TCPA300-400-Amplifiers-and-TCP300A-400电流探头加信号放大器

交换机 罗克韦尔自动化Stratix交换机常见问题解答常见问题解答1.工业现场布置以太网时对电缆有什么要求？在工业现场布置以太网时，可以使用屏蔽双绞线(STP)、非屏蔽双绞线(UTP)和光纤。

可以使用5类、5e、6类和6e的双绞线。

电缆的等级越高，它的性能就越好，所需的EMC保护就越少。

推荐100M时使用5e以上的双绞线，1000M推荐使用6类以上的双绞线。

使用光纤具有更强的噪音抗扰性，可以传输更长的距离。

2.双绞线和光纤的传输距离在常温（20度）下，交换机与网卡间的双绞线最大传输距离为100米，当线缆的温度上升时，信号就会衰减，导致传输距离变短；当电缆周围干扰比较大时，也会传输距离变短，因此实际安装时应该小于90米。

光纤可传输更长的距离，多模光纤在100M的速度下可以传输2km，多模光纤在1000M的速度下使用直径为50um的光纤可以传输550m，多模光纤在1000M的速度下使用直径为62.5um的光纤可以传输220m。

单模光纤可以传输距离为10km。

光纤的实际传输距离与光纤模块、光纤的类型和直径以及光纤安装时的弯曲半径有关。

下表是Stratix 系列光纤模块的传输距离3.以太网双绞线安装时应注意哪些事项？按照电磁兼容性（EMC）标准，网络通讯属于EMC-2，而交流电源、大功率输入输出以及运动驱动器与电机之间的电源线等属于EMC-1。

安装以太网双绞线时应注意以下基本原则。

a. 如果必须与电源线交叉，它们之间应该互相垂直；b.至少与高压外壳、或RF/微波发射源相隔1.5米；c.如果导体安装在一个金属导线槽或导管，1)导线槽或导管的每段接头处必须焊接以保证整个线路的导电连通性，2)入口点必须与外壳焊接在一起；d.适当的屏蔽（在需要的地方）并将其安放在配线管道中，使之与EMC-1导体隔开；e. 参考用户当地、国家以及国际关于电缆分组的标准。

不要将以太网电缆与下表所示的电缆离的太近。

电缆至少要保持的距离噪声源的强度通过电缆电压8.3 cm 小于20安培的EMC-1导体24 至10015 cm 大约20安培，低于100kVA的交流电源线101至20030 cm 高于100kVA的交流电源线201 至400g. 在导管或金属导向槽中安装UTP电缆时，请咨询电缆供应商确认是否影响电气性能；4.HUB、交换机、管理型交换机、三层交换机、路由器和网关有何区别？HUB：HUB或称集线器属于物理层的设备，HUB主要功能是对信号放大，HUB只识别数据包是0还是1，不识别其它内容，所有HUB连接在一起的设备属于一个冲突域，HUB连接的网络是一个共享式网络。

