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The 2470 High Voltage SourceMeter® Source Measure Unit (SMU) Instrument brings advanced Touch, Test, Invent® technology right to your fingertips. It combines an innovative graphical user interface (GUI) with capacitive touchscreen technology to make testing intuitive and minimize the learning curve to help engineers and scientists learn faster, work smarter, and invent easier. With its 1100 V and 10 fA capability, the 2470 is optimized for characterizing and testing high voltage, low leakage devices, materials, and modules, such as silicon carbide (SiC), gallium nitride (GaN), power MOSFETs, transient suppression devices, circuit protection devices, power modules, batteries, and much more. Thesenew capabilities, combined with Keithley’s decades of expertise in developing high precision, high-accuracy SMU instruments, make the 2470 a “go-to instrument” for high-voltage source and low-current measurement applications in the lab and in the test rack.Key Features• Wide coverage up to 1100 V / 1 A DC 20 W max.• 10 fA measure resolution• 0.012% basic measure accuracy with 6½-digit resolution• Five-inch, high resolution capacitive touch screen GUI • Source and sink (4-quadrant) operation• SCPI and TSP® scripting programming modes• TSP-Link for multi-channel I-V testing• Front panel input banana jacks; rear panelhigh-voltage input triaxial connections• Built-in context-sensitive help• Front-panel USB 2.0 memory I/O port for transferring data, test scripts, and test configurationsDatasheetA Tektronix CompanyDatasheet2Learn Faster; Work Smarter; Invent EasierThe 2470 features a five-inch, full-color, high resolution touchscreen that supports intuitive operation, helps operators become familiar with the instrument quickly, and optimizes overall speed and productivity. A simple icon-based menu structure reduces the number of steps required to configure a test by as much as 50 percent and eliminates the cumbersome multi-layer menu structures typically used on soft-key instruments. Built-in, context-sensitive help supports intuitive operation and minimizes the need to review a separate manual. These capabilities, combined with the 2470’s high versatility, simplify its operation in both basic and advanced measurementapplications, regardless of the user’s previous experience in working with SMU instruments.All-in-One SMU InstrumentThe 2470, Keithley’s fourth generation of SourceMeter SMUs, leverages the proven capabilities of the original 2410 High Voltage SourceMeter SMU Instrument. SMU instruments offer a highly flexible, four-quadrant voltage and current source/load coupled with precision voltage and current measurements. This all-in-one instrument has the capabilities of a:• Precision power supply with V and I readback • True current source• Digital multimeter (DCV, DCI, ohms, and power with 6½-digit resolution)• Precision electronic load • Trigger controller2470 main home screen.2470 icon-based menu.2470 power envelope. 32470 Graphical SourceMeter ® SMU Instrument Data SheetOnline USB 2.0memory I/OFront/rear input selectorRotary navigation/control knobEase of Use Beyond the TouchscreenIn addition to its five-inch color touchscreen, the 2470 front panel offers a variety of features that enhance its speed, user-friendliness, and learnability, including a USB 2.0 memory I/O port, a HELP key, a rotary navigation/control knob, a front/rear input terminal selector button, and banana jacks for basic bench applications. The USB 2.0 memory port simplifies storing test results and instrument configurations, uploading test scripts into the instrument, and installing system upgrades. All front-panel buttons are backlit to enhance visibility in low-light environments. Four Quick Setup modes simplify instrument setup. With one touch, the instrument can be quickly configured for various operating modes without the need to configure the instrument indirectly for this operation.Comprehensive Built-in ConnectivityRear panel access to rear-input connectors, remote control interfaces (GPIB, USB 2.0, and LXI/Ethernet), a D-sub 9-pin digital I/Oport (for internal/external trigger signals and handler control), instrument interlock connector, and TSP-Link ® connectors make it simple to configure multiple instrument test solutions and eliminate the need to invest in additional adapter accessories.2470 front panel with high-resolution, capacitive touchscreen.Rear panel connections are optimized for signal integrity and speed system setup.One-touch Quickset modes speed measurement setups and minimize the time to measurements.EthernetDigital I/O TSP-Link GPIBInterlockUSBDatasheet4Convert Raw Data to InformationA full graphical plotting window converts raw data and displays it immediately as useful information, such as semiconductor I-V curves and waveforms. Using the 2470’s Sheet view, test data can also be displayed in tabular form. The instrument supports exporting data to a spreadsheet for further analysis, dramatically improving productivity for research, benchtop testing, device qualification, and debugging.Built-in data display, charting, and spreadsheet export functions simplify converting test results into useful information.TriggerFlow ® Building Blocks for Instrument Control and ExecutionThe 2470 incorporates Keithley’s TriggerFlow triggering system, which provides user control of instrument execution. TriggerFlow diagrams are created in much the same way that flow charts are developed, using four building blocks:• Wait – Waits for an event to occur before the flow continues • Branch – Branches when a condition has been satisfied• Action – Initiates an action in the instrument, for example, measure, source, delay, set digital I/O, etc.• Notify – Notifies other equipment that an eventhas occurredTriggerFlow building blocks allow creating triggering models that range from very simple to highly complex.A TriggerFlow model using a combination of these building blocks can be created from the front panel or by sending remote commands. With the TriggerFlow system, users can build triggering models from very simple to complex with up to 255 block levels. The 2470 also includes basic triggering functions, including immediate, timer, and manual triggering. 52470 Graphical SourceMeter ® SMU Instrument Data SheetUnmatched System Integration and Programming FlexibilityWhen a 2470 is configured into a multi-channel I-V test system, its embedded Test Script Processor (TSP ®)allows it to run test scripts, so users can create powerful measurement applications with significantly-reduced development times. TSP technology also offers channel expansion without a mainframe. Keithley’s TSP-Link ® channel expansion bus can connect multiple 2470s and other TSP instruments, including Keithley’s other graphical SourceMeter instruments (2450, 2460, 2461), Keithley’s DMM7510, DMM6500, and DAQ6510 graphical multimeters, Series 2600B System SourceMeter SMU instruments, and Series 3700A Switch/Multimeter systems, in a master-subordinate configuration that operates as one integrated system. The TSP-Link expansion bus supports up to 32 units per GPIB or IP address, making it easy to scale a system to fit an application’s particular requirements.Parallel Test CapabilityThe TSP technology in the 2470 supports testing multiple devices in parallel to meet the needs of device research, advanced semiconductor lab applications, and even high throughput production test. This parallel testing capability allows each instrument in the system to run its own complete test sequence, creating a fully multi-threaded test environment. The number of tests that can be run in parallel on a graphical SourceMeter can be as high as the number of instruments in the system.Typical ApplicationsIdeal for current/voltage characterization and functional test of a wide range of today’s modern electronics and devices, including:• Devices–Power semiconductors and materials: SiC, GaN, power MOSFETs, power diodes –IGBT–Thyristors, SCRs–Transient suppression devices –Circuit protection devices: TVS, MOVs, fuses, etc. –Connectors, switches, relays –Power management modules –Batteries • Tests–I-V characterization –Forward voltage –Breakdown voltage –Leakage current –Isolation –Hi-Pot–Dielectric withstandingThe 2470 is the ideal addition to your development bench for designing today’s high power devices and components.Characterize transistors with multiple SMU instruments on wafer or packaged transistorsDatasheet6Instrument Control Start-up SoftwareKickStart instrument control/start-up software enables users to start making measurements in minutes without programming. In most cases, users merely need to make some quick measurements, graph the data, and store the data to disk for later analysis in software environments such as Excel. KickStart offers:• Instrument configuration control to perform I-V characterization • Native X-Y graphing, panning, and zooming • Spreadsheet/tabular viewing of data• Saving and exporting of data for further analysis • Saving of test setups• Screenshot capturing of graphs • Annotating of tests• Command line dialog for sending and receiving data • HTML help• GPIB, USB 2.0, Ethernet complianceSimplified Programming with Ready-to-Use Instrument DriversFor those who prefer to create their own customized application software, native National Instruments LabVIEW ® drivers, and IVI-C and IVICOM drivers are available at /keithley.KickStart start-up software lets users be ready to make measurements in minutes.2470 Graphical SourceMeter® SMU Instrument Data SheetSpecificationsVoltage Specifications1, 2Current Specifications1, 2Notes1. Speed = 1 PLC.2. All specifications are guaranteed with output ON.3. Accuracies apply to 2-wire and 4-wire modes when properly zeroed. For the 200 mV and 1 A ranges, the voltage burden may exceed the specification in 2-wire mode.4. Maximum display and programmming ranges are 5% overrange for voltage, except for the 1000 V range, which is 10% overrange (1100 V), and 5% overrange for current (for example,1.05 A on the 1 A range).5. For sink mode, accuracy is ±(0.15% + offset × 4) except for 1 A range, accuracy is: ± (1.5% + offset × 8).6. Rear-panel triaxial connections only.Resistance Measurement Accuracy (Local Or Remote Sense)7, 8, 97Datasheet8Temperature Coefficient ± (0.15 × accuracy specification)/°C 0 °C to 18 °C and 28 °C to 50 °CSource Current, Measure Resistance ModeTotal uncertainty = I source accuracy + V measure accuracy (4-wire remote sense)Source Voltage, Measure Resistance ModeTotal uncertainty = V source accuracy + I measure accuracy (4-wire remote sense)Guard Output Impedance ≥ 300 Ω typicalNotes7. Speed = 1 PLC.8. All specifications are guaranteed with output ON.9. Accuracies apply to 2-wire and 4-wire modes when properly zeroed.10. Measure resolution 6.5 digits.11. Source readback enabled; offset compensation on.12. Source current, measure resistance or source voltage, measure resistance only.13. Rear-panel triaxial connections only.Supplemental SpecificationsOverrange 105% of range for 200 mV to 200 V, source and measure ranges; 110% of range for 1000 V, source and measure rangesRegulationVoltage Line: 0.01% of rangeLoad: 0.01% of range + 100 µV Current Line: 0.01% of rangeLoad: 0.01% of range + 100 pA Source LimitsVoltage Source Current Limit Bipolar current limit set with a single valueMinimum value is 10% of range Current Source Voltage Limit Bipolar voltage limit set with a single valueMinimum value is 10% of rangeVoltage Limit/Current Limit AccuracyAdd 0.3% of range and ±0.02% of reading to base specification OvershootVoltage Source < 0.1% typicalStep size = Full scale, resistive load, 20 V range, 10 mA current limit Current Source < 0.1% typicalStep size = Full scale, resistive load of 10 kΩ, 1 mA range, 20 V voltage limitRange Change Overshoot Overshoot into a fully resistive 100 kΩ load, 10 Hz to 20 MHz bandwidth, adjacent ranges: 250 mV typical Output Settling Time Time required to reach within 0.1% of final value: 20 V range, 100 mA current limit: < 200 µs typical Maximum Slew Rate 14 0.2 V/µs, 200 V range, 100 mA limit into a 2 kΩ load (typical) 0.5 V/µs, 1000 V range, 10 mA limit into a 100 kΩ load (typical)Overvoltage Protection User-selectable values, 10% tolerance; factory default = none Voltage Source Noise 10 Hz to 20 MHz (RMS): 4 mV typical into a resistive load Common Mode Voltage 250 V DCCommon Mode Isolation> 1 GΩ, < 1000 pFNotes14. High capacitance mode off.2470 Graphical SourceMeter® SMU Instrument Data Sheet Noise Rejection (typical)Load ImpedanceNormal Mode 20 nF typicalHigh-Capacitance Mode Stable into 1 μF typical (specification only valid for ranges ≥100 μA)Maximum Voltage Drop Between Force and Sense Terminals5 VMaximum Sense Lead Resistance 1 MΩ for rated accuracySense Input Impedance > 10 GΩGuard Offset Voltage < 300 µV typicalSystem Measurement Speeds 15Reading rates (readings per second) typical for 60 Hz (50 Hz), script (TSP) programmedReading rates (readings per second) typical for 60 Hz (50 Hz), SCPI programmed16Notes15. Reading rates applicable for voltage or current measurements, autozero off, autorange off, filter off, binary reading format, and source readback off.16. SCPI programming mode.9Datasheet10General Characteristics(Default mode unless specified)Factory Default Standard Power-Up SettingSCPI mode Source Output ModesFixed DC levelMemory/configuration list (mixed function) Stair (linear and logarithmic)Memory Buffer >5,000,000 readings with selected measured values and timestamp Real-Time Clock Lithium battery backup (more than 3 years of battery life)Remote Interfaces GPIB: IEEE Std 488.1 compliant; supports IEEE Std 488.2 common commands and status model topology USB device (rear panel, type B): 2.0 full-speed USBTMCUSB host (front panel, type A): USB 2.0, support for flash drives, FAT32Ethernet: RJ-45 connector, 10/100 BT IP Configuration Static or DHCPExpansion Interface The TSP-Link ® expansion interface allows TSP-enabled instruments to trigger and communicate with each otherLXI Compliance LXI version 1.4 Core 2011TSP Mode Embedded Test Script Processor (TSP) accessible from any host interface DisplayFive-inch