ZXM66N03N8TA中文资料

NPort 6400/6600Series4/8/16/32-port RS-232/422/485secure terminal serversFeatures and Benefits•LCD panel for easy IP address configuration (standard temp.models)•Secure operation modes for Real COM,TCP Server,TCP Client,PairConnection,Terminal,and Reverse Terminal•Nonstandard baudrates supported with high precision •Port buffers for storing serial data when the Ethernet is offline •Supports IPv6•Ethernet redundancy (STP/RSTP/Turbo Ring)with network module •Generic serial commands supported in Command-by-Command mode •Security features based on IEC 62443CertificationsIntroductionThe NPort®6000is a terminal server that uses the SSL and SSH protocols to transmit encrypted serial data over Ethernet.Up to 32serial devices of any type can be connected to the NPort®6000,using the same IP address.The Ethernet port can be configured for a normal or secure TCP/IP connection.The NPort®6000secure device servers are the right choice for applications that use large numbers of serial devices packed into a small space.Security breaches are intolerable and the NPort®6000Series ensures data transmission integrity with support for DES,3DES,and AES encryption algorithms.Serial devices of any type can be connected to the NPort®6000,and each serial port on the NPort®6000can be configured independently for RS-232,RS-422,or RS-485transmission.No Data Loss If Ethernet Connection FailsThe NPort®6000is a reliable device server that provides users with secure serial-to-Ethernet data transmission and a customer-oriented hardware design.If the Ethernet connection fails,the NPort®6000will queue all serial data in its internal 64KB port buffer.When the Ethernet connection is re-established,the NPort®6000will immediately release all data in the buffer in the order that it was ers can increase the port buffer size by installing an SD card.LCD Panel Makes Configuration EasyThe NPort®6600has a built-in LCD panel for configuration.The panel displays the server name,serial number,and IP address,and any of the device server’s configuration parameters,such as IP address,netmask,and gateway address,can be updated easily and quickly.Note:The LCD panel is only available with standard-temperature models.Adjustable Resistor Values for RS-485CommunicationThe NPort®6600provides adjustable termination,pull high,and pull low resistors for RS-485communication.In some criticalenvironments,termination resistors may be needed to prevent the reflection of serial signals,and the pull high and pull low resistors may need adjusting to maintain the integrity of the electrical signal.Since no set of resistor values works for every environment,the NPort®6600allows manual adjustment of the resistor values for each serial port using built-in DIP switches.SpecificationsMemorySD Slot Up to32GB(SD2.0compatible)Input/Output InterfaceAlarm Contact Channels Resistive load:1A@24VDCEthernet Interface10/100BaseT(X)Ports(RJ45connector)1Auto MDI/MDI-X connectionMagnetic Isolation Protection 1.5kV(built-in)Compatible Modules NM Series expansion modules for optional extension of RJ45and fiber Ethernet ports Optical Fiber800Typical Distance4km5km40kmWavelengthTypical(nm)13001310TX Range(nm)1260to13601280to1340 RX Range(nm)1100to16001100to1600Optical PowerTX Range(dBm)-10to-200to-5 RX Range(dBm)-3to-32-3to-34 Link Budget(dB)1229 Dispersion Penalty(dB)31Note:When connecting a single-mode fiber transceiver,we recommend using anattenuator to prevent damage caused by excessive optical power.Note:Compute the“typical distance”of a specific fiber transceiver as follows:Linkbudget(dB)>dispersion penalty(dB)+total link loss(dB).Ethernet Software FeaturesConfiguration Options Web Console(HTTP/HTTPS),Windows Utility,Device Search Utility(DSU),MCC Tool,Serial Console,Telnet/SSH ConsoleManagement ARP,BOOTP,DHCP Client,DNS,HTTP,ICMP,IPv4/IPv6,PPPOE,SMTP,SNMPv1/v2c/v3,SNTP,TCP/IP,Telnet,UDPWindows Real COM Drivers Windows95/98/ME/NT/2000,Windows XP/2003/Vista/2008/7/8/8.1/10(x86/x64),Windows2008R2/2012/2012R2/2016/2019(x64),Windows Embedded CE5.0/6.0,Windows XP EmbeddedLinux Real TTY Drivers Kernel versions:2.4.x,2.6.x,3.x,4.x,and5.xFixed TTY Drivers SCO UNIX,SCO OpenServer,UnixWare7,QNX4.25,QNX6.x,Solaris10,FreeBSD,AIX5.x,HP-UX11i,Mac OS X,macOS10.12,macOS10.13,macOS10.14,macOS10.15 Android API Android3.1.x and laterMIB MIB-IITime Management SNTP ClientUnicast Routing RIPV1/V2,Static RouteAuthentication Local Account Accessibility,RADIUS,TACACS+Serial InterfaceConnector NPort6600Models:8-pin RJ45NPort6450Models:DB9maleNo.of Ports NPort6450Models:4NPort6600-8Models:8NPort6600-16Models:16NPort6600-32Models:32Serial Standards NPort6610Models:RS-232NPort6450/6650Models:RS-232/422/485Secure Operation Modes Reverse SSH,Secure Pair Connection,Secure Real COM,Secure TCP Client,SecureTCP Server,SSHStandard Operation Modes Disabled,Ethernet Modem,Pair Connection,PPP,Printer,Real COM,Reverse Telnet,RFC2217,TCP Client,TCP Server,Terminal,UDPBaudrate50bps to921.6kbps(supports non-standard baudrates)Console Port NPort6600Models:RS-232(TxD,RxD,GND),8-pin RJ45(19200,n,8,1)Data Bits5,6,7,8Stop Bits1,1.5,2Parity None,Even,Odd,Space,MarkFlow Control RTS/CTS,DTR/DSR,XON/XOFFPull High/Low Resistor for RS-485NPort6450/6650Models:1kilo-ohm,150kilo-ohmsRS-485Data Direction Control NPort6450/6650Models:support ADDC®(automatic data direction control) Terminator for RS-485NPort6450/6650Models:120ohmsSerial SignalsRS-232TxD,RxD,RTS,CTS,DTR,DSR,DCD,GNDRS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-4w Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDPower ParametersInput Current NPort6450Models:730mA@12VDCNPort6600Models:DC Models:293mA@48VDC,200mA@88VDCAC Models:140mA@100VAC(8ports),192mA@100VAC(16ports),285mA@100VAC(32ports)Input Voltage NPort6450Models:12to48VDCNPort6600Models:AC Models:100to240VACDC-48V Models:±48VDC(20to72VDC,-20to-72VDC)DC-HV Models:110VDC(88to300VDC)ReliabilityAutomatic Reboot Trigger Built-in WDTAlert Tools Built-in buzzer and RTC(real-time clock)Physical CharacteristicsHousing MetalDimensions(with ears)NPort6450Models:181x103x35mm(7.13x4.06x1.38in)NPort6600Models:480x195x44mm(18.9x7.68x1.73in) Dimensions(without ears)NPort6450Models:158x103x35mm(6.22x4.06x1.38in)NPort6600Models:440x195x44mm(17.32x7.68x1.73in) Weight NPort6450Models:1,020g(2.25lb)NPort6600-8Models:3,460g(7.63lb)NPort6600-16Models:3,580g(7.89lb)NPort6600-32Models:3,600g(7.94lb)Interactive Interface LCD panel display(non-T models only)Push buttons for configuration(non-T models only) Installation NPort6450Models:Desktop,DIN-rail mounting,Wall mountingNPort6600Models:Rack mounting(with optional kit) Environmental LimitsOperating Temperature Standard Models:0to55°C(32to131°F)-HV Models:-40to85°C(-40to185°F)All other-T Models:-40to75°C(-40to167°F)Storage Temperature(package included)Standard Models:-40to75°C(-40to167°F)-HV Models:-40to85°C(-40to185°F)All other-T Models:-40to75°C(-40to167°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsEMC EN55032/24EMI CISPR32,FCC Part15B Class AEMS NPort6450Models:IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:3V/mIEC61000-4-4EFT:Power:1kV;Signal:0.5kVIEC61000-4-5Surge:Power:1kVIEC61000-4-6CS:150kHz to80MHz:3V/m;Signal:3V/mIEC61000-4-8PFMFIEC61000-4-11NPort6600Models(except-48V/-HV models):IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:3V/mIEC61000-4-4EFT:Power1kV;Signal0.5kVIEC61000-4-5Surge:Power:2kVIEC61000-4-6CS:150kHz to80MHz:3V/m;Signal:3V/mIEC61000-4-8PFMFIEC61000-4-11NPort6600-48V Models:IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:3V/mIEC61000-4-4EFT:Power:1kV;Signal:0.5kVIEC61000-4-5Surge:Power:1kVIEC61000-4-6CS:150kHz to80MHz:3V/m;Signal:3V/mIEC61000-4-8PFMFIEC61000-4-3RS:80MHz to1GHz:3V/mIEC61000-4-4EFT:Power:4kV;Signal:2kVIEC61000-4-5Surge:Power:2kVIEC61000-4-6CS:150kHz to80MHz:3V/m;Signal:3V/mIEC61000-4-8PFMFSafety UL60950-1Traffic Control NEMA TS2Vibration IEC60068-2-6Freefall IEC60068-2-34DeclarationGreen Product RoHS,CRoHS,WEEEMTBFTime NPort6450Models:850,905hrsNPort6610-8Models:135,891hrsNPort6610-16Models:102,373hrsNPort6610-32Models:68,707hrsNPort6650-8Models:636,600hrsNPort6650-16Models:439,673hrsNPort6650-32Models:310,078hrsNPort6650-8-HV-T:501,171hrsNPort6650-16-HV-T:380,006hrsNPort6650-32-HV-T:290,914hrsStandards NPort6450Models:Telcordia(Bellcore)Standard TR/SRNPort6600Models:Telcordia(Bellcore)StandardWarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x NPort6400/6600Series terminal serverInstallation Kit2x rack-mounting ear(NPort6600models)Cable1x DB9male to RJ458-pin(NPort6600models)Power Supply1x power cable,suitable for your region(AC models except-T models)1x power adapter,suitable for your region(NPort6450) Documentation1x quick installation guide1x warranty cardDimensionsNPort6450NPort6600Ordering InformationModel Name No.of Serial Ports Serial Standards Serial Interface Operating Temp.Input Voltage NPort64504RS-232/422/485DB9male0to55°C12to48VDC NPort6450-T4RS-232/422/485DB9male-40to75°C12to48VDC NPort6610-88RS-2328-pin RJ450to55°C100-240VACNPort6610-8-48V8RS-2328-pin RJ450to55°C 48VDC;+20to+72 VDC,-20to-72VDCNPort6610-1616RS-2328-pin RJ450to55°C100-240VACNPort6610-16-48V16RS-2328-pin RJ450to55°C 48VDC;+20to+72 VDC,-20to-72VDCNPort6610-3232RS-2328-pin RJ450to55°C100-240VACNPort6610-32-48V32RS-2328-pin RJ450to55°C 48VDC;+20to+72 VDC,-20to-72VDCNPort6650-88RS-232/422/4858-pin RJ450to55°C100-240VAC NPort6650-8-T8RS-232/422/4858-pin RJ45-40to75°C100-240VACNPort6650-8-HV-T8RS-232/422/4858-pin RJ45-40to85°C 110VDC;88to300VDCNPort6650-8-48V8RS-232/422/4858-pin RJ450to55°C 48VDC;+20to+72 VDC,-20to-72VDCNPort6650-1616RS-232/422/4858-pin RJ450to55°C100-240VACNPort6650-16-48V16RS-232/422/4858-pin RJ450to55°C 48VDC;+20to+72 VDC,-20to-72VDCNPort6650-16-T16RS-232/422/4858-pin RJ45-40to75°C100-240VACNPort6650-16-HV-T16RS-232/422/4858-pin RJ45-40to85°C 110VDC;88to300VDCNPort6650-3232RS-232/422/4858-pin RJ450to55°C100-240VACNPort6650-32-48V32RS-232/422/4858-pin RJ450to55°C 48VDC;+20to+72 VDC,-20to-72VDCNPort6650-32-HV-T32RS-232/422/4858-pin RJ45-40to85°C 110VDC;88to300VDCAccessories(sold separately)CablesCBL-RJ45F25-1508-pin RJ45to DB25female serial cable,1.5mApplicable Models:NPort6650-8-48VNPort6650-8-HV-TNPort6650-32-48VNPort6650-32-HV-TNPort6650-16-HV-TNPort6650-16-48VCBL-RJ45F9-1508-pin RJ45to DB9female serial cable,1.5mApplicable Models:NPort6650-16NPort6650-8-48VNPort6610-32-48VNPort6650-16-48VNPort6650-16-TNPort6650-8NPort6650-8-HV-TNPort6610-16NPort6650-32-HV-TNPort6610-8NPort6650-32-48VNPort6650-16-HV-TNPort6610-32NPort6610-16-48VNPort6610-8-48VNPort6650-8-TNPort6650-32CBL-RJ45M25-1508-pin RJ45to DB25male serial cable,1.5mApplicable Models:NPort6650-8NPort6650-8-HV-TNPort6610-16NPort6650-8-TNPort6610-32-48VNPort6650-16-TNPort6650-8-48VNPort6650-16-HV-TNPort6650-16-48VNPort6650-16NPort6650-32-HV-TNPort6650-32NPort6610-8NPort6610-8-48VNPort6650-32-48VNPort6610-16-48VNPort6610-32CBL-RJ45M9-1508-pin RJ45to DB9male serial cable,1.5mApplicable Models:NPort6610-32-48VNPort6610-8-48VNPort6650-32NPort6650-8NPort6650-32-HV-TNPort6610-16NPort6610-8NPort6650-16-HV-TNPort6610-16-48VNPort6610-32NPort6650-32-48VNPort6650-8-TNPort6650-16-TNPort6650-8-HV-TNPort6650-16-48VCBL-RJ45SF25-1508-pin RJ45to DB25female serial cable with shielding,1.5mApplicable Models:NPort6610-16NPort6610-32-48VNPort6610-32NPort6650-32NPort6650-32-48VNPort6610-8NPort6650-16-TNPort6610-16-48VNPort6650-32-HV-TNPort6650-16NPort6650-8NPort6650-16-48VNPort6650-16-HV-TNPort6650-8-TNPort6610-8-48VNPort6650-8-48VNPort6650-8-HV-TCBL-RJ45SF9-1508-pin RJ45to DB9female serial cable with shielding,1.5mApplicable Models:NPort6610-32NPort6650-8NPort6650-32NPort6650-8-HV-TNPort6650-16-HV-TNPort6610-8NPort6650-16NPort6610-16NPort6650-16-48VNPort6650-8-TNPort6650-8-48VNPort6650-32-48VNPort6650-16-TNPort6610-32-48VNPort6610-8-48VNPort6610-16-48VNPort6650-32-HV-TCBL-RJ45SM25-1508-pin RJ45to DB25male serial cable with shielding,1.5mApplicable Models:NPort6650-8NPort6650-8-48VNPort6610-32-48VNPort6650-8-TNPort6650-32-HV-TNPort6650-32NPort6610-16NPort6650-16NPort6610-8-48VNPort6650-16-TNPort6610-8NPort6610-16-48VNPort6650-16-48VNPort6610-32NPort6650-8-HV-TNPort6650-32-48VNPort6650-16-HV-TCBL-RJ45SM9-1508-pin RJ45to DB9male serial cable with shielding,1.5mNPort6650-8-TNPort6610-32-48VNPort6610-16-48VNPort6650-16-48VNPort6610-8NPort6650-32-HV-TNPort6610-8-48VNPort6650-16-HV-TNPort6650-32-48VNPort6650-8-HV-TNPort6650-16-TNPort6610-32NPort6650-8-48VNPort6650-16NPort6650-8ConnectorsMini DB9F-to-TB DB9female to terminal block connectorApplicable Models:NPort6450NPort6450-TDIN-Rail Mounting KitsDK35A DIN-rail mounting kit,35mmApplicable Models:NPort6450NPort6450-TExpansion ModulesNM-TX01110/100BaseTX portNM-TX01-T110/100BaseTX port,-40to75°C operating temperatureNM-TX02210/100BaseTX portsNM-TX02-T210/100BaseTX ports,-40to75°C operating temperatureNM-FX01-M-SC1100BaseFX port,multi-mode,SC connectorNM-FX01-M-SC-T1100BaseFX port,multi-mode,SC connector,-40to75°C operating temperatureNM-FX01-S-SC1100BaseFX port,single-mode,SC connectorNM-FX01-S-SC-T1100BaseFX port,single-mode,SC connector,-40to75°C operating temperatureNM-FX02-M-SC2100BaseFX ports,multi-mode,SC connectorNM-FX02-M-SC-T2100BaseFX ports,multi-mode,SC connector,-40to75°C operating temperatureNM-FX02-S-SC2100BaseFX ports,single-mode,SC connectorNM-FX02-S-SC-T2100BaseFX ports,single-mode,SC connector,-40to75°C operating temperaturePower AdaptersPWR-12125-DT-S2Desktop power supply(requires power cord),12VDC,1.25A,100to240VAC,0to40°C operatingtemperatureApplicable Models:NPort6450NPort6450-TPWR-12150-AU-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,Australia(AU)plug,-40to75°C operatingtemperatureApplicable Models:NPort6450-TNPort6650-16-HV-TNPort6650-16-TNPort6650-32-HV-TNPort6650-8-HV-TPWR-12150-CN-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,China(CN)plug,-40to75°C operatingtemperatureApplicable Models:NPort6450-TNPort6650-16-HV-TNPort6650-16-TNPort6650-32-HV-TNPort6650-8-HV-TNPort6650-8-TPWR-12150-EU-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,Continental Europe(EU)plug,-40to75°Coperating temperatureApplicable Models:NPort6450-TNPort6650-16-HV-TNPort6650-16-TNPort6650-32-HV-TNPort6650-8-HV-TNPort6650-8-TPWR-12150-UK-SA-T Locking barrel plug,12VDC,1.5A,100to240VAC,United Kingdom(UK)plug,-40to75°C operatingtemperatureApplicable Models:NPort6450-TNPort6650-16-HV-TNPort6650-16-TNPort6650-32-HV-TNPort6650-8-HV-TNPort6650-8-TPWR-12150-USJP-SA-T Locking barrel plug,12VDC1.5A,100to240VAC,United States/Japan(US/JP)plug,-40to75°Coperating temperatureApplicable Models:NPort6450-TNPort6650-16-HV-TNPort6650-16-TNPort6650-32-HV-TNPort6650-8-HV-TNPort6650-8-TPower CordsPWC-C13AU-3B-183Power cord with Australian(AU)plug,1.83mApplicable Models:NPort6610-16-48VNPort6650-8-48VNPort6650-16-HV-TNPort6610-8-48VNPort6610-32NPort6650-8NPort6650-32NPort6610-32-48VNPort6610-8NPort6650-8-TNPort6610-16NPort6650-16-48VNPort6650-8-HV-TNPort6650-32-48VNPort6650-32-HV-TNPort6650-16NPort6650-16-TPWC-C13CN-3B-183Power cord with three-prong China(CN)plug,1.83mApplicable Models:NPort6650-32NPort6650-8-TNPort6650-8-48VNPort6650-16NPort6650-16-48VNPort6650-16-TNPort6650-8-HV-TNPort6610-16NPort6650-8NPort6610-32-48VNPort6650-16-HV-TNPort6610-16-48VNPort6610-8-48VNPort6650-32-48VNPort6610-8NPort6650-32-HV-TPWC-C13EU-3B-183Power cord with Continental Europe(EU)plug,1.83mApplicable Models:NPort6650-8-48VNPort6650-8-HV-TNPort6650-32NPort6650-16NPort6650-16-TNPort6650-16-HV-TNPort6610-32NPort6650-16-48VNPort6610-16-48VNPort6610-8NPort6610-8-48VNPort6650-32-48VNPort6650-32-HV-TNPort6650-8NPort6610-16NPort6610-32-48VNPort6650-8-TPWC-C13JP-3B-183Power cord with Japan(JP)plug,7A/125V,1.83mApplicable Models:NPort6650-16-TNPort6650-8NPort6610-8NPort6650-8-HV-TNPort6650-32NPort6610-8-48VNPort6650-8-TNPort6650-16NPort6610-16-48VNPort6610-32-48VNPort6650-16-HV-TNPort6650-8-48VNPort6610-16NPort6650-16-48VNPort6610-32NPort6650-32-48VNPort6650-32-HV-TPWC-C13UK-3B-183Power cord with United Kingdom(UK)plug,1.83mApplicable Models:NPort6650-16-HV-TNPort6650-16NPort6610-32NPort6610-16NPort6610-8-48VNPort6650-16-TNPort6610-8NPort6610-32-48VNPort6650-8NPort6650-8-TNPort6650-16-48VNPort6650-32NPort6650-32-HV-TNPort6650-8-48VNPort6650-32-48VNPort6650-8-HV-TNPort6610-16-48VPWC-C13US-3B-183Power cord with United States(US)plug,1.83mApplicable Models:NPort6650-32NPort6650-8NPort6650-16NPort6610-8NPort6650-8-HV-TNPort6610-32NPort6610-8-48VNPort6610-16NPort6610-16-48VNPort6650-16-48VNPort6650-8-48VNPort6650-8-TNPort6610-32-48VNPort6650-32-48VNPort6650-32-HV-TNPort6650-16-HV-TNPort6650-16-TPWC-C7AU-2B-183Power cord with Australian(AU)plug,2.5A/250V,1.83mApplicable Models:NPort6450-TNPort6450PWC-C7EU-2B-183Power cord with Continental Europe(EU)plug,2.5A/250V,1.83mApplicable Models:NPort6450NPort6450-TPWC-C7JP-2B-183Power cord for desktop-type power adapters with Japan(JP)plug,7A/125V,1.83mApplicable Models:NPort6450-TNPort6450PWC-C7UK-2B-183Power cord with United Kingdom(UK)plug,2.5A/250V,1.83mApplicable Models:NPort6450-TNPort6450PWC-C7US-2B-183Power cord with United States(US)plug,10A/125V,1.83mApplicable Models:NPort6450NPort6450-TCBL-PJ21NOPEN-BK-30Locking barrel plug to bare-wire cableWall-Mounting KitsWK-35-01Wall-mounting kit with2plates(35x44x2.5mm)and6screwsApplicable Models:NPort6450NPort6450-TRack-Mounting KitsWK-44-01Rack-mounting kit,2L-shaped plates,8screws,44x57.5x1.6mmApplicable Models:NPort6610-8NPort6610-32NPort6610-32-48VNPort6610-16-48VNPort6610-16NPort6610-8-48VNPort6650-16-TNPort6650-16-48VNPort6650-16NPort6650-32-HV-TNPort6650-16-HV-TNPort6650-8-TNPort6650-32NPort6650-32-48VNPort6650-8-HV-TNPort6650-8NPort6650-8-48V©Moxa Inc.All rights reserved.Updated Aug11,2021.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