FeaturesSingle chip USB 2.0 to 10/100M Fast Ethernet controllerSingle chip USB 2.0 to RMII, support HomePNAand HomePlug PHYSingle chip USB 2.0 to Reverse-RMII,supportsglueless MAC-to-MAC connectionsUSB Device InterfaceIntegrates on-chip USB 2.0 transceiver andSIE compliant to USB Spec 1.1 and 2.0Supports USB Full and High Speed modeswith Bus-Power or Self-Power capabilitySupports 4 or 6 programmable endpoints onUSB interfaceSupports AutoDetach power saving. Detachfrom USB host when Ethernet cable isunpluggedHigh performance packet transfer rate overUSB bus using proprietary burst transfermechanism (US Patent Approval)Fast Ethernet ControllerIntegrates 10/100Mbps Fast EthernetMAC/PHYIEEE 802.3 10BASE-T/100BASE-TXcompatibleIEEE 802.3 100BASE-FX compatibleSupports twisted pair crossover detection andauto-correction (HP Auto-MDIX)Embedded SRAM for RX/TX packetbufferingSupports IPv4/ IPv6 packet ChecksumOffload Engine(COE) to reduce CPU loading,including IPv4 IP/TCP/UDP/ICMP/IGMP &IPv6 TCP/UDP/ICMPv6 checksum check &generationSupports full duplex operation with IEEE802.3x flow control and half duplex operationwith back-pressure flow controlSupports 2 VLAN ID filtering, receivedVLAN Tag (4 bytes) can be stripped off orpreservedPHY loop-back diagnostic capabilitySupport Wake-on-LAN FunctionSupports Suspend Mode and Remote Wakeupvia Link-change, Magic packet, MS wakeupframe and external wakeup pinSupports Protocol Offload (ARP & NS) forWindows 7 Networking Power ManagementOptional PHY power down during SuspendModeVersatile External Media InterfaceOptional RMII interface in MAC mode allowsAX88772B to work with HomePNA andHomePlug PHYOptional Reverse-RMII interface in PHYmode allows AX88772B to support gluelessMAC-to-MAC connectionsAdvanced Power Management FeaturesSupports dynamic power management toreduce power dissipation during idle or lighttrafficSupports very low power Wake-on-LAN(WOL) mode when the system enters suspendmode and waits for network events to wake itup.Supports 256/512 bytes (93c56/93c66) of serialEEPROM (for storing USB Descriptors)Supports embedded Device Descriptors ROM and512 bytes ID-SRAM (online programmablememory for USB Device Descriptors, etc) tosave external EEPROMSupports automatic loading of Ethernet ID, USBDescriptors and Adapter Configuration fromEEPROM after power-on initializationIntegrates on-chip voltage regulator and onlyrequires a single 3.3V power supplySingle 25MHz clock input from either crystal oroscillator sourceIntegrates on-chip power-on reset circuitSmall form factor with 64-pin LQFP RoHScompliant packageOperating commercial temperature range 0°C to70°C or industriure range -40 to +85°CDocument No: AX88772B/V1.04/08/10/11Target ApplicationsPC/InternetConsumer ElectronicsFigure 1: Target ApplicationsPocketable ComputerUSB DongleDocking StationCard Reader USB KVMESwitchInternet SecurityUSB Key Port Replicatorfor Mobile ComputerUWB/802.11n/WiMAXUSB DongleMedia GatewayUMPC Portable Media Player ePianoIPTVIP STB TiVo Box Game ConsoleDVD-Recorder/DVRTypical System Block Diagramsz Hosted by USB to operate with internal Ethernet PHY onlyFigure 2: USB 2.0 to LAN Adaptor (MAC mode)zHosted by USB to operate with either internal Ethernet PHY or RMII (in MAC mode)Figure 3: USB 2.0 to Fast Ethernet and external PHYceiver Combo (MAC mode)Ethernet PHYORAX88772BEthernet PHYORzHosted by USB to operate with either internal Ethernet PHY (in MAC mode) or Reverse-RMII (in PHY mode)Figure 4: Bridging Embedded MCU to USB 2.0 Host Interface (PHY mode)Figure 5: USB 2.0 to HomePlug Adaptor (PHY mode)Ethernet PHYOREthernet PHYORCopyright © 2010-2011 ASIX Electronics Corporation. All rights reserved.DISCLAIMERNo part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, for any purpose, without the express written permission of ASIX. ASIX may make changes to the product specifications and descriptions in this document at any time, without notice.ASIX provides this document “as is” without warranty of any kind, either expressed or implied, including without limitation warranties of merchantability, fitness for a particular purpose, and non-infringement.Designers must not rely on the absence or characteristics of any features or registers marked “reserved”, “undefined” or “NC”. ASIX reserves these for future definition and shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them. Always contact ASIX to get the latest document before starting a design of ASIX products.TRADEMARKSASIX, the ASIX logo are registered trademarks of ASIX Electronics Corporation. All other trademarks are the property of their respective owners.Table of Contents1 INTRODUCTION (10)1.1 G ENERAL D ESCRIPTION (10)1.2 B LOCK D IAGRAM (10)1.3 P INOUT D IAGRAM (11)2 SIGNAL DESCRIPTION (12)2.1 AX88772B64-PIN P INOUT D ESCRIPTION (12)2.2 H ARDWARE S ETTING F OR O PERATION M ODE AND M ULTI-F UNCTION P INS (15)3 FUNCTION DESCRIPTION (17)3.1 USB C ORE AND I NTERFACE (17)3.2 10/100M E THERNET PHY (17)3.3 MAC C ORE (17)3.4 C HECKSUM O FFLOAD E NGINE (COE) (18)3.5 O PERATION M ODE (18)3.6 S TATION M ANAGEMENT (STA) (21)3.7 M EMORY A RBITER (23)3.8 USB TO E THERNET B RIDGE (23)3.8.1 Ethernet/USB Frame Format Bridge (23)3.9 S ERIAL EEPROM L OADER (23)3.10 G ENERAL P URPOSE I/O (23)3.11 C LOCK G ENERATION (24)3.12 R ESET G ENERATION (25)3.13 V OLTAGE R EGULATOR (25)4 SERIAL EEPROM MEMORY MAP (26)4.1 D ETAILED D ESCRIPTION (27)4.2 I NTERNAL ROM D EFAULT S ETTINGS (30)4.2.1 Internal ROM Description (31)4.2.2 External EEPROM Description (33)5 USB CONFIGURATION STRUCTURE (34)5.1 USB C ONFIGURATION (34)5.2 USB I NTERFACE (34)5.3 USB E NDPOINTS (34)6 USB COMMANDS (35)6.1 USB S TANDARD C OMMANDS (35)6.2 USB V ENDOR C OMMANDS (36)6.2.1 Detailed Register Description (38)6.3 I NTERRUPT E NDPOINT (63)6.4 B ULK-O UT T IMER AND M ONITOR (BOTM) (64)7 EMBEDDED ETHERNET PHY REGISTER DESCRIPTION (65)7.1 PHY R EGISTER D ETAILED D ESCRIPTION (65)7.1.1 Basic Mode Control Register (BMCR) (66)7.1.2 Basic Mode Status Register (BMSR) (67)7.1.3 PHY Identifier Register 1 (PHYIDR1) (68)7.1.4 PHY Identifier Register 2 (PHYIDR2) (68)7.1.5 Auto Negotiation Advertisement Register (ANAR) (68)7.1.6 Auto Negotiation Link Partner Ability Register (ANLPAR) (69)7.1.7 Auto Negotiation Expansion Register (ANER) (69)8 STATION MANAGEMENT REGISTERS IN PHY MODE (70)8.1 PHY M ODE D ETAILED R EGISTER D ESCRIPTION (71)8.1.1 PHY Mode Basic Mode Control Register (PM_BMCR) (71)8.1.2 PHY Mode Basic Mode Status Register (PM_BMSR) (72)8.1.3 PHY Mode PHY Identifier Register 1 (PM_PHYIDR1) (73)8.1.4 PHY Mode PHY Identifier Register 2 (PM_PHYIDR2) (73)8.1.5 PHY Mode Auto Negotiation Advertisement Register (PM_ANAR) (73)8.1.6 PHY Mode Auto Negotiation Link Partner Ability Register (PM_ANLPAR) (74)8.1.7 PHY Mode Auto Negotiation Expansion Register (PM_ANER) (74)8.1.8 PHY Mode Control Register (PM_Control) (75)9 ELECTRICAL SPECIFICATIONS (76)9.1 DC C HARACTERISTICS (76)9.1.1 Absolute Maximum Ratings (76)9.1.2 Recommended Operating Condition (76)9.1.3 Leakage Current and Capacitance (77)9.1.4 DC Characteristics of 3.3V I/O Pins (77)9.1.5 DC Characteristics of 3.3V with 5V Tolerance I/O Pins (78)9.1.6 DC Characteristics of Voltage Regulator (78)9.2 T HERMAL C HARACTERISTICS (79)9.3 P OWER C ONSUMPTION (79)9.4 P OWER-UP S EQUENCE (80)9.5 AC T IMING C HARACTERISTICS (81)9.5.1. Clock Timing (81)9.5.2. Reset Timing (81)9.5.3. Serial EEPROM Timing (82)9.5.4. Station Management Timing (83)9.5.5. RMII / Reverse-RMII Timing (84)9.5.6. 10/100M Ethernet PHY Interface Timing (85)9.5.7. USB Transceiver Interface Timing (86)10 PACKAGE INFORMATION (88)10.1 AX88772B64-PIN LQFP PACKAGE (88)11 ORDERING INFORMATION (89)12 REVISION HISTORY (90)APPENDIX A. DEFAULT WAKE-ON-LAN (WOL) READY MODE (91)APPENDIX B. ETHERNET PHY POWER AND RESET CONTROL (94)APPENDIX C. EXTERNAL EEPROM / INTERNAL ROM / INTERNAL ID-SRAM OF VENDER DESCRIPTIONS SELECTION (96)List of FiguresF IGURE 1 :T ARGET A PPLICATIONS (2)F IGURE 2 :USB2.0 TO LAN A DAPTOR (MAC MODE) (3)F IGURE 3 :USB2.0 TO F AST E THERNET AND EXTERNAL PHY CEIVER C OMBO (MAC MODE) (3)F IGURE 4 :B RIDGING E MBEDDED MCU TO USB2.0H OST I NTERFACE (PHY MODE) (4)F IGURE 5 :USB2.0 TO H OME P LUG A DAPTOR (PHY MODE) (4)F IGURE 6 :AX88772B B LOCK D IAGRAM (10)F IGURE 7 :AX88772B P INOUT D IAGRAM (11)F IGURE 8 :I NTERNAL D ATA PATH D IAGRAM OF 10/100M E THERNET PHY AND RMII/R EVERSE-RMII I NTERFACES .. 