capacitive touch, color TFT WVGA (800 × 480) with LED backlight Input Signal Connections Front: Banana. Rear: High-voltage triaxial Programmability SCPI or TSP command sets Interlock Active high-inputDigital I/OLines: Six input/output, user-defined, for digital I/O or triggeringConnector: 9-pin female D Input Signal Levels: 0.7 V (maximum logic low), 3.7 V (minimum logic high) Input Voltage Limits: –0.25 V (absolute minimum), +5.25 V (absolute maximum) Maximum Source Current: +2.0 mA at > 2.7 V (per pin)Maximum Sink Current: –50 mA at 0.7 V (per pin, solid-state fuse protected)5 V Power Supply Pin: Limited to 500 mA at > 4 V (solid-state fuse protected)Handler: User-definable start of test, end of test, four category bits CoolingForced air, variable speedOvertemperature Protection Internally sensed temperature overload puts instrument in standby mode Power Supply 100 VRMS to 240 VRMS, 50 Hz or 60 Hz (automatically detected at power up)VA Rating 220 VA maximumAltitude Maximum 2000 meters (6562 feet) above sea level EMC Conforms to European Union EMC DirectiveSafety NRTL listed to UL61010-1 and UL61010-2-30; conforms to European Union Low Voltage Directive RoHS Conforms to European Union Restriction on Hazardous Substances Directive Vibration MIL -PRF-28800F Class 3 Random Warm upOne hour to rated accuracies2470 Graphical SourceMeter® SMU Instrument Data SheetDimensions With handle and bumpers: 106 mm × 255 mm × 425 mm (4.18 in. high × 10.05 in. wide × 16.75 in. deep)Without handle and bumpers: 88 mm × 213 mm × 403 mm (3.46 in. high × 8.39 in. wide × 15.87 in. deep) Weight With handle and bumpers: 4.54 kg (10 lb)Without handle and bumpers: 4.08 kg (9.0 lb)Environment Operating: 0 °C to 50 °C, 70% relative humidity up to 35 °C; derate 3% relative humidity/°C, 35 °C to 50 °C Storage: –25 °C to 65 °CPollution Category: 2SourceMeter® is a registered trademark of Keithley Instruments LLC. All other trademarks are the property of their respective owners. Supplied Accessories8608 High Performance Test LeadsUSB-B-1 USB Cable, Type A to Type B, 1 m (3.3 ft)CS-1616-3 Safety Interlock Mating Connector17469460X TSP-Link/Ethernet Cable2470 QuickStart GuideTest Script Builder Software (available at )LabVIEW and IVI Drivers (available at )Available AccessoriesTest Leads and Probes8605 High Performance Modular Test Leads8606 High Performance Modular Probe Kit8608 High Performance Test LeadsCables, Connectors, AdaptersTRX-1100V-BAN HV Triax to Banana Adapter. Converts the 4 triax connectors on the rear panel to 5 banana jacksTRX-1100V-* 3-slot HV Low Noise Triax Cable (0.5 m, 1 m, 2 m, 3 m lengths available)8607 2-wire, 1000 V Banana Cables, 1 m (3.3 ft)CS-1616-3 Safety Interlock Mating ConnectorCommunication Interfaces & Cables7007-1 Shielded GPIB Cable, 1 m (3.3 ft)7007-2 Shielded GPIB Cable, 2 m (6.6 ft)17469460X TSP-Link Ethernet CableKPCI-488LPA IEEE-488 Interface for PCI BusKUSB-488B IEEE-488 USB-to-GPIB Interface AdapterUSB-B-1 USB Cable, Type A to Type B, 1 m (3.3 ft)11Datasheet12Triggering and Control2450-TLINK DB-9 to Trigger Link Connector Adapter 8501-1 Trigger Link Cable, DIN-to-DIN, 1 m (3.3 ft.)8501-2Trigger Link Cable, DIN-to-DIN, 2 m (6.6 ft.)Rack Mount Kits4299-8 Single Fixed Rack Mount Kit 4299-9 Dual Fixed Rack Mount Kit4299-10 Dual Fixed Rack Mount Kit. Mount one 2450 and one Series 26xxB4299-11Dual Fixed Rack Mount Kit. Mount one 2450 and one Series 2400, Series 2000, etc.Available Services2470-3Y-EW 1-year factory warranty extended to 3 years from date of shipment 2470-5Y-EW 1-year factory warranty extended to 5 years from date of shipment C/2470-3Y-17025 KeithleyCare ® 3 Year ISO 17025 Calibration Plan C/2470-3Y-DATA KeithleyCare 3 Year Calibration w/Data Plan C/2470-3Y-STD KeithleyCare 3 Year STD Calibration Plan C/2470-5Y-17025 KeithleyCare 5 Year ISO 17025 Calibration Plan C/2470-5Y-DATA KeithleyCare 5 Year Calibration w/Data Plan C/2470-5Y-STD KeithleyCare 5 Year STD Calibration Plan C/NEW DATA Calibration Data for New UnitsC/NEW DATA ISOISO-17025 Calibration Data for New UnitsOrdering Information24701000 V, 1 A, 20 W SourceMeter SMU InstrumentWarranty InformationWarranty SummaryThis section summarizes the warranties of the 2470. For complete warranty information, refer to theTektronix warranty page at https:///service/warranties/warranty-2. Any portion of the product that is not manufactured by Keithley is not covered by this warranty and Keithley will have no duty to enforce any other manufacturer’s warranties.Hardware WarrantyKeithley warrants the Keithley manufactured portion of the hardware for a period of one year from defects in materials or workmanship; provided that such defect has not been caused by use of the Keithleyhardware which is not in accordance with the hardware instructions. The warranty does not apply upon any modification of Keithley hardware made by the customer or operation of the hardware outside the environmental specifications.Software WarrantyKeithley warrants for the Keithley produced portion of the software or firmware will conform in all material respects with the published specifications for a period of ninety (90) days; provided the software is used on the product for which it is intended in accordance with the software instructions. Keithley does not warrant that operation of the software will be uninterrupted or error-free, or that the software will be adequate for the customer’s intended application. The warranty does not apply upon any modification of the software made by the customer.2470 Graphical SourceMeter® SMU Instrument Data Sheet13Contact Information:Australia* 1 800 709 465Austria 00800 2255 4835Balkans, Israel, South Africa and other ISE Countries +41 52 675 3777Belgium* 00800 2255 4835Brazil +55 (11) 3759 7627Canada 180****9200Central East Europe / Baltics +41 52 675 3777Central Europe / Greece +41 52 675 3777Denmark +45 80 88 1401Finland +41 52 675 3777France* 00800 2255 4835Germany* 00800 2255 4835Hong Kong 400 820 5835India 000 800 650 1835Indonesia 007 803 601 5249Italy 00800 2255 4835Japan 81 (3) 6714 3010Luxembourg +41 52 675 3777Malaysia 180****5835Mexico, Central/South America and Caribbean 52 (55) 56 04 50 90Middle East, Asia, and North Africa +41 52 675 3777The Netherlands* 00800 2255 4835New Zealand 0800 800 238Norway 800 16098People’s Republic of China 400 820 5835Philippines 1 800 1601 0077Poland +41 52 675 3777Portugal 80 08 12370Republic of Korea +82 2 565 1455Russia / CIS +7 (495) 6647564Singapore 800 6011 473South Africa +41 52 675 3777Spain* 00800 2255 4835Sweden* 00800 2255 4835Switzerland* 00800 2255 4835Taiwan 886 (2) 2656 6688Thailand 1 800 011 931United Kingdom / Ireland* 00800 2255 4835USA 180****9200Vietnam 12060128* European toll-free number. If notaccessible, call: +41 52 675 3777Find more valuable resources at Copyright © Tektronix. All rights reserved. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes thatin all previously published material. Specification and price change privileges reserved. TEKTRONIX and TEK are registered trademarks of Tektronix, Inc. All other trade namesreferenced are the service marks, trademarks or registered trademarks of their respective companies.060719.SBG 1KW-61523-0。

BL702/704/706数据手册版本：2.1版权@2021Features•无线–2.4GHz射频收发器–蓝牙规范v5.0–蓝牙低功耗1Mbps和2Mbps–蓝牙®Long Range Coded500Kbps和125Kbps–Zigbee3.0，基本设备行为，Core Stack R21，绿色能源标准–IEEE802.15.4MAC/PHY–支持BLE/zigbee共存–集成balun，PA/LNA•MCU子系统–带FPU（浮点单元）的32位RISC CPU–一级缓存–1个RTC计时器，最长计数周期为1年–2个32位通用定时器–8个DMA通道–CPU频率可配置为1MHz至144MHz–JTAG开发支持–XIP QSPI Flash/pSRAM具备硬件解密功能•内存–132KB RAM–192KB ROM–1Kb eFuse–嵌入式Flash闪存(选配)–嵌入式pSRAM(BL704/BL706,选配)•安全机制–安全启动–安全调试端口–QSPI Flash即时AES解密（OTFAD）-AES-128和CTR+模式–支持AES128/192/256位加密引擎–支持MD5,SHA-1/224/256/384/512–真实随机数发生器(TRNG)–公钥加速器(PKA)•外设–USB2.0FS（全速）设备接口–红外遥控接口–1个SPI主/从机–2个UART支持ISO17987（本地互连网络）–1个I2C主机–1个I2S主/从–5个PWM通道–正交解码器–按键扫描矩阵接口–12位通用ADC–10位通用DAC–被动红外（PIR）检测–以太网RMII接口(BL704/BL706)–摄像头接口(BL706)–15(BL702)/23(BL704)/31(BL706)个GPIO（功能可配置）•电源管理模式–CPU正常运作BL702/704/706数据手册2/43@2021Bouffalo Lab–空闲模式–睡眠模式（可配置不同区域）–休眠模式–电源关闭模式–主动接收–主动发送•时钟架构–外部主时钟XTAL32MHz–外部低功耗和RTC时钟XTAL32/32.768kHz –内部RC32kHz振荡器–内部RC32MHz振荡器–内部系统PLL–内部音频PLLContents1概述 (9)2功能描述 (10)2.1CPU (11)2.2缓存 (11)2.3内存 (11)2.4DMA控制器 (11)2.5总线结构 (11)2.6中断 (13)2.7启动选项 (13)2.8电源管理单元 (13)2.9时钟架构 (13)2.10外设 (14)2.10.1GPIO (15)2.10.2UART (15)2.10.3SPI (15)2.10.4I2C (15)2.10.5I2S (15)2.10.6TIMER (15)2.10.7PWM (16)2.10.8IR(IR-remote) (16)2.10.9USB2.0(Full Speed) (16)2.10.10EMAC (16)2.10.11QDEC (16)2.10.12ADC (16)2.10.13DAC (17)2.10.14调试接口 (17)BL702/704/706数据手册3管脚定义 (18)4电气特性 (26)4.1绝对最大额定值 (26)4.2运行条件 (26)4.2.1电源特性 (27)4.2.2温度特性 (27)4.2.3通用工作条件 (27)4.2.4GPADC特性 (27)5产品使用 (30)5.1湿敏等级(MSL) (30)5.2静电放电（ESD） (31)5.3回流焊接曲线(Reflow Profile) (31)6参考设计 (33)7封装信息QFN32 (34)8封装信息QFN40 (36)9封装信息QFN48 (38)10标志定义 (40)11订购信息 (41)12版本信息 (43)List of Figures1.1功能框图 (9)2.1系统框图 (10)2.2时钟框图 (14)3.1BL702管脚布局 (18)3.2BL704管脚布局 (19)3.3BL706管脚布局 (20)5.1Classification Profile(Not to scale) (31)6.1参考设计 (33)7.1QFN32封装图 (34)8.1QFN40封装图 (36)9.1QFN48封装图 (38)10.1标志定义 (40)11.1型号命名 (41)List of Tables2.1总线连接 (11)2.2地址映像 (12)2.2地址映像 (13)3.1管脚定义 (20)3.1管脚定义 (21)3.1管脚定义 (22)3.2GPIO Muxed Pins (23)3.2GPIO Muxed Pins (24)3.3UART信号映射表(Default) (25)3.4UART信号映射表(Example) (25)4.1电源的绝对最大额定值 (26)4.2建议电源值范围 (27)4.3建议温度值范围 (27)4.4一般操作条件 (27)4.5GPADC特性 (28)4.6ADC electrical characteristic (29)5.1Reference Conditions for Drying Mounted or Unmounted SMD Packages(User Bake:Floor life be-gins counting at time=0after bake) (30)5.2Classification Reflow Profiles (32)7.1尺寸说明(测量单位：毫米) (34)7.1尺寸说明(测量单位：毫米) (35)8.1尺寸说明(测量单位：毫米) (36)8.1尺寸说明(测量单位：毫米) (37)9.1尺寸说明(测量单位：毫米) (38)9.1尺寸说明(测量单位：毫米) (39)11.1订购选项 (42)12.1修改记录 (43)1概述BL702/BL704/BL706是用于物联网应用的高度集成的BLE和zigbee组合芯片组。

(13) SCHEDULE(14) to EC-Type Examination Certificate KEMA 09ATEX0048 Issue No. 4(15) DescriptionDifferential Pressure Transmitters DELTABAR M Model PMD55 and Pressure transmittersCERABAR M Model PMC51, Model PMP51 and Model PMP55 and DELTAPILOT M Model FMB50, Model FMB51, Model FMB52 and Model FMB53 are used in potentially explosive atmospheres caused by the presence of flammable gases, liquids, vapours or dusts for the measurement of level, flow, differential pressure, over- and under pressure.The pressure signal at the ceramic or metal sensor is converted into an electrical signal.The output of the Pressure or Differential Pressure Transmitter is a 4 - 20 mA current output signal with or without a superimposed HART digital signal, or the transmitter is intended to be connected to a fieldbus system (Profibus PA or Foundation Fieldbus).The several versions of the Pressure and Differential Pressure Transmitters differ in type of sensor, type of enclosure, process connection etc.Optionally all versions of the Pressure and Differential Pressure Transmitters may be provided with an indicator.Optionally, the display connector can be used for temporary connection of a service tool (e.g.Endress+Hauser Commubox type FXA191 or type FXA195).Optionally the Pressure Transmitters that are intended for application in explosive gas atmospheres, may be provided with a sensor with extension cable.Ambient temperature range -50 ºC to +70 ºC.The relation between temperature class, ambient temperature and process temperature is given in the following table.temperatureclassambienttemperatureprocess temperatureFMB50 FMB51 FMB52,FMB53PMD55 PMP55 1),PMC51, PMP51T6 ≤ 40 °C ≤ 80 °C ≤ 80 °C ≤ 80 °C ≤ 80 °C ≤ 80 °CT4 ≤ 70 °C ≤ 100 °C ≤ 85 °C ≤ 80 °C ≤ 120 °C ≤ 100 °C 2)T3 ≤ 70 °C ≤ 150 °CNOTE 1: Depending on the diaphragm seal used in model PMP55, a higher process temperature is permitted. For details, refer to the relevant equipment manual.NOTE 2: Process temperature for Models PMC51 and PMP51 with hygienic process connection ≤ 130 °C.. The maximum surface temperature of the enclosure T75 °C, respectively T500 100 °C (transmitters with interface 4 - 20 mA) or T500 105 °C (transmitters with Fieldbus interface) is b ased on the maximum ambient temperature of 70 °C for a dust lay er with a maximum thickness of 5 mm respectively 500 mm.(13) SCHEDULE(14) to EC-Type Examination Certificate KEMA 09ATEX0048 Issue No. 4Electrical dataTransmitters in type of protection intrinsic safety Ex iaInterface 4 - 20 mA (with or without HART communication):Supply and output circuit (terminals + and - or connector):in type of protection intrinsic safety Ex ia IIC, only for connection to a certified intrinsically safe circuit, with the following maximum values:U i = 30 V; I i = 300 mA; P i = 1 W; L i = 0 mH; C i = 10 nF.Interface Profibus PA or Foundation Fieldbus:Supply and data circuit (terminals + and - or connector):in type of protection intrinsic safety Ex ia IIC, only for connection to a certified intrinsically safecircuit, with the following maximum values:U i = 24 V; I i = 250 mA; P i = 1,2 W; L i = 10 µH; C i = 5 nF;or to an intrinsically safe fieldbus in accordance with FISCO, with the following maximum values: U i = 17,5 V; I i = 500 mA; P i = 5,5 W; L i = 10 µH; C i = 5 nF.Display connector:in type of protection intrinsic safety Ex ia IIC, for connection to a certified intrinsically safe circuit, with following maximum values:U o = 8,6 V; I o = 39 mA; P o = 124 mW andU i = 8,5 V; I i = 7 mA; P i = 10 mW; C i = 0 nF; L o = 0 mH.Transmitters in type of protection Ex tU max = 45 V (interface 4 - 20 mA), respectively 32 V (fieldbus interface).Installation instructionsThe instructions provided with the equipment shall be followed in detail to assure safe operation. (16) Test ReportNo. NL/KEM/ExTR09.0017/**.(17) Special conditions for safe useNone.(18) Essential Health and Safety RequirementsCovered by the standards listed at (9).(19) Test documentationAs listed in Test Report No. NL/KEM/ExTR09.0017/**.。