数显表沈阳泰克自动化仪表有限公司目录ZXM系列仪表通用技术参数 (2)ZXMZ智能数字显示调节仪 (4)ZXMT智能数字显示调节仪 (8)ZXMS智能双输入显示调节仪 (12)ZXMD智能回路巡检仪 (16)ZXMJ智能流量积算仪 (19)ZXMP智能连续PID调节仪 (21)ZXMPD智能断续PID调节仪 (25)ZXMPF智能伺服PID调节仪 (29)ZXMH-DFD伺服智能手操器 (33)ZXMH-DFDA伺服智能后备手操器 (36)ZXMH-DFQ智能手操器 (40)ZXMH-DFQA智能后备手操器 (43)XXS-8八点闪光报警器 (47)ZXM各系列仪表通用技术参数_______________________________________________________________________________ 电偶型（K、E、S、B、J、T、R、N） 输入阻抗＞10MΩ电阻型（Pt100、Cu100、Cu50、BA2、BA1、G、Pt100x、线性电阻0～400Ω） 输入阻抗≤ 50Ω不影响测量显示精度,引线电阻三根相等电压信号（0～20mV、0～75 mV 、0～200 mV、 0～5 V、1～5 V ）输入阻抗≥200KΩ电流信号（4～20mA、0～10mA） 0～10mA输入阻抗≤ 500Ω 4～20mA输入阻抗≤ 250Ω输入特性脉冲输入型：输入阻抗大于1kΩ,CMOS、TTL电平或磁感应信号均可输入频率0.01～10000Hz基本误差 0.2级（专用） δ=0.2%Fs±末位1个字 0.5级（常用） δ=0.5%Fs±末位1个字显示方式 0.8、0.56、0.5英寸超高亮LED电源电压185～245VAC(线性电源) 电源频率50±2.5 Hz电源电压 85～260VAC (开关电源) 电源频率50 Hz/60 Hz/直流 供电电源电源电压24VDC继电器输出 触电容量：250VAC/7A、120VAC/10A、24VDC/10A（阻性负载）模拟量隔离变送输出 驱动负载电阻 电流信号：0～10mA，RL≤1.5K Ω 4～20Ma，RL≤750Ω电压信号：0～5V、1～5VRL≥500kΩ通讯方式 RS485 波特率：2400～19200输出方式配电输出 24VDC,100mA 工作环境 环境温度：0～50℃ 相对湿度：≤85%RH重 量 重量：0.6kg；0.25kg安装方式 卡入式注：本选型手册相关内容仅供参考，若有变更，我公司不再另行通知，各类产品接线图以说明书为准。

