328-bit AVR ATxmega192A319264328-bit AVR ATxmega192A3U19264328-bit AVR ATxmega192C319264328-bit AVR ATxmega192D319264328-bit AVR ATxmega256A325664328-bit AVR ATxmega256A3B25664328-bit AVR ATxmega256A3BU25664328-bit AVR ATxmega256A3U25664328-bit AVR ATxmega256C325664328-bit AVR ATxmega256D325664328-bit AVR ATxmega32A43244328-bit AVRATxmega32A4U3244328-bit AVR ATxmega32C33264328-bit AVR ATxmega32C43244328-bit AVR ATxmega32D33264328-bit AVR ATxmega32D43244328-bit AVR ATxmega32E53232328-bit AVR ATxmega384C338464328-bit AVR ATxmega384D338464328-bit AVR ATxmega64A164100328-bit AVR ATxmega64A1U64100328-bit AVR ATxmega64A36464328-bit AVR ATxmega64A3U6464328-bit AVR ATxmega64A4U6444328-bit AVR ATxmega64B164100328-bit AVR ATxmega64B36464328-bit AVR ATxmega64C36464328-bit AVR ATxmega64D36464328-bit AVR ATxmega64D3 Automotive6464328-bit AVR ATxmega64D46444328-bit AVR ATxmega8E5832328-bit AVR# of Touch Channels Hardware QTouch Acquisition Max I/O PinsUSB Transceiveture Decoder C USB Speed USB InterfaceExt Interrupts32No1091091Full Speed Device + OTG 32No1091091Full Speed Device + OTG 32No1091091Full Speed Device + OTG 32No1091091Full Speed Device + OTG 32No1091091Full Speed Device + OTG 32No1091091Full Speed Device + OTG 32No69691Full Speed Device + OTG 32No69691Full Speed Device + OTG 32No69691Full Speed Device + OTG 32No69691Full Speed Device + OTG 32No1101101Hi-Speed Device + OTG 32No1101101Hi-Speed Device + OTG 32No1101101Hi-Speed Device + OTG 32No1101101Hi-Speed Device + OTG 32No1101101Hi-Speed Device + OTG 32No1101101Hi-Speed Device + OTG 32No1101101Hi-Speed Device + OTGNo6981Hi-Speed Device + OTGNo6981Hi-Speed Device + OTGNo6981Hi-Speed Device + OTGNo6981Hi-Speed Device + OTGNo6981Hi-Speed Device + OTGNo6981Hi-Speed Device + OTG 32No44441Full Speed Device + OTG 32No44441Full Speed Device + OTG 32No44441Full Speed Device + OTG 32No44441Full Speed Device + OTG 32No44441Full Speed Device + OTG 32No44441Full Speed Device + OTG32No28281Full Speed Device32No28281Full Speed Device32No28281Full Speed Device32No28281Full Speed DeviceNo12314412Full Speed Device + OTGNo12314412Full Speed Device + OTG 32No12314412Full Speed Device + OTG 32No12314412Full Speed Device + OTGNo12314412Full Speed Device + OTGNo8110012Full Speed Device + OTGNo8110012Full Speed Device + OTG 32No8110012Full Speed Device + OTGNo8110012Full Speed Device + OTGNo456411Full Speed Device + OTGNo456411Full Speed Device + OTG 32No456411Full Speed Device + OTGNo456411Full Speed Device + OTG 17Yes3636No No17Yes3636No No17Yes3636No No17Yes3636No No17Yes3636No No16No538No No16No538No No16No538No No16No538No No16No538No No16No538No No8No194No NoNo203No No12No194No No8No194No No12No274No No8No274No NoNo203No No16No48161Full Speed Device16No48161Full Speed Device + OTGNo22211Full Speed Device16No48161Full Speed Device16No48161Full Speed Device + OTG 12No22211Full Speed Device16No538No No16No8632No No16No5417No No16No3232No No16No3232No No16No538No No16No323No No16No353No No16No3232No No16No3232No No16No3232No No16No3232No No16No3232No No16No5417No No16No5417No No16No2324No No16No2324No No 16No2324No No 16No2324No No 16No2324No No 16No2724No No 16No5417No No 16No5417No No 16No5417No No 16No5417No No 16No323No No 3No63No No 8No1715No No 12No2727No