The Thermo Scientific MK.4 ESD and Latch-Up Test System is a complete,robust and feature-filled turn-key instrumentation test package, which performs automatic and manual HBM, MM, and Latch-Up tests on devices with pin counts up to 2304. It features the highest speed of test execution, lowest zap interval, and extensive parallelism that enables concurrent zapping with interleaved trace test capability to global and company driven quality standards.• Rapid-relay-based operations—up to 2304 channels• Solid state matrix topology for rapid, easy-to-use testing operations • Latch-Up stimulus and device biasing • High voltage power source chassis with patented HV isolation enables excellent pulse source performance • Advanced device preconditioning with six separate vector drive levels • Massive parallelism drives remarkable test and throughput speeds• Addresses global testing demands for devices that are smaller, faster and smarterThermo ScientificMK.4 ESD and Latch-up Test SystemIndustry standard, ESD and Latch-Up test system for producers ofmultifunction high pin-count devices Thirty years in the making! IC structure designers and QA program managers in manufacturing and test house facilities worldwide have embraced the Thermo Scientific™ MK.4, a versatile, powerful, and flexible, high yield test system. Easily upgradeable, the MK.4 ESD and Latch-Up Test System is fully capable of taking your test operations through ever-evolving regulatory and quality standards.Solid-State Matrix TopologyThe advanced rapid relay-based (modular matrix) hardware of the MK.4 system is at least ten times faster than mechanically driven ESD testers. The switching matrix, while providing consistent ESD paths, also allows any pin to be grounded, floated,vectored or connected to any of the installedV/I supplies. Furthermore, advancedalgorithms ensure accurate switching of HV, in support of pulse source technology, per recent JEDEC/ESDA trailing pulse standards.Advanced Controller and CommunicationsA powerful, extraordinarily fast embedded VME controller drives the highest Speed- of-Test execution available. Data transfer between the embedded controller and the tester’s PC server, is handled through TCP/IP communication protocols, minimizing data transfer time. The tester’s PC server can be accessed through internal networks, as well as through the internet allowing remote access to the system to determine the systems status or to gather result information.Product SpecificationsLatch-Up Stimulus and Device Biasing The MK.4 can be equipped with up to eight 100 V four-quadrant Voltage and Current (V/I) power supplies. Each V/I supply has a wide dynamic range enabling it to force and measure very low voltage at high current levels from 100 mV/10 A to 100 V/1 A. The system’s power supply matrix can deliver up to a total of 18A of current, which is distributed between the installed supplies. These supplies are able to provide a fast and versatile means of making DC parametric and leakage measurements as well as providing latch-up pulses, while offering total control and protection of the DUT.Advanced Device PreconditioningThe MK.4 system provides the most advanced device preconditioning capability available. The DUT can be vectored with complex vector patterns, providing excellent control over the device. Each pin can be driven using one of the 6 different vector supplies. The patterns can be up to 256k deep, running at clock speeds of up to 10 MHz. Device conditioning is easily verified, using the read back compare capability available on every pin.Thermo Scientific MK.4 Scimitar™Software Makes Programming Easy, while Providing Unsurpassed Programming FlexibilityThe MK.4 Windows®-based Scimitar operating software empowers users with the flexibility to easily set-up tests based on industry standards or company driven requirements.Device test plans can be created by importing existing text based device files, on the testers PC server or off-line from a satellite PC containing the application. The software also provides the capabilities to import test plans and device files from previous Thermo Scientific test systems.Test vectors from your functional testers can also be imported into the application. And of course, the vector application allows manual creation and debug of vector files.Device test plans and results are stored in an XML data base, providing unsurpassed results handling, sorting and data mining capabilities.Parallelism Drives Remarkable Test Throughput SpeedsThe MK.4 software enables ESD testing of up to twelve devices at one time using the multisite pulse source design.Embedded VME power supplies eliminate any communication delays that would be seen by using stand alone supplies. The embedded parametric (curve tracing) supply also provides fast, accurate curve tracing data to help you analyze your devices performance.The systems curve tracer can also be used as a failure analysis tool by allowing the comparison of stored, known good results, versus results from a new test sample or samples.Ready for Today’s Component Reliability Demands and Anticipating Those to Come ESD and Latch-Up testing of electronic and electrical goods can be very expensive aspects of the design and manufacturing process. This is especially true as market demands for products that are smaller, faster and smarter become the standard rather than the exception. The Thermo Scientific MK.4 leverages the technology and know- how gained over three decades of test system experience, as well as our in-depth participation and contributions to global regulatory bodies governing these changes, enabling today’s products to meet both global and industry-driven quality standards.The real key to our customers’ success is in anticipating what’s next. And to ensure that our customers possess the ability to evolve quickly to meet all change factors with efficiency and cost effectiveness.As such, the strategically-designed, field upgradeable architecture of the MK.4 system ensures a substantial return on investment over a very considerable test system lifecycle, as well as better short- and long-term qualityand ESD and Latch-Up test economies.Custom fixtures include universal package adaptors to enable the industry’s lowest cost-in-service high pin count device fixturing yetdevised. (2304-pin, Universal 1-mm pitch BGA package adaptor shown.)100W V/I Performance Thermo Scientific MK.4: eight-V/I configuration. Powerful V/Is can deliver a total of 800 W to the DUT, enabling complex testing of all advanced high power processors on your product roadmap.Solid state matrix topology for rapid, easy-to-use testing operations. Design ensures waveform integrity and reproducibility.General SpecificationsHuman Body Model (HBM) per ESDA/JEDEC JS-001-2014, MIL-STD 883E, and AEC Q100-002 25 V to 8 kV in steps of 1 V Test to multiple industry standards in one integrated system; no changing or alignment of pulse sources.Wizard-like prompts on multi-step user actions MachineModel (MM) per ESDA STM5.2, JEDEC/JESD22-A115, andAEC Q100-003, 25 V to 1.5 kV in steps of 1 VIntegrated pulse sources allow fast multi-site test execution.Latch-up testing per JEDEC/JESD 78 test pin and AECQ100-004Includes preconditioning, state read-back and full control of each.Rapid Relay-based operations at least 10 times faster thanrobotic-driven testersSuper fast test speeds.Test devices up to 2304 pins Systems available configured as 1152, 1728 or 2304 pins.Waveform network: Two, 12 site HBM (100 pF/1500Ω)and MM (200 pF/0Ω) pulse sources address up to 12devices simultaneouslyPatented design ensures waveform compliance for generations to come.Multiple device selection When multiple devices are present; graphical display indicates the devices selectedfor test; progress indicator displays the current device under test (DUT), along withtest status information.Unsurpassed software architecture Flexible programming, easy to use automated test setups, TCP/IP communication. Enables use of device set-up information Increased efficiency and accuracy from other test equipment, as well as deviceinformation import.Event trigger output Manages setup analysis with customized scope trigger capabilities.High voltage power supply chassis Modular chassis with patented HV isolation enables excellent pulse sourceperformance.Power supply sequencing Provides additional flexibility to meet more demanding test needs of integratedsystem-on-chip (SOC) flexibility.Manages ancillary test equipment through Plug-n feature allows the user to control external devices, such as scopes or heatstreams or other devices the Scimitar Plug-ins feature as required for automatedtesting.Pin drivers for use during Latch-Up testing Vector input/export capability from standard tester platforms and parametricmeasurements.256k vectors per pin with read-back Full real-time bandwidth behind each of the matrix pins.Six independent vector voltage levels Test complex I/O and Multi-Core products with ease.Up to 10MHz vector rate (programmable) Quickly and accurately set the device into the desired state for testing from an internalclock.Comprehensive engineering vector debug. Debug difficult part vectoring setups with flexibility.Up to eight separate V/I supplies (1 stimulus and 7 bias supplies) capability through the V/I matrix High accuracy DUT power, curve tracing, and Latch-up stimulus available; design also provides high current.Low resolution/high accuracy parametric measurements, using an embedded Keithley PSU With the optional Keithley PSU feature (replaces one V/I, nA measurements are achievable, allowing supply bus resistance measurement analysis to be performed.Multiple self-test diagnostic routines Ensures system integrity throughout the entire relay matrix, right up to the test socket Test reports: pre-stress, pre-fail (ESD) and post-fail data,as well as full curve trace and specific data pointmeasurementsData can be exported for statistical evaluation & presentation.Individual pin parametrics Allows the user to define V/I levels, compliance ranges, and curve trace parametersfor each pin individually.Enhanced data set features Report all data gathered for off-line reduction and analysis; core test data is readilyavailable; all data is stored in an easy-to-manipulate standard XML file structure. Interlocked safety cover Ensures no user access during test. All potentially lethal voltages are automaticallyterminated when cover is opened. Safety cover window can be easily modified toaccept 3rd party thermal heads.Dimensions60 cm (23.5 in) W x 99 cm (39 in) D x 127 cm (50 in) H© 2016 Thermo Fisher Scientific Inc. All rights reserved. Windows is a registered trademark of Microsoft Corporation in the United States and/or other countries. All other trademarks are the property of Thermo Fisher Scientific and its subsidiaries. Results may vary under different operating conditions. Specifications, terms and pricing are subject to change. Not all products are available in all countries. Please consult your local sales representative for details.Africa-Other +27 11 570 1840 Australia +61 2 8844 9500 Austria +43 1 333 50 34 0 Belgium +32 53 73 42 41 Canada +1 800 530 8447 China +86 10 8419 3588 Denmark +45 70 23 62 60 Europe-Other +43 1 333 50 34 0Finland /Norway/Sweden+46 8 556 468 00France +33 1 60 92 48 00Germany +49 6103 408 1014India +91 22 6742 9434Italy +39 02 950 591Japan +81 45 453 9100Latin America +1 608 276 5659Middle East +43 1 333 50 34 0Netherlands +31 76 579 55 55South Africa +27 11 570 1840Spain +34 914 845 965Switzerland +41 61 716 77 00UK +44 1442 233555USA +1 800 532 4752Thermo Fisher Scientific,San Jose, CA USA is ISO Certified. CTS.05102016Product SpecificationsScimitar Software FeaturesSummary Panel with easy navigation among device componentsWizard-like prompts on multi-step user actionsControl of external devices through the use of Scimitar’s user programmable Plug-in capabilities, in addition to the Event Trigger Outputs, which provide TTL control signals for external devices, such as power supplies or for triggering oscilloscopesFlexible parametric tests that are defined and placed at an arbitrary position within the executable test plan.Comprehensive results viewer that provides:• ESD and Static Latch-up data viewing capabilities• Curves viewer with zooming capabilities and the ability to add user comments• Data filtering on the following criteria – failed pins, failed results, final stress levels• A complete set or subset of results using user defined parameters• Sorting in ascending or descending order by various column criteriaTree-like logical view of the tests and test plans.Flexible data storage that provides the ability for the end-user to query the dataSeamless support of existing ZapMaster, MK.2, MK.4, and Paragon test plansCurve tracing with curve-to-curve and relative spot-to-spot comparisonOff-line curve analyzing, including third-party generated waveformsCanned JESD78A test (static latch-up only) that can be defined automaticallyPause/Resume test capabilitiesIntermediate results viewingAutomated waveform capture capability and analysis using the embedded EvaluWave software feature。

2.0x1.25mm SMD CHIP LED LAMP 洸子其科技是一家从事发光二极管产品研发、生产及销售公司,致力于为国内国际市场提供高品质，低成本的各类发光管。

主营产品有：SMD LED 0402、0603、0802、0805、1204、1206、3528、5050、3020、3014、2835、3535、335、020、正面发光及侧面发光，红、绿、蓝、白、黄、橙、粉红、紫、单色双色及三色等…主要应用：照明灯具、灯光亮化装饰工程、玩具礼品、背光显示、荧光验证防伪、手机、家电、MP3、手电筒、汽车、圣诞树、霓虹灯等…点击进入洸子其科技Selection GuidePart No.DiceLens TypeIv (mcd) [2] @ 20mA Viewing Angle [1] Min.Typ. 2θ1/2 APHBM2012SURKCGKC HYPER RED (InGaAlP) WATER CLEAR70 200 GREEN (InGaAIP)3680120°Electrical / Optical Characteristics at T A =25°CAbsolute Maximum Ratings at T A =25°CNote:1. 1/10 Duty Cycle, 0.1ms Pulse Width.Symbol Parameter DeviceTyp. Max. Units Test Conditionsλpeak Peak Wavelength Hyper Red Green 650 574 nm I F =20mA λD [1] Dominant Wavelength Hyper Red Green 635 570 nm I F =20mA Δλ1/2 Spectral Line Half-widthHyper Red Green 28 20 nm I F =20mA C Capacitance Hyper Red Green 35 15 pF V F =0V;f=1MHz V F [2] Forward Voltage Hyper Red Green 1.95 2.1 2.5 2.5 V I F =20mA I RReverse CurrentHyper Red Green10 10uAV R = 5VParameter Hyper RedGreen Units Power dissipation 75 75 mW DC Forward Current 30 30 mA Peak Forward Current [1] 185 150 mA Reverse Voltage55VOperating / Storage Temperature-40°C To +85°CNotes:1. Wavelength: +/-1nm.2. Forward Voltage: +/-0.1V.Notes:1. θ1/2 is the angle from optical centerline where the luminous intensity is 1/2 the optical centerline value.2. Luminous Intensity / Luminous Flux: +/-15%.。