UNISONIC TECHNOLOGIES CO., LTD6N60Power MOSFET6.2 Amps, 600/650 VoltsN-CHANNEL MOSFETDESCRIPTIONThe UTC 6N60 is a high voltage MOSFET and is designed to have better characteristics, such as fast switching time, low gate charge, low on-state resistance and have a high rugged avalanche characteristics. This power MOSFET is usually used at high speed switching applications in switching power supplies and adaptors.FEATURES* R DS(ON) = 1.5Ω@V GS = 10V* Ultra low gate charge (typical 20 nC )* Low reverse transfer Capacitance ( C RSS = typical 10pF ) * Fast switching capability * Avalanche energy tested* Improved dv/dt capability, high ruggednessSYMBOL1.Gate*Pb-free plating product number: 6N60LORDERING INFORMATIONOrdering Number Pin AssignmentNormal Lead Free Plating Package 1 2 3 Packing6N60-x-TA3-T 6N60L-x-TA3-T TO-220 G D S TubeABSOLUTE MAXIMUM RATINGS (T C = 25℃, unless otherwise specified)PARAMETER SYMBOL RATINGS UNIT6N60-A 600 VDrain-Source Voltage 6N60-B V DSS650 VGate-Source Voltage V GSS ±30 V Avalanche Current (Note 1)I AR 6.2 AT C = 25°C 6.2 AContinuous Drain Current T C = 100°C I D3.9 APulsed Drain Current (Note 1) I DM 24.8 ASingle Pulsed (Note 2)E AS 440 mJAvalanche EnergyRepetitive (Note 1) E AR 13 mJPower Dissipation P D 62.5 W Junction Temperature T J +150 Operating Temperature T OPR -55 ~ +150 Storage Temperature T STG -55 ~ +150 Note: Absolute maximum ratings are those values beyond which the device could be permanently damaged.Absolute maximum ratings are stress ratings only and functional device operation is not implied. THERMAL DATAPARAMETER SYMBOL RATING UNITJunction-to-Ambient θJA 62 °C/W Junction-to-Case θJC 2 °C/WELECTRICAL CHARACTERISTICS (T J =25℃, unless otherwise specified)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNIT OFF CHARACTERISTICS6N60-A 600 VDrain-Source Breakdown Voltage 6N60-B BV DSS V GS = 0V, I D = 250µA650 VDrain-Source Leakage Current I DSS V DS = 600V, V GS = 0V 10µAForward V GS = 30V, V DS = 0V 100nAGate- Source Leakage Current Reverse I GSSV GS = -30V, V DS = 0V-100nA Breakdown Voltage TemperatureCoefficientBV DSS /△T J I D = 250 µA, Referenced to 25°C 0.53 V/ON CHARACTERISTICS Gate Threshold Voltage V GS(TH) V DS = V GS , I D = 250µA 2.0 4.0V Static Drain-Source On-State Resistance R DS(ON) V GS = 10V, I D = 3.1A 1.5ΩDYNAMIC CHARACTERISTICS Input Capacitance C ISS 770 1000pFOutput Capacitance C OSS 95 120pFReverse Transfer Capacitance C RSS V DS =25V, V GS =0V, f=1.0 MHz 10 13pF SWITCHING CHARACTERISTICS Turn-On Delay Time t D(ON) 20 50nsTurn-On Rise Time t R 70 150ns Turn-Off Delay Time t D(OFF) 40 90nsTurn-Off Fall Time t F V DD =300V, I D =6.2A, R G =25Ω (Note 4, 5) 45 100ns Total Gate Charge Q G 20 25nCGate-Source Charge Q GS 4.9 nCGate-Drain Charge Q GDV DS =480V, I D =6.2A, V GS =10 V(Note 4, 5)9.4 nCELECTRICAL CHARACTERISTICSPARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITDRAIN-SOURCE DIODE CHARACTERISTICS AND MAXIMUM RATINGS Drain-Source Diode Forward Voltage V SD V GS = 0 V, I S = 6.2 A 1.4VMaximum Continuous Drain-Source DiodeForward CurrentI S 6.2AMaximum Pulsed Drain-Source DiodeForward CurrentI SM 24.8AReverse Recovery Time t RR 290 ns Reverse Recovery Charge Q RR V GS = 0 V, I S = 6.2 A,dI F /dt = 100 A/µs (Note 4) 2.35 µCNotes: 1. Repetitive Rating : Pulse width limited by T J2. L = 16.8mH, I AS = 6A, V DD = 90V, R G = 25 Ω, Starting T J = 25°C3. I SD ≤ 6.2A, di/dt ≤200A/µs, V DD ≤ BV DSS , Starting T J = 25°C4. Pulse Test: Pulse width ≤ 300µs, Duty cycle ≤ 2%5. Essentially independent of operating temperatureTEST CIRCUITS AND WAVEFORMSV DDV GS (Driver)I SD (D.U.T.)Body DiodeForward Voltage DropV DS (D.U.T.)Fig. 1A Peak Diode Recovery dv/dt Test CircuitFig. 1B Peak Diode Recovery dv/dt WaveformsTEST CIRCUITS AND WAVEFORMS(Cont.)Fig. 2A Switching Test CircuitFig. 2B Switching WaveformsFig. 3A Gate Charge Test Circuit Fig. 3B Gate Charge Waveform10VLFig. 4A Unclamped Inductive Switching Test Circuit Fig. 4B Unclamped Inductive Switching WaveformsTYPICAL CHARACTERISTICS。

SUMMARYV (BR)DSS = 30V;R DS(ON)= 0.035;I D = 6.2ADESCRIPTIONThis new generation of TRENCH MOSFETs from Zetex utilizes a unique structure that combines the benefits of low on-resistance with fast switching speed.This makes them ideal for high efficiency,low voltage,power management applications.FEATURES•Low on-resistance •Fast switching speed •Low threshold •Low gate drive•Low profile SOIC packageAPPLICATIONS•DC - DC Converters•Power Management Functions •Disconnect switches •Motor controlDEVICE MARKINGZXMN 3A06DZXMN3A06DN8ISSUE 2 - OCTOBER 20021DUAL 30V N-CHANNEL ENHANCEMENT MODE MOSFETDEVICEREEL TAPE WIDTH QUANTITY PER REEL ZXMN3A06DN8TA 7’‘12mm 500 units ZXMN3A06DN8TC13’‘12mm2500 unitsORDERING INFORMATIONSO8Top viewPINOUTZXMN3A06DN8ISSUE 2 - OCTOBER 20022PARAMETERSYMBOL LIMIT UNIT Drain-Source Voltage V DSS 30V Gate Source VoltageV GS Ϯ20V Continuous Drain Current (V GS =10V;T A =25°C)(b)(d)(V GS =10V;T A =70°C)(b)(d)(V GS =10V;T A =25°C)(a)(d)I D6.25.04.9APulsed Drain Current (c)I DM 30A Continuous Source Current (Body Diode)(b)I S 3.7A Pulsed Source Current (Body Diode)(c)I SM 30A Power Dissipation at T A =25°C (a)(d)Linear Derating FactorP D 1.2510W mW/°C Power Dissipation at T A =25°C (a)(e)Linear Derating FactorP D 1.8014.5W mW/°C Power Dissipation at T A =25°C (b)(d)Linear Derating FactorP D 2.117.3W mW/°C Operating and Storage Temperature RangeT j :T stg-55 to +150°CABSOLUTE MAXIMUM RATINGS.PARAMETERSYMBOL VALUE UNIT Junction to Ambient (a)(d)R θJA 100°C/W Junction to Ambient (a)(e)R θJA 69°C/W Junction to Ambient (b)(d)R θJA58°C/WNOTES(a) For a device surface mounted on 25mm x 25mm FR4 PCB with high coverage of single sided 1oz copper, in still air conditions (b) For a device surface mounted on FR4 PCB measured at t р10 secs.(c) Repetitive rating 25mm x 25mm FR4 PCB, D=0.02 pulse width=300µs - pulse width limited by maximum junction temperature. Refer to Transient Thermal Impedance graph.(d) For device with one active die(e) For device with two active die running at equal power.THERMAL RESISTANCEZXMN3A06DN8ISSUE 2 - OCTOBER 20023ZXMN3A06DN8ISSUE 2 - OCTOBER 20024PARAMETER SYMBOL MIN.TYP.MAX.UNIT CONDITIONS.STATICDrain-Source Breakdown Voltage V (BR)DSS 30V I D =250µA,V GS =0V Zero Gate Voltage Drain Current I DSS 0.5␮A V DS =30V,V GS =0V Gate-Body LeakageI GSS 100nA V GS =±20V,V DS =0V Gate-Source Threshold VoltageV GS(th)1V I D=250␮A,V DS =V GSStatic Drain-Source On-State Resistance (1)R DS(on)0.0350.050⍀⍀V GS =10V,I D =9A V GS =4.5V,I D =7.4A Forward Transconductance (1)(3)g fs 13.5S V DS =15V,I D =9ADYNAMIC (3)Input Capacitance C iss 796pF V DS =25V,V GS =0V,f=1MHzOutput CapacitanceC oss 137pF Reverse Transfer Capacitance C rss 83.5pF SWITCHING (2)(3)Turn-On Delay Time t d(on) 3.0ns V DD =15V,I D =3.5A R G =6.0⍀,V GS =10V Rise Timet r 6.4ns Turn-Off Delay Time t d(off)21.6ns Fall Time t f 9.4ns Gate Charge Q g 9.2nC V DS =15V,V GS =5V,I D =3.5ATotal Gate Charge Q g 17.5nC V DS =15V,V GS =10V,I D =3.5AGate-Source Charge Q gs 2.3nC Gate-Drain Charge Q gd 3.1nC SOURCE-DRAIN DIODE Diode Forward Voltage (1)V SD 0.850.95V T J =25°C,I S =5.1A,V GS =0VReverse Recovery Time (3)t rr 17.8ns T J =25°C,I F =3.5A,di/dt=100A/µsReverse Recovery Charge (3)Q rr11.6nCELECTRICAL CHARACTERISTICS (at T amb = 25°C unless otherwise stated).NOTES(1) Measured under pulsed conditions. Width ≤300µs. Duty cycle ≤2% .(2) Switching characteristics are independent of operating junction temperature.(3) For design aid only, not subject to production testing.ZXMN3A06DN8 TYPICAL CHARACTERISTICSZXMN3A06DN8TYPICAL CHARACTERISTICSISSUE 2 - OCTOBER 20026Zetex plcFields New Road ChaddertonOldham, OL9 8NP United KingdomTelephone (44) 161 622 4422Fax: (44) 161 622 4420Zetex GmbHStreitfeldstraße 19D-81673 München GermanyTelefon: (49) 89 45 49 49 0Fax: (49) 89 45 49 49 49Zetex Inc700 Veterans Memorial Hwy Hauppauge, NY11788USATelephone: (631) 360 2222Fax: (631) 360 8222Zetex (Asia) Ltd3701-04Metroplaza, Tower 1Hing Fong Road Kwai Fong Hong KongTelephone: (852) 26100 611Fax: (852) 24250 494These offices are supported by agents and distributors in major countries world-wide.This publication is issued to provide outline information only which (unless agreed by the Company in writing)may not be used,applied or reproduced for any purpose or form part of any order or contract or be regarded as a representation relating to the products or services concerned.The Company reserves the right to alter without notice the specification,design,price or conditions of supply of any product or service.For the latest product information,log on to©Zetex plc 2002ZXMN3A06DN8ISSUE 2 - OCTOBER 20027DIMINCHESMILLIMETRESMINMAX MIN MAX A 0.0530.069 1.35 1.75A10.0040.0100.100.25D 0.1890.197 4.80 5.00H 0.2280.244 5.80 6.20E 0.1500.157 3.80 4.00L 0.0160.0500.401.27e 0.050 BSC 1.27 BSC b 0.0130.0200.330.51c0.0080.0100.190.25⍜0Њ8Њ0Њ8Њh0.0100.0200.250.50PACKAGE DIMENSIONSPACKAGE OUTLINECONTROLLING DIMENSIONS ARE IN INCHESAPPROX IN MILLIMETRES分销商库存信息:DIODESZXMN3A06DN8TA ZXMN3A06DN8TC。