No 12No2727No No 12No22211Full Speed Device 14No26131Full Speed DeviceNo8632No NoNo5417No No 16No323No No 16No3232No No 16No3232No No 16No3232No No 16No3232No No 16No3232No No 16No5417No No 16No6925No No 16No6925No No 16No6925No No 16No6925No No16No5417No No 16No5417No No 16No5417No 16No2324No No 16No2324No No 16No2324No No 12Yes2727No No 16No5417No No 16No6932No No 16No6932No No 16No6932No No 16No5417No No 16No5417No No 16No5417No No 16No323No No 12No2727No No 8No1715No No 12No2727No No 12No2727No No 12No22201Full Speed Device 14No26131Full Speed Device 8No184No No 12No2324No No 12No2324No No 12No2324No No 12No2324No No 12No2324No No 16No2724No No 16No538No No16No8632No No 16No3232No No 16No3232No No 16No3232No No 16No3232No No 16No3232No No 16No3232No No 16No5417No NoNo6925No NoNo6925No NoNo6925No No 16No5417No No 16No5417No No 16No5417No No 16No6932No No 16No6932No No 16No6932No No 16No5417No No 16No5417No No 16No538No No 12No2727No No 12No2727No No 12No2727No No 12No232No No 16No353No No 16No323No No 12No2324No No 12No2324No No 12No2324No No 12No2324No No12No2324No No 16No2724No No 12No232No No 3No63No NoNo22201Full Speed Device 1No44No NoNo66No NoNo66No No 11Yes18188No1616No No 8No1616No No 5Yes1212No No 4No1818No No 4No1818No No 4No1212No No 4No1212No No 4No1212No No 4No66No No 4No66No NoNo1611No No 4No1616No No 4No1616No NoNo1110No No 0No44No No 12Yes1818No No 6No1818No No 8No1616No No 6No1212No No 6No1212No No0No1212No No 6No1212No No 3No66No No 3No66No No 8No1616No No 8No1616No No 8No1616No No 12No2828No No 0No44No NoNo2828No No 6No1212No No 6No1212No No 0No1212No No 6No1212No No 3No66No No 3No66No No 8No1616No No 8No1616No No 8No1616No NoNo1616No No 8No1616No No 12No2828No No 12No2828No No 0No44No No 25Yes51511Full Speed Device 17Yes35341Full Speed Device 25Yes51511Full Speed Device 17Yes36361Full Speed Device 25Yes51511Full Speed Device 17Yes36361Full Speed Device25Yes51511Full Speed Device 17Yes35341Full Speed Device 25Yes51511Full Speed Device 17Yes36361Full Speed Device 16No7878No No 16No787813Full Speed Device 16No5050No No 16No505013Full Speed DeviceNo343413Full Speed Device 16No535311Full Speed Device 16No363611Full Speed Device 16No505011Full Speed Device 16No50501No NoNo34341No No 16No3434No No 16No343413Full Speed Device 16No343411Full Speed Device 16No34341No No 56No2626No No 16No5050No No 16No505013Full Speed Device 16No505011Full Speed Device 16No50501No No 16No5050No No 16No4749No No 16No474913Full Speed Device 16No505013Full Speed Device 16No505011Full Speed Device 16No50501No No 16No3434No No16No343413Full Speed Device 16No50501Full Speed Device 16No343411Full Speed Device 16No5050No No 16No34341No No 56No2626No No 16No505011Full Speed Device 16No5050116No7878No No 16No787813Full Speed Device 16No5050No No 16No505013Full Speed DeviceNo343413Full Speed Device 16No535311Full Speed Device 16No363611Full Speed Device 16No50501Full Speed Device 16No50501No No 16No5050No NoNo34341No No 56No2626No NoSPI TWI (I2C)UART CAN LINomotive Qualif I2S SSC Ethernet SD / eMMC Segment LCD 61400Yes1161400Yes1161400Yes1161400Yes1161400Yes1161400Yes1161400Yes1161400Yes1161400Yes1161400Yes1162404Yes10162404Yes10162404Yes10162404Yes10162404Yes10162404Yes10162404Yes10162404Yes0262404Yes0262404Yes10262404Yes10262404Yes10262404Yes10241300No1041300No1041300No1041300Yes1041300Yes1041300No1031200No0 