DATA SHEET CHP Max Headend Optics Platform CHP-OPTSWITCH-2-L Dual Optical A/B SwitchThe CHP Max optical switch provides operators with a reliable and rapid response to changing network conditions, enabling them to proactively identify and fix problems before they impact subscribers. Cable operators can expect a reliable and rapid response to changing network conditions with the CHP Max optical switch design that leverages the installed base of CHP Max5000®chassis, preserving deployed capital. Each channel of the Optical Switch Module accepts two optical signals (“A,” the primary path, and “B,” the backup path). The unit’s microcontroller continuously monitors each fiber’s optical signal power level and the adjustable optical trip threshold for each path. Operators can configure the optical switch in Automatic or Manual Switch Mode. When configured for Automatic Switch Mode, the optical switch will automatically switch to the backup fiber path if the primary path falls below the optical switch threshold that is set by the operator.When optical power is restored to the primary path, the switch willautomatically switch back to the primary path. When placed in ManualSwitch Mode, the optical switch will remain on the path selected by theoperator until the operator selects the other path or returns the unit toAutomatic Switch Mode. Operators can select Automatic and ManualSwitch Mode by using the unit’s front ‐panel pushbutton switch,through the SNMP, or via CORView EMS.•High density to reduce footprint with a dualdensity, single slot unit with 2 independentswitches•Improve network services and customer Qualityof Experience (QoE) with redundant rings androute diversity•Very low power with less than 1 Watt typicalconsumption•Automatic and manual switching using frontpanel pushbutton or remotely through theSNMP or CORView ™Element ManagementSystem (EMS) FEATURESNetwork DiagramOPERATIONAL REQUIREMENTSSMMSMM ‐2 only CMMNo CHP Craft SoftwareNo CHP CORView/CORView LiteV3.5 or later Auto Configuration Supported NoSPECIFICATIONSSpecificationPhysicalDimensions 11.25 in W x 3.4 in H x 18.5 in D (3.2 cm x 8.7 cm x 47.0 cm)Weight2.5 lb (1.3 kg)Optical Connector TypeLC/APC EnvironmentalOperating Temperature Range 20°to 50°C (32°to 122°F)Storage Temperature Range‐40°to 70°C (‐40°to 158°F)Humidity85% non ‐condensing (max)OpticalOperating Wavelength Range1260–1610 nm Input Optical Power Range‐20 to +20 dBm Insertion Loss< 2 dB Optical Crosstalk> 50 dB Optical Return Loss> 45 dB SwitchingSwitching Time< 20 ms Switch TypeLatching, Opto ‐Mechanical Optical Switching Threshold Ranges‐20 to +18 dBm Restore Time0 to 10 minutes in 1 second increments Power RequirementsPower Consumption1 W (Typical), <2 W (max)NOTES:1.Includes handles and connectors.2.Temperature measured at optical switch’s module’s air inlet.ORDERING INFORMATIONCHP‐OPTSWITCH‐2‐L CHP Dual Dense Optical Switch LC/APCRELATED PRODUCTSCHP Chassis Optical Patch CordsPower Supplies Optical PassivesControl Module Installation ServicesContact Customer Care for product information and sales:•United States: 866‐36‐ARRIS•International: +1‐678‐473‐5656Note: Specifications are subject to change without notice.Copyright Statement:©2022CommScope,Inc.All rights reserved.ARRIS,the ARRIS logo,CHP Max5000,and CORView are trademarks of CommScope,Inc.and/or its affiliates.All other trademarks are the property of their respective owners.No part of this content may be reproduced in any form or by any means or used to make any derivative work(such as translation,transformation,or adaptation)without written permission from CommScope, Inc and/or its affiliates(“CommScope”).CommScope reserves the right to revise or change this content from time to time without obligation on the part of CommScope to provide notification of such revision or change.1514620 _CHP Optical Switch_DS_RevA。

DAT ASHEETNI 92374 AI, ±25 mV/V, 24 Bit, 50 kS/s/ch Simultaneous, Bridge Completion• 4 channels, 50 kS/s per channel simultaneous AI•±25 mV/V input range, 24-bit resolution•Programmable half- and full-bridge completionwith up to 10 V internal excitation•60 VDC, Category I bank isolation•RJ50 or D-SUB connectivity options•-40 °C to 70 °C operating range, 5 g vibration,50 g shockThe NI 9237 simultaneous bridge module for use with CompactDAQ and CompactRIO contains all the signal conditioning required to power and measure up to four bridge-based sensors simultaneously. The four RJ50 jacks provide direct connectivity to most torque or load cells and offer custom cable solutions with minimal tools. The high sampling rate and bandwidth of the NI 9237 offer a high-quality, high-speed strain or load measurement system with zero interchannel phase delay. With 60 VDC isolation and 1,000 Vrms transient isolation, the NI 9237 has high-common-mode noise rejection and increased safety for both the operator and test system.The NI 9237 can perform offset/null as well as shunt calibration and remote sense, making the module the best choice for strain and bridge measurements.The NI 9944 and NI 9945 are accessories for use with quarter-bridge sensors. These accessories have a female RJ50 connector on one end and screw terminals on the other end.C SERIES SIMULTANEOUS BRIDGE MODULE COMPARISONModel ChannelsSample Rate Resolution Connectivity Simultaneous Supported Bridges NI 9218NI 9219NI 9235NI 9236NI 923751.2 kS/s/ch 100 S/s/ch 10 kS/s/ch 10 kS/s/ch 50 kS/s/ch24 bits 24 bits 24 bits 24 bits 24 bitsQuarter, Half, Full Quarter, Half, Full 120 Ω Quarter Bridge 350 Ω Quarter Bridge Quarter, Half, FullLEMO,9-pin DSUB Spring Terminal Spring T erminal Spring T erminal RJ-50,DSUB24884NI C Series OverviewNI provides more than 100 C Series modules for measurement, control, and communication applications. C Series modules can connect to any sensor or bus and allow for high-accuracy measurements that meet the demands of advanced data acquisition and control applications.•Measurement-specific signal conditioning that connects to an array of sensors and signals •Isolation options such as bank-to-bank, channel-to-channel, and channel-to-earth ground •-40 °C to 70 °C temperature range to meet a variety of application and environmentalneeds •Hot-swappable The majority of C Series modules are supported in both CompactRIO and CompactDAQ platforms and you can move modules from one platform to the other with no modification.2 | | NI 9237 DatasheetCompactRIOCompactRIO combines an open-embedded architecturewith small size, extreme ruggedness, and C Seriesmodules in a platform powered by the NI LabVIEWreconfigurable I/O (RIO) architecture. Each systemcontains an FPGA for custom timing, triggering, andprocessing with a wide array of available modular I/O tomeet any embedded application requirement. CompactDAQCompactDAQ is a portable, rugged data acquisition platformthat integrates connectivity, data acquisition, and signalconditioning into modular I/O for directly interfacing to anysensor or signal. Using CompactDAQ with LabVIEW, youcan easily customize how you acquire, analyze, visualize,and manage your measurement data.SoftwareLabVIEW Professional Development System for Windows•Use advanced software tools for large project development•Generate code automatically using DAQ Assistant and InstrumentI/O Assistant•Use advanced measurement analysis and digital signal processing•Take advantage of open connectivity with DLLs, ActiveX,and .NET objects•Build DLLs, executables, and MSI installersNI LabVIEW FPGA Module•Design FPGA applications for NI RIO hardware•Program with the same graphical environment used for desktop andreal-time applications•Execute control algorithms with loop rates up to 300 MHz•Implement custom timing and triggering logic, digital protocols, andDSP algorithms•Incorporate existing HDL code and third-party IP including Xilinx IPgenerator functions•Purchase as part of the LabVIEW Embedded Control and MonitoringSuiteNI 9237 Datasheet| © National Instruments| 3NI LabVIEW Real-Time Module•Design deterministic real-time applications with LabVIEWgraphical programming•Download to dedicated NI or third-party hardware for reliableexecution and a wide selection of I/O•Take advantage of built-in PID control, signal processing, andanalysis functions•Automatically take advantage of multicore CPUs or setprocessor affinity manually•Take advantage of real-time OS, development and debuggingsupport, and board support•Purchase individually or as part of a LabVIEW suiteCircuitryEach channel on the NI 9237 has an independent 24-bit ADC and an input amplifier that enable you to sample signals from all four channels simultaneously.The NI 9237 is isolated from earth ground. However, the individual channels are not isolated from each other. The EX+, EX-, and T- signals are common among all channels. You can connect the NI 9237 to a device that is biased at any voltage within the NI 9237 rejection range of earth ground.Figure 1. Input Circuitry for One Channel of the NI 9237Connection Options to Correct for Resistance Errors Wiring resistance can create errors in bridge circuits. The NI 9237 provides two mechanisms to correct for these errors: remote sensing and shunt calibration.Remote SensingRemote sensing continuously and automatically corrects for errors in excitation leads, and generally is most appropriate for half- and full-bridge sensors.Long wire and small gauge wire have greater resistance, which can result in gain error. The resistance in the wires that connect the excitation voltage to the bridge causes a voltage drop, 4| | NI 9237 Datasheetwhich is a source of gain error. The NI 9237 includes remote sensing to compensate for this gain error. Connect remote sense wires to the points where the excitation voltage wires connect to the bridge circuit. Refer to the following figure for an illustration of how to connect remote sense wires to the NI 9237.Figure 2. Connecting Remote Sense Wires to the NI 9237RRThe actual bridge excitation voltage is smaller than the voltage at the EX+ and EX- leads. If you do not use remote sensing of the actual bridge voltage, the resulting gain error is:BB BBB for half‐bridge sensors and2⋅BBBBB for full‐bridge sensors.If you connect the remote sense signals directly to the bridge resistors, the NI 9237 senses the actual bridge voltage and eliminates the gain errors caused by the resistance of the EX+ and EX- leads.Shunt CalibrationShunt calibration can correct for errors from the resistance of both the excitation wiring and wiring in the individual resistors of the bridge. Remote sensing corrects for resistances from the EX pins on the NI 9237 to the sensor, and shunt calibration corrects for these errors and for errors caused by wire resistance within an arm of the bridge. Shunt calibration is most useful with quarter-bridge sensors because there may be significant resistance in the wiring to the active resistor in the bridge.The NI 9237 shunt calibration circuitry consists of a precision resistor and a software-controlled switch. Refer to the software help for information about enabling the shunt calibration switch for the NI 9237.Shunt calibration involves simulating the input of strain by changing the resistance of an arm in the bridge by some known amount. This is accomplished by shunting, or connecting, a large resistor of known value across one arm of the bridge, creating a known strain-induced change in resistance. You can then measure the output of the bridge and compare it to the expected voltage value. You can use the results to correct gain errors in the entire measurement path, or to simply verify general operation to gain confidence in the setup.NI 9237 Datasheet| © National Instruments| 5Use a stable signal, which is typically the unloaded state of the sensor, first with the shunt calibration switch off and then again with the switch on. The difference in these two measurements provides an indication of the gain errors from wiring resistances. You can design the software application to correct subsequent readings for this gain error.Excitation VoltagesYou can program the NI 9237 to supply 2.5 V , 3.3 V , 5 V , or 10 V of excitation voltage. Themaximum excitation power for internal excitation is 150 mW.Note Unless you supply external excitation voltage, NI recommends that you setthe excitation voltage to a value that keeps the total power below 150 mW. The NI 9237 automatically reduces internal excitation voltages as needed to stay below 150 mW total power.Use the following equation to calculate the power of a single bridge:=B 2where R is the total resistance of the bridge.For a quarter or half bridge, R is equal to two times the resistance of each element. For a full bridge, R is equal to the resistance of each element.The 150 mW limit allows you to power half and full bridges as follows:•Four 350 Ω half bridges at 5.0 V •Four 350 Ω full bridges at 3.3 V •Four 120 Ω half bridges at 2.5 VExternal ExcitationYou can connect an external excitation voltage source to the NI 9237 if you need an excitation voltage that causes more than 150 mW to dissipate across all the bridges.Figure 3. Connecting an External Excitation Voltage Source to the NI 9237External Excitation VoltageSourceExternal Excitation Voltage SourceNote For the NI 9237 with RJ-50, use the two EX+ and EX- terminals on the four-terminal external excitation voltage connector to connect one external excitation source.You can use the additional EX+ and EX- terminals on the connector to wire multiple NI 9237modules together in a daisy chain.6 | | NI 9237 DatasheetFilteringThe NI 9237 uses a combination of analog and digital filtering to provide an accurate representation of in-band signals and reject out-of-band signals. The filters discriminatebetween signals based on the frequency range, or bandwidth, of the signal. The three important bandwidths to consider are the passband, the stopband, and the anti-imaging bandwidth.The NI 9237 represents signals within the passband, as quantified primarily by passband ripple and phase nonlinearity. All signals that appear in the alias-free bandwidth are either unaliased signals or signals that have been filtered by at least the amount of the stopband rejection.PassbandThe signals within the passband have frequency-dependent gain or attenuation. The small amount of variation in gain with respect to frequency is called the