17 F IGURE 9 :AX88772B RMII TO E XTERNAL PHY CHIP WITH 50MH Z OSC (19)F IGURE 10 :AX88772B RMII I NTERFACE TO E XTERNAL PHY CHIP (19)F IGURE 11 :AX88772B R EVERSE-RMII TO E XTERNAL MAC D EVICE WITH 50MH Z OSC (20)F IGURE 12 :AX88772B R EVERSE-RMII I NTERFACE TO E XTERNAL MAC D EVICE (20)F IGURE 13 :I NTERNAL C ONTROL MUX OF S TATION M ANAGEMENT I NTERFACE IN MAC MODE (21)F IGURE 14 :I NTERNAL C ONTROL MUX OF S TATION M ANAGEMENT I NTERFACE IN PHY MODE (22)F IGURE 15 :O NE EXTERNAL 1M OHM RESISTOR ON 25MH Z CRYSTAL OSCILLATOR IS NECESSARY (25)F IGURE 16 :W ATER LEVEL SETTING FOR FLOW CONTROL (29)F IGURE 17 :M ULTICAST F ILTER E XAMPLE (43)F IGURE 18 :M ULTICAST F ILTER A RRAY H ASHING A LGORITHM (44)F IGURE 19 :M ULTICAST F ILTER A RRAY B IT M APPING (44)F IGURE 20 :802.1Q VLAN P ACKET F ORMAT (54)F IGURE 21 :S TATION M ANAGEMENT F RAME FOR PHY M ODE (70)F IGURE 22 :E THERNET PHY O SCILLATOR/PLL B LOCK D IAGRAM (94)F IGURE 23 :E THERNET PHY P OWER-UP &R ESET T IMING D IAGRAM (95)F IGURE 24 :E XTERNAL EEPROM/I NTERNAL ROM/I NTERNAL ID-SRAM OF V ENDER D ESCRIPTIONS SELECTION 97List of TablesT ABLE 1 :AX88772B P INOUT D ESCRIPTION (14)T ABLE 2 :MFA_3~MFA_0 PIN CONFIGURATION (15)T ABLE 3 :AX88772B PHY_ID D EFINITION S OURCE (18)T ABLE 4 :T HE EXTERNAL 25M HZ C RYSTAL U NITS SPECIFICATIONS (24)T ABLE 5 :S ERIAL EEPROM M EMORY M AP (26)T ABLE 6 :I NTERNAL ROM M EMORY M AP (30)T ABLE 7 :I NTERNAL ROM D ESCRIPTION (31)T ABLE 8 :USB S TANDARD C OMMAND R EGISTER M AP (35)T ABLE 9 :USB V ENDOR C OMMAND R EGISTER M AP (37)T ABLE 10 :W AKE-UP F RAME A RRAY R EGISTER (WUD3~0)S TRUCTURE D EFINITION (50)T ABLE 11 :VID1,VID2 SETTING TO FILTER RECEIVED PACKET (53)T ABLE 12 :E MBEDDED E THERNET PHY R EGISTER M AP (65)T ABLE 13 :S TATION M ANAGEMENT R EGISTER M AP IN PHY M ODE (70)T ABLE 14 :P OWER CONSUMPTION (79)T ABLE 15 :R EMOTE W AKEUP T RUTH T ABLE (92)1 Introduction1.1 General DescriptionThe AX88772B Low-power USB 2.0 to 10/100M Fast Ethernet controller is a high performance and highly integrated ASIC which enables low cost, small form factor, and simple plug-and-play Fast Ethernet network connection capability for desktops, notebook PC’s, Ultra-Mobile PC’s, docking stations, game consoles, digital-home appliances, and any embedded system using a standard USB port.The AX88772B features a USB interface to communicate with a USB Host Controller and is compliant with USB specification V1.1 and V2.0. The AX88772B implements a 10/100Mbps Ethernet LAN function based on IEEE802.3, and IEEE802.3u standards with embedded SRAM for packet buffering. The AX88772B integrates an on-chip 10/100Mbps Ethernet PHY to simplify system design.The AX88772B provides an optional Multi-Function-Bus portion A and B (MFA and MFB) for external PHY or external MAC for different application purposes. The MFA/MFB can be a reduce-media-independent interface (RMII) for implementing HomePlug, HomePNA, etc. functions. The MFA/MFB can also be a Reverse Reduced-MII (Reverse-RMII) for glueless MAC-to-MAC connections to any MCU with Ethernet MAC RMII interface. In addition, the MFA/MFB can be configured as general purpose I/O. 1.2 Block DiagramFigure 6: AX88772B Block DiagramDP/DMSEEPROM Loader I/FGeneral PurposeI/O 3.3 to 1.8V RegulatorPLL Clock GeneratorsPower-On-Reset & Reset Gen.RESET_NXTL25P, XTL25N1.3 Pinout Diagramz AX88772B in 64-pin LQFP packageG N DT E S T 0T E S T 1R E S E T _NV C C 3I OT C L K _E NT C L K _0T C L K _1E E D I OE E C SE E C K G N DV C C KM F B 0M F B 1M F B 2V C C 18X T L 25X T L 25G N D 18R S E T _B V C C 3A S G N D 18R X I R X I V C C 18T X O T X O G N D 18G N V C C 3I OFigure 7: AX88772B Pinout Diagram2 Signal DescriptionThe following abbreviations apply to the following pin description table.I18 Input, 1.8V AI Analog Input I3 Input, 3.3V AO Analog Output I5 Input, 3.3V with 5V tolerant AB Analog Bi-directional I/O O3 Output, 3.3V PU Internal Pull Up (75K) B5 Bi-directional I/O, 3.3V with 5V tolerant PD Internal Pull Down (75K) P Power Pin S T Schmitt Trigger Tri-stateable Note: Every output or bi-directional I/O pin is 8mA driving strength.2.1 AX88772B 64-pin Pinout DescriptionPin NameTypePin NoPin DescriptionUSB InterfaceDP AB 56 USB 2.0 data positive pin. DM AB 57 USB 2.0 data negative pin. V_BUS I5/PD/S 50 VBUS pin input. Please connect to USB bus power. RREF AI 58 For USB PHY’s internal biasing. Please connect to analog GND through aresistor (12.1Kohm ±1%).Serial EEPROM InterfaceEECK B5/PD/T 38 EEPROM Clock. EECK is an output clock to EEPROM to provide timingreference for the transfer of EECS, and EEDIO signals. EECK only drivehigh / low when access EEPROM otherwise keep at tri-state and internal pull-down.EECS B5/PD/T 39 EEPROM Chip Select. EECS is asserted high synchronously with respect torising edge of EECK as chip select signal. EECS only drive high / low whenaccess EEPROM otherwise keep at tri-state and internal pull-down.EEDIO B5/PU/T 40 EEPROM Data In. EEDIO is the serial output data to EEPROM’s data inputpin and is synchronous with respect to the rising edge of EECK. EEDIOonly drive high / low when access EEPROM otherwise keep at tri-state and internal pull-up.Ethernet PHY InterfaceXTL25P I18 2 25Mhz ± 0.005% crystal or oscillator clock input. This clock is needed forthe embedded 10/100M Ethernet PHY to operate.XTL25N O18 3 25Mhz crystal or oscillator clock output. RXIP AB 9 Receive data input positive pin for both 10BASE-T and 100BASE-TX. RXIN AB 10 Receive data input negative pin for both 10BASE-T and 100BASE-TX. TXOP AB 12 Transmit data output positive pin for both 10BASE-T and 100 BASE-TX TXON AB 13 Transmit data output negative pin for both 10BASE-T and 100 BASE-TX RSET_BG AO 5 For Ethernet PHY’s internal biasing. Please connect to GND through a12.1Kohm ±1% resistor.Misc. PinsRESET_N I5/PU/S 45 Chip reset input. Active low. This is the external reset source used to resetthis chip. This input feeds to the internal power-on reset circuitry, which provides the main reset source of this chip. After completing reset, EEPROM data will be loaded automatically.EXTWAKEUP_N I5/PU/S 23 Remote-wakeup trigger from external pin. EXTWAKEUP_N should beasserted low for more than 2 cycles of 25MHz clock to be effective.GPIO_2 B5/PD 25 General Purpose Input/ Output Pin 2. GPIO_1 B5/PD 26 General Purpose Input/ Output Pin 1. This pin is default as input pin afterpower-on reset. This pin is also for Default WOL Ready Mode setting;please refer to section 2.2 Settings.GPIO_0/PME B5/PD 27 General Purpose Input/ Output Pin 0 or PME (Power Management Event).This pin is default as input pin after power-on reset. GPIO_0 also can bedefined as PME output to indicate wake up event detected. Please refer tosection 2.2 Settings.MFB7 B5/PUI5I5 28 This is a multi-function pin. Please refer to section 2.2 Settings.MFB7:RMII : RXD0Reverse_RMII : TXD0MFB6 B5/PUI5I5 29 This is a multi-function pin. Please refer to section 2.2 Settings.MFB6:RMII : RXD1Reverse_RMII : TXD1MFB5/ REF50 B5/PUB530 This is a multi-function pin. Please refer to section 2.2 Settings.MFB5:When RMII enable, The REF50 in/out direction is determined by EEPROMFlag [1] setting. Please refer to section 2.2 Settings.MFB4 B5/PUO3O3 31 This is a multi-function pin. Please refer to section 2.2 Settings.RMII : TXD0Reverse_RMII : RXD0MFB3 B5/PUO3O3 32 This is a multi-function pin. Please refer to section 2.2 Settings.RMII : TXD1Reverse_RMII : RXD1MFB2 B5/PUO3O3 33 This is a multi-function pin. Please refer to section 2.2 Settings.RMII : TXENReverse_RMII : CRSDVMFB1 B5/PUI5I5 34 This is a multi-function pin. Please refer to section 2.2 Settings.RMII : CRSDVReverse_RMII : TXENMFB0 B5/PU35 This is a GPIO pin. Please refer to section 2.2 Settings.MFA3/ PHY_NO3I5/PU21 It is a multi-function pin. The default is USB Speed indicator. When USBbus is in Full speed, this pin will tri-state continuously. When USB bus is inHigh speed, this pin drives low continuously. This pin tri-state and drive lowin turn (blinking) to indicate TX data transfer going on whenever the hostcontroller sends bulk out data transfer.MFB1~7 bus is determined by setting of this input pin when MFA2 sets 0:0: Reverse_RMII (PHY mode).1: RMII (MAC mode).Please refer to PIN configuration of MFA and MFB in section 2.2 Settings.MFA2/ RMII_NO3I5/PU19 It is a multi-function pin. The default is Link status LED indicator.This pin drives low continuously when the Ethernet link is up and drives lowand high in turn (blinking) when Ethernet PHY is in receiving ortransmitting state.MFB1~7 function is determined by setting of this input pin:0: Reverse_RMII/RMII .1: MFB bus as GPIO function.Please refer to PIN configuration of MFA and MFB in section 2.2 Settings.MFA1/ MDIOO3B5/PU18 It is a multi-function pin. The default is Ethernet speed LED indicator.This pin drives low when the Ethernet PHY is in 100BASE-TX mode anddrives high when in 10BASE-T mode.This pin can perform as MDIO when enabling Reverse_RMII/RMII.MFA0/MDCO3O3I5/PU 17 It is a multi-function pin. The default is Full Duplex and collision detectedLED indicator.This pin drives low when the Ethernet PHY is in full-duplex mode and drives high when in half duplex mode. When in half duplex mode and the Ethernet PHY detects collision, it will be driven low (or blinking).This pin can perform as MDC when enabling Reverse_RMII/RMII:RMII : Output.Reverse_RMII : Input.SD I 7 Fiber signal detectedTwisted pair operation: Please connect to GND directly or through aresistor.Fiber operation: Please connect to the fiber transceiver signal detect outputpin.TEST0 I5/S 47 Test pin. For normal operation, user should connect to ground.TEST1 I5/S 46 Test pin. For normal operation, user should connect to ground.X1 I3 62 Test pin. For normal operation, user should connect to ground.X2 O3 61 Test pin. No connectionTCLK_EN I5/PD/S 43 Test pin. For normal operation, user should keep this pin NC.TCLK_0 I5/PD 42 Test pin. For normal operation, user should keep this pin NC.TCLK_1 I5/PD 41 Test pin. For normal operation, user should keep this pin NC.On-chip Regulator PinsVCC3R3 P 52 3.3V Power supply to on-chip 3.3V to 1.8V voltage regulator.GND3R3 P 53 Ground pin of on-chip 3.3V to 1.8V voltage regulator.V18F P 51 1.8V voltage output of on-chip 3.3V to 1.8V voltage regulator.Power and Ground PinsVCCK P 20, 24, 36, 49Digital Core Power. 