31200No0 31200Yes0 31200No0 73525Yes11 73525Yes11 73525Yes11Yes73525Yes11 73525Yes11 73525Yes11 73525Yes11 73525Yes11Yes73525Yes11 52424Yes11 52424Yes11 52424Yes11Yes52424Yes11 52400Yes0 52400Yes0 52400Yes0 52400Yes0 52400Yes0 11210No0 1121Yes No11210No0 1121Yes No11210No01121Yes No10000No0 10000No0 10100No0 10100No0 10100No0 10100No0 10000No0 21100No0 21100No0 20100No0 21100No0 21100No0 20100No0 11200No0 51400No0 31200No0 31200No0 31200No0 11200No0 11100No0 10200No0 31200No0 31200No0 312Yes No31200No0 312Yes No21100No0 21100No0 21100No0211Yes No21100No021100No021100No0Yes No21100Yes No021100No0100 21100No0100 211Yes No100 21100No0100 11100No010000No011000No010111No01111Yes No020100No021100No051400No031200No011100No031200No031200No0312Yes No31200No0312Yes No21100No021100No021100No021100No021100No021100No021100No021100No021100No021100No0211Yes No22200No021100No0100 21100No0160 21100No0160 21100No0160 21100No0100 21100No0100 21100No0100 11100No01111Yes No011000010111No01111Yes No020100No021100No01000021100No0211Yes No21100No021100No021100No0Yes No21100No011200No051400No031100No031200No031200No0312Yes No31200No0312Yes21100No021100No021100No021100No021100No021100No021100No0100 21100No0160 21100No0160 21100No0160 21100No0100 21100No0100 11200No01111Yes010111No01111Yes No011100No010100No011100No021100No0211Yes No21100No021100No021100No0Yes No21100No0 11100No0 100000 20100No0 0000No00000No00000No01200No0 21101No0 21101Yes No0 11000No0 21100No0 21100No0 11000No0 11Yes No11000No0 11000No0 11Yes No11000No0 11Yes No11000No0 0000No00000No0 11000No0 21100No0 11000No0 11000No0 11Yes No11200No0 11000No0 11000No0 11Yes No11000No0 11Yes No11000No0 11000No0 0000No0 11100No0 11000No0 11Yes No11200No0 11000No0 11000No0 11Yes No11000No0 11Yes No11000No0 21101No0 21101Yes No0 11000No0 11Yes No0000No0 123000 123000 1240410 12404No10 1240410 12404No10123000123000124041012404No10124800No0124800No0102700No0102700No072500No031200No0160 21100No0100 52300No052300No042200No072500No072500No042200No042200No011200No0102700No0102700No052300No052300No0102700No082600No082600No0102700No052300No052300No072500No072500No052300No042200No052300No042200No011200No052300No052300No0124800No0124800No0102700No0102700No072500No031200No0160 21100No0100 52300No052300No052300Yes No042200No011200No0Graphic LCD Video Decoder Camera Interface ADC Channels ADC Resolution (bits) No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No810No No No610 No No No610 No No No610 No No No610 No No No1612 No No No1612 No No No1612No No No1612 No No No1612 No No No1612 No No No1612 No No No1612No No No1612 No No No1112 No No No1112 No No No1112 No No No1112 No No No812 No No No812 No No No812 No No No812 No No No812 No No No810 No No No810 No No No810 No No No810 No No No810No No No810 No No No810 No No No1110 No No No810 No No No810 No No No1110 No No No1110 No No No1110 No No No810 No No No810 No No NoNo No No810 No No No810 No No NoNo No No810 No No No1610 No No No810 No No No810 No No No810 No No No810 No No No810 No No NoNo No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No612 No No No812 No No No1110 No No No1110 No No NoNo No