passband flatness. Thedigital filters of the NI 9237 adjust the frequency range of the passband to match the data rate.Therefore, the amount of gain or attenuation at a given frequency depends on the data rate.Figure 4. Typical Passband Flatness for the NI 9237Frequency/Data Rate0.50.40.0250.000–0.025–0.0500.30.20.10G a i n (d B)StopbandThe filter significantly attenuates all signals above the stopband frequency. The primary goal of the filter is to prevent aliasing. Therefore, the stopband frequency scales precisely with the data rate. The stopband rejection is the minimum amount of attenuation applied by the filter to all signals with frequencies within the stopband.Alias-Free BandwidthAny signals that appear in the alias-free bandwidth are not aliased artifacts of signals at a higher frequency. The alias-free bandwidth is defined by the ability of the filter to reject frequencies above the stopband frequency. The alias-free bandwidth is equal to the data rate minus the stopband frequency.NI 9237 Datasheet | © National Instruments | 7Data RatesThe frequency of a master timebase (f M) controls the data rate (f s) of the NI 9237. The NI 9237 includes an internal master timebase with a frequency of 12.8 MHz, but the module also can accept an external master timebase or export its own master timebase. To synchronize the data rate of an NI 9237 with other modules that use master timebases to control sampling, all of the modules must share a single master timebase source.The following equation provides the available data rates of the NI 9237:=÷256where n is any integer from 1 to 31.However, the data rate must remain within the appropriate data rate range. When using the internal master timebase of 12.8 MHz, the result is data rates of 50 kS/s, 25 kS/s, 16.667 kS/s, and so on down to 1.613 kS/s depending on the value of n. When using an external timebase with a frequency other than 12.8 MHz, the NI 9237 has a different set of data rates.Note The NI 9151 R Series Expansion chassis does not support sharing timebasesbetween modules.NI 9237 SpecificationsThe following specifications are typical for the range -40 °C to 70 °C unless otherwise noted.Caution Do not operate the NI 9237 in a manner not specified in this document.Product misuse can result in a hazard. You can compromise the safety protectionbuilt into the product if the product is damaged in any way. If the product isdamaged, return it to NI for repair.Input CharacteristicsNumber of channels 4 analog input channelsBridge completionHalf and Full InternalQuarter ExternalADC resolution24 bitsType of ADC Delta-Sigma (with analog prefiltering) Sampling mode Simultaneous8| | NI 9237 DatasheetInternal master timebase (ƒM)Frequency12.8 MHzAccuracy±100 ppm maximumData rate range (ƒs) using internal master timebaseMinimum 1.613 kS/sMaximum50 kS/sData rate range (ƒs) using external master timebaseMinimum391 S/sMaximum51.36 kS/sData rates (ƒs)(ƒM ÷ 256) ÷ n, where n = 1, 2, …, 31 Typical input range±25 mV/VScaling coefficient 2.9802 nV/V per LSBOvervoltage protection between any two pins±30 VGain drift10 ppm/°C maximumOffset drift2.5 V excitation0.6 µV/V per °C3.3 V excitation0.5 µV/V per °C5 V excitation0.3 µV/V per °C10 V excitation0.2 µV/V per °C1Before offset null or shunt calibration.2Applies at a data rate of 50 kS/s. Lower data rates can have up to 0.20% of reading additional gain error.3Range equals 25 mV/V.4Uncalibrated accuracy refers to the accuracy achieved when acquiring data in raw or unscaledmodes and in which calibration constants that are stored in the module are not applied to the data.NI 9237 Datasheet| © National Instruments| 9Half-bridge completionTolerance±1200 µV/V maximumDrift 1.5 µV/V per °CTable 2. Channel-to-Channel Matching (Calibrated)Phase nonlinearityƒin = 0 to 1 kHz<0.001°ƒin = 0 to 20 kHz±0.1°Input delay(40 + 5/512)/ƒs + 4.5 µs PassbandFrequency0.45 · ƒsFlatness0.1 dB maximum StopbandFrequency0.55 · ƒsRejection100 dBAlias-free bandwidth0.45 · ƒsOversample rate64 · ƒsRejection at oversample rate5ƒs = 10 kS/s60 dB @ 640 kHzƒs = 50 kS/s*********** Common-mode voltage,all signals to earth ground±60 VDCCommon-mode voltage range, with respect to EX-±1 V from the midpoint of the excitation voltage5Rejection by analog prefilter of signal frequencies at oversample rate. 10| | NI 9237 DatasheetCMRRRelative to earth ground6 (ƒin = 0 to 60140 dBHz)Relative to EX– (ƒin = 0 to 1 kHz)85 dBSFDR (1 kHz, –60 dBFS)115 dBTotal Harmonic Distortion (THD)1 kHz, –20 dBFS–95 dB8 kHz, –20 dBFS–95 dBExcitation noise100 µVrmsCrosstalk (not including cable effects)ƒin = 1 kHz110 dBƒin = 10 kHz100 dBExcitationInternal voltage 2.5 V, 3.3 V, 5.0 V, 10.0 VInternal power150 mW maximumExternal voltage 2 V to 10 VShunt calibrationResistance100 kΩ6Measured with a balanced cable on the NI 9237 with RJ-50 and with no cable on theNI 9237 with DSUB. Shielded cables that are not twisted-pair may be significantly unbalanced, which can impact CMRR performance. To improve the balance of shielded cables, NI recommends twisting together the AI+/AI– pair, the RS+/RS– pair, and the EX+/EX– pair.NI 9237 Datasheet| © National Instruments| 11Resistor accuracy25 °C±110 Ω– 40 °C to 70 °C±200 ΩMTBFNI 9237 with RJ-50603,359 hours at 25 °C; Bellcore Issue 2,Method 1, Case 3, Limited Part Stress Method NI 9237 with DSUB704,148 hours at 25 °C; Bellcore Issue 2,Method 1, Case 3, Limited Part Stress Method Power RequirementsPower consumption from chassisActive mode740 mW maximumSleep mode25 µW maximumThermal dissipation (at 70 °C)Active mode740 mW maximumSleep mode25 µW maximumPhysical CharacteristicsTip For two-dimensional drawings and three-dimensional models of the C Seriesmodule and connectors, visit /dimensions and search by module number.Connect only voltages that are within the following limits.Between any two pins±30 V maximumIsolation, channel-to-channel NoneIsolation, channel-to-earth groundUp to 3,000 mContinuous60 VDC, Measurement Category IWithstand1,000 Vrms, verified by a 5 s dielectricwithstand testUp to 5,000 mContinuous60 VDC, Measurement Category IWithstand860 Vrms, verified by a 5 s dielectricwithstand test12| | NI 9237 DatasheetMeasurement Category I is for measurements performed on circuits not directly connected to the electrical distribution system referred to as MAINS voltage. MAINS is a hazardous live electrical supply system that powers equipment. This category is for measurements of voltages from specially protected secondary circuits. Such voltage measurements include signal levels, special equipment, limited-energy parts of equipment, circuits powered by regulated low-voltage sources, and electronics.Caution Do not connect the NI 9237 to signals or use for measurements withinMeasurement Categories II, III, or IV.Note Measurement Categories CAT I and CAT O are equivalent. These test andmeasurement circuits are not intended for direct connection to the MAINS buildinginstallations of Measurement Categories CAT II, CAT III, or CAT IV. Hazardous LocationsU.S. (UL)Class I, Division 2, Groups A, B, C, D, T4;Class I, Zone 2, AEx nA IIC T4Canada (C-UL)Class I, Division 2, Groups A, B, C, D, T4;Class I, Zone 2, Ex nA IIC T4Europe (ATEX) and International (IECEx)Ex nA IIC T4 GcSafety and Hazardous Locations StandardsThis product is designed to meet the requirements of the following electrical equipment safety standards for measurement, control, and laboratory use:•IEC 61010-1, EN 61010-1•UL 61010-1, CSA 61010-1•EN 60079-0:2012, EN 60079-15:2010•IEC 60079-0: Ed 6, IEC 60079-15; Ed 4•UL 60079-0; Ed 5, UL 60079-15; Ed 3•CSA 60079-0:2011, CSA 60079-15:2012Note For UL and other safety certifications, refer to the product label or the OnlineProduct Certification section.Electromagnetic CompatibilityThis product meets the requirements of the following EMC standards for sensitive electrical equipment for measurement, control, and laboratory use:•EN 61326-2-1 (IEC 61326-2-1): Class A emissions; Industrial immunity•EN 55011 (CISPR 11): Group 1, Class A emissions•AS/NZS CISPR 11: Group 1, Class A emissionsNI 9237 Datasheet| © National Instruments| 13•FCC 47 CFR Part 15B: Class A emissions•ICES-001: Class A emissionsNote In the United States (per FCC 47 CFR), Class A equipment is intended foruse in commercial, light-industrial, and heavy-industrial locations. In Europe,Canada, Australia and New Zealand (per CISPR 11) Class A equipment is intendedfor use only in heavy-industrial locations.Note Group 1 equipment (per CISPR 11) is any industrial, scientific, or medicalequipment that does not intentionally generate radio frequency energy for thetreatment of material or inspection/analysis purposes.Note For EMC declarations and certifications, and additional information, refer tothe Online Product Certification section.CE ComplianceThis product meets the essential requirements of applicable European Directives, as follows:•2014/35/EU; Low-V oltage Directive (safety)•2014/30/EU; Electromagnetic Compatibility Directive (EMC)•94/9/EC; Potentially Explosive Atmospheres (ATEX)Online Product CertificationRefer to the product Declaration of Conformity (DoC) for additional regulatory compliance information. To obtain product certifications and the DoC for this product, visit / certification, search by model number or product line, and click the appropriate link in the Certification column.Shock and VibrationTo meet these specifications, you must panel mount the system.Operating vibrationRandom (IEC 60068-2-64) 5 g rms, 10 Hz to 500 HzSinusoidal (IEC 60068-2-6) 5 g, 10 Hz to 500 HzOperating shock (IEC 60068-2-27)30 g, 11 ms half sine; 50 g, 3 ms half sine;18 shocks at 6 orientations14| | NI 9237 DatasheetEnvironmentalRefer to the manual for the chassis you are using for more information about meeting these specifications.Operating temperature-40 °C to 70 °C(IEC 60068-2-1, IEC 60068-2-2)-40 °C to 85 °CStorage temperature(IEC 60068-2-1, IEC 60068-2-2)Ingress ProtectionNI 9237 with RJ-50IP30NI 9237 with DSUB IP40Operating humidity (IEC 60068-2-78)10% RH to 90% RH, noncondensing Storage humidity (IEC 60068-2-78)5% RH to 95% RH, noncondensing Pollution Degree2Maximum altitude5,000 mIndoor use only.Environmental ManagementNI is committed to designing and manufacturing products in an environmentally responsible manner. NI recognizes that eliminating certain hazardous substances from our products is beneficial to the environment and to NI customers.For additional environmental information, refer to the Minimize Our Environmental Impact web page at /environment. This page contains the environmental regulations and directives with which NI complies, as well as other environmental information not included in this document.Waste Electrical and Electronic Equipment (WEEE) EU Customers At the end of the product life cycle, all NI products must bedisposed of according to local laws and regulations. For more information abouthow to recycle NI products in your region, visit /environment/weee.电子信息产品污染控制管理办法（中国RoHS）中国客户National Instruments符合中国电子信息产品中限制使用某些有害物质指令(RoHS)。

VigorAP 960C802.11ax Ceiling-mount AccessPointQuick Start GuideVersion: 1.2Firmware Version: V1.4.5(For future update, please visit DrayTek web site)Date: Dec. 21, 2022Intellectual Property Rights (IPR) InformationCopyrights © All rights reserved. This publication contains information that is protected by copyright. No part may be reproduced, transmitted, transcribed, stored ina retrieval system, or translated into any language without written permissionfrom the copyright holders.Trademarks The following trademarks are used in this document:●Microsoft is a registered trademark of Microsoft Corp.●Windows, Windows 8, 10, 11 and Explorer are trademarks of MicrosoftCorp.●Apple and Mac OS are registered trademarks of Apple Inc.●Other products may be trademarks or registered trademarks of theirrespective manufacturers.Safety Instructions and ApprovalSafety Instructions ●Read the installation guide thoroughly before you set up the device.●The device is a complicated electronic unit that may be repaired only beauthorized and qualified personnel. Do not try to open or repair thedevice yourself.●Do not place the device in a damp or humid place, e.g. a bathroom.●Do not stack the devices.●The device should be used in a sheltered area, within a temperaturerange of 0 to +40 Celsius.●Do not expose the device to direct sunlight or other heat sources. Thehousing and electronic components may be damaged by direct sunlight or heat sources.●Do not deploy the cable for LAN connection outdoor to preventelectronic shock hazards.●Keep the package out of reach of children.