General DescriptionThe MAX6653/MAX6663/MAX6664 are ACPI-compliant local and remote-junction temperature sensors and fan controllers. These devices measure their own die tem-perature, as well as the temperature of a remote-PN junction and control the speed of a DC cooling fan based on the measured temperature. Remote tempera-ture measurement accuracy is ±1°C from +60°C to +100°C. Temperature measurement resolution is 0.125°C for both local and remote temperatures.Internal watchdog set points are provided for both local and remote temperatures. There are two comparison set points for local temperatures and two for remote temperatures. When a set point is crossed, the MAX6653/MAX6663/MAX6664 assert either the INT or THERM outputs. These outputs can be used as inter-rupts, clock throttle signals, or overtemperature shut-down signals. Two pins on the MAX6653 control the power-up values of the comparison set points, provid-ing fail-safe protection even when the system is unable to program the trip temperatures. The MAX6653 has two additional shutdown outputs, SDR and SDL , that are triggered when the remote or local temperatures exceed the programmed shutdown set points. The INT output for the MAX6653/MAX6663 and THERM outputs for the MAX6653/MAX6663/MAX6664 can also function as inputs if either is pulled low to force the fan to full speed, unless this function is masked by the user.The MAX6653/MAX6663/MAX6664 are available in 16-pin QSOP packages and operate over the -40°C to +125°C temperature range.ApplicationsPersonal Computers Servers Workstations Telecom Equipment Networking Equipment Test Equipment Industrial ControlsFeatureso Remote-Junction Temperature Sensor Within ±1°C Accuracy (+60°C to +100°C)o ACPI-Compatible Programmable Temperature Alarms o 0.125°C Resolution Local and Remote-Junction Temperature Measurement o Programmable Temperature Offset for System Calibration o SMBus 2-Wire Serial Interface with Timeout o Automatic or Manual Fan-Speed Control o PWM Fan Control Outputo Fan-Speed Monitoring and Watchdog o Fan Fault and Failure Indicators o Compatible with 2-Wire or 3-Wire Fans (Tachometer Output)o +3V to +5.5V Supply Rangeo Additional Shutdown Set Point (MAX6653)o Controlled PWM Rise/Fall TimesMAX6653/MAX6663/MAX6664Temperature Monitors andPWM Fan Controllers________________________________________________________________Maxim Integrated Products1Pin Configurations19-2865; Rev 1; 12/03For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .Ordering InformationTypical Operating Circuits appear at end of data sheet.Functional Diagram appears at end of data sheet.M A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan Controllers 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.All Voltages Are Referenced to GNDTACH/AIN..............................................................-0.3V to +5.5V V CC ...........................................................................-0.3V to +6V DXP, ADD, CRIT0, CRIT1........................-0.3V to + (V CC + 0.3V)DXN.......................................................................-0.3V to +0.8V SMBDATA, SMBCLK, INT , THERM ,FAN_FAULT , SDL , SDR ............................................-0.3V to +6V SMBDATA, INT , THERM , FAN_FAULT ,PWM_OUT Current..............................................-1mA to +50mADXN Current .......................................................................±1mA ESD Protection (all pins, Human Body Model)..................2000V Continuous Power Dissipation (T A = +70°C)16-Pin QSOP (derate 8.3 mW/°C above +70°C)..........667mW Operating Temperature Range .........................-40°C to +125°C Junction Temperature......................................................+150°C Storage Temperature Range.............................-65°C to +165°C Lead Temperature (soldering, 10s).................................+300°CELECTRICAL CHARACTERISTICSMAX6653/MAX6663/MAX6664Temperature Monitors andPWM Fan Controllers_______________________________________________________________________________________3Note 2:Not production tested, guaranteed by design.ELECTRICAL CHARACTERISTICS (continued)M A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan Controllers 4_______________________________________________________________________________________Typical Operating Characteristics(T A = +25°C, unless otherwise noted.)REMOTE TEMPERATURE ERROR vs. REMOTE-DIODE TEMPERATUREREMOTE-DIODE TEMPERATURE (°C)T E M P E R A T U R E E R R O R (°C )110956580-105203550-25-40125-1.5-1.0-0.500.51.01.52.0-2.0LOCAL TEMPERATURE ERROR vs. DIE TEMPERATUREM A X 6653 t o c 04DIE TEMPERATURE (°C)L O C A L T E M P E R A T U R E E R R O R (°C )110956580-105203550-25-40125-1.5-1.0-0.500.51.01.52.0-2.01000.0010.010.1110100REMOTE TEMPERATURE ERROR vs. POWER-SUPPLY NOISE FREQUENCY2POWER-SUPPLY NOISE FREQUENCY (MHz)R E M O T E T E M P E R A T U R E E R R O R (°C )468135797-20.0010.010.1110100LOCAL TEMPERATURE ERROR vs. POWER-SUPPLY NOISE FREQUENCY-10POWER-SUPPLY NOISE FREQUENCY (MHz)R E M O T E T E M P E R A T U R E E R R O R (°C )215643TEMPERATURE ERRORvs. COMMON-MODE NOISE FREQUENCYCOMMON-MODE NOISE FREQUENCY (MHz)0.00010.11100.0010.01100T E M P E R A T U R E E R R O R (°C )12-22461088765432100.011100.1100TEMPERATURE ERRORvs. DIFFERENTIAL-MODE NOISE FREQUENCYDIFFERENTIAL-MODE NOISE FREQUENCY (MHz)T E M P E R A T U R E E R R O R (°C )TEMPERATURE ERROR vs. DXP-DXN CAPACITANCEDXP-DXN CAPACITANCE (nF)T E M P E R A T U R E E R R O R (°C )1-5-4-3-2-101101002.03.02.54.03.54.55.03.05.5STANDBY SUPPLY CURRENT vs. SUPPLY VOLTAGESUPPLY VOLTAGE (V)S T A N D B Y S U P P L Y C U R R E N T (µA )4.03.54.55.0AVERAGE OPERATING SUPPLY CURRENTvs. CONVERSION RATECONVERSION RATE (Hz)S U P P L Y C U R R E N T (µA )32150100150200250300350400450500004MAX6653/MAX6663/MAX6664Temperature Monitors and PWM Fan Controllers Array_______________________________________________________________________________________5M A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan Controllers 6Detailed DescriptionThe MAX6653/MAX6663/MAX6664 are local/remote temperature monitors and fan controllers for micro-processor-based systems. These devices communi-cate with the system through a serial SMBus interface.The serial bus controller features a hard-wired address pin for device selection, an input line for a serial clock,and a serial line for reading and writing addresses and data (see Functional Diagram ).The MAX6653/MAX6663/MAX6664 fan control section can operate in three modes. In the automatic fan-control mode, the fan ’s power-supply voltage is automatically adjusted based on temperature. The control algorithm parameters are programmable to allow optimization to the characteristics of the fan and the system. RPM select mode forces the fan speed to a programmed tachome-ter value. PWM duty cycle select mode allows user selection of the PWM duty cycle. PWM rise and fall times are limited to maximize fan reliability.To ensure overall system reliability, the MAX6653/MAX6663/MAX6664 feature an SMBus timeout so that the MAX6653/MAX6663/MAX6664 can never “lock ” the SMBus. F urthermore, the availability of hard-wired default values for critical temperature set points ensures the MAX6653 controls critical temperature events properly even if the SMBus is “locked ” by some other device on the bus.SMBus Digital InterfaceF rom a software perspective, the MAX6653/MAX6663/MAX6664 appear as a set of byte-wide registers. These devices use a standard SMBus 2-wire/I 2C-compatible serial interface to access the internal registers. The MAX6653/MAX6663/MAX6664 slave address can be set to three different values by the input pin ADD(Table 2) and, therefore, a maximum of three MAX6653/MAX6663/MAX6664 devices can share the same bus.The MAX6653/MAX6663/MAX6664 employ four stan-dard SMBus protocols: Write Byte, Read Byte, Send Byte, and Receive Byte (Figures 1, 2, and 3). The short-er Receive Byte protocol allows quicker transfers, pro-vided that the correct data register was previously selected by a Read Byte instruction. Use caution with the shorter protocols in multimaster systems, since a second master could overwrite the command byte with-out informing the first master.Alert Response AddressThe MAX6653/MAX6663/MAX6664 respond to the SMBus alert response address, an event which typical-ly occurs after an SMBus host master detects an INT interrupt signal going active (referred to as ALERT in SMBus nomenclature). When the host master puts the alert response address (0001 1001) on the bus, all devices with an active INT output respond by putting their own address onto the bus. The alert response can activate several different slave devices simultaneously,similar to the I 2C general call. If more than one slave attempts to respond, bus arbitration rules apply, and the device with the lowest address code wins. The master then services the devices from the lowest address up.MAX6653/MAX6663/MAX6664Temperature Monitors and PWM Fan ControllersFigure 1. SMBus ProtocolsFigure 2. SMBus Write Timing Diagram_______________________________________________________________________________________7The MAX6663 resets its INT output and some of the status bits in the status register after responding to an alert response address; however, if the error condition that caused the interrupt is still present, INT is reassert-ed on the next monitoring cycle. INT is maskable to allow full control of ALERT conditions.Temperature MeasurementThe MAX6653/MAX6663/MAX6664 contain on-chip tem-perature sensors to sense their own die (local) tempera-tures. These devices can also measure remote temperatures such as the die temperature of CPUs or other ICs having on-chip temperature-sensing diodes, or discrete diode-connected transistors as shown in the Typical O perating Circuits . F or best accuracy, the dis-crete diode-connected transistor should be a small-signal device with its collector and base connected together.The on-chip ADC converts the sensed temperature and outputs the temperature data in the format shown in Tables 3 and 4. The temperature measurement resolution is 0.125°C for both local and remote temperatures. The temperature accuracy is within ±1°C for remote tempera-ture measurements from +60°C to +100°C.The Local Temperature Offset (0Dh) and Remote Temperature Offset (0Eh) registers allow the measured temperature to be increased or decreased by a fixed value to compensate for errors due to variations in diode resistance and ideality factor (see the Remote Diode Considerations section). The reported temperature is the measured temperature plus the correction value. Both the measured temperature and the reported value are limited by the sensor ’s temperature range. F or example, if a remote thermal diode is being measured and its tempera-ture is 135°C, the measured temperature is the maximumvalue of 127.875°C. If the remote offset value is set to -10°C, the reported value is 117.875°C, not 125°C.The temperature conversion rate is programmable using bits [4:2] of the fan filter register (23h) as shown in Table 5.The DXN input is biased at 0.65V above ground by an internal diode to set up the analog-to-digital inputs for a differential measurement. The worst-case DXP-DXN dif-ferential input voltage range is from 0.25V to 0.95V.Excess resistance in series with the remote diode caus-es about 0.5°C error per ohm. Likewise, a 200µV offset voltage forced on DXP-DXN causes about 1°C error.High-frequency EMI is best filtered at DXP and DXN with an external 2200pF capacitor. This value can be increased to about 3300pF, including cable capacitance.Capacitance higher than 3300pF introduces errors due to the rise time of the switched current source.M A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan Controllers 8Temperature Comparisonand Interrupt System At the end of each conversion cycle, the converted temperature data are compared to various set-point thresholds to control the INT, THERM, SDL, and SDR outputs. All temperature threshold limits are stored in the threshold limit registers (Table 6) and can be changed through the SMBus digital interface.THERM is an active-low thermal-overload output indicat-ing that the THERM overtemperature set point is exceed-ed. With the THERM threshold set to an appropriate value, the THERM output can be used to control clock throttling. When this pin is pulled low by an external signal, a status bit (bit 7, status register 2) is set, and the fan speed is unconditionally forced to full-on speed. The only way to reset the status bit is to read status register 2. Connect a 10kΩpullup resistor between THERM and V CC.MAX6653/MAX6663/MAX6664Temperature Monitors and PWM Fan Controllers _______________________________________________________________________________________9M A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan ControllersINT is an open-drain digital output that reports the sta-tus of temperature interrupt limits and fan out-of-limit conditions. Set bit 1 of configuration register 1 (00h) to 1 to enable INT output or reset this bit to zero to disable the INT output function. Status register 1 contains sta-tus information for the conditions that cause INT to assert. Reading status register 1 resets INT , but INT is reasserted if the fault condition still exists. Connect a 10k Ωpullup resistor between INT and V CC .SDL and SDR are open-drain digital outputs on the MAX6653 that can be used to shut the system down based on the local (die) temperature of the MAX6653 or the temperature of the remote sensor, respectively. The trip thresholds for SDL and SDR are normally set above the THERM and INT limits. Their power-up values are set by the CRIT1 and CRIT0 pins, as shown in Table 1.Fan-Speed ControlThe MAX6653/MAX6663/MAX6664 fan-control section can operate in one of three modes depending on the set-ting of bit 7 to bit 5 of configuration register 1 (00h).Regardless of the mode of operation, the PWM output fre-quency is programmable, and the fan speed is measured with the result stored in the fan-speed register (08h).PWM Output FrequencyThe PWM output frequency is programmed by bit 5, bit 4, and bit 3 of the fan characteristics register (20h),regardless of the mode of operation. See Table 7.Fan-Control ModeThe mode of fan-speed control operation is set by bit 7,bit 6, and bit 5 in configuration register 1 (00h), as shown in Table 8.PWM Duty-Cycle Fan-Control ModeBits [3:0] of the fan-speed configuration register set the PWM duty cycle. See Table 9 for more details.RPM Select Fan-Control ModeIn RPM select mode, the MAX6653/MAX6663/MAX6664adjust their PWM output duty cycle to match a selected fan speed measured by a tachometer count value. Before selecting this mode by setting bits [7:5] of configuration register 1 (00h) to 0x1, the desired tachometer count value should be written to the fan tachometer high-limit register (10h). In this mode, the MAX6653/MAX6663/MAX6664 are not able to detect underspeed fan faults because the fan tachometer high-limit register (10h) func-tions as the target tachometer count.The MAX6653/MAX6663/MAX6664 detect fan stall faults by comparing the fan-speed reading to the full-scale constant of 254 (F Eh). Therefore, the MAX6653/MAX6663/MAX6664 signal a fan fault when the fan-speed reading is 255 (FFh). Note that the RPM mode cannot be used for speeds below 10% of the fan ’s maximum speed. It is important to verify that a fan works properly at lower RPM values if a low-RPM oper-ation in this mode is desired.MAX6653/MAX6663/MAX6664Temperature Monitors andPWM Fan Controllers11Automatic Fan-Control ModeAutomatic fan-speed control is selected by setting bits [7:5] of configuration register 1 (00h) to 100 (to control speed based on the remote temperature) or 101 (to control speed based on both remote and local temper-ature). Program a threshold, or starting temperature TMIN, and the desired temperature range, T RANGE , into the local temp T MIN /T RANGE register (24h) for local temperature and into the remote temp T MIN /T RANGE register (25h) for remote temperature (Tables 10 and 11). If the fan control responds to both local and remote temperatures, the higher PWM duty cycle has priority.When the temperature exceeds T MIN , the fan is enabled at a minimum duty cycle programmed in bits [3:0] of the fan-speed configuration register (22h). The duty cycle increases in proportion to the temperature difference and reaches 100% at a temperature equal to (T MIN + T RANGE ). A hysteresis of 5°C is built into the T MIN set point to prevent the fan from starting and stop-ping when the temperature is at the set point.Spin-UpTo ensure proper fan startup, the MAX6653/MAX6663/MAX6664 can be set to drive the fan to 100% duty cycle for a short period on startup, and then revert to the correct duty cycle. The spin-up time is programmed by bits [2:0] in the fan characteristics register (20h).The spin-up feature can be disabled by setting bit 7 of the fan-filter register (23h) to 1; POR value is zero.Table 12 shows programming of the spin-up time.Fan-Filter ModeWhen the MAX6653/MAX6663/MAX6664 are used for automatic fan-speed control, the fan-filter mode helps minimize the audible effects of varying fan speeds. The fan-filter mode limits the rate at which fan speed can change. Each time a new temperature measurement is made, the fan-filter mode allows the PWM duty cycle to increment by a selectable amount. The duty cycle can change by 1/240, 2/240, 4/240, or 8/240 (0.416%,0.833%, 1.667%, or 3.333%) of the PWM period after each temperature-monitoring cycle. This prevents sud-den changes in fan speed, even when temperature changes suddenly.The filter mode is set by bit 0 of the fan-filter register (23h). To enable the fan-filter mode, write a 1 to this bit.Bits [6:5] of the same register control the size of the PWM steps.Note that the rate of change depends on both the value selected by the fan-filter bits and on the temperatureM A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan Controllersmeasurement rate, which is controlled by bits [4:2] of the fan-filter register (23h). Table 5 shows the effect of the temperature measurement rate control bits. As an example, assume that the temperature measurement rate is 2Hz, or 0.5s per monitoring cycle, and the fan-fil-ter rate is 0.416% per monitoring cycle. For the fan drive to change from 50% to 100% requires 50% / 0.416% =120 temperature monitoring cycles. Thus, for a tempera-ture-monitoring cycle of 0.5s, the time required for the drive to change from 50% to 100% is 60s.Fan-Speed MeasurementThe fan speed is measured by using the relatively slow tachometer signal from the fan to gate an 11.25kHzclock frequency into a fan-speed counter. The mea-surement is initialized on the starting edge of a PWM output if fan-speed measurement is enabled by setting bit 2 of configuration register 2 (01h) to 1. Counting begins on the leading edge of the second tachometer pulse and lasts for two tachometer periods or until the counter overranges (255). The measurement repeats unless monitoring is disabled by resetting bit 2 in the configuration register 2 (01h). The measured result is stored in the fan-speed reading register (08h).The fan-speed count is given by:where RPM = fan speed in RPM.N determines the speed range and is programmed by bits [7:6] in the fan characteristics register (20h) as shown in Table 14. When the speed falls below the value in the speed range column, a fan failure is detected.The TACH/AIN input can be either a digital signal (from the fan ’s tachometer output) or an analog signal,depending on the setting of bit 2 of the configuration register 1 (00h). The default setting is zero, which sets up TACH/AIN as a digital input. F or the analog input (Figure 4), the detected voltage threshold is typically at 250mV, which is appropriate for sensing the voltage of a sense resistor connected to the ground lead of a 2-wire fan. The AIN input only responds to pulse widths greater than 10µs.F igure 5 shows a schematic using a current-sensing resistor and a coupling capacitor to derive the tachometer information from the power-supply current of a 2-wire fan. This circuit allows the speed of a 2-wire fan to be measured even though the fan has no tachometer signal output. The sensing resistor, R SENSE, converts the fan commutation pulses into a voltage and this voltage is AC-coupled into the TACH/AIN input through coupling capacitor C1. The value of R SENSE is on the order of 1Ωto 5Ω, depending on the fan, and the value of the coupling capacitor C1 is 0.01µF. When using this method, set bit 2 of configu-ration register 1 to 1.Fan-Fault Detection The FAN_FAULT output is used to indicate fan slow down or failure. POR disables the FAN_FAULT output on the MAX6653/MAX6663. POR enables FAN_FAULT output on the MAX6664. If FAN_FAULT is not enabled, writing a logic 1 to bit 4 of configuration register 1 (00h) enables the FAN_FAULT output pin. Either under-speed or stalled fans are detected as fan faults. FAN_FAULT is asserted low only when five consecutive interrupts are generated by the MAX6653/MAX6663/ MAX6664s’INT due to fan faults. The MAX6653/ MAX6664 apply 100% duty cycle for the duration of the spin-up time once an INT is asserted. The MAX6663 goes to 100% duty cycle for the duration of the spin-up time once INT is asserted and status register 1 is read. Fan-fault detection works by comparing the value of the fan tachometer high-limit register (10h) with the value of the fan-speed reading register (08h), which contains the value of the most recent fan-speed measurement. Note that the value of the fan-speed reading register (08h) must exceed the value of the fan tachometer high limit (10h) by 1 in order to qualify as a fault. The fault gener-ates an interrupt signal by asserting the INT output, but does not cause the FAN_FAULT output to assert until five consecutive failures have been detected. The fan runs at 100% duty cycle when five consecutive failures have been detected, whether FAN_FAULT is enabled or not. As an example of the function of the fan-fault detection, assume a fan is stalled or under speed. The MAX6663 ini-tially indicates the failure by generating an interrupt on the INT pin. The fan fault bit (bit 1) of interrupt status register 1 (02h) is also set to 1. Once the processor has acknowl-edged the INT by reading status register 1, the INT is cleared. PWM_OUT is then brought high for a 2s (fan spin-up default, Table 12) spin-up period to restart the fan. Subsequent fan failures cause INT to be reasserted and PWM_OUT to be brought high (following a status register 1 read) for a spin-up period each time to restart the fan. Once the fifth tachometer failure occurs, the FAN_FAULT is asserted to indicate a critical fan failure.A MAX6653/MAX6664 example is somewhat simpler. Again assume the fan is stalled or under speed. The MAX6653/MAX6664 initially indicate the failure by gener-ating an interrupt on the INT pin. The fan fault bit of the interrupt status register is set to 1. PWM_OUT goes high for the programmed spin-up time (2s default) to restart the fan. Each subsequent fan failure causes another spin-up. Once the fifth tachometer failure occurs, the FAN_FAULT output is asserted (if enabled) and the PWM output is driven to 100%.When the FAN_FAULT output is disabled (register 00h, bit 4), spin-ups are still attempted whenever the tach count is greater than the value in the fan tachometer high-limit register (10h). If fan faults and their associat-ed spin-ups are not desired, the fan tachometer high-limit register (10h) to F F. This prevents the tach count from ever exceeding the limit and faults are not detect-ed. Simply disabling the tachometer input (register 01h, bit 2) leaves the fan fault function enabled and can result in fan faults.Figure 5. Using the MAX6653/MAX6663/MAX6664 with a2-Wire FanMAX6653/MAX6663/MAX6664Temperature Monitors and PWM Fan Controllers______________________________________________________________________________________13M A X 6653/M A X 6663/M A X 6664Temperature Monitors and PWM Fan Controllers 14______________________________________________________________________________________Alarm SpeedF or the MAX6663, the alarm speed bit, bit 0 of status register 1 (02h), indicates that the PWM duty cycle is 100%, excluding the case of fan spin-up. F or the MAX6653/MAX6664, this bit indicates that the THERM output is low. Once this bit is set, the only way to clear it is by reading status register 1. However, the bit does not reassert on the next monitoring cycle if the condi-tion still exists. It does assert if the condition is discon-tinued and then returns.Power-On Default ConditionsAt power-up, the MAX6653/MAX6663/MAX6664 are monitoring temperature to protect the system against thermal damage. The PWM outputs are in known states.Note that although the "Monitoring" bit (Configuration register 1, Bit 0) is enabled, automatic fan speed control does not begin until a 1 is rewritten to Bit 0.Other default conditions as listed in the Register Summary section.After applying power to the MAX6653/MAX6663/MAX6664, set the desired operating characteristics (fan configuration, alarm thresholds, etc.). Write to Configuration register 1 last. When a 1 is first written to Bit 0 of this register, fan control will commence as determined by the register contents.PC Board LayoutF ollow these guidelines to reduce the measurement error of the temperature sensors:1)Place the MAX6653/MAX6663/MAX6664 as closeas is practical to the remote diode. In noisy environ-ments, such as a computer motherboard, this dis-tance can be 4in to 8in (typ). This length can be increased if the worst noise sources are avoided.Noise sources include CRTs, clock generators,memory buses, and ISA/PCI buses.2)Do not route the DXP-DXN lines next to the deflec-tion coils of a CRT. Also, do not route the traces across fast digital signals, which can easily intro-duce 30°C error, even with good filtering.3)Route the DXP and DXN traces in parallel and inclose proximity to each other, away from any higher voltage traces, such as 12VDC. Leakage currents from PC board contamination must be dealt with carefully since a 20M Ωleakage path from DXP to ground causes about 1°C error. If high-voltage traces are unavoidable, connect guard traces to GND on either side of the DXP-DXN traces (Figure 6).4)The 10-mil widths and spacing recommended inFigure 6are not absolutely necessary, as they offer only a minor improvement in leakage and noise over narrow traces. Use wider traces when practical.5)Add a 200Ωresistor in series with VCC for bestnoise filtering (see Typical Operating Circuits).Figure 6. Recommended DXP/DXN PC Traces。