No1210 No No No1610 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No1110 No No No812 No No No1110 No No No1110 No No NoNo No No1210 No No No1112 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810No No No1610 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No810 No No No1110 No No No1110 No No No1110 No No No810 No No NoNo No No810 No No No810 No No No810 No No No810 No No No810No No No810 No No No810 No No No810 No No No612 No No NoNo No No48 No No No410 No No No410 No No No1210 No No No1110 No No No1110 No No No810 No No NoNo No NoNo No No810 No No No810 No No No810 No No No410 No No No410 No No No1110 No No No1110 No No No1110 No No NoNo No NoNo No No1210 No No NoNo No No410 No No No810 No No No810No No No1210 No No No810 No No No410 No No No410 No No No1110 No No No1110 No No No1110 No No No810 No No No48 No No No2810 No No No810 No No No810 No No No1210 No No No810 No No No410 No No No410 No No No1110 No No No1110 No No No1110 No No No1110 No No No1110 No No No810 No No No810 No No NoNo No No810 No No No610 No No No812 No No No812 No No No812 No No No812No No No810 No No No610 No No No812 No No No812 No No No1612 No No No1612 No No No1612 No No No1612 No No No1212 No No No1612 No No No812 No No No1612 No No No1612 No No No1212 No No No1212 No No No1212 No No No1212 No No No1212 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1212No No No1212 No No No1612 No No No1212 No No No1612 No No No1212 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1612 No No No1212 No No No1612 No No No812 No No No1612 No No No1612 No No No1612 No No No1212 No No No1612ADC Speed (ksps)Diff. ADC Inputs ADC Gain Stage Analog Comparators Resistive Touch Screen DAC Channels 384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2384No No2No No2No No2No No2No No2No No2No No2 384No No384No No384No No384No No2384No No2384No No384No No384No No0 384No No2 384No No200016Yes4No4 200016Yes4No4 200016Yes4No4200016Yes4No4 200016Yes4No4 200016Yes4No4 200016Yes4No4 200016Yes4No4200016Yes4No4 200011Yes2No2 200011Yes2No2 200011Yes2No2 200011Yes2No2 460No8No0 460No8No0 460No8No460No8No0 460No8No1571No0 1571No0 1571No0 1571No0 1571No1571No0 12522No12523No1 12522No1 12522No1 12523No1 12523No1 12523No1 1571No1571No1No0 1571No1571No01No151No15141No15141No0 15141No15141No1571No1571No1No0 15141No0 15141No0 15141No15141No15141No15141No15141No151No151No0 151No151No151No0 151No15141No15141No0 15141No15141No0 1571No1.9No1.9No0 12534No1 12534No11No1551No15141No0 15141No0 1571No0 15141No0 15141No15141No0 15141No15141No15141No15141No15141No0 15141No15141No15141No0 15141No15141No151No151No151No0 151No0 15141No15141No15141No0 15141No15141No15141No15141No0 1571No1254No1 1.9No0 12534No1 12534No11No0 1551No1.9No0 151No151No151No151No151No0 151No0 1571No15141No0 15141No0 15141No15141No0 15141No0 15141No151No15141No15141No15141No0 15141No15141No0 15141No0 15141No0 15141No15141No15141No0 15141No15141No1571No1254No1 12534No1 12534No1 151No0No0 151No0 151No151No151No0 151No0151No151No0 151No1.9No1No0 15No1No0 15No1No15No1No0 15No No0 158Yes1No0 158Yes1No15No1No151No151No1512Yes1No1512Yes1No1512Yes1No152Yes1No0 152Yes1No158Yes1No1516Yes1No1516Yes1No01No1No0 15No1No1No0 15No1No1512Yes1No0 1512Yes1No1510Yes No0 1512Yes1No0 