1.8V.VCC3IO P 16, 44 Digital I/O Power. 3.3V.GND P 15, 22, 37, 48Digital Ground.VCC33A_H P 60 Analog Power for USB transceiver. 3.3V.GND33A_H P 55 Analog Ground for USB transceiver.VCC33A_PLL P 59 Analog Power for USB PLL. 3.3V.GND33A_PLL P 54 Analog Ground for USB PLL.VCC3A3 P 6 Analog Power for Ethernet PHY bandgap. 3.3V.VCC18A P 1, 11 Analog Power for Ethernet PHY and 25Mhz crystal oscillator.1.8V.GND18A P 4, 8, 14 Analog Ground for Ethernet PHY and 25Mhz crystal oscillator. VCC18A_PLL P 64 Analog Power for USB PLL. 1.8V.GND18A_PLL P 63 Analog Ground for USB PLL.Table 1: AX88772B Pinout Description2.2 Hardware Setting For Operation Mode and Multi-Function PinsThe following hardware settings define the desired function or interface modes of operation for some multi-function pins. The logic level shown on setting pin below is loaded from the chip I/O pins during power on reset based on the setting of the pin’s pulled-up (as logic ‘1’) or pulled-down (as logic ‘0’) resister on the schematic.z Chip Operation Mode setting :Pin# 19, Pin #21 Operation Modes Remarks 1x (default) MAC mode Internal PHY The Chip Operation Mode is determined by Pin# 19(MFA2/RMII_N) and Pin #21 (MFA3/PHY_N) value of AX88772B, which is called hardware setting. 01 MAC mode RMII00 PHY mode Reverse-RMIIz EECK pin: USB force to Full Speed mode :EECK Description 0 Normal operation (default). 1 USB force to Full Speed mode. External pull-up resistor must be 4.7Kohm.z GPIO_1 pin: Determines whether this chip will go to Default WOL Ready Mode after power on reset. The WOLstands for Wake-On-LAN.GPIO_1 Description0 Normal operation mode (default, see Note 1). 1 Enable Default WOL Ready Mode. Notice that the external pulled-up resistor must be 4.7Kohm.For more details, please refer to APPENDIX A. Default Wake-On-LAN (WOL) Ready ModeNote 1: This is the default with internal pulled-down resistor and doesn’t need an external one.z EEPROM Flag [12]: Defines the multi-function pin GPIO_0 / PMEGPIO_0 is a general purpose I/O normally controlled by vendor commands. Users can change this pin to operate as a PME (Power Management Event) for remote wake up purpose. Please refer to 4.1.2 Flag of bit 12 (PME_PIN).z MFA_3 ~ MFA_0 pins: There are 4 multi-function pins for LED display purpose and as GPIO control by vendorcommand.Table 2: MFA_3 ~ MFA_0 pin configurationPIN Name Default definitionVendor Command LED_MUX Vendor CommandVMFAIORMII_N enableMFA3 LED_USB indicater Sel_LED3 MFAIO_3- MFA2 LED_Ethernet_LINK_Active Sel_LED2MFAIO_2-MFA1 LED_Ethernet_Speed Sel_LED1 MFAIO_1 MDIO MFA0 LED_Ethernet_Duplex_Collision Sel_LED0MFAIO_0MDCz PIN configuration of MFA and MFBPin# 19 MFA2/RMII_NPin #21MFA3/PHY_NDescription1: MFB7~MFB0 0: RMII 1: MAC Mode0: PHY ModePINNameFunction Pin Type1 X MFB0 MFBIO0 Bidirection, controlled by MFBIOEN01 X MFB1 MFBIO1 Bidirection, controlled by MFBIOEN11 X MFB2 MFBIO2 Bidirection, controlled by MFBIOEN21 X MFB3 MFBIO3 Bidirection, controlled by MFBIOEN31 X MFB4 MFBIO4 Bidirection, controlled by MFBIOEN41 X MFB5 MFBIO5 Bidirection, controlled by MFBIOEN51 X MFB6 MFBIO6 Bidirection, controlled by MFBIOEN61 X MFB7 MFBIO7 Bidirection, controlled by MFBIOEN71 X MFA0 Refer to MFAConfiguration1 X MFA1 Refer to MFAConfiguration1 X MFA2 Refer to MFAConfiguration1 X MFA3 Refer to MFAConfiguration0 1 MFB0 MFBIO0 Bidirection, controlled by MFBIOEN00 1 MFB1 CRSDV Input0 1 MFB2 TXEN Output0 1 MFB3 TXD1 Output0 1 MFB4 TXD0 Output0 1 MFB5 REF50 Input/Output control by EEPROM flag[1] 0 1 MFB6 RXD1 Input0 1 MFB7 RXD0 Input0 1 MFA0 MDC Output0 1 MFA1 MDIO I/O0 0 MFB0 MFBIO0 Bidirection, controlled by MFBIOEN00 0MFB1TXEN Input 0 0MFB2CRSDV Output 0 0MFB3RXD1 Output 0 0MFB4RXD0 Output 0 0 MFB5 REF50 Input/Output control by EEPROM flag[1] 0 0MFB6TXD1 Input 0 0MFB7TXD0 Input 0 0MFA0MDC Input 0 0MFA1MDIO I/O3 Function Description3.1 USB Core and InterfaceThe USB core and interface contains a USB 2.0 transceiver, serial interface engine (SIE), USB bus protocol handshaking block, USB standard command, vendor command registers, logic for supporting bulk transfer, and an interrupt transfer, etc. The USB interface is used to communicate with a USB host controller and is compliant with USB specification V1.1 and V2.0.3.2 10/100M Ethernet PHYThe 10/100M Fast Ethernet PHY is compliant with IEEE 802.3 and IEEE 802.3u standards. It contains an on-chip crystal oscillator, PLL-based clock multiplier, and a digital phase-locked loop for data/timing recovery. It providesover-sampling mixed-signal transmit drivers compliant with 10/100BASE-TX transmit wave shaping / slew rate control requirements. It has a robust mixed-signal loop adaptive equalizer for receiving signal recovery. It contains a baseline wander corrective block to compensate data dependent offset due to AC coupling transformers. It supports auto-negotiation and auto-MDIX functions.3.3 MAC CoreThe MAC core supports 802.3 and 802.3u MAC sub-layer functions, such as basic MAC frame receive and transmit, CRC checking and generation, filtering, forwarding, flow-control in full-duplex mode, and collision-detection and handling in half-duplex mode, etc. It provides a reduce-media-independent interface (RMII) for implementing Fast Ethernet and HomePNA functions.The MAC core interfaces to external RMII/Reverse-RMII interfaces and the embedded 10/100M Ethernet PHY. The selection among the interfaces is done via setting Pin# 19 (MFA2/RMII_N) and Pin #21 (MFA3/PHY_N) of AX88772B package pinout during power on reset (see 2.2) and using the USB vendor command, Software Interface Selection register . Figure 8 shows the data path diagram of 10/100M Ethernet PHY and RMII/Reverse-RMII interfaces to MAC core.Figure 8: Internal Data path Diagram of 10/100M Ethernet PHY and RMII/Reverse-RMII InterfacesREFCLK, RXD [1:0], CRSDV, TXD [1:0], TXEN RXIP/RXIN TXOP/TXON3.4 Checksum Offload Engine (COE)The Checksum Offload Engine (COE) supports IPv4, IPv6, layer 4 (TCP, UDP, ICMP, ICMPv6 and IGMP) header processing functions and real time checksum calculation in hardwareThe COE supports the following features in layer 3:z IP header parsing, including IPv4 and IPv6z IPv6 routing header type 0 supportedz IPv6 in IPv4 tunnel supportedz IPv4 header checksum check and generation (There is no checksum field in IPv6 header)z Version error detecting on RX direction for IP packets with version != 4 or 6z Detecting on RX direction for IP packets with error header checksumThe COE supports the following features in layer 4:z TCP and UDP checksum check and generation for non-fragmented packetz ICMP, ICMPv6 and IGMP message checksum check and generation for non-fragmented packetz Packet filtering or checksum error indication on RX direction for TCP/UDP/ICMP/ICMPv6/IGMP packets with error checksum3.5Operation ModeFor simple USB 2.0 to Ethernet applications, user can use the AX88772B, which operates with internal Ethernet PHY. AX88772B supports following three operation modes: (Ref. 2.2 Hardware Setting For Operation Mode AndMulti-Function Pins)1.MAC mode2.PHY modeBelow provides a detailed description for the three operation modes:z In MAC mode, the AX88772B Ethernet block is configured as an Ethernet MAC. From a system application standpoint, AX88772B can be used as a USB 2.0 to LAN Adaptor (see Figure 2) or a USB 2.0 to Fast Ethernet and HomePNA Combo (see Figure 3).In MAC mode, the AX88772B internal datapath can work with internal Ethernet PHY or RMII interface bysetting Software Interface Selection register. Note that the PHY_ID for the internal Ethernet PHY and external one are defined in below Table 3. Please refer to below Figure 9, Figure 10 for RMII example.z In PHY mode, the AX88772B Ethernet block is configured as an Ethernet PHY interface. In this case, an external microcontroller with Ethernet MAC can interface with AX88772B as if it were to interface with an Ethernet PHY chip, and AX88772B can act as a USB to Reverse-RMII bridge chip for the microcontroller to provide USB 2.0 device interface for some system applications (see Figure 4).Please refer to below Figure 11, Figure 12 for Reverse-RMII example.STA PHY_ID MAC mode PHY modeEmbedded Ethernet PHYPHY_ID [4:0]10h 10hExternal Media Interface PHY_ID [4:0] {Secondary PHY_ID[4:0]}{Secondary PHY_ID [4:1], 0}Note: The value of Secondary PHY_ID [4:0] is defined in EEPROM memory map 4.1.6 Table 3: AX88772B PHY_ID Definition Source。