三相异步电动机铭牌参数1、型号：为了适应不同用途和不同工作环境的需要，电动机制成不同的系列,每种系列用各种型号表示。

例如Y 132 M- 4Y表示三相异步电动机；YR为绕线式异步电动机；YB为防爆型异步电动机；YQ为高起动转距异步电动机。

132→机座中心高(mm)M →机座长度代号4 →磁极数2、接法：这是指定子三相绕组的接法。

一般鼠笼式电动机的接线盒中有六根引出线,标有U1、V1 、W1、U2、V2、W2。

其中：U1 U2是第一相绕组的两端；V1 V2是第二相绕组的两端；W1 W2是第三相绕组的两端。

如果U1、V1 、W1分别为三相绕组的始端(头) ,则U2、V2、W2是相应的末端(尾)。

这六个引出线端在接电源之前,相互间必须正确联接。

联接方法有星形(Y)联接和三角形()联接两种(下图所示)。

通常三相异步电动机自3kW以下者,联接成星形;自4kW以上者, 联接成三角形。

3、额定功率PN：是指电动机在制造厂所规定的额定情况下运行时, 其输出端的机械功率,单位一般为千瓦（kW）。

对三相异步电机，其额定功率：P N=U N I NηN cosN 。

式中ηN和cosN分别为额定情况下的效率和功率因数。

4、额定电压U N：是指电动机额定运行时,外加于定子绕组上的线电压,单位为伏（V）。

一般规定电动机的工作电压不应高于或低于额定值的5%。

当工作电压高于额定值时,磁通将增大，将使励磁电流大大增加,电流大于额定电流,使绕组发热。

同时,由于磁通的增大,铁损耗(与磁通平方成正比)也增大,使定子铁心过热；当工作电压低于额定值时，引起输出转矩减小，转速下降,电流增加，也使绕组过热，这对电动机的运行也是不利的。

我国生产的Y系列中、小型异步电动机，其额定功率在3kW以上的,额定电压为380 V，绕组为三角形联接。

额定功率在3 kW及以下的,额定电压为380/220V,绕组为Y/联接(即电源线电压为380 V时,电动机绕组为星形联接；电源线电压为220 V时,电动机绕组为三角形联接)。

P/N: 1802081000013 *1802081000013*UC-8100 Series Quick Installation GuideVersion 4.0, September 2020Technical Support Contact Information/supportMoxa Americas:Toll-free: 1-888-669-2872 Tel: 1-714-528-6777 Fax: 1-714-528-6778 Moxa China (Shanghai office): Toll-free: 800-820-5036 Tel: +86-21-5258-9955 Fax: +86-21-5258-5505 Moxa Europe:Tel: +49-89-3 70 03 99-0 Fax: +49-89-3 70 03 99-99 Moxa Asia-Pacific:Tel: +886-2-8919-1230 Fax: +886-2-8919-1231 Moxa India:Tel: +91-80-4172-9088 Fax: +91-80-4132-10452020 Moxa Inc. All rights reserved.OverviewThe UC-8100 computing platform is designed for embeddeddata-acquisition applications. The computer comes with one or twoRS-232/422/485 serial ports and dual 10/100 Mbps Ethernet LAN ports, as well as a Mini PCIe socket to support cellular modules. These versatile communication capabilities let users efficiently adapt the UC-8100 to a variety of complex communication solutions.Package Checklist•UC-8100 embedded computer•Console cable•Power jack•3-pin terminal block for power (preinstalled)•5-pin terminal block for UART x 2 (preinstalled)Please notify your sales representative if any of the above items are missing or damaged.Panel LayoutThe following figures show the panel layouts of the UC-8100.Top and Bottom PanelTop BottomFront PanelLED IndicatorsLED NameColorFunctionUSB Green Steady On USB device is connectedand working normallyOff USB device is notconnected.SD Green Steady On SD Card inserted andworking normallyOff SD card is not detectedPower Green Power is on and the computer isworking normally.Off Power is off. LAN1/2 (On RJ45 connector)Green Steady On 100 Mbps Ethernet link Blinking Data transmitting Yellow Steady On 10 Mbps Ethernet linkBlinking Data transmittingOff Ethernet is not connectedWirelessSignalStrength Green Yellow RedNumber of glowing LEDs indicates signal strength 3 (Green + Yellow + Red): Excellent 2 (Yellow + Red): Good 1 (Red): PoorOff Wireless module is not detectedDiagnosis Green Yellow Red These 3 LEDs are used for diagnostics and are programmable. For additionaldetails, refer to the UC-8100 SeriesHardware Manual.Installing the UC-8100There are two sliders on the back of the unit for DIN-rail and wall mounting.Mounting on a DIN RailPull out the bottom slider, latch the unit onto the DIN rail, and push the slider back in.Mounting on a Wallscrews into the wall.mounting kit. Attach two mounting brackets on the side panel of the computer, and fasten with screws. Install the computer on to a wall or cabinet by fastening two screws for each mounting bracket.Connector DescriptionPower ConnectorConnect the “terminal block to power jack converter” (included in the package) to the UC-8100’s DC terminal block (located on the top panel), and then connect the power adapter. It takes about 30 seconds for the system to boot up. Once the system is ready, the Power LED will light up.Grounding the UC-8100Grounding and wire routing help limit the effects of noise due to electromagnetic interference (EMI).SG: The shielded ground (sometimescalled protected ground) contact is the top contact of the 3-pin power terminal block connector whenviewed from the angle shown here. Connect the SG wire to anappropriate grounded metal surface.Ethernet PortsThe two 10/100 Mbps Ethernet ports (LAN 1 and LAN 2) use RJ45 connectors. Refer to the following table for the pin assignments.Pin Signal 1 ETx+ 2 ETx- 3 ERx+ 6ERx-Serial PortsThe two serial ports (P1 and P2) use terminal connectors. Each port can be configured by software for RS-232, RS-422, or RS-485. Refer to the following table for the pin assignments. Pin RS-232 RS-422RS-485 1 TXD TXD+ --- 2 RXD TXD- --- 3 RTS RXD+ D+ 4 CTS RXD- D- 5GNDGNDGNDSD/SIM Card SlotsThe UC-8100 comes with an SD slot for storage expansion and a SIM card slot for cellular communication. The SD card/SIM card slots are located at the lower part of the front panel. To install them, remove the screw and the cover to access the slots, and then insert the SD card or the SIM card. You will hear a click when they are inserted correctly. To remove them, push the cards in and then release them.Console PortThe console port is a RS-232 port that can be connected with a 4-pin pin header cable. You may use this port for debugging or firmware upgrade.Pin Signal 1 TxD 2 RxD 3NC 4GNDUSBThe USB 2.0 port is located at the lower part of the front panel, and supports a USB storage device driver. Real-time ClockThe UC-8100’s real-time clock is powered by a non-chargeable battery. We strongly recommend that you do not replace the battery without help from a qualified Moxa support engineer. If you need to change the battery, contact the Moxa RMA service team.Installing the Cellular ModuleThe UC-8100 provides a Mini PCIe socket for installing a cellular module. The cellular module package includes the following items.Follow these steps to install the cellular module.1.Unfasten the screws on theside panel of the computerand remove the cover.2.Find the location of the PCIesocket.3.Remove the plastic plate andthe sticker on both sides of thelarge thermal pad and place itin the socket. Press thethermal pad down so that itsticks to the base of thesocket.Place the thermal pad as closeas possible to the holes for thescrews used to secure themodule.4.Insert the cellular module intothe socket and tighten thescrews to secure the moduleto the socket.5.Remove the plastic plate andthe sticker on both side of thesmall thermal pad and stickthe thermal pad on to themodule.6.Install the antenna cables.There are three antennaconnectors on the module;two for cellular antennas andone for a GPS antenna. Referto the figure for details. Asthere are only two antennaconnector holes on the frontpanel of the computer, youcan only use two antennas at atime. You may use two cellularantennas, or a cellularantenna and a GPS antenna.The same antenna cables canbe used for both antennatypes.7.Connect one end of theantenna cable to the cellularmodule.8.Insert the other end of thecable, with the connector,through the antennaconnector hole on the frontpanel of the computer.Remove the black plasticprotection cover on theconnector hole before youinsert the antenna wire.9. Insert the locking washerthrough the connector and press it against the cover of the computer. Then, insert the nut and tighten it to secure the connector to the cover.10. Connect the antenna tothe antenna connector. 11. Replace the cover of thecomputer.Connecting the UC-8100 to a PCA.Through the serial console port with the following settings:Baudrate=115200 bps , Parity=None , Data bits=8, Stop bits =1, Flow Control=Nonelogin information.Default IP AddressNetmaskLAN 1 192.168.3.127 255.255.255.0 LAN 2 192.168.4.127 255.255.255.0Login: moxaPassword: moxa。