●When you want to dispose of the device, please follow local regulationson conservation of the environment.Warranty We warrant to the original end user (purchaser) that the device will be free from any defects in workmanship or materials for a period of two (2) yearsfrom the date of purchase from the dealer. Please keep your purchase receiptin a safe place as it serves as proof of date of purchase. During the warrantyperiod, and upon proof of purchase, should the product have indications offailure due to faulty workmanship and/or materials, we will, at our discretion,repair or replace the defective products or components, without charge foreither parts or labor, to whatever extent we deem necessary tore-store theproduct to proper operating condition. Any replacement will consist of a newor re-manufactured functionally equivalent product of equal value, and willbe offered solely at our discretion. This warranty will not apply if the productis modified, misused, tampered with, damaged by an act of God, or subjectedto abnormal working conditions. The warranty does not cover the bundled orlicensed software of other vendors. Defects which do not significantly affectthe usability of the product will not be covered by the warranty. We reservethe right to revise the manual and online documentation and to make changesfrom time to time in the contents hereof without obligation to notify anyperson of such revision or changes.Declaration of ConformityHereby, DrayTek Corporation declares that the radio equipment type VigorAP 960C is in compliance with Directive 2014/53/EU.The full text of the EU declaration of conformity is available at the following internet address: https:///VigorAP 960C/Document/CE/Manufacturer: DrayTek Corp.Address: No.26, Fushing Rd., Hukou, Hsinchu Industrial Park, Hsinchu 303, Taiwan Product: VigorAP 960CFrequency Information for Europe area:2.4GHz WLAN 2400MHz - 2483MHz, max. TX power: 19.95dBm5GHz WLAN 5150MHz - 5350MHz, max. TX power: 22.84dBm5470MHz - 5725MHz, max. TX power: 28.14dBmRequirements in AT/BE/BG/CZ/DZ/DK/EE/FR/DE/IS/IE/IT/EL/ES/CY/LV/LI/LT/ LU/HU/MT/NL/NO/PL/PT/RO/SI/SK/TR/FI/SE/CH/HR.5150MHz~5350MHz is for indoor use only.This product is designed for 2.4GHz and 5GHz WLAN network throughout the EC region.Declaration of ConformityHereby, DrayTek Corporation declares that the radio equipment type VigorAP 960C is in compliance with Regulation SI 2017 No. 1206.Manufacturer: DrayTek Corp.Address: No.26, Fushing Rd., Hukou, Hsinchu Industrial Park, Hsinchu 303, Taiwan Product: VigorAP 960CImporter: CMS Distribution Ltd: Bohola Road, Kiltimagh, Co Mayo, IrelandFrequency Information for UK area:2.4GHz WLAN 2400MHz - 2483MHz, max. TX power: 19.95dBm5GHz WLAN 5150MHz - 5350MHz, max. TX power: 22.84dBm5470MHz - 5725MHz, max. TX power: 28.14dBmRequirements in UK. 5150MHz~5350MHz is for indoor use only.This product is designed 2.4GHz and 5GHz WLAN network use in the UK & Ireland.Regulatory InformationFederal Communication Commission Interference StatementThis equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmfulinterference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one of the following measures:● Reorient or relocate the receiving antenna.● Increase the separation between the equipment and receiver.● Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.●Consult the dealer or an experienced radio/TV technician for help.This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:(1) This device may not cause harmful interference, and(2) This device may accept any interference received, including interference that may cause undesired operation.Company nameABP International Inc.Address 13988 Diplomat Drive Suite 180 Dallas TX 75234 ZIP Code 75234E-mail*******************USA Local Representative Contact PersonMr. Robert MesserTel. 19728311600Caution ● Any changes or modifications not expressly approved by the grantee of this device could void the user's authority to operate the equipment.● Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment.● This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.●Radiation Exposure Statement: This equipment complies with FCC radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed and operated with minimum distance 20cm between the radiator & your body.External Power Supply ErP Information1 2A Manufacturer DVE DVEB Address No.5, Baogao Rd, XindianDist, New Taipei City(23144), TaiwanNo.5, Baogao Rd, XindianDist, New Taipei City(23144), Taiwan DSA-12PF09-12 FUK DSA-18PFR-12 FUKC Model identifierDSA-12PF09-12 FEU DSA-18PFR-12 FEU D Input voltage 100~240V 100~240VInput AC frequency 50/60Hz 50/60HzEOutput voltage DC 12.0V 12.0VF Output current 1.0A 1.5AG Output power 12.0W 18.0WH Average active efficiency 83.3% 85.5%I Efficiency at low load 10% 80.8% 83.7%J No-load power consumption 0.06W 0.07W*The external power supply used for each product will be model dependent.For more update, please visit .T a b l e o f C o n t e n t s1. Package Content (1)2. Panel Explanation (2)3. Installation (3)3.1 Ceiling-mount Installation (Wooden Ceiling) (3)3.2 Ceiling-mount Installation (Plasterboard Ceiling) (4)3.3 Suspended Ceiling (Lightweight Steel Frame) Installation (5)3.4 Wall-Mounted Installation (7)4. Connection and Configuration (8)4.1 Notifications for Hardware Connection (8)4.2 Connect to a Vigor Router using AP Management (9)4.3 Web Configurations (10)5. Customer Service (14)Be a Registered Owner (14)Firmware & Tools Updates (14)1.P a c k a g e C o n t e n tTake a look at the package content. If there is anything missed or damaged, please contact DrayTek or dealer immediately.VigorAP 960C Main Unit Ceiling mount bracket & Quick StartGuideT-Rail Mounting Kits(Used for suspended ceiling)Fixings and Screws(for ceiling mounting) RJ-45 Cable (Ethernet)Screw set (for wall mounting) The type of the power adapter depends on the country that the AP will be installed:UK-type Power Adapter EU-type Power AdapterUSA/Taiwan-type Power Adapter AU/NZ-type Power AdapterThe maximum power consumption is 11 Watt.2. P a n e l E x p l a n a t i o nLED Status ExplanationOn The system is in boot-loader mode. OffThe system is not ready or fails.Blue LEDBlinking The system is in AP mode and work normally.Green LED BlinkingThe system is in Mesh mode or Range Extender modeand works normally.Orange LED Blinking The system is in TFTP mode. Off Off VigorAP is turned off or not functioning. Interface Explanation Ethernet Port Connects to LAN or router.Supports PoE power & Gigabit (1000BaseT).Power Jack (DC IN) Connecter for a power adapter. Hole Explanation Factory Reset Restores the unit back to factory default settings.To use, insert a small item such as an unbent paperclip into the hole. You will feel the button inside depress gently. Hold it for 5 seconds. The VigorAP will restart with the factory default configuration and the LED will blink blue.Note● For the sake of security, make the accessory kit away fromchildren.● Remove the protective film from the access point before useto ensure ventilation.LEDFactory ResetEthernet PortPower Jack (DC IN)3. I n s t a l l a t i o nVigorAP can be installed under certain locations: wooden ceiling, plasterboard ceilings, light-weighted steel frame and wall.3.1 C e i l i n g -m o u n t I n s t a l l a t i o n (W o o d e n C e i l i n g )1. Place the bracket under the wooden ceiling and fasten two screws firmly (asshown in Figure below, Step 1). 2. When the bracket is in place, fasten two screws firmly (as shown in Figurebelow, Step 2) on the bottom of VigorAP. 3. Make the device just below the bracket. Put the screws installed in Step 2 onthe holes of the bracket (as shown in Figure below, Step 3). 4. Gently rotate the device to make screws slide into the notches of thebracket and move forward till it is firmly fixed.Step 1Step 2BracketStep 33.2 C e i l i n g -m o u n t I n s t a l l a t i o n (P l a s t e r b o a r d C e i l i n g )1. Place the bracket under the plasterboard ceiling and fasten two turnbuckles firmly (as shown in Figure below, Step 1).2. Make the screws pass through the bracket and insert into the turnbuckles (asshown in Figure below, Step 2). Fasten them to offer more powerful supporting force.3. When the bracket is in place, fasten two screws firmly (as shown in Figurebelow, Step 3) on the bottom of VigorAP.4. Make the device just below the bracket. Put the screws installed in Step 3 onthe screw holes of the bracket (as shown in Figure below, Step 4).5. Gently rotate the device to make screws slide into the notches of thebracket and move forward till it is firmly fixed.BracketStep 1Step 2Step 3Step 43.3 S u s p e n d e d C e i l i n g (L i g h t w e i g h t S t e e l F r a m e )I n s t a l l a t i o nYou cannot screw into ceiling tiles as they are weak and not suitable for bearing loads. Your VigorAP is supplied with mounts (T-Rail brackets) which attach directly to the metal grid (‘T-Rail’) of your suspended ceiling.1. Choose one set of T-Rail mounting kits from the bundled package.2. Put the T-Rail brackets on the holes of the bottom side of the device. Fastenthem with suitable screws.3. If a larger gap is required between the ceiling and the VigorAP, use theextension pieces to extend the height of the brackets.T-Rail BracketExtension PieceT-Rail BracketExtension Piece4.Attach the T-Rail brackets to the ceiling frame.NoteWarning: The screw set shown below is for wall mounting only. Do not use such set for ceiling mounting due to the danger offalling.3.4 W a l l -M o u n t e d I n s t a l l a t i o nFor wall-mounting, the VigorAP has keyhole type mounting slots on the underside. You can fit the AP at any axis (i.e. 12, 3, 6 or 9 O’Clock) to allow for cable entry from the most convenient location if you are using side entry – note the position of the side entry cable cutout.1. A template is provided on the VigorAP’s packaging box to enable you tospace the screws correctly on the wall.2. Place the template on the wall and drill the holes according to therecommended instruction.3. Fit screws into the wall using the appropriate type of wall plug (as shown inthe ceiling section) but do not use the ceiling bracket – the VigorAP hangs directly onto the screws.Wall (wooden, concrete, plasterboard or others)4.C o n n e c t i o n a n d C o n f i g u r a t i o n4.1N o t i f i c a t i o n s f o r H a r d w a r e C o n n e c t i o n●If required, remove the protective cap of VigorAP to create extra spacefor the cables to pass through.●Connect VigorAP to Vigor router (via LAN port) with Ethernet cable.●Connect VigorAP to PoE switch (via LAN port) with Ethernet cable. Forconnecting with PoE switch, do not connect the power adapter. VigorAPwill get the power from the switch directly.4.2C o n n e c t t o a V i g o r R o u t e r u s i n g A P M a n a g e m e n tYour VigorAP can be used with Vigor routers which support AP management (such as the Vigor2865 or Vigor2927 series). AP Management enables you to monitor and manage multiple DrayTek APs from a single interface.1.Connect one end of the power adapter to power port of VigorAP, and theother side into a wall outlet.2.Access into the web user interface of Vigor router. Here we take Vigor2865as an example. Open Central Management>>AP>>Status.3.Locate VigorAP 960C. Click the IP address assigned by Vigor router to accessinto web user interface of VigorAP 960C.4.After typing username and password (admin/admin), the main screen will bedisplayed.4.3W e b C o n f i g u r a t i o n sThis section will guide you to install the AP and make configuration for VigorAP.C o n n e c t e d A s a M e s h N o d e(i n M e s h N e t w o r k)❶Install VigorAP on to the ceiling.❷As a mesh node, settings related to VigorAP 960C must be configured by a remote Mesh Root (e.g., VigorAP 903) within the mesh network.The user must detect VigorAP 960C via a Mesh Root to add it as a meshnode.C o n n e c t e d A s a n A c c e s s P o i n tAs an access point, VigorAP 960C must be connected to a router and configured in AP (Access Point) / Range Extender mode.❶Install VigorAP on to the ceiling.❷Use a twisted-pair cable with RJ-45 plugs at both ends, and plug into Ethernet device (e.g., Vigor router) and Ethernet port of VigorAP.❸ There are two methods to configure VigorAP.Method 1:(a) First, open a web browser on your PC and type https://192.168.1.2. Apop-up window will open to ask for username and password.Note You may either simply set up your computer to get IPdynamically from the router or set up the IP address of thecomputer to be in the same subnet as the IP address ofVigorAP 960C.● If there is no DHCP server on the network, then VigorAP960C will have an IP address of 192.168.1.2.● If there is DHCP available on the network, then VigorAP960C will receive its IP address via the DHCP server.● If you connect to VigorAP by wireless LAN, you could tryto access the web user interface through .(b) After clicking Login, Quick Start Wizard for configuring wirelesssettings will appear as follows.(c)Follow the on-screen steps to finish the network connection.Method 2:(a)Use a mobile phone to scan the QR code named with DrayTek WirelessApp to download DrayTek Wireless APP.(b)After downloading, run the APP.(c)From the home page, click the Connect icon to access the Connectpage. Next, press the QR code icon next to Scan QR Code on yourphone screen to open the camera.Scan the QR code named with Connect SSID to access the web user interface (configuration wizard) of VigorAP 960C. (For iOS users, the SSID and the password will be shown first. Simply click the Connect button to access the web user interface of VigorAP.)5.C u s t o m e r S e r v i c eIf the device cannot work correctly after trying many efforts, please contact your dealer/DrayTek for further help right away. For any questions, please feel freetosende-mailto“*******************”.B e a R e g i s t e r e d O w n e rWeb registration is preferred. You can register your Vigor router viahttps://..F i r m w a r e&T o o l s U p d a t e sDue to the continuous evolution of DrayTek technology, all routers will beregularly upgraded. Please consult the DrayTek web site for more information on newest firmware, tools and documents.https://GPL Notice This DrayTek product uses software partially or completely licensedunder the terms of the GNU GENERAL PUBLIC LICENSE. The author ofthe software does not provide any warranty. A Limited Warranty isoffered on DrayTek products. This Limited Warranty does not coverany software applications or programs.To download source codes please visit:GNU GENERAL PUBLIC LICENSE:https:///licenses/gpl-2.0Version 2, June 1991For any question, please feel free to contact DrayTek technical*************************************************.14。