高频电流探头CP8150A泰克TCPA300+TCP303/TCP0150是德N2779A+N2781B可替代品高频电流探头CP8150ACP8150A电流探头是一款是一款能够同时测量直流和交流的高频电流探头。

请看如下型号参数：CP8030B30A/DC～50MHzCP8030H30A/DC～100MHzCP8050A50A/DC～50MHzCP8150A150A/DC～12MHzCP8300A300A/DC～6MHzCP8500A500A/DC～5MHz深圳市优测科技有限公司其特点包括：高带宽，可准确快速捕捉电流波形高精度，在电流测量量程范围内，精度高达1%，满足大部分测试领域的需要两个量程可供选择，方便小电流测量自动消磁调零功能，使用方便；声光过流报警功能，提醒量程切换电子轻触式按键设计，使用寿命更长标准的BNC输出接口，可匹配任何厂家示波器二、产品概述CP8150A钳口可夹住直径达20mm的导线，适用于大电流应用场合可以测量150A的连续电流和300A的峰值电流，提供了12MHz的带宽探头具有150A(100X)和30A(10X)两个量程可选择，10X量程用于小电流测量，分辨率高达10mA三、应用电源（开关式和线性）设计LED照明设计电动汽车设计新能源变频家电电工实验半导体器件设计逆变器/变压器设计电子镇流器设计工控/消费电子设计发动机驱动装置设计电力电子和电力传动实验等通运输系统（电动车辆、机车、航空电子设备等）设计五、产品及附件说明■探头主体说明CP8030B CP8030H CP8050A1．传感器头检测导体电流的核心元件。