152Yes1No152Yes1No1516Yes1No1516Yes1No1516Yes1No0 15No1No0 15No1No15No1No0 1512Yes1No1512Yes1No1510Yes2No0 15121No0 152Yes1No152Yes1No1516Yes1No0 1516Yes1No0 1516Yes1No0 158Yes1No158Yes1No15No1No15No1No1No0NoNo0 4608No1 4608No0 4608No1 4608NoNoNo4608No1 4608No0 2000644No4 2000644No4 2000324No2 2000644No2 2000482No2 2000644No0 2000642No300642No200642No200482No2000322No2 2000482No2 300482No0 200482No3001282No2 2000644No2 20004No2 300642No200642No2000324No2 2000644No2 2000644No2 2000644No2 300642No200642No2000322No22000482No2 300642No300482No0 200642No0 200482No0 3001282No2 300642No0 300642No2000644No4 2000644No4 2000324No2 2000644No2 2000482No2 2000644No2000642No300642No200642No200242No0 200482No3001282No2。

Eaton 197507Eaton Moeller® series EASY Control relays, easyE4 (expandable, Ethernet), 24 V DC, Inputs Digital: 8, of which can be used as analog: 4, push-in terminalSpécifications généralesEaton Moeller® series EASY Control relay197507401508194085158 mm 90 mm 72 mm 0.2 kg IEC 60068-2-6 IEC/EN 61000-4 EN 55022 IEC 60068-2-27 IEC/EN 61000-4-2 EN 55011 UL ListedUL Category Control No.: NRAQ, NRAQ7 IEC/EN 61131-2 IEC 60068-2-30 EN 61010 IEC/EN 61000-6-3 IEC/EN 61000-6-2 EN 50178UL File No.: E205091 DNV GL CEAccuracy of the real-time clock depending on ambient air temperature - fluctuations of up to ± 5 s/day (± 0.5 h ⁄year) are possibleEASY-E4-DC-12TCX1P Product NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Certifications Catalog NotesModel CodeExpandableNetworkable (Ethernet)Parallel connection of transistor outputs with resistive load, inductive load with external suppressor circuit, combination within a group - Group 1 Q1 to Q4TimerReal time clockThermal cutout IP20100 % (Inductive load to EN 60947-5-1, With external suppressor circuit)100 % (Inductive load to EN 60947-5-1, Without external suppressor circuit, DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H)100 % (Inductive load to EN 60947-5-1, Without external suppressor circuit, T0.95 = 15 ms, R = 48 Ω, L = 0.24 H)Pulse shape: Square (digital inputs 24 V DC)Cable length: ≤ 20 m (screened, Digital inputs 24 V DC)Counter frequency: 5 kHz (Digital inputs 24 V DC)Number: 4 (I1, I2, I3, I4 - Digital inputs 24 V DC)Pulse pause ratio: 1:1 (Digital inputs 24 V DC)According to EN 50178, EN 61010-2-201, UL61010-2-201, CSA-C22.2 NO. 61010-2-201Top-hat rail fixing (according to IEC/EN 60715, 35 mm)Screw fixing using fixing brackets ZB4-101-GF1 (accessories) Front build in possibleRail mounting possibleDepending on the suppressor circuit (Inductive load to EN 60947-5-1, With external suppressor circuit, Max. switching frequency, max. duty factor)Dependent on the cycle time of the basic deviceIII2Control relays easyE4MODBUSTCP/IPFeatures Fitted with: Functions Degree of protection Duty factorFrequency counterInsulation resistance Mounting method Operating frequencyOvervoltage category Pollution degree Product category Protocol0.1 mA (on signal "1" per channel)5 % (transistor outputs) ≤ 5 %EASYSOFT-SWLIC/easySoft7easyE4 base device easyE4DC50 mm Drop height, Drop to IEC/EN 60068-2-310.3 mHorizontal Vertical15 g, Mechanical, according to IEC/EN 60068-2-27, Half-sinusoidal shock 11 ms, 18 Impacts 10 - 57 Hz, 0.15 mm constant amplitude