Professional Audio & Video Recorder for Conference TMX-0404SDI24×4 High Definition Digital VideoTracking Matrix SwitcherFeatures■Routing: 4×4 High Definition Digital Video Tracking Matrix Switcher■Video interface: BNC female■Data rates : 143 Mbps~2.97 Gbps■Compatible with SMPTE 259 M, SMPTE 292 M, SMPTE 344 M, SMPTE 424 M and DVB-ASI (270 Mbps)■Input equalization and clock recovery, output pre-emphasis■RS-232 control, supporting RS-232 protocols, for connection with central control system■Two RS-422 control port with built-in professional camera control protocols, a variety of professional cameras like TAIDEN HCS-3316HDB, SONY, PELCO and Panasonic can be controlled■One TAINET interface for connection with TAIDEN conference system■One RJ45 interface for TCP/IP connection■Power-off protection for scene status■LCD to display real-time operation■Front panel button control , easy to switch manually■Front panel keyboard lockup and protection function■Scene save and recall function■1U high, full rack widthTechnical SpecificationsVideoData rates 143 Mbps ~ 2.97 Gbps Data types 8 bit or 10 bit Compatible standards SMPTE 259 M, SMPTE 292 M,SMPTE 344 M, SMPTE 424M,DVB-ASI (270 Mbps) Video inputConnectors 4 × BNC female Input level 0.7 V - 1.2 Vp-p Input cable equalization Typical equalization cable length(RG60/ Ø1.0 mm standard cable)************(oddchannel)************(evenintegerchannel)************* Nominal level 0.8 Vp-p Impedance 75 Ohm Return loss 20~*****************Video outputConnectors 4 × BNC double-decker female Nominal level 0.8 V ± 7% Output level 0.5 V - 1.6 Vp-p Impedance 75 Ohm Return loss >***************** DC offset ± 100 mV with no offset at input Jitter 20~30 ps@HD/3G rate40~60 ps@SD rate Rise and fall time (20~80%) SD: 600 psHD/3G: 100 psControlTo central control system:COM (RS-232) RS-232, 9 pin female D connector COM1 Baudrate: 115200, data: 8 bits, stop: 1 bit, no parity RJ45 TCP/IP TAINET Baudrate: 19200, to main unit RS422 Baudrate: 9600, to dome camera RS232 Baudrate: 9600, to control keypadGeneral specsPower supply AC 100 V - 240 V, 50 Hz / 60 Hz Temperature Operating: 0 °C to + 50 °C;storage: -20 °C to + 70 °C Humidity Storage and operating: 10% to 90% Dimensions h × w ×d (mm) 43 × 483 × 208(1U high, full rack width) Weight 2.7 kg Color Gray (PANTONE 425 C) Mean time between failures 30,000 hoursOrdering InformationTMX-0404SDI2 4×4 High Definition Digital VideoTracking Matrix Switcher (SD/HD/3G)Tracking Matrix SwitcherFeatures■Routing: 8×4 High Definition Digital Video Tracking Matrix Switcher■Video interface: BNC female■Data rates : 143 Mbps~2.97 Gbps■Compatible with SMPTE 259 M, SMPTE 292 M, SMPTE 344 M, SMPTE 424 M and DVB-ASI (270 Mbps)■Input equalization and clock recovery, output pre-emphasis■RS-232 control, supporting RS-232 protocols, for connection with central control system■Two RS-422 control port with built-in professional camera control protocols, a variety of professional cameras like TAIDEN HCS-3316HDB, SONY, PELCO and Panasonic canbe controlled■One TAINET interface for connection with TAIDEN conference system■One RJ45 interface for TCP/IP connection■Power-off protection for scene status■LCD to display real-time operation■Front panel button control , easy to switch manually■Front panel keyboard lockup and protection function■Scene save and recall function■1U high, full rack widthTechnical SpecificationsVideoData rates 143 Mbps ~ 2.97 Gbps Data types 8 bit or 10 bit Compatible standards SMPTE 259 M, SMPTE 292 M,SMPTE 344 M, SMPTE 424M,DVB-ASI (270 Mbps) Connectors 8 × BNC female Input level 0.7 V ~ 1.2 Vp-p Input cable equalization Typical equalization cable length(RG60/ Ø1.0 mm standard cable)************(oddchannel)************(evenintegerchannel)************* Nominal level 0.8 Vp-p Impedance 75 Ohm Returnloss20~*****************Video outputConnectors 4 × BNC double-decker female Nominal level 0.8 V ± 7% Output level 0.5 V ~ 1.6 Vp-p Impedance 75 Ohm Return loss >***************** DC offset ± 100 mV with no offset at input Jitter 20~30 ps@HD/3G rate40~60 ps@SD rate Rise and fall time (20~80%) SD: 600 psHD/3G: 100 psControlTo central control system:COM (RS-232) RS-232, 9 pin female D connector COM1 Baudrate: 115200, data: 8 bits, stop: 1 bit, no parity RJ45 TCP/IP TAINET Baudrate: 19200, to main unit RS422 Baudrate: 9600, to dome camera RS232 Baudrate: 9600, to control keypadGeneral specsPower supply AC 100 V - 240 V, 50 Hz / 60 Hz Temperature Operating: 0 °C to + 50 °C;storage: -20 °C to + 70 °C Humidity Storage and operating: 10% to 90% Dimensions h × w ×d (mm) 43 × 483 × 208(1U high, full rack width) Weight 2.8 kg Color Gray (PANTONE 425 C) Mean time between failures 30,000 hoursOrdering InformationTMX-0804SDI2 8×4 High Definition Digital VideoTracking Matrix Switcher (SD/HD/3G)Tracking Matrix SwitcherFeatures■Routing: 8×8 High Definition Digital Video Tracking Matrix Switcher■Video interface: BNC female■Data rates : 143 Mbps~2.97 Gbps■Compatible with SMPTE 259 M, SMPTE 292 M, SMPTE 344 M, SMPTE 424 M and DVB-ASI (270 Mbps)■Input equalization and clock recovery, output pre-emphasis■RS-232 control, supporting RS-232 protocols, for connection with central control system■Two RS-422 control port with built-in professional camera control protocols, a variety of professional cameras like TAIDEN HCS-3316HDB, SONY, PELCO and Panasonic canbe controlled■One TAINET interface for connection with TAIDEN conference system■One RJ45 interface for TCP/IP connection■Power-off protection for scene status■LCD to display real-time operation■Front panel button control , easy to switch manually■Front panel keyboard lockup and protection function■Scene save and recall function■1U high, full rack widthTechnical SpecificationsVideoData rates 143 Mbps ~ 2.97 Gbps Data types 8 bit or 10 bit Compatible standards SMPTE 259 M, SMPTE 292 M,SMPTE 344 M, SMPTE 424M,DVB-ASI (270 Mbps) Connectors 8 × BNC female Input level 0.7 V ~ 1.2 Vp-p Input cable equalization Typical equalization cable length(RG60/ Ø1.0 mm standard cable)************(oddchannel)************(evenintegerchannel)************* Nominal level 0.8 Vp-p Impedance 75 Ohm Returnloss20~*****************Video outputConnectors 8 × BNC double-decker female Nominal level 0.8 V ± 7% Output level 0.5 V ~ 1.6 Vp-p Impedance 75 Ohm Return loss >***************** DC offset ± 100 mV with no offset at input Jitter 20~30 ps@HD/3G rate40~60 ps@SD rate Rise and fall time (20~80%) SD: 600 psHD/3G: 100 psControlTo central control system:COM (RS-232) RS-232, 9 pin female D connector COM1 Baudrate: 115200, data: 8 bits, stop: 1 bit, no parity RJ45 TCP/IP TAINET Baudrate: 19200, to main unit RS422 Baudrate: 9600, to dome camera RS232 Baudrate: 9600, to control keypadGeneral specsPower supply AC 100 V - 240 V, 50 Hz / 60 Hz Temperature Operating: 0 °C to + 50 °C;storage: -20 °C to + 70 °C Humidity Storage and operating: 10% to 90% Dimensions h × w ×d (mm) 43 × 483 × 208(1U high, full rack width) Weight 3.0 kg Color Gray (PANTONE 425 C) Mean time between failures 30,000 hoursOrdering InformationTMX-0808SDI2 8×8 High Definition Digital VideoTracking Matrix Switcher (SD/HD/3G)TMX-1604SDI216×4 High Definition Digital Video Tracking Matrix SwitcherFeatures■Routing: 16×4 High Definition Digital Video Tracking Matrix Switcher■Video interface: BNC female■Data rates : 143 Mbps~2.97 Gbps■Compatible with SMPTE 259 M, SMPTE 292 M, SMPTE 344 M, SMPTE 424 M and DVB-ASI (270 Mbps)■Input equalization and clock recovery, output pre-emphasis■RS-232 control, supporting RS-232 protocols, for connection with central control system■Two RS-422 control port with built-in professional camera control protocols, a variety of professional cameras like TAIDEN HCS-3316HDB, SONY, PELCO and Panasonic canbe controlled■One TAINET interface for connection with TAIDEN conference system■One RJ45 interface for TCP/IP connection■Power-off protection for scene status■LCD to display real-time operation■Front panel button control , easy to switch manually■Front panel keyboard lockup and protection function■Scene save and recall function■1U high, full rack widthTechnical SpecificationsVideoData rates 143 Mbps ~ 2.97 Gbps Data types 8 bit or 10 bit Compatible standards SMPTE 259 M, SMPTE 292 M,SMPTE 344 M, SMPTE 424M,DVB-ASI (270 Mbps) Video inputConnectors 4 × BNC female Input level 0.7 V - 1.2 Vp-p Input cable equalization Typical equalization cable length(RG60/ Ø1.0 mm standard cable)************(oddchannel)************(evenintegerchannel)************* Nominal level 0.8 Vp-p Impedance 75 Ohm Returnloss20~*****************Video outputConnectors 4 × BNC double-decker female Nominal level 0.8 V ± 7% Output level 0.5 V - 1.6 Vp-p Impedance 75 Ohm Return loss >***************** DC offset ± 100 mV with no offset at input Jitter 20~30 ps@HD/3G rate40~60 ps@SD rate Rise and fall time (20~80%) SD: 600 psHD/3G: 100 psControlTo central control system:COM (RS-232) RS-232, 9 pin female D connector COM1 Baudrate: 115200, data: 8 bits, stop: 1 bit, no parity RJ45 TCP/IP TAINET Baudrate: 19200, to main unit RS422 Baudrate: 9600, to dome camera RS232 Baudrate: 9600, to control cameraGeneral specsPower supply AC 100 V - 240 V, 50 Hz / 60 Hz Temperature Operating: 0 °C to + 50 °C;storage: -20 °C to + 70 °C Humidity Storage and operating: 10% to 90% Dimensions h × w ×d (mm) 43 × 483 × 208(1U high, full rack width) Weight 3.0 kg Color Gray (PANTONE 425 C) Mean time between failures 30,000 hoursOrdering InformationTMX-0404SDI2 16×4 High Definition Digital VideoTracking Matrix Switcher (SD/HD/3G)TMX-1608SDI216×8 High Definition Digital Video Tracking Matrix SwitcherFeatures■Routing: 16×8 High Definition Digital Video Tracking Matrix Switcher■Video interface: BNC female■Data rates : 143 Mbps~2.97 Gbps■Compatible with SMPTE 259 M, SMPTE 292 M, SMPTE 344 M, SMPTE 424 M and DVB-ASI (270 Mbps)■Input equalization and clock recovery, output pre-emphasis■RS-232 control, supporting RS-232 protocols, for connection with central control system■Two RS-422 control port with built-in professional camera control protocols, a variety of professional cameras like TAIDEN HCS-3316HDB, SONY, PELCO and Panasonic canbe controlled■One TAINET interface for connection with TAIDEN conference system■One RJ45 interface for TCP/IP connection■Power-off protection for scene status■LCD to display real-time operation■Front panel button control , easy to switch manually■Front panel keyboard lockup and protection function■Scene save and recall function■1U high, full rack widthTechnical SpecificationsVideoData rates 143 Mbps ~ 2.97 Gbps Data types 8 bit or 10 bit Compatible standards SMPTE 259 M, SMPTE 292 M,SMPTE 344 M, SMPTE 424M,DVB-ASI (270 Mbps) Video inputConnectors 16 × BNC female Input level 0.7 V ~ 1.2 Vp-p Input cable equalization Typical equalization cable length(RG60/ Ø1.0 mm standard cable)************(oddchannel)************(evenintegerchannel)************* Nominal level 0.8 Vp-p Impedance 75 Ohm Returnloss20~*****************Video outputConnectors 8 × BNC double-decker female Nominal level 0.8 V ± 7% Output level 0.5 V ~ 1.6 Vp-p Impedance 75 Ohm Return loss >***************** DC offset ± 100 mV with no offset at input Jitter 20~30 ps@HD/3G rate40~60 ps@SD rate Rise and fall time (20~80%) SD: 600 psHD/3G: 100 psControlTo central control system:COM (RS-232) RS-232, 9 pin female D connector COM1 Baudrate: 115200, data: 8 bits, stop: 1 bit, no parity RJ45 TCP/IP TAINET Baudrate: 19200, to main unit RS422 Baudrate: 9600, to dome camera RS232 Baudrate: 9600, to control keypadGeneral specsPower supply AC 100 V - 240 V, 50 Hz / 60 Hz Temperature Operating: 0 °C to + 50 °C;storage: -20 °C to + 70 °C Humidity Storage and operating: 10% to 90% Dimensions h × w ×d (mm) 43 × 483 × 208(1U high, full rack width) Weight 3.2 kg Color Gray (PANTONE 425 C) Mean time between failures 30,000 hoursOrdering InformationTMX-1608SDI2 16×8 High Definition Digital VideoTracking Matrix Switcher (SD/HD/3G)System Connection。

MKE04P24M48SF0 KE04子系列数据手册支持以下产品：MKE04Z8VTG4(R)、MKE04Z8VWJ4(R)和MKE04Z8VFK4(R)主要功能•工作范围–电压范围：2.7至5.5 V–Flash编程电压范围：2.7至5.5 V–温度范围（环境）：-40至105°C•性能–最高48 MHz的ARM® Cortex-M0+内核–单周期32位 x 32位乘法器–单周期I/O访问端口•存储器和存储器接口–最高8 KB的Flash–最高1 KB的RAM•时钟–振荡器(OSC) - 支持32.768 kHz晶振或4 MHz至24 MHz晶振或陶瓷谐振器；可选择低功耗或高增益振荡器–内部时钟源(ICS) - 内部FLL，集成内部或外部基准时钟源、37.5 kHz预校准内部基准时钟源，可用于48 MHz系统时钟–内部1 kHz低功耗振荡器(LPO)•系统外设–电源管理模块(PMC)有三个功率模式：运行、待机和停止–可复位、中断并带可选跳变点的低压检测(LVD)–带独立时钟源的看门狗(WDOG)–可配置循环冗余校验(CRC)模块–串行线调试(SWD)接口–SRAM位操作映射区域(BIT-BAND)–位处理引擎(BME)•安全性和完整性模块–每个芯片拥有80位唯一标识(ID)号•人机接口–最多22个通用输入/输出(GPIO)–两个8位键盘中断(KBI)模块–外部中断(IRQ)模块•模拟模块–一个12通道，12位SAR ADC，可工作在停止模式，可选硬件触发源(ADC)–两个包含6位DAC和可配置参考输入的模拟比较器(ACMP)•定时器–一个6通道FlexTimer/PWM (FTM)–一个2通道FlexTimer/PWM (FTM)–一个2通道周期性中断定时器(PIT)–一个脉宽计数器(PWT)–一个实时时钟(RTC)•通信接口–一个SPI模块(SPI)–一个UART模块(UART)–一个I2C模块(I2C)•封装选项–24引脚QFN–20引脚SOIC–16引脚TSSOPFreescale Semiconductor数据手册: 技术数据Rev 3, 3/2014 Freescale reserves the right to change the detail specifications as may berequired to permit improvements in the design of its products.© 2013 Freescale Semiconductor, Inc.目录1订购器件 (3)1.1确定有效的可订购器件 (3)2器件标识 (3)2.1说明 (3)2.2格式 (3)2.3字段 (3)2.4示例 (4)3参数分类 (4)4额定值 (4)4.1热学操作极限 (4)4.2湿度操作极限 (5)4.3ESD操作额定值 (5)4.4电压和电流操作额定值 (5)5通用 (6)5.1静态电气规格 (6)5.1.1DC特性 (6)5.1.2电源电流特性 (12)5.1.3EMC性能 (13)5.2动态规格 (14)5.2.1控制时序 (14)5.2.2FTM模块时序 (15)5.3热规格 (16)5.3.1热特性 (16)6模块工作要求和行为 (17)6.1内核模块 (17)6.1.1SWD电气规格 (17)6.2外部振荡器(OSC)和ICS特性 (18)6.3NVM规格 (20)6.4模拟 (21)6.4.1ADC特性 (21)6.4.2模拟比较器(ACMP)电气规格 (23)6.5通信接口 (24)6.5.1SPI开关规格 (24)7尺寸 (27)7.1获取封装尺寸 (27)8引脚分配 (27)8.1信号多路复用和引脚分配 (27)8.2器件引脚分配 (29)9修订历史 (30)订购器件1.1确定有效的可订购器件有效可订购器件编号已发布在网络上。

HW19710备件目录
Gearbox/变速器总成一
Gearbox/变速器总成一
Gearbox/变速器总成二
Gearbox/变速器总成二
Gearbox/变速器总成三
Gearbox/变速器总成三
Gearbox/变速器总成四
Gearbox/变速器总成四
Gearbox/变速器总成五
Gearbox/变速器总成五
Gearbox/变速器总成六
Gearbox/变速器总成六
Gearbox/变速器总成七
Gearbox/变速器总成七
AZ2203020106（AZ2203020108）输入轴端盖及导油环总成
输入轴及一轴齿轮总成(AZ2203020014)
输入轴及一轴齿轮总成(AZ2203020014)
副轴总成(右)(AZ2203030210)
副轴总成(右)(AZ2203030210)
副轴总成(左)(AZ2203030209)
副轴总成(左)(AZ2203030209)
主轴总成 (AZ2203040405)
主轴总成 (AZ2203040405)
一、二档拨叉轴总成(AZ2203220010)
一、二档拨叉轴总成(AZ2203220010)
三、四档拨叉轴总成(AZ2203220103)
三、四档拨叉轴总成(AZ2203220103)
倒档拨叉轴总成(AZ2203220001)
倒档拨叉轴总成(AZ2203220001)
范围挡副箱总成(AZ2203100042)
范围挡副箱总成(AZ2203100042)。