元件由一个精密的半导体等构成，周围温度的急剧变化，外部压力冲击等，有可能导致其受到损伤。

因此操作时必须十分注意。

2．开关控制杆控制传感器头开合的操纵杆。

测量电流时应先拉操纵杆打开传感器，放入被测导线。

然后再推操纵杆使探头处于LOCK状态。

3．输出接口标准的BNC输出接口，通过标配的BNC同轴线可连接任何厂家的示波器。

AC/DC Current Measurement SystemsTCPA300, TCP312A, TCP305A, TCP303, TCPA400, TCP404XL DatasheetThe TCP300 and TCP400 Series AC/DC current measurement family is a highly advanced current measurement system for today's current measurement needs. When connected to Tektronix oscilloscopes with TEKPROBE Level II, TekConnect (w/ TCA-BNC), or TekVPI (w/ TPA-BNC)interfaces, current measurements and calculations are simple and easy.Key performance specificationsDC - 100 MHz, Current Probe Amplifier (TCPA300) uses:DC - 100 MHz, 30 A DC (TCP312A)DC - 50 MHz, 50 A DC (TCP305A)DC - 15 MHz, 150 A DC (TCP303)DC - 50 MHz, Current Probe Amplifier (TCPA400) Uses:DC - 2 MHz, 750 A DC 1 (TCP404XL) (500 A DC Continuous)Key featuresAutomatic scaling and units 2 - Oscilloscope on-screen readout of magnitude and amps reduces measurement errors with no more handcalculationsAC/DC input couplingLow insertion impedance reduces device under test loadingSplit-core construction allows easy circuit connectionStatus indicators provide visual operating status and notification of potential error conditions - degauss, probe open, overload, notterminated into 50 Ω, noncompatible probe typeLow DC drift and noise allows improved low-level currentmeasurements3rd party safety certificationApplicationsDevelopment and analysis solutions for designers, installers, and service personnel in telecom, data comm, computer, andsemiconductor power electronics environments for:Power supplies (switching and linear)Semiconductor devices (SCRs, IGBTs, MOSFETs, CMOS, BJTs)Power inverters/convertersElectronic ballastsIndustrial/consumer electronicsMobile communications (phone, satellite, relay stations)Motor drivesTransportation systems (electronic vehicles, electric trains,locomotives, avionics)Meets today's AC/DC current measurement applicationsThe TCPA300 amplifier, when used with TCP312A, TCP305A, or TCP303probes, provides a wide range of current measurement capability and spans the gap between low-level milliamp measurements to very high current levels. These three probes provide current measurement capabilities of 30 A, 50 A, and 150 A DC continuous. For even higher current levels, the TCPA400 amplifier with the TCP404XL current probe measures 500 A DC continuous and 750 A DC continuous, derated with duty cycle.Higher-frequency performance is available with the TCP312A w/TCPA300providing ≥100 MHz bandwidth and a maximum current of 30 A DC.1Derated with duty cycle2Requires a TDS TEKSCOPE oscilloscope or a TekConnect oscilloscope with TCA-BNC adapter 1Provided by:(800)404-ATECAdvanced Test Equipment Corp .®Rentals • Sales • Calibration • ServiceMeasurement errors and manual calculations are now a thing of the pastWith this new series of current measurement tools, automatic control and on-screen scaling and units is provided for users of Tektronix TDS3000, TDS500, TDS600, TDS700, TDS5000, TDS6000, and TDS7000B series oscilloscope systems (the DPO3000, MDO/MSO/DPO4000, MSO/DPO5000, and DPO7000 series oscilloscopes, the TPA-BNC adapter is required).The TCP300/TCP400 current measurement systems seamlessly integrate with your TDS series oscilloscope.Even non-TEKPROBE systems can use the TCPA300/400 series to make proper current measurements by simply multiplying the measured output voltage on the oscilloscope by the TCPA300/400 series range setting.SpecificationsAll specifications are guaranteed unless noted otherwise. All specifications apply to all models unless noted otherwise. Model overviewDatasheet2 CharacteristicsMaximum current ratingsHigh-current sensitivityLow-current sensitivityRange 1 A/V 5 A/V 5 A/V N/A DC (continuous) 5 A 25 A 25 A N/A RMS (sinusoidal) 3.5 A 17.7 A 17.7 A N/A Peak50 A50 A500 AN/APhysical characteristicsAmplifiersProbesMaximum conductor sizeCable length1.5 m (60 in)1.5 m (60 in)2 m (78.7 in)8 m (315 in)EMC environment and safetySafety complianceElectromagnetic compatibility,amplifiers onlyEC Council Directive 89/336/EEC, FCC Part 15, Subpart B Class A, AS/NZS 2064.1/2.AC/DC Current Measurement Systems 3。