According to IEC/EN 60068-2-6 57 - 150 Hz, 2 g constant acceleration795 - 1080 hPa (operation)-25 °C55 °C-40 °C70 °CClearance in air and creepage distances according to EN 50178, EN 61010-2-201, UL61010-2-201, CSA-C22.2 NO. 61010-2-201 Condensation: prevent with appropriate measures 5 - 95 % (IEC 60068-2-30, IEC 60068-2-78)Residual currentResidual rippleResolutionSoftwareTypeUsed with Voltage type Drop and toppleHeight of fall (IEC/EN 60068-2-32) - max Mounting position Shock resistanceVibration resistanceAir pressureAmbient operating temperature - min Ambient operating temperature - max Ambient storage temperature - min Ambient storage temperature - max Environmental conditionsRelative humidityAir dischargeTerminal capacity1 min (Range H:M)1 s (Range M:S)12 Bit (value 0 - 4095, Analog inputs)12 Bit (value 0 - 4095, Analog outputs)5 ms (Range S)8 kV2 kV, Signal cable2 kV, Supply cableAccording to IEC/EN 61000-4-46 kV1 V/m at2 - 2.7 GHz (according to IEC EN 61000-4-3)10 V/m at 0.08 - 1.0 GHz (according to IEC EN 61000-4-3)3 V/m at 1.4 - 2 GHz (according to IEC EN 61000-4-3)10 V (according to IEC/EN 61000-4-6)Class B (EN 61000-6-3)0.5 kV, Supply cables, symmetrical, EASY…DC, power pulses (Surge), EMC1 kV, Supply cables, asymmetrical, power pulses (Surge), EMC According to IEC/EN 61000-4-5 Level 4≤ 10 ms, Bridging voltage dips 0.2 - 2.5 mm² (22 - 12 AWG), flexible with ferrule 0.2 - 4 mm² (AWG 22 - 12), solid0.5 A2 W2 W20.4 - 28.8 V DC20.4 - 28.8 V DC (Transistor outputs)24 V DC (-15 %/+ 20 % - power supply)24 V DC (transistor outputs)24 V DC (digital inputs)0 VAC0 VAC20.4 VDC28.8 VDC6.8 A, Transistor outputs≥ 1A (T), Fuse, Power supplyYes, electronic (Q1 - Q4), Transistor outputs0.7 ≤ Ie ≤ 1.7 per output, For Ra ≤ 10 mΩ, Depending on number of active channels and their load, Transistor outputs Ethernet: RJ45 plug, 8-pole Push in terminals10/100 MBit/sStatus indication of Power/RUN Status indication of Ethernet: LEDBurst impulseContact dischargeElectromagnetic fieldsImmunity to line-conducted interference Radio interference classSurge ratingVoltage dips Conventional thermal current ith of auxiliary contacts (1-pole, open)Power consumptionPower lossRated operational voltageSupply voltage at AC, 50 Hz - minSupply voltage at AC, 50 Hz - maxSupply voltage at DC - minSupply voltage at DC - maxShort-circuit currentShort-circuit protection Short-circuit tripping current Connection type Data transfer rate LED indicator30 m, screened, Analog inputs100 m, unscreened, Digital inputs 12 V DC100 m, unscreened, Digital inputs 24 V AC CAT5± 2 s/day, Real-time clock to inputs (± 0.2 h⁄Year)± 1 %, Repetition accuracy of timing relays (of values)± 2 %, (I7, I8) ± 0.12 V, of actual value, within a single device (Analog Inputs)± 3 %, of actual value, two easy devices (Analog Inputs)Each CPU cycle, Analog inputs39 ms typ., Digital Inputs 100 - 240 V AC 50 Hz (I1 - I8), Delay time from 1 to 0, Debounce OFF32 ms typ., Digital Inputs 100 - 240 V AC 60 Hz (I1 - I8), Delay time from 1 to 0, Debounce OFF80 ms, Digital inputs 115/230 V AC 50 Hz (I7, I8), Delay time from 0 to 1, Debounce ON0.5 ms typ., Digital Inputs 100 - 240 V DC (I1 - I8), Delay time from 1 to 0, Debounce OFF39 ms typ., Digital Inputs 100 - 240 V AC 50 