6223N-SRDWi-Fi Single-band 1X1 + Bluetooth 4.2 Combo Module DatasheetOffice: 6 Floor, Building U6, Junxiang U8 Park,Hangcheng Avenue, Bao'an District,Shenzhen City, CHINAFactory: No.8, Litong Road, Liuyang Economic & TechnicalDevelopment Zone, Changsha, Hunan, CHINATEL: +86-755-2955-8186Website: Customer Approval :CompanyTitleSignatureDateFn-Link6223N-SRD Revision HistoryVersion Date Revision Content Draft Approvedversion fcNew1.0 2020/11/9CONTENTS1 Overview (1)1.1 Introduction (1)1.2 Features (1)1.3 General Specification (2)1.4 Recommended Operating Rating (2)2 General Specification (3)2.1 Wi-Fi RF Specifications (3)2.2 BT RF Specifications (3)3 Pin Assignments (5)3.1 Pin Outline (5)3.2 Pin Definition (5)4 Dimensions (7)4.1 Module Picture (7)4.2 Marking Description (7)4.3 Module Physical Dimensions (8)4.4 Layout Reference (9)6 Host Interface Timing Diagram (10)6.1 SDIO Pin Description (10)6.2 SDIO Default Mode Timing Diagram (11)6.3 SDIO Power-on sequence (11)6.4 UART Interface Characteristics (12)6.5 UART Interface Power-on Sequence (12)7 Reference Design (12)8 Ordering Information (14)9 The Key Material List (14)10 Environmental Requirements (15)10.1 Recommended Reflow Profile (15)10.2 Patch Wi-Fi/BT modules installed before the notice (15)11 Package (17)11.1 Reel (17)11.2 Packaging Detail (17)1 Overview1.1 Introduction6223N-SRD is a highly integrated and excellent performance Wireless LAN (WLAN) and BT. It provides SDIO interface for Wi-Fi to connect with host processor and high speed UART interface for BT. High-speed wireless connection up to 150 Mbps and Bluetooth can support BT2.1+EDR/BT3.0 and BT4.2. It can be easily manufactured on SMT process.This WLAN Module design is based on Realtek RTL8723DS-CG QFN484.4X4.4mm(Realtek).It combines a MAC, a 1T1R capable baseband, and RF in a single chip. It is designed to provide excellent performance with low power Consumption and enhance the advantages of robust system and cost-effective.6223N-SRD integrates whole Wi-Fi/BT function blocks into a chip, such asSDIO/UART, MAC, BB, AFE, RFE, PA, EEPROM and LDO/SWR, except fewer passive components remained on PCB.This compact module is a total solution for a combination of Wi-Fi + BT technologies. The module is specifically developed for Smart phones and Portable devices.1.2 Features●Operate at ISM frequency bands (2.4GHz)●CMOS MAC, Baseband PHY, and RF in a single chip for 802.11b/g/n compatibleWLAN●Wi-Fi 1 transmitter and 1 receiver allow data rates supporting up to 150 Mbpsdownstream and 150 Mbps upstream PHY rates●SDIO for Wi-Fi and UART for Bluetooth●Fully Qualified for Bluetooth 2.1+EDR specification including both 2Mbps and 3Mbpsmodulation mode●Fully qualified for Bluetooth 3.0●Fully qualified for Bluetooth 4.2 Dual mode●Full_speed Bluetooth operation with Piconet and Scatternet supportBlock Diagram:1.3 General SpecificationModel Name 6223N-SRDProduct Description Support Wi-Fi/BT functionalitiesDimension L x W x T: 23 x 21 x 4.8 (typical) mmBT Interface Support UARTWi-Fi Interface Support SDIO 2.0Operating temperature 0°C to 70°CStorage temperature -40°~125°1.4 Recommended Operating RatingUnitMax.Typ.Min.Operating Temperature 0 25 70 deg.CV VBAT 3.03.63.3VDDIO 1.7 1.8 or 3.3 3.6 V6223N-SRD2 General Specification2.1 Wi-Fi RF SpecificationsFeature DescriptionWLAN Standard IEEE 802.11b/g/n, Wi-Fi compliantFrequency Range 2412MHz-2462MHzChannels 2.4GHz:CH1~CH11Output Power 802.11b /11Mbps:17dBm ± 1.5dB@EVM<=-10dB 802.11g /54Mbps:14dBm ± 1.5dB@EVM<=-25dB 802.11n/MCS7@HT20:13dBm ± 1.5dB@EVM<=-28dB 802.11n/MCS7@HT40:13dBm ± 1.5dB@EVM<=-28dBSpectrum Mask IEEE compliantFreq. Tolerance ±15 ppmReceive Sensitivity(11b) @8% PER802.11b/11Mbps: PER@≤-76 Receive Sensitivity(11g) @10% PER802.11g/54Mbps: PER@≤-65 Receive Sensitivity(11n,20MHz) @10% PER802.11n/MCS7@HT20: PER@≤-64 Receive Sensitivity(11n,40MHz) @10% PER802.11n/MCS7@HT40: PER@≤-612.2 Bluetooth SpecificationFeature DescriptionGeneral SpecificationBluetooth Standard Bluetooth V4.2 of 1, 2 and 3 Mbps.Host Interface UARTFrequency Band 2402 MHz ~ 2480 MHzNumber of Channels 79 channelsModulation GFSK,π/4-DQPSK and 8DPSKRF SpecificationMin. Typical. Max. Output Power (Class 1.5) 6dBmOutput Power (Class 2) 2dBmSensitivity @ BER=0.1%for GFSK (1Mbps)-86dBm Sensitivity @ BER=0.01%for π/4-DQPSK (2Mbps)-86dBm Sensitivity @ BER=0.01%for 8DPSK (3Mbps)-80dBmMaximum Input Level GFSK (1Mbps): -20dBmπ/4-DQPSK (2Mbps) : -20dBm 8DPSK (3Mbps) : -20dBmSensitive @PER=30.8% FOR BLE-90dBm3 Pin Assignments3.1 Pin Outline<TOP>3.2 Pin DefinitionNO. Name Type Description Voltage1 UART-CTS UART-CTS VDDIO2 UART-RTS UART-RTS VDDIOconnections3 GND Groundconnections4 GND Groundconnections5 GND Groundoutput VDDIO6 UART-OUT O UART7 UART-IN I UARTinput VDDIO3.3V 3.3V8 VBAT P Supply9 NC Floating (Don’t connected toground)10 VDDIO PI/O Voltage supply input 1.8V to3.3V 1.8V ~ 3.3V11 GND Ground connections12 CHIP_EN I chip enable pin, default pull high 3.3V 13 WL_WAKE_HOSTI/O WLAN device wake-up host1.8V ~ 3.3V 14 SD_D2 I/O SDIO Data line 2 1.8V ~ 3.3V 15 SD_D3 I/O SDIO Data line 3 1.8V ~ 3.3V 16 SD_CMD I/O SDIO Command Input 1.8V ~ 3.3V 17 SD_CLK I SDIO Clock Input 1.8V ~ 3.3V 18 SD_D0 I/O SDIO Data line 0 1.8V ~ 3.3V 19 SD_D1 I/O SDIO Data line 11.8V ~ 3.3V20 GNDGround connections 21 BT_HOST_WAKE BT host wake-up device VDDIO 22BT_WAKE_HOSTBT device wake-up host VDDIO23 GND Ground connections 24 GND Ground connections 25 GNDGround connections26 WIFI_DIS#Pull high: ON , Pull low: OFFExternal pull low can disable WL 27 BT_DIS#Pull high: ON , Pull low: OFFExternal pull low can disable BTP:POWER I:INPUT O:OUTPUT6223N-SRD 4 Dimensions4.1 Module PictureL x W : 23 x 21 (+0.3/-0.1) mmH: 4.8 (±0.2) mmWeight 1.65g4.2 Marking Description4.3 Module Physical Dimensions (unit: mm )(TOP)4.4 Layout Reference(unit: mm )TOP6 Host Interface Timing Diagram6.1 SDIO Pin DescriptionThe module supports SDIO version 2.0 for all 1.8V 4-bit UHSI speeds: SDR12(25 Mbps), and SDR25(50Mbps) in addition to the 3.3V default speed(25MHz) and high speed (50 MHz). It has the ability to stop the SDIO clock and map the interrupt signal into a GPIO pin. This ‘out-of-band’ interrupt signal notifies the host when the WLAN device wants to turn on the SDIO interface. The ability to force the control of the gated clocks from within the WLAN chip is also provided.SDIO Pin DescriptionSD 4-Bit ModeDATA0 Data Line 0DATA1 Data Line 1 or InterruptDATA2 Data Line 2 or Read WaitDATA3 Data Line 3CLK ClockLineCMD Command6.2 SDIO Default Mode Timing DiagramClockInputOutputSDIO Interface Timing ParametersSDIO Interface Timing6.3 SDIO Power-on sequenceSymbolMinTypicalMaxUnitT 33ramp0.2 - No Limit msT off 250 500 1000 ms T 33ramp 0.2 0.5 2.5 ms T 12ramp 0.1 0.5 1.5 ms T POR 2 2 8 ms T non_rdy 12 10 ms6.4 UART Interface CharacteristicsThe RTL8723DS UART interface is a standard 4-wire interface with RX,TX,CTS and RTS. The interface supports the Bluetooth 2.0 UART HCI H4 and H5 specifications. The default baud rate is 115.2K baud. In order to support high and low speed baud rate,the RTL8723DS provides multiple UART clocks.6.5 UART Interface Power-on Sequence7 Reference DesignNote:1. BAT_EN could not use for module power off, please switch the 3.3V power for module on/off.2.please keep the antenna on no metal area.8 Ordering Information Part No. DescriptionFG6223NSRD-00 RTL8723DS,b/g/n,wifi1T1R,21*23.21mm,SDIO+UART,with metal antenna.9 The Key Material ListMain Shieldingcover6223NSRD V1.0 Shielding cover no insulation layer14.8X11mm-full height of 1.4 copper, no positioning pin(信太)Alternative Shieldingcover6223NSRD V1.0 Shielding cover no insulation layer14.8X11mm-full height of 1.4 copper, no positioning pin (精力通)Main Crystal3225 24MHZ CL=12pF, ±10ppm (东晶) Alternative Crystal 3225 24MHZ CL=12pF, ±10ppm (泰晶) Alternative Crystal 3225 24MHZ CL=12pF, ±10ppm (晶威特) Alternative Crystal 3225 24MHz CL=12pF ±10ppm (鸿星) Alternative Crystal 3225 24MHz CL=12pF ±10ppm (TXC) Main TVS 0201 5V 0.05pF 15KV TVS (Murata) Alternative TVS 0201 5V 0.05pF 15KV TVS (Sunlord) Alternative TVS 0201 5V 0.05pF 15KV TVS (维安)MainMainChipsetRTL8723DS-CG QFN48 4.4X4.4mm (Realtek)Main antenna 6223N-SRD metal antenna.Main PCB6223N-SRD-V1.0,FR4,green,21X23X0.8mm (翔宇) Alternative PCB 6223N-SRD-V1.0,FR4,green,21X23X0.8mm（广东科翔）Alternative PCB 6223N-SRD-V1.0,FR4,green,21X23X0.8mm（顺络）Alternative PCB 6223N-SRD-V1.0,FR4,green,21X23X0.8mm（深联）10 Environmental Requirements10.1 Recommended Reflow ProfileReferred to IPC/JEDEC standard.Peak Temperature : <250°CNumber of Times : ≤2 times10.2 Patch Wi-Fi/BT modules installed before the noticeWi-Fi/BT module installed note:1.Please press 1 : 1 and then expand outward proportion to 0.7 mm, 0.12 mm thickness When open a stencil.2.Take and use the WIFI/BT module, please insure the electrostatic protective measures.3.Reflow soldering temperature should be according to the customer the main size of the products, such as the temperature set at 250 + 5 ℃for the MID motherboard. About the module packaging, storage and use of matters needing attention are as follows:1.The module of the reel and storage life of vacuum packing: 1). Shelf life: 8 months, storage environment conditions: temperature in: < 40 ℃, relative humidity: < 90% r.h.2.The module vacuum packing once opened, time limit of the assembly:6223N-SRD Card:1) check the humidity display value should be less than 30% (in blue), such as: 30% ~ 40% (pink), or greater than 40% (red) the module have been moisture absorption.2.) factory environmental temperature humidity control: ≦ -30 ℃, ≦ 60% r.h..3). Once opened, the workshop the preservation of life for 168 hours.3. Once opened, such as when not used up within 168 hours:1). The module must be again to remove the module moisture absorption.2). The baking temperature: 125 ℃, 8 hours.3). After baking, put the right amount of desiccant to seal packages.6223N-SRDFN-LINK TECHNOLOGY LIMITEDProprietary & Confidential1711 Package11.1 ReelTBD11.2 Packaging DetailTBDFCC StatementFCC standards: FCC CFR Title 47 Part 15 Subpart C Section 15.247Integral antenna with antenna gain 2dBiThis 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 must accept any interference received, including interference that may cause undesired operation.Any Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.Note: This 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 harmful interference 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 or more 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.FCC Radiation Exposure StatementThe modular can be installed or integrated in mobile or fix devices only. This modular cannot be installed in any portable device if without further certify for example C2PC with SAR.This modular complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. This modular must be installed and operated with a minimum distance of 20 cm between the radiator and user body.If the FCC identification number is not visible when the module is installed inside another device, then the outside of the device into which the module is installed must also display a label referring to the enclosed module. This exterior label can use wording such as the following: “Contains Transmitter Module FCC ID: 2AATL-6223N-SRD Or Contains FCC ID: 2AATL-6223N-SRD”When the module is installed inside another device, the user manual of the host must contain below warning statements;1.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;(2)This device must accept any interference received, including interference that may cause undesired operation.Note: This 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 harmful interference 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 or more 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.2.Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment.The devices must be installed and used in strict accordance with the manufacturer's instructions as described in the user documentation that comes with the product.Any company of the host device which install this modular with modular approval should perform the test of radiated & conducted emission and spurious emission, etc. according to FCC part 15C : 15.247 and 15.209 & 15.207 ,15B Class B requirement, Only if the test result comply with FCC part 15C : 15.247 and 15.209 & 15.207 ,15B Class B requirement，then the host can be sold legally.。