ioLogik E1200SeriesEthernet remote I/O with2-port Ethernet switchFeatures and Benefits•User-definable Modbus TCP Slave addressing•Supports RESTful API for IIoT applications•Supports EtherNet/IP Adapter•2-port Ethernet switch for daisy-chain topologies•Saves time and wiring costs with peer-to-peer communications•Active communication with MX-AOPC UA Server•Supports SNMP v1/v2c•Easy mass deployment and configuration with ioSearch utility•Friendly configuration via web browser•Simplifies I/O management with MXIO library for Windows or Linux•Class I Division2,ATEX Zone2certification1•Wide operating temperature models available for-40to75°C(-40to167°F)environmentsCertificationsIntroductionThe ioLogik E1200Series supports the most often-used protocols for retrieving I/O data,making it capable of handling a wide variety of applications.Most IT engineers use SNMP or RESTful API protocols,but OT engineers are more familiar with OT-based protocols,such as Modbus and EtherNet/IP.Moxa's Smart I/O makes it possible for both IT and OT engineers to conveniently retrieve data from the same I/O device.The ioLogik E1200Series speaks six different protocols,including Modbus TCP,EtherNet/IP,and Moxa AOPC for OT engineers,as well as SNMP, RESTful API,and Moxa MXIO library for IT engineers.The ioLogik E1200retrieves I/O data and converts the data to any of these protocols at the same time,allowing you to get your applications connected easily and effortlessly.Daisy-Chained Ethernet I/O ConnectionThis industrial Ethernet remote I/O comes with two switched Ethernet ports to allow for the free flow of information downstream to another local Ethernet device,or upstream to a control server via expandable daisy-chained Ethernet I/O arrays.Applications such as factory automation, security and surveillance systems,and tunneled connections can make use of daisy-chained Ethernet for building multidrop I/O networks over standard Ethernet cables.Many industrial automation users are familiar with multidrop as the configuration most typically used in fieldbus solutions.The daisy-chain capabilities supported by ioLogik Ethernet remote I/O units not only increase the expandability and installation possibilities for your remote I/O applications,but also lower overall costs by reducing the need for separate Ethernet switches.Daisy-chaining devices in this way will also reduce overall labor and cabling expenses.Save Time and Wiring Costs with Peer-to-Peer CommunicationsIn remote automation applications,the control room and sensors areoften far removed,making wiring over long distances a constantchallenge.With peer-to-peer networking,users may now map a pairof ioLogik Series modules so that input values will be directlytransferred to output channels,greatly simplifying the wiring processand reducing wiring costs.User-Definable Modbus TCP Addressing for Painless Upgrading of Existing SystemsFor Modbus devices that are controlled and detected by fixedaddresses,users need to spend a vast amount of time researchingand verifying initial ers need to locate each device’snetworking details,such as I/O channels or vendor-definedaddresses,to enable the initial or start address of a SCADA system orPLC.Devices that support user-definable Modbus TCP addressingoffer greater flexibility and easier setup.Instead of worrying aboutindividual devices,users simply configure the function and addressmap to fit their needs.Push Technology for EventsWhen used with MX-AOPC UA Server,devices can use active pushcommunications when communicating changes in state and/orevents to a SCADA system.Unlike a polling system,when using apush architecture for communications with a SCADA system,messages will only be delivered when changes in state or configuredevents occur,resulting in higher accuracy and lower amounts of datathat need to be transferred.SpecificationsInput/Output InterfaceDigital Input Channels ioLogik E1210Series:16ioLogik E1212/E1213Series:8ioLogik E1214Series:6ioLogik E1242Series:4Digital Output Channels ioLogik E1211Series:16ioLogik E1213Series:4Configurable DIO Channels(by jumper)ioLogik E1212Series:8ioLogik E1213/E1242Series:4Relay Channels ioLogik E1214Series:6Analog Input Channels ioLogik E1240Series:8ioLogik E1242Series:4Analog Output Channels ioLogik E1241Series:4RTD Channels ioLogik E1260Series:6Thermocouple Channels ioLogik E1262Series:8Isolation3k VDC or2k VrmsButtons Reset buttonDigital InputsConnector Screw-fastened Euroblock terminalSensor Type Dry contactWet contact(NPN or PNP)I/O Mode DI or event counterDry Contact On:short to GNDOff:openWet Contact(DI to COM)On:10to30VDCOff:0to3VDCCounter Frequency250HzDigital Filtering Time Interval Software configurablePoints per COM ioLogik E1210/E1212Series:8channelsioLogik E1213Series:12channelsioLogik E1214Series:6channelsioLogik E1242Series:4channelsDigital OutputsConnector Screw-fastened Euroblock terminalI/O Type ioLogik E1211/E1212/E1242Series:SinkioLogik E1213Series:SourceI/O Mode DO or pulse outputCurrent Rating ioLogik E1211/E1212/E1242Series:200mA per channelioLogik E1213Series:500mA per channelPulse Output Frequency500Hz(max.)Over-Current Protection ioLogik E1211/E1212/E1242Series:2.6A per channel@25°CioLogik E1213Series:1.5A per channel@25°COver-Temperature Shutdown175°C(typical),150°C(min.)Over-Voltage Protection35VDCRelaysConnector Screw-fastened Euroblock terminalType Form A(N.O.)power relayI/O Mode Relay or pulse outputPulse Output Frequency0.3Hz at rated load(max.)Contact Current Rating Resistive load:5A@30VDC,250VAC,110VACContact Resistance100milli-ohms(max.)Mechanical Endurance5,000,000operationsElectrical Endurance100,000operations@5A resistive loadBreakdown Voltage500VACInitial Insulation Resistance1,000mega-ohms(min.)@500VDCNote Ambient humidity must be non-condensing and remain between5and95%.The relaysmay malfunction when operating in high condensation environments below0°C. Analog InputsConnector Screw-fastened Euroblock terminalI/O Mode Voltage/CurrentI/O Type DifferentialResolution16bitsInput Range0to10VDC0to20mA4to20mA4to20mA(with burn-out detection)Accuracy ioLogik E1240/E1242:±0.1%FSR@25°C±0.3%FSR@-10to60°CioLogik E1240-T/E1242-T:±0.1%FSR@25°C±0.3%FSR@-10to60°C±0.5%FSR@-40to75°CSampling Rate ioLogik E1240:12samples/sec per module(shared between up to8channels)2ioLogik E1242:12samples/sec per module(shared between up to4channels)2Built-in Resistor for Current Input120ohmsInput Impedance10mega-ohms(min.)Analog OutputsConnector Screw-fastened Euroblock terminalI/O Mode Voltage/CurrentOutput Range0to10VDC4to20mAResolution12-bitAccuracy ioLogik E1241:±0.1%FSR@25°C±0.3%FSR@-10to60°CioLogik E1241-T:±0.1%FSR@25°C±0.3%FSR@-40to75°CVoltage Output Short-Circuit Protection10mAInternal Resistor400ohmsNote:24V of external power required when loading exceeds1000ohmsRTDsConnector Screw-fastened Euroblock terminalSensor Type PT1000(-200to350°C)PT50,PT100,PT200,PT500(-200to850°C)Resistance Type310,620,1250,and2200ohmsInput Connection2-or3-wireSampling Rate ioLogik E1260:12samples/sec per module(shared between up to6channels)3 Resolution0.1°C or0.1ohmsAccuracy ioLogik E1260:±0.1%FSR@25°C±0.3%FSR@-10to60°CioLogik E1260-T:±0.1%FSR@25°C±0.3%FSR@-40to75°CInput Impedance625kilo-ohms(min.)ThermocouplesConnector Screw-fastened Euroblock terminalSensor Type J,K,T,E,R,S,B,NMillivolt Type±19.532mV±39.062mV±78.126mVFault and over-voltage protection:-35to+35VDC(power off);-25to+30VDC(poweron)Resolution16bitsMillivolt Accuracy ioLogik E1262:±0.1%FSR@25°C±0.3%FSR@-10to60°CioLogik E1262-T:±0.1%FSR@25°C±0.3%FSR@-40to75°CTC Accuracy Types J,T,E,S,B:±5°CTypes K,R,N:±8°CCJC Accuracy±0.5°C@25°C±1.5°C@-40to75°CSampling Rate ioLogik E1262:12samples/sec per module(shared between up to8channels)3Input Impedance10mega-ohms(min.)Ethernet Interface10/100BaseT(X)Ports(RJ45connector)2,1MAC address(Ethernet bypass)Magnetic Isolation Protection 1.5kV(built-in)Ethernet Software FeaturesConfiguration Options Web Console(HTTP),Windows Utility(ioSearch),MCC ToolIndustrial Protocols Modbus TCP Server(Slave),Moxa AOPC(Active Tag),MXIO Library,EtherNet/IPAdapterManagement RESTful API,SNMPv1/v2c,SNMPv1Trap,HTTP,DHCP Client,BOOTP,IPv4,TCP/IP,UDPMIB Device Settings MIBSecurity Access control listLED InterfaceLED Indicators Power,Ready,Port1,Port2Modbus TCPFunctions Supported1,2,3,4,5,6,15,16,23Mode Server(Slave)Max.No.of Client Connections10EtherNet/IPMode AdapterMax.No.of Scanner Connections9(for read-only),1(for read/write)Power ParametersPower Connector Screw-fastened Euroblock terminalNo.of Power Inputs1Input Voltage12to36VDCPower Consumption ioLogik E1210Series:110mA@24VDCioLogik E1211Series:200mA@24VDCioLogik E1212Series:155mA@24VDCioLogik E1213Series:130mA@24VDCioLogik E1214Series:188mA@24VDCioLogik E1240Series:121mA@24VDCioLogik E1241Series:194mA@24VDCioLogik E1242Series:139mA@24VDCioLogik E1260Series:110mA@24VDCioLogik E1262Series:118mA@24VDC Physical CharacteristicsHousing PlasticDimensions27.8x124x84mm(1.09x4.88x3.31in) Weight200g(0.44lb)Installation DIN-rail mounting,Wall mountingWiring I/O cable,16to26AWGPower cable,12to24AWGEnvironmental LimitsOperating Temperature Standard Models:-10to60°C(14to140°F)Wide Temp.Models:-40to75°C(-40to167°F) Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Altitude4000m4Standards and CertificationsEMC EN55032/24,EN61000-6-2/-6-4EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:4kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:10V/mIEC61000-4-4EFT:Power:2kV;Signal:1kVIEC61000-4-5Surge:Power:2kV;Signal:1kVIEC61000-4-6CS:10VIEC61000-4-8PFMFHazardous Locations ATEX,Class I Division25Safety UL508Shock IEC60068-2-27Freefall IEC60068-2-32Vibration IEC60068-2-6DeclarationGreen Product RoHS,CRoHS,WEEEMTBFTime ioLogik E1210Series:671,345hrsioLogik E1211Series:923,027hrsioLogik E1212Series:561,930hrsioLogik E1213Series:715,256hrsioLogik E1214Series:808,744hrsioLogik E1240Series:474,053hrsioLogik E1241Series:888,656hrsioLogik E1242Series:502,210hrsioLogik E1260Series:660,260hrsioLogik E1262Series:631,418hrsStandards Telcordia SR332WarrantyWarranty Period ioLogik E1214:2years6ioLogik E1210/E1211/E1212/E1213/E1240/E1241/E1242/E1260/E1262:5years Details See /warrantyPackage ContentsDevice1x ioLogik E1200Series remote I/OInstallation Kit1x terminal block,8-pin,3.81mm1x terminal block,12-pin,3.81mm1x terminal block,3-pin,5.00mmDocumentation1x quick installation guide1x warranty card5.ATEX and Class I Division2currently do not apply to the ioLogik E1213/E1213-T models.DimensionsOrdering InformationModel Name Input/Output Interface Digital Output Type Operating Temp. ioLogik E121016x DI–-10to60°C ioLogik E1210-T16x DI–-40to75°C ioLogik E121116x DO Sink-10to60°C ioLogik E1211-T16x DO Sink-40to75°C ioLogik E12128x DI,8x DIO Sink-10to60°C ioLogik E1212-T8x DI,8x DIO Sink-40to75°C ioLogik E12138x DI,4x DO,4x DIO Source-10to60°C ioLogik E1213-T8x DI,4x DO,4x DIO Source-40to75°C ioLogik E12146x DI,6x Relay–-10to60°C ioLogik E1214-T6x DI,6x Relay–-40to75°C ioLogik E12408x AI–-10to60°C ioLogik E1240-T8x AI–-40to75°C ioLogik E12414x AO–-10to60°C ioLogik E1241-T4x AO–-40to75°C ioLogik E12424DI,4x DIO,4x AI Sink-10to60°C ioLogik E1242-T4DI,4x DIO,4x AI Sink-40to75°C ioLogik E12606x RTD–-10to60°C ioLogik E1260-T6x RTD–-40to75°C ioLogik E12628x TC–-10to60°C ioLogik E1262-T8x TC–-40to75°CAccessories(sold separately)SoftwareMX-AOPC UA Server OPC UA Server software for converting fieldbus to the OPC UA standard©Moxa Inc.All rights reserved.Updated May23,2021.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.。