Mod520C_2P.O. Box 11 03l D-79200 Breisach, Germany Kueferstrasse 8l D-79206 Breisach, Germany (+49 (7667) 908-0 l Fax +49 (7667) 908-200 l e-mail:****************Mod520C_2© Copyright 2004:FS FORTH-SYSTEME GmbHPostfach 1103, D-79200 Breisach a. Rh., GermanyRelease of Document:May 27, 2004Filename:Mod520C_2.docAuthor:Hans-Peter SchneiderAll rights reserved. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of FS FORTH-SYSTEME GmbH.2Mod520C_2 Table of Contents1.Introduction (4)2.Features (5)3.Functional Description (6)3.1.1.CPU AMD ÉlanSC520 (6)3.1.2.SDRAM stage (6)3.1.3.ROM stage (6)3.1.4.SRAM stage (6)3.1.5.32 I/O Ports (7)3.1.6.256 Byte EEPROM for BIOS and Applications on PIO30,31 (7)3.1.7.On-board Power Supply (7)3.1.8.Voltage Supervision, RESET Generation (7)3.1.9.Serial Ports (7)3.1.10.Fast Ethernet Controller Stage (8)3.1.11.Dual CAN Controller Stage (8)3.1.12.GP Bus used for ISA Bus (9)4.Connectors Of MOD520C (10)4.1.System Connector X2 (10)4.2.System Connector X4 (12)5.Application Notes (14)5.1.Power Supply (14)5.2.Important Signals (14)5.2.13.PCICLKRTN PCICLK PCICLKETHER (14)5.2.14.ISA-Bus Signals (14)5.2.15.CAN-Interrupt IRQ11 (15)6.Members of the MOD520C family (16)3Mod520C_21. IntroductionThe module MOD520C with its integrated and optional peripherals, based on the 32 Bit AMD ÉlanSC520 microcontroller, is designed for medium to high performance applications in telecommunication, data communication and information appliances on the general embedded market. It can easily be designed in customized boards.The AMD ÉlanSC520 microcontroller combines a low voltage 586 CPU running on 133 MHz, including FPU (Floating Point Unit) with a set of integrated peripherals: 32 Bit PCI controller, SDRAM controller for up to 256 MByte, GP (General Purpose) bus with programmable timing and ROM/Flash controller. Enhanced PC compatible peripherals like DMA controller, two UARTs and battery buffered RTC and CMOS, watchdog and software timers make this device a very fast system for both real time and PC/AT compatible applications. Insyde Software’s Mobile BIOS is available which offers serial and parallel remote features (video, keyboard, floppy). Furthermore FS FORTH-SYSTEME has adapted Datalight Sockets (TCP/IP Stack), ROM-DOS and the Flash File System FlashFX to this environment.The MOD520C offers the software engineer the possibility to reduce the time-to-market phase even more. FS FORTH-SYSTEME added several features on-board as SDRAM (up to 64 MByte), PCI Fast Ethernet controller to facilitate networking and remote control. A Strata-FLASH for booting and data is included on board. Two CAN Ports are additionally available for communication. 512 Kbyte SRAM is available for battery buffered data. The enhanced JTAG port for low-cost debugging is supported. This allows instruction tracing during execution. FS FORTH-SYSTEME has adapted Windows CE 3.0 to this platform and offers drivers and support. With Ethernet debugging the software designer has powerful means for fast debugging his applications.Due to the 16 MByte FLASH it is possible to build larger, complete systems on this module like Linux, QNX or VxWorks.4Mod520C_252. Features• 16 MByte STRATA-FLASH or 2 MByte AMD FLASH • 64 MByte or 16 MByte SDRAM • 512 KByte battery buffered SRAM• PCI Ethernet controller with EEPROM. Rx and Tx signals are providedon the System Connectors • Two CAN-Buses.• Enhanced JTAG port available on System Connector.• GP-Bus signals available on System Connector • PCI-Bus signals available on System Connector• BIOS for ÉlanSC520 by Insyde Software Inc. Including serial or parallelremote features (Video, Keyboard, Floppy).Mod520C_23. Functional Description3.1.1. CPU AMD ÉlanSC520The CPU AMD ÉlanSC520 is powered with 2.5V (core and analog path) and 3.3V (all other voltages) except VRTC, which is powered with about 3V either from battery or from on-board 3.3V. This voltage is limited to 3.3V, the other 3.3V power planes have a limit of 3.6V.The CPU is clocked with a 32.768 kHz quartz. An internal PLL derives from this frequency the RTC clock and DRAM refresh clock and the clocks for PC/AT compatible PIT (1.1882 MHz) and UARTs (18.432 MHz). All other stages (CPU, PCI, GP bus, GP DMA, ROM, SSI, timers) are fed from the second clock generator driven by a 33.33 MHz clock oscillator. SDRAM is clocked with 66.66 MHz.3.1.2. SDRAM stageThe SDRAM (up to 128 MByte on-board) has its own DRAM bus containing memory addresses MA0..12, memory data MD0..31 and control signals for up to four banks. Due to small load no buffering of clocks and signals is necessary.3.1.3. ROM stageROM or FLASH are driven by the general purpose address bus GPA0..25. It has three programmable chip selects with each up to 64 MByte range. The ROM Data bus is either the 32 bit general purpose bus GPD0..31 or the memory data bus MD0..31. Configuration pins decide, which bus at boot time is used. The bus size is selectable with 8, 16 or 32 bit. The MOD520C has a FLASH IC for up to 16 MByte 16 bit ROM or FLASH selected by BOOTCS# connected to MD0..15. 3.1.4. SRAM stageThe SRAM (512 KByte on-board) is buffered by VBAT. The Memory Location is defined in the System BIOS. ROMCS1# is used to access the SRAM.6Mod520C_23.1.5. 32 I/O PortsThe ÉlanSC520 CPU has 32 I/O ports. They have alternate functions. Most of them are control signals for GP bus (PIO0..26) used as ISA-bus. PIO27 (GPCS0#) is used as a programmable external chip select and PIO28,29 are not connected. PIO30,31 are used to drive a serial parameter EEPROM on-board. 3.1.6. 256 Byte EEPROM for BIOS and Applications on PIO30,31An on-board serial EEPROM with 256 byte and I2C bus is controlled by PIO30 (I2CDAT) and PIO31 (I2CCLK). 128 byte are used for non-volatile BIOS defaults, the remaining range may contain application specific data and parameters. The BIOS contains calls to read and write to this memory (see BIOS documentation).3.1.7. On-board Power SupplyThe 2.5V on-board voltage is generated from +5V.An external battery may be connected to the signal VBATIN. Battery status is controlled by BBATSEN, which sets a power fail bit in a status register for RTC, if BBATSEN is low at power-up.3.1.8. Voltage Supervision, RESET GenerationThree voltages are used on board: +2.5V, +3.3V and +5V. U2 controls +5V and U10 controls +3.3V. LBOUT or PWRGOOD will become low, if these voltages are out of tolerance. An external SRESET# is wired or-ed to U10. It can also be activated from extended JTAG signal SRESET# via X1. The wired OR of 1RESET# and 2RESET# control U10. Its output PWRGOOD is low (not active), if either the signals described above from U10 are low or +5V is out of tolerance. Typical length of PWRGOOD low is longer than 1 sec (minimum 790 msec).3.1.9. Serial PortsThe AMD ÉlanSC520 CPU has two internal asynchronous ports and one synchronous serial port. Both of this ports are available at the System Connectors.7Mod520C_23.1.10. Fast Ethernet Controller StageConnected to the PCI bus device 0 (REQ/GNT0#) of the Élan SC520 CPU, a Fast Ethernet Controller U7 supports 10/100Mbps transfer depending on driver software. X3 is a JST B5B-PH-SM3 5 pin connector. Parameters as physical address and power down modes are stored in a 64X16 bit Serial EEPROM controlled by U7. 2 status LEDs LE1, LE2 show the state of the Ethernet connection. For a more detailed hardware and software description see Intel 82559ER manual.3.1.11. Dual CAN Controller StageThe CAN Controller is selected via ROMCS1# and the Memory location is selectable in the BIOS Setup Screen. The CAN Interrupt provided by 82C900 is inverted by the onboard Lattice CPLD. Since the Interrupt asserted by the 82C900 is only a low active pulse of 0.2µs the CPLD holds the interrupt active until the software accesses the Memory at the location CAN-Base+1xxh. The BIOS routes this interrupt to IRQ11.8Mod520C_2 3.1.12. GP Bus used for ISA BusThe AMD ÉlanSC520 CPU contains an 8/16bit General Purpose Bus (GP bus) with 26 address lines (GPA0..25), 16 data lines (GPD0..15) and different control lines using PIO ports in their alternate GP bus function. Its timing is programmable for speeds up to 33MHz. This bus is to emulate a 16 bit ISA bus (PC/104) running with 8 MHz. ISA bus signal are connected without buffers directly to the lines of the CPU due to the 5V tolerance of the 3.3V signals.8 bit signals SMEMRD# and SMEMWR# (active only at addresses beyond 1 MByte) are not supported (GPMEM_RD# and GPMEM_WR# used).The AMD ÉlanSC520 CPU has only 4 DMA channels on GP bus. DMA channel 2 is used for Super-I/O (U2) on EVAMOD520. All four channels are connected to edge connector X2.Not supported ISA bus signals 0WS#, IOCHK#, IRQ15, REFRESH#, 8MHz and 14.318 MHz clocks, MASTER#.9Mod520C_24. Connectors Of MOD520C4.1. System Connector X2Pin Function I/O Pin Function I/O1+3.3V power2GND power 3+3.3V power4GND power 5GPD0I/O6TDP O7GPD1I/O8TDN O9GPD2I/O10not connected11GPD3I/O12RDP I13GPD4I/O14RDN I15GPD5I/O16not connected17GPD6I/O18DRQ0I19GPD7I/O20DRQ2I21GPD8I/O22DRQ5I23GPD9I/O24DRQ7I25GPD10I/O26DACK0#O27GPD11I/O28DACK2#O29GPD12I/O30DACK5#O31GPD13I/O32DACK7#O33GPD14I/O34GND power 35GPD15I/O36GPRESET O37GND power38GPIORD#O39GPA0O40GPIOWR#O41GPA1O42GPALE O43GPA2O44GPBHE#O45GPA3O46GPRDY I47GPA4O48GPAEN O49GPA5O50GPTC O51GPA6O52GPDBUFOE#O53GPA7O54GPIO_CS16#O55GPA8O56GPMEM_CS16#O57GPA9O58GPCS0#O59GPA10O60GPMEM_RD#O61GPA11O62GPMEM_WR#O63GPA12O64GND power 10Pin Function I/O Pin Function I/O65GPA13O66EXTRES#I67GPA14O68PWRGOOD O69BUFA15O70CLKTEST71BUFA16O72PRG_RESET73BUFA17O74GND power75BUFA18O76GPCS1#O77BUFA19O78GPCS2#O79BUFA20O80GPCS3#O81BUFA21O82GPCS4#O83BUFA22O84GPCS5#O85BUFA23O86GPCS6#O87BUFA24O88GPCS7#O89BUFA25O90VBATIN power91GND power92GND power93IRQ1I94RSTLD0I95IRQ3I96RSTLD1I97IRQ4I98RSTLD2I99IRQ5I100RSTLD3I101IRQ6I102RSTLD4I103IRQ7I104RSTLD5I105IRQ9I106RSTLD6I107IRQ10I108RSTLD7I109CANINT I110DBGDIS I111IRQ12I112INSTRC I113IRQ14I114DBGENTR I115SPEAKER O116not connected117+5V power118GND power119+5V power120GND power114.2. System Connector X4Pin Function I/O Pin Function I/O1PCICLKRTN I2GND power 3PCICLK O4PCICLKETHER I5AD0I/O6CBE0#I/O7AD1I/O8CBE1#I/O9AD2I/O10CBE2#I/O11AD3I/O12CBE3#I/O13AD4I/O14not connected15AD5I/O16not connected17AD6I/O18not connected19AD7I/O20not connected21AD8I/O22GND power 23AD9I/O24RXD1I25AD10I/O26TXD1O27AD11I/O28CTS1#I29AD12I/O30DCD1#I31AD13I/O32DSR1#I33AD14I/O34RIN1#I35AD15I/O36DTR1#O37AD16I/O38RTS1#O39AD17I/O40RXD2I41AD18I/O42TXD2O43AD19I/O44CTS2#I45AD20I/O46DCD2#I47AD21I/O48DSR2#I49AD22I/O50RIN2#I51AD23I/O52DTR2#O53AD24I/O54RTS2#O55AD25I/O56CANH1/TXD157AD26I/O58CANL1/RXD159AD27I/O60CANH2/TXD261AD28I/O62CANL2/RXD263AD29I/O64GND power 12Pin Function I/O Pin Function I/O65AD30I/O66SRESET#I67AD31I/O68GPRESET#O69GND power70TCK O71INTA#I72TMS73INTB#I74TDI I75INTC#I76TDO O77INTD#I78TRST#I79REQ0#I80CMDACK81REQ1#I82BR/TC83REQ2#I84GND Power85REQ3#I86STOP/TX87REQ4#I88TRIG/TRACE89GNT0#O90not connected91GNT1#O92ACTLED#O93GNT2#O94LILED#O95GNT3#O96SPEEDLED#O97GNT4#O98not connected99GND power100GND power101PAR I/O102SSI_CLK O103PERR#I/O104SSI_DO O105SERR#I106SSI_DI I107FRAME#I/O108not connected109TRDY#I/O110ISP_TDI I111IRDY#I/O112ISP_TDO O113STOP#I/O114ISP_TMS115DEVSEL#I/O116ISP_TCK I117RST#O118BSCAN#119GND power120GND power135. Application Notes5.1. Power SupplyThe MOD520C needs +3.3V and 5V power supply.3.3V worst case supply current is 1130 mA5V worst case supply current is 550 mABe sure to design your power supply for this current including large load transients.5.2. Important Signals5.2.13. PCICLKRTN PCICLK PCICLKETHERPCICLK is the clock source for the PCI-Bus. PCICLKETHER is the clock input for the Ethernet Controller. PCICLKRTN is the clock input of the AMD Élan Sc520. This pin is used to synchronize the CPU with the external PCI-Bus. Therefore it is important that all clock traces have the same length to provide each PCI-Target with the clock at the same time. Trace length of each of this clocks is 68mm on the module. If you do not plan to connect an additional PCI-Target on your board you just add a serial resistor 33R between PCICLK and PCICLKRTN and one between PCICLK and PCICLKETHER.5.2.14. ISA-Bus SignalsIf you use the ISA-Bus Signals you have to add some resistors to the following Signals:GPD0 – GPD15 4k7 pull upGPRDY1k pull downIRQ´s10k pull upDRQ´s10k pull down145.2.15. CAN-Interrupt IRQ11IRQ11 is used for the CAN-Controller 82C900 and is not sharable. Since the interrupt provided by 82C900 is a low active pulse with a length of 0.2µs the CPLD inverts this signal and holds it until the software acknowledges the interrupt. To acknowledge this interrupt the software has to access a memory location with the offset 1xxh to the CAN-Base. This memory access is just an access of the system memory, not an access of the CAN-Controller.156. Members of the MOD520C familyNumbe r Variant Flash SDRAM SRAM CAN CAN-DriverTemp.320MOD520C_0_V018M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519512k*8Yes Yes0..70°321MOD520C_0_V021M*16, AMD(=2 Mbyte)1*TM015202*4M*16(=16 Mbyte)2*TM01519512k*8Yes Yes0..70°322MOD520C_0_V038M*16, Strata(=16 Mbyte)1*TM014452*16M*16(=64 Mbyte)2*TM01249512k*8Yes Yes0..70°334MOD520C_1_V01MOD520C_2_V018M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519512k*8TM0Yes no0..70°335MOD520C_1_V02MOD520C_2_V021M*16, AMD(=2 Mbyte)1*TM015202*4M*16(=16 Mbyte)2*TM01519512k*8TM0Yes no0..70°336MOD520C_1_V03MOD520C_2_V038M*16, Strata(=16 Mbyte)1*TM014452*16M*16(=64 Mbyte)2*TM01249512k*8TM0Yes no0..70°184MOD520C_1_V048M*16, Strata(=16 Mbyte)1*TM014452*4M*16(=16 Mbyte)2*TM01519No No No0..70°16。

Rev. 3.0–31.05.20221®1SKKHThyristor / Diode ModulesSKKH 107/16 E Features*•Heat transfer through aluminium oxide ceramic insulated metal baseplate •UL recognized, file no. E63532Typical Applications•Rectifier for motor drives •Process control•Rectifier for power suppliesAbsolute Maximum Ratings SymbolConditions Values UnitChip I T(AV)sin. 180°T j =130°C T c =85°C 119A T c =100°C 91A I TSM 10ms T j =25°C 2250A T j =130°C 1900A i 2t10ms T j =25°C 25313A²s T j =130°C18050A²s V RSM T j =25°C 1700V V RRM T j =25°C 1600V V DRM T j =25°C 1600V (di/dt)cr T j =130°C 140A/µs (dv/dt)cr T j =130°C1000V/µs T j -40...130°C Module T stg -40 (125)°C V isola.c.; 50 Hz; r.m.s.1min 3000V 1s3600VCharacteristics SymbolConditions min.typ.max.UnitChip V T T j =25°C,I T =300A 1.6 1.75V V T(TO)T j =130°C 0.80.90V r T T j =130°C2.803.35m ΩI DD ;I RD T j =130°C,V DD = V DRM ; V RD = V RRM 20mA t gd T j =25°C,I G =1A, di G /dt =1A/µs 1µs t gr V D = 0.67 * V DRM 2µs t q T j =130°C 200µs I H T j =25°C150250mA I L T j =25°C,R G =33Ω300600mA V GT T j =25°C,d.c. 2.5V I GT T j =25°C,d.c.100mA V GD T j =130°C, d.c.0.25V I GD T j =130°C, d.c.4mA R th(j-c)continuous DC per chip 0.15K/W per module 0.075K/W R th(j-c)sin. 180°per chip 0.2K/W per module 0.1K/W R th(j-c)rec. 120°per chip 0.21K/W per module0.105K/WModule R th(c-s)chip 0.09K/W module 0.05K/W M s to heatsink M5 4.25 5.75Nm M t to terminals M52.553.45Nm a 5 * 9.81m/s²w75g2Rev. 3.0–31.05.2022© by SEMIKRON© by SEMIKRON Rev. 3.0–31.05.202234Rev. 3.0–31.05.2022© by SEMIKRONThis is an electrostatic discharge sensitive device (ESDS) due to international standard IEC 61340.*IMPORTANT INFORMATION AND WARNINGSThe specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected inSKKHtypical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes.5。