Document: W0803150, Rev: AWM06N03HMN-Channel MOSFETFeatures● V DS = 60V, I D = 0.34AR DS(on ) < 3Ω @ V GS = 10V R DS(on ) < 4Ω @ V GS = 4.5V● Voltage Controlled Small Signal Switch ● Rugged and Reliable● High Saturation Current Capability ● ESD ProtectedMechanical Characteristics● SOT-723 Package ● Marking : Making Code ● RoHS CompliantSchematic & PIN ConfigurationAbsolute Maximum RatingParameterSymbolValueUnitDrain-Source VoltageV DS 60 V Continuous Drain Current ( T C = 25°C ) I D 340 mA Gate-Source VoltageV GS ±20 V Power Dissipation ( T C = 25°C ) P D 150 mW Junction Temperature T J 150 °C Storage TemperatureT STG -55 to +150°C SGSDSOT-723(Top View)SGDDevice symbolSOT-723DGSElectrical Characteristics (T amb=25°C unless otherwise specified) Parameter Symbol Test Condition Min. Typ. Max. Unit Static CharacteristicsDrain-Source Breakdown Voltage BV DSS V GS= 0V, I D= 250µA 60 - - V Gate Threshold Voltage2V GS(th)V DS= V GS, I D= 250µA 1 1.5 2.5 V Drain Cut-off Current I DSS V DS= 60V, V GS= 0V - - 1 µA Gate leakage Current I GSS V GS= ±20 V, V DS= 0V - - ±10 µA Drain-Source On-state Resistance2R DS(on)V GS=4.5 V, I D=0.2A 1.4 4 ΩV GS=10 V, I D=0.5A- 1.1 3 ΩDynamic characteristicsInput Capacitance C issV DS= 25V, V GS= 0V,f = 1MHz - 30 50pFOutput Capacitance C oss- 4.2 25 Reverse Transfer Capacitance C rss- 2.9 5Total Gate Charge Q gV GS = 4.5V,I D = 0.25A,V DS = 10V - 0.3 -nCGate-Source Charge Q gs- 0.2 - Gate-Drain Charge Q gd- 0.08 - Switching Characteristics3Turn-On Time t d(on)V DD = 30V, I D =200mA,R G= 25Ω, V GEN = 10V - 3.9 -nsRise time t f- 3.4 -Turn-Off Time t d(off)- 15.7 -Fall time t f- 9.9 - Reverse diode characteristicsDiode Forward Voltage V SD V GS=0 V, I F=0.2A - 0.82 1.3 V Notes:1. Surface mounted on FR4 board , t≤10s.2. Pulse Tes t : Pulse Width≤300µs, Duty Cycle≤2%.3. Guaranteed by design, not subject to producting.Typical CharacteristicsFigure 1.Output Characteristics Figure 2. Transfer CharacteristicsFigure 3.R DS(on) vs. I D Figure 4. R DS(on) vs. V GSFigure 5. I S vs. V SD Figure 6. Threshold VoltageOutline Drawing – SOT-723PACKAGE OUTLINEAbD EE1eCθb1LLDGSDIMENSIONSSYMBOLMILLIMETER INCHES MIN MAX MIN MAX A 0.450 0.550 0.018 0.022 b 0.150 0.270 0.0059 0.0106 b1 0.250 0.370 0.010 0.015 L0.150 0.250 0.006 0.010 C0.070 0.170 0.0028 0.0067 D 1.150 1.250 0.045 0.049 E 1.150 1.250 0.045 0.049 E1 0.750 0.850 0.030 0.033 e 0.400BSC 0.016 BSCθ7°11°7°11°be1MeCDIMENSIONSDIMINCHES MILLIMETERSC 0.0157 0.40 M0.039 1.0 e0.0157 0.40 e1 0.0314 0.80 b0.01570.40Notes1. Dimensioning and tolerances per ANSI Y14.5M, 1985.2. Controlling Dimension: Millimeters.Marking CodesPart Number WM06N03HMarking Code72KPackage InformationQty ：8k/ReelCONTACT INFORMATIONCYG WAYON CIRCUIT PROTECTION CO., LTD.No.1001, Shiwan (7) Road, Pudong District, Shanghai, P.R.China.201202 Tel: 86-21-68969993 Fax: 86-21-50757680 Email: market@ WAYON website: For additional information, please contact your local Sales Representative. ® is registered trademark of Wayon Corporation.Specifications are subject to change without notice.The device characteristics and parameters in this data sheet can and do vary in different applications and actual device performance may vary over time. Users should verify actual device performance in their specific applications.。

2002 No.171E NEW PRODUCT RELEASEMitsubishi PLCA60MXTN Thermocouple I/P multiplexer (channel isolated) A60MXRN Analog I/P multiplexer (channel isolated)New!MITSUBISHI[Feature]By combining with the A616TD, the A60MXTN can increase the number of temperature input points of the A616TD.By combining with the A616AD, the A60MXRN can increase the number of analog input points of the A616AD. Also, by combining it with the A616TD enables analog to digital conversion.These new models can be mounted together with the old models (A60MXT and A60MXR) in the same system.[Performance Specification](1) A616TD and A60MXTN Combined Specification List(Continue)(1) A616TD and A60MXTN Combination Performance List (Continue)Item SpecificationsOverall accuracyAccuracy in the table on the previous page 0.5 (0.5is the cold-junction compensation accuracy)Cold-junction compensationtemperature range -20 to 80(Thermoresistor Pt100 connected) Max. conversion speed 50ms/channnelA616TD Between input terminals and PLC : Photocoupler isolationBetween channels : Not isolated (1M insulation resistance)Isolation methodA60MXTN Between input terminals and PLC : Photocoupler isolationBetween channels : Photo MOS relay isolation *2Not isolated when line disconnection detection is selected(20 insulation resistance)Channel isolationvoltageA60MXTN 400VDC (accuracy guarantee 100VDC) *2No. of temperature sensor inputpoints15 points/one A60MXTN unit (Up to 7 A60MXTN modules can be connected to each A616TD)•jA616TD 32points Number of I/Ooccupied points A60MXTN 32 points (Treated as empty slots)(May be set to 0 by I/O assignment)Connected terminal 38-points terminal blockApplicable wire size 0.75 to 2mm2 (Applicable tightening torque 39 to 59N cm)Applicable solderless terminal V1.25-3 V1.25-YS3A V2-S3 V2-YS3AA616TD 1.0A Internal currentconsumption 5VDC A60MXTN 0.64AA616TD 850g WeightA60MXTN 950gA616TD 37.5mm(W)250mm(H)131mm(D)External DimensionsA60MXTN 75.5mm(W)250mm(H)131mm(D)*1: The measurement ranges 2, 3, and 4 in the table are used when the terminal-block (reference) temperature is at 0. If the actual terminal-block temperature, measured by the thermoresistor, isnot equal to zero, the measurement range will offset according to the temperature difference asfollows:Measurement range {Upper limit=measurement range upper limit from table.Lower limit=terminal-block temperature.<Example>When a JIS K type thermocouple is used and the terminal temperature is at 30, ‘measurement range 2’ will be from 30 to 500.Although the temperature range is as indicated by *1, the accurate measurement ranges for thermocouples are as follows:Thermocouple type Accurate measurement rangeB 600 up to 1700R 0 up to 1600S 0 up to 1600K -200 up to 1200E -200 up to 800J 0 up to 750T -200 up to 350When the temperature exceeds the maximum level, the out of range signal turns on, however temperature measurement is only accurate within the above specified range.*2: This specification is different from that of the A60MXT.Item Specifications Voltage -10 to +10VDCAnalog inputCurrent -20 to +20mADCDigital output values 16-bit signed binary (-48 to 4047 or -2048 to 2047 : can be selected for each channel)Input Analog input range Maximum resolution Digital output values0 to +10V 2.5mV (1/4000)0 to +5V 1.25mV (1/4000)+1 to +5V 1.0mV (1/4000)-10 to +10V 5.0mV (1/4000) Voltage-5 to +5V 2.5mV (1/4000)0 to +20mA 5 A (1/4000)+4 to +20mA 4 A (1/4000) Current-20 to +20mA 10 A (1/4000)0 to 4000 -2000 to 2000I/O characteristicsOverall accuracy(Full-scale accuracy) 0.6% Max. conversion speed 50ms/ channnel Voltage 15V Max. absolute inputCurrent 30mAA616TD Between input terminals and PLC : Photocoupler isolationBetween channels : Not isolated (1M insulation resistance)Isolation methodA60MXRN Between input terminals and PLC : Photocoupler isolation Between channels : Photo MOS relay isolation *1Channel isolationvoltageA60MXRN 400VDC (accuracy guarantee 400VDC) *1No. of analog input points 16 points /A60MXRNA616AD 32points Number of I/Ooccupied points A60MXRN 16 points (Treated as empty slots)(May be set to 0 by I/O assignment)Connected terminal 38-points terminal blockApplicable wire size 0.75 to 2mm2 (Applicable tightening torque 39 to 59N cm)Applicable solderless terminal V1.25-3 V1.25-YS3A V2-S3 V2-YS3AA616TD 1A Internal currentconsumption 5VDC A60MXRN 0.35AA616TD 850g WeightA60MXRN 560gA616TD 37.5mm(W)250mm(H)131mm(D)External DimensionsA60MXRN 37.5mm(W)250mm(H)131mm(D)*1: This specification is different from that of the A60MXR.Item Specifications Voltage -10 to +10VDC (Input resistance : 1M )Analog inputCurrent -20 to +20mADC (Input resistance : 250)Digital output values 16-bit signed binary (-48 to 4047 or -2048 to 2047 : can be selected for each channel)Input Analog input range Maximum resolution Digital output values0 to +10V 2.5mV (1/4000)0 to +5V 1.25mV (1/4000)+1 to +5V 1.0mV (1/4000)-10 to +10V 5.0mV (1/4000) Voltage-5 to +5V 2.5mV (1/4000)0 to 4000 -2000 to 20000 to +20mA 10 A (1/2000) 0 to 2000 -2000 to 00 to +20mA 5 A (1/4000) +4 to +20mA 4 A (1/4000)0 to 4000 -2000 to 2000-20 to +20mA 20 A (1/2000) 1000 to 3000 -1000 to 1000Current-20 to +20mA 10 A (1/4000)0 to 4000 -2000 to 2000I/O characteristics Maximum resolutionA616AD used alone 0 to 10V, -10 to 10V-5 to 5V, -20 to 20mA0 to 5V, 1 to 5V0 to 20mA, 4 to 20mA }}Range: 0.3%(Digital output values 12) Range: 0.6%(Digital output values 24)Overall accuracy(Full-scale accuracy)A616AD used with A60MXRN Accuracy in each range of A616AD +0.3(Digital output values 12)Max. conversion speedA616AD used alone 1ms/channnelA616AD used with A60MXRN 1ms/channnel (sampling processing)7.0ms/channnel (direct access processing) Voltage 15VMax. absolute inputCurrent 30mAA616AD Between input terminals and PLC : Photocoupler isolationBetween channels : Not isolated (1M insulation resistance)Isolation methodA60MXRN Between input terminals and PLC : Photocoupler isolation Between channels : Photo MOS relay isolation *1Channel isolationvoltageA60MXRN 400VDC (accuracy guarantee 400VDC) *1No. of analog input points 16 point/A60MXRNA616AD 32points Number of I/Ooccupied points A60MXRN 16 points (Treated as empty slots)(May be set to 0 by I/O assignment)Connected terminal 38-points terminal blockApplicable wire size 0.75 to 2mm2(Applicable tightening torque 39 to 59N cm)Applicable solderless terminal V1.25-3 V1.25-YS3A V2-S3 V2-YS3AA616AD 1A Internal currentconsumption 5VDC A60MXRN 0.35AA616AD 850g WeightA60MXRN 560gA616AD 37.5mm(W)250mm(H)131mm(D)External DimensionsA60MXRN 37.5mm(W)250mm(H)131mm(D)*1: This specification is different from that of the A60MXR.[External Dimensions](1) A60MXTNA 60MXTN(FG1)MX CH.A6PT1357911131517192123252729313335372468101214161820222426283032343638123456789ABCDEFOUTOUTPUT 0~10VCONNECT NO.2 (0.08)250 (9.84)4.2(0.17)7.2(0.28)8.6 (0.34)(Terminal screw)4.2(0.17)106 (4.17)131 (5.16)25(0.98)75.5 (2.97)18(0.71)10(0.39)6(0.24)M3(0.12) 0.5(0.02) 6(0.24)(FG2)Unit: mm (inch)(2) A60MXRNA 60MXRN 1357911131517192123252729313335372468101214161820222426283032343638123456789ABCDEFOUTOUTPUT -10~10VINPUT 4~20mACONNECT NO.OFFSETGAINMX CH.-10~10V 2 (0.08)250 (9.84)4.2(0.17)8.6(0.34)(Terminal screw)4.2(0.17)106 (4.17)131 (5.16)25(0.98)37.5 (1.48)18(0.71)10(0.39)6(0.24)7.2(0.28)M3(0.12) 0.5(0.02) 6(0.24)Unit: mm (inch)[Manual]Manual name Manual supply status IB/SH number Model code Temperature-Digital Converter Module type A616TDUser’s ManualSold separately IB-66174 13J654 Analog-Digital Converter Module type A616ADUser’s ManualSold separately IB-66171 13J645 Country/Region Salesoffice Tel/FaxU.S.A Mitsubishi Electric Automation Inc.500 Corporate Woods Parkway Vernon Hills, IL 60061 Tel : +1-847-478-2100 Fax : +1-847-478-0328Brazil MELCO-TEC Rep. Com.e Assessoria Tecnica Ltda.Av. Rio Branco, 123-15 ,and S/1507, Rio de Janeiro, RJ CEP 20040-005, Brazil Tel : +55-21-221-8343 Fax : +55-21-221-9388Germany Mitsubishi Electric Europe B.V. German BranchGothaer Strasse 8 D-40880 Ratingen, GERMANY Tel : +49-2102-486-0 Fax : +49-2102-486-717U.K Mitsubishi Electric Europe B.V. UK BranchTravellers Lane, Hatfield, Herts., AL10 8XB,UK Tel : +44-1707-276100 Fax : +44-1707-278695Italy Mitsubishi Electric Europe B.V. Italian BranchCentro Dir. Colleoni, Pal. Perseo - Ingr.2Via Paracelso 12, 20041 Agrate B., Milano, Italy Tel : +39-039-60531 Fax : +39-039-6053312Spain Mitsubishi Electric Europe B.V. Spanish BranchCarretera de Rubi 76-8008190 - Sant Cugat del Valles, Barcelona, Spain Tel : +34-935-653135 Fax : +34-935-891579South Africa Circuit Breaker Industries LTD.Private Bag 2016, Isando 1600, Johannesburg, South Africa Tel : +27-11-928-2000 Fax : +27-11-392-2354Hong Kong Ryoden Automation Ltd.10th Floor, Manulife Tower, 169 Electric Road, North Point, HongKong Tel : +852-2887-8870 Fax : +852-2887-7984China Ryoden International Shanghai Ltd.3F Block5 Building Automation Instrumentation Plaza 103 Cao Bao Rd. Shanghai200233 China Tel : +86-21-6475-3228 Fax : +86-21-6484-6996Taiwan Setsuyo Enterprise Co., Ltd.6F., No.105 Wu-Kung 3rd.RD, Wu-Ku Hsiang, Taipei Hsine, Taiwan Tel : +886-2-2299-2499 Fax : +886-2-2299-2509Korea HAN NEUNG TECHNO CO.,LTD.1F Dong Seo Game Channel Bldg., 660-11,Deungchon-dong Kangsec-ku,Seoul, Korea Tel : +82-2-3668-6567 Fax : +82-2-3664-8335Singapore Mitsubishi Electric Asia Pte, Ltd.307 ALEXANDRA ROAD #05-01/02,MITSUBISHI ELECTRIC BUILDING SINGAPORE 159943 Tel : +65-473-2480 Fax : +65-476-7439Thailand F. A. Tech Co.,Ltd.898/28,29,30 S.V.CITY BUILDING,OFFICE TOWER 2,FLOOR17-18 RAMA 3 ROAD,BANGKPONGPANG,YANNAWA,BANGKOK 10120 Tel : +66-2-682-6522 Fax : +66-2-682-6020Indonesia P.T.Autoteknindo SUMBER MAKMURJL. MUARA KARANG SELATAN BLOK A UTARA NO.1 KAV.NO.11 KAWASAN INDUSTRI/ PERGUDANGAN JAKARTA - UTARA 14440Tel : +62-21-663-0833 Fax : +62-21-663-0832India Messung Systems Put,Ltd.Electronic Sadan NO:111 Unit No15, M.I.D.C BHOSARI,PUNE-411026 Tel : +91-20-7128927 Fax : +91-20-7128108Australia Mitsubishi Electric Australia Pty. Ltd.348 Victoria Road, PostalBag, No 2, Rydalmere, N.S.W 2116, Australia Tel : +61-2-9684-7777 Fax : +61-2-9684-7245HEAD OFFICE : 1-8-12, OFFICE TOWER Z 14F HARUMI CHUO-KU 104-6212, JAPANNAGOYA WORKS : 1-14, YADA-MINAMI5, HIGASHI-KU, NAGOYA, JAPAN02 (MEE)Specifications subject to change without notice.。