Hz (I1 - I8), Delay time from 0 to 1, Debounce OFF32 ms typ., Digital Inputs 100 - 240 V AC 60 Hz (I1 - I8), Delay time from 0 to 1, Debounce OFF0.5 ms typ., Digital Inputs 100 - 240 V DC (I1 - I8), Delay time from 0 to 1, Debounce OFFPulse shape: SquareSignal offset: 90°Counter frequency: ≤ 5 kHzNumber of counter inputs: 2 (I1 + I2, I3 + I4)Pulse pause ratio: 1:1Value range: -2147483648 to +2147483647Cable length: ≤ 20 m (screened)Voltage (DC)80 mA13.3 kΩSignal 0: ≤ 5 V DC (I1 - I8, Digital inputs, 24 VCable lengthCable typeAccuracyConversionsDelay timeIncremental counterIncremental encoderInputInput currentInput impedanceInput voltageDC) 4484VoltageCurrent4 Transistor OutputsParallel connection of max. 2 Transistor outputsMax. 2.5 V (at status 0 per channel, transistor outputs)U = Uₑ - 1 V (signal 1 at Iₑ = 0.5 A, transistor outputs)1:1 (Pulse pause ratio)10 kHz, Counter frequency≤ 20 m (cable length, screened)-2147483648 - 2147483647 (value range)Square (pulse shape)Number: 4 (I1, I2, I3, I4 - Digital inputs 24 V DC)0 - 10 V DC, Analog inputs0.25 (Inductive load to EN 60947-5-1, Without external suppressor circuit, T0.95 = 15 ms, R = 48 Ω, L = 0.24 H)1 (Inductive load to EN 60947-5-1, With external suppressor circuit)0.25 (Inductive load to EN 60947-5-1, Without external suppressor circuit, DC-13, T0.95 = 72 ms, R = 48 Ω, L = 1.15 H)NoneBetween Analog inputs and Digital inputs: noBetween Transistor outputs: noYes (Caution: A short circuit will result if 0 V or earth is applied to the outputs in the event that the supply voltage is connected to the wrong poles.)None0 W0 W0 W2 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.Number of inputs (analog)Number of inputs (digital) Number of outputs (analog) Number of outputs (digital) OutputOutput voltageRapid counter inputsSignal rangeUtilization factor Explosion safety category for gasPotential isolationProtection against polarity reversalExplosion safety category for dustEquipment heat dissipation, current-dependent PvidHeat dissipation capacity PdissHeat dissipation per pole, current-dependent PvidStatic 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 LiftingDoes not apply, since the entire switchgear needs to be evaluated.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.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.Is the panel builder's responsibility.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.eaton-electrical-timers-easy-control-relays-characteristic-curve-002.epsDA-DC-00004707.pdfDA-DC-00004704.pdfDA-CE-ETN.EASY-E4-DC-12TCX1Pmz049001en.pdfMN050009_FRMZ049014ENDA-MN-h1430deVideo easy E4 control relayIL050020ZUDA-CS-uc_12rcx1DA-CD-uc_12rcx12723DIM-100eaton-logic-relays-easy-control-relays-dimensions.epseaton-modular-plc-easy-control-relays-3d-drawing-002.eps10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components 10.7 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 Characteristic curve Declarations of conformity eCAD modelGuide utilisateurInstallation videos Instructions d'installation mCAD modelSchémasEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. Tous droits réservés. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。

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