10.06.2016 ­ 10:26:18hDatasheet ­ AZM 161ST­11/12KA­024Solenoid interlock / AZM 161(Minor differences between the printed image and the original product mayexist!)• Thermoplastic enclosure• Double­insulated• Interlock with protection against incorrect locking.• 130 mm x 90 mm x 30 mm • 6 Contacts • Long life• Large wiring compartment • Manual release• cable entries 2 M 16 x 1.5• 2 Connector M12, 4­ and 8­polesOrdering detailsProduct type description AZM 161ST­11/12KA­024Article number101192436EAN code 4030661352367eCl@ss 27­27­26­03ApprovalApprovalBG USA/CAN CCCClassificationStandards EN ISO 13849­1B 10d Opener (NC) 2.000.000Mission time 20 Y earsnoticeGlobal PropertiesProduct name AZM 161StandardsEN 60947­5­1, BG­GS­ET­19Compliance with the Directives (Y/N)Y esNumber of actuating directions3 pieceActive principle electromechanicalDuty cycle Magnet 100 %Materials­ Material of the housings Plastic, glass­fibre reinforced thermoplastic, self­extinguishing­ Material of the contacts SilverHousing coating NoneMechanical dataActuating play in direction of actuation 5.5 mmDesign of electrical connection Connector M12Plug­in connectors required2Mechanical life> 1.000.000 operationsEmergency unlocking device (Y/N)NoManual release (Y/N)Y esEmergency release (Y/N)NoLatching force5 NPositive break force20 Npositive break travel10 mmClamping force F2000 NMax. Actuating speed2 m/sActuating frequency max. 1000 / hAmbient conditionsAmbient temperature­ Min. environmental temperature−25 °C­ Max. environmental temperature+60 °CProtection class IP67 to IEC/EN 60529Electrical dataDesign of control element Normally open contact (NO), Opener (NC) Switching principle Creep circuit elementNumber of auxiliary contacts2 pieceNumber of safety contacts3 piecePower to unlock NoPower to lock Y esRated control voltage U s24 VAC/DCPower consumption max. 10 WRated impulse withstand voltage U imp Connector 4­pole ­ 2.5 kVConnector 8­pole ­ 0,8 kVRated insulation voltage U i Connector 4­pole ­ 250 VConnector 8­pole ­ 60 VThermal test current I the Connector 4­pole ­ 4 AConnector 8­pole ­ 2 AUtilisation category Connector 4­pole ­ AC­15: 230 V / 4 AConnector 8­pole ­ DC­13: 60 V / 2 ARequired rated short­circuit current1000 AMax. fuse rating6 A gG D­fuse To DIN EN 60269­1ATEXExplosion protection categories for gases NoneExplosion protected category for dusts NoneMiscellaneous dataApplicationssliding safety guard,removable guard,hinged safety guardDimensionsDimensions of the sensor­ Width of sensor130 mm­ Height of sensor90 mm­ Length of sensor30 mmnoticeManual release• For maintenance, installation, etc.• For manual release using M5 triangular key, available as accessoryDiagramNote Diagrampositive break NC contactactiveno activeNormally­open contactNormally­closed contactOrdering codeAZM 161 (1)­(2)(3)K(4)­(5)­(6)(7)(1)SK Screw connectionCC Cage clampsST male connector M12, 8­ and 4­poles(Only for U s: 24 VAC/DC)(2)12/122 Normally open contact (NO) / 4Opener (NC)12/112 Normally open contact (NO) / 3Opener (NC) (Plug­in connection)11/122 Normally open contact (NO) / 3Opener (NC) (Plug­in connection)(3)without Latching force 5 NR Latching force 30 N(4)without Power to unlock A Power to lock(5)without Manual release lateral ED Manual release cover­side EU Manual release rear T Emergency exit lateral TD Emergency exit cover­side TU Emergency exit rear NEmergency release (6)024U s : 24 VAC/DC 110/230U s : 110/230 VAC (7)G with LED (Only for U s : 24 VAC/DC)ImagesDimensional drawing (basic component)Contact arrangementContact arrangementOperating principleWiring diagramSystem componentsActuator101145117 ­ AZM 161­B1101144416 ­ AZM 161­B1E101171859 ­ AZM 161­B1ES101175431 ­ AZM 161­B1F101171125 ­ AZM 161­B1S101173089 ­ AZM 161­B1­2053 WITH BALL LATCH101164100 ­ AZM 161­B1­1747 WITH MAGNETIC LATCH101178199 ­ AZM 161­B1­2024101176642 ­ AZM 161­B1­2177 WITH CENTERING GUIDE101174113 ­ AZM 161­B6­2177 WITH CENTERING GUIDE• For very smal actuating radii101170375 ­ AZM 161­B6S101144420 ­ AZM 161­B6• For very smal actuating radiiDoor­handle systemAZM 161­STS30• Latching handle• Suitable for all types of guardAccessories101100887 ­ TRIANGULAR KEY TK­M5• For manual release using M5 triangular key, available asaccessory• For maintenance, installation, etc.101149213 ­ Mounting set MS AZM 161 R/P101150376 ­ Mounting set MS AZM 161 PConnectorA­K4M12• Pre­wired cable• 4­poleA­K8M12• Pre­wired cable• 8­poleK.A. Schmersal GmbH & Co. KG, Möddinghofe 30, D­42279 WuppertalThe data and values have been checked throroughly. Technical modifications and errors excepted. Generiert am 10.06.2016 ­ 10:26:19h Kasbase 3.2.2.F.64I。

1~ TriacThyristor ModulePart numberMCMA650MT1800NKDBackside: isolatedT2T2T2TAV TV V1.02RRM 3001800=V =V I =A Features / Advantages:Applications:Package:● Triac for line frequency● Three Quadrants Operation - QI - QIII● Planar passivated chip ● Long-term stabilityof blocking currents and voltages● Line rectifying 50/60 Hz ● Softstart AC motor control ● DC Motor control ● Power converter ● AC power control● Lighting and temperature controlY1● Industry standard outline ● RoHS compliant● Soldering pins for PCB mounting ● Base plate: Copper internally DCB isolated ● Advanced power cycling● Isolation Voltage: V~3600Information furnished is believed to be accurate and reliable. However, users should independentlyevaluate the suitability of and test each product selected for their own applications. Littelfuse products are not designed for,and may not be used in, all applications. Read complete Disclaimer Notice at Disclaimer Notice/disclaimer-electronics.RatingsC M M A 650MT 1800N KD Part descriptionThyristor (SCR)Thyristor(up to 1800V)1~ TriacT hree Quadrants operation: QI - QIII Y1-2-CU Module==== = Current Rating [A]Reverse Voltage [V]==== PackageT op °C M D Nm 7mounting torque 4.5T VJ °C 140virtual junction temperature -40Weight g 650Symbol Definitiontyp.max.min.Conditionsoperation temperature Unit M T Nm 13terminal torque11V V t = 1 second Vt = 1 minuteisolation voltagemm mm 16.025.0d Spp/App creepage distance on surface | striking distance through air d Spb/Apb terminal to backsideI RMS RMS current600A per terminal125-40terminal to terminal Y1Similar PartPackageVoltage classMCMA650MT1400NKD Y1-2-CU 1400Delivery ModeQuantityCode No.Ordering Number Marking on Product Ordering 50/60 Hz, RMS; I ≤ 1 mAISOL MCMA650MT1800NKD 518710Box 2MCMA650MT1800NKD Standard 3600ISOLT stg °C 125storage temperature-403000m Ω0 max R 0 maxslope resistance *0.5Outlines Y1Thyristor。