Easy Start364 (3 ton) Soft Starter368 (6 ton) Soft StarterInstallation ManualMicro Air Corporation Phone (609) 259-2636 124 Route 526. Allentown NJ 08501 Fax (609) 259-6601Retrofit Instructions1.Read and understand these instructions completely before proceeding.2.Improper wiring can result in damage to EasyStart or connected components including but not limited towiring, compressors, and capacitors. Micro Air Corp is not responsible for damages to any of theaforementioned equipment caused by improper wiring.3.Turn off the breaker for the compressor’s electrical system.4.Consult the manufacture’s installation manual and wiring diagram for the identification of the following:a.Start capacitor (typically in a plastic can), start relay, or compressor start device. Note that thesedevices may NOT be installed on some systems.b.Run capacitor (typically in a metal can). Most have 2, multi-point terminal connections (orclusters). Some have 3 terminal connections.c.Control board switched-L1 output or main contactor compressor L1 output connecting to thecompressor common terminal (C) wire. Note some systems utilize a contactor to switch power tothe compressor, other use a power relay integrated into the main control board.5.If the system utilizes a start capacitor with a start relay, or a start assist device, disconnect all the wiringconnected to the start capacitor or the start assist and remove them from the electric box. Be aware thatsome connections to the compressor (e.g. compressor common L1 and compressor Run L2) may havejunction connections at terminals of the start relay. Therefore, it is best to NOT remove the start relayunless you are able to trace out these wiring junctions and splice them. Disconnecting and removing only the start capacitor from a system with a start cap and start relay will effectively disable the start relay, thus eliminating the need for it being removed.6.Locate the compressor run capacitor. Locate the wire connected from the run capacitor to the compressorrun winding terminal (R), and disconnect it from the run capacitor. Connect (splice) the brown wire from EasyStart to the disconnected wire.7.Connect the white wire from EasyStart to the same terminal of the run capacitor from which youdisconnected the (white) run winding (R) wire in step 6 above.8.Connect the orange wire from EasyStart to the terminal on the run capacitor that connects to thecompressor start winding terminal (S). If the run capacitor is a dual, compressor/fan type, make sure tochoose the correct capacitor terminal, typically labeled “COMP”, “C”, Herm, or “H”.9.Connect the black wire from EasyStart to the switched-L1 connection emanating from the main controlboard or main contactor that typically has a black or purple wire that connects to the compressor common(C) terminal wire.10.Wiring is now complete. Remove any remaining unused or disconnected wires and close all open electricalboxes and panels.11.Securely mount the EasyStart using the four holes provided on the mounting flange, locating it close to theoriginal system electric box (limited by wire harness length).12.Turn on the system circuit breaker using shore power. Start a heating or cooling cycle with the thermostat.13.EasyStart will now learn the characteristics of the compressor for the next five starts. This operation will bedone during normal operation and does not require any intervention or special actions. Once the learning process is completed, the EasyStart can be operated on either shore or generator power. During the learning starts, be sure to allow enough off time between starts for pressures to equalize. Equalization occurs in most systems within five minutes so we advise waiting at least five minutes between starts.IMPORTANT INSTALLATION NOTE FOR CRUISAIR® MARINE CUSTOMERS ONLY: When installing EasyStart into 230V SMX control applications that use the triac to switch power to the compressor, it is necessary to replace the triac with a relay. If the triac is not replaced, the pump relay triggers may suffer damage and ultimately fail. Please notr that this is not required for 115V SMX applications and the triac is still safe to use. See the Microair Webstore or contact Microair for details on the appropriate relay.Example EasyStart Installation Wiring Diagram:Jumper Usage:A six pin diagnostic header is located inside the EasyStart box. Most installations will not need to access this header.Jumpers may be placed on JP1 for certain special functions. Place jumpers only asshown below.Normal:Most operation should be done without a jumper installed on JP1 or with the jumperinstalled across pins 3 and 4 as shown.Default:A compressor may be operated with a factory defined start characteristic. This maynot be the optimal start for the connected compressor and is generally used for factorydiagnostics. No optimization is done with this setting.Relearn:If a compressor, start capacitor, or run capacitor is replaced, place a jumper onpins 4 and 6 as shown. Cycle power on then off again and replace the jumper in the “Normal”position. Follow step 13 of the retrofit instructions to complete the relearn process.Disable:This setting disables the microprocessor on the board so no operation can occur. Anti-Short Cycle Timer:EasyStart models incorporate a timer that prevents immediate restarts.This feature was added to prevent overheating of the start capacitor and reducefaults due to un-equalized pressures in the system. Restart will take up to 5minutes if power is removed then reapplied.Later models include a wire jumper JP2 (see picture on right) that canbe cut to eliminate this feature. System controls must be sufficient to prevent short cycling if this jumper is cut. Warning: Starts must be limited to 1 start every 5 minutes with pressures equalized if JP2 is cut.EasyStart Troubleshooting:Wiring Evaluation:A ll start components from the original installation are removed including PTC’s and startcapacitors.The Brown wire from EasyStart connects directly to the compressor run winding.The Black wire from EasyStart is spliced to the thermostat relay feeding the compressor overloadprotector on the compressor common terminal.The Orange wire from EasyStart is connected to the compressor run capacitor on the same side asthe compressor start winding.The White wire from EasyStart is connected to the AC-L2 or AC-N side of the compressor runcapacitor.Trouble Lights:Three diagnostic lights are provided inside the EasyStart box on the printed circuit board. These lights are labeled in white silkscreened letters next to the light. When a fault is detected, EasyStart willilluminate one or more lights to indicate which fault occurred. All faults except over current will reset after3 minutes. Over current is reset by removing power from EasyStart and reapplying power. Users will notnormally need to view these lights. The chard below defines the lights that are turned on for each fault.Fuses:Protection fuses are installed in the start circuit to prevent damage due to miswiring or start capacitorfailure. If this fuse fails in normal operation, there is most likely a problem with the start capacitor which should be replaced along with the fuse.364 (3 ton)1.Revision H and earlier boards: These boards incorporate a non-replaceable fuse inthe start circuit. These units must be returned to Microair for repair.2.Revision I and above boards: These boards incorporate a replaceable 15A 250Vrated, slow blow, 5mm x 20mm glass fuse.368 (6 ton)1.Revision E and earlier boards: These boards incorporate a non-replaceable fuse inthe start circuit. These units must be returned to Microair for repair.2.Revision F and above boards: These boards incorporate a replaceable 30A 250VACrated 3AB, 3AG, ¼” x 1 ¼” (6.35mm x 31.75mm) slow blow ceramic fuse.FAQ:What is re-learning?The re-learning process simply clears the EasyStart memory and returns it to as shipped condition. EasyStart should be re-learned whenever a compressor is changed or if pressures were not allowed to equalize during the learning process.To re-learn EasyStart, remove power and open the EasyStart box. Locate the 6 pin header shown in the jumper usage section of this manual and place the shorting jumper over pins 4 and 6 as shown. Start a cycle with your thermostat with the compressor powered from AC mains and allow EasyStart to start the compressor. Remove power once the compressor starts and replace the jumper to the stored position over pins 3 and 4. Replace the cover on EasyStart and complete at least 4 additional starts. Be sure to allow time for pressures to equalize between starts, usually 3 to 5 minutes.Be sure to remove the jumper from pins 4 and 6 and replace it to pins 3 and 4 immediately after the FIRST start and after power is removed.I connected everything and it just won’t start. What do I do now?First, do the wiring evaluation in this section. Wiring should be exactly as shown in the sample diagram with no left over start components. If there are any questions about wiring your unit, you can send a wiring diagram for your compressor to **************** along with your question.Be sure you are only using regular AC line power and not a generator or inverter for the first five starts. The first starts on EasyStart are usually higher than the final start and can overload marginal supplies and prevent EasyStart from learning the best start for your compressor.Check for any trouble lights. If any are illuminated, identify the reason EasyStart is not starting your compressor. Most times trouble lights point to a problem with the wiring.What does a “S talled” indication from EasyStart mean?Stalled means EasyStart is not seeing the condition where it can declare that the compressor is running and connect the compressor directly. The first thing to do is the wiring evaluation above.Stalled can also be caused by an improperly sized or bad start capacitor. 3T systems with 220 volt 12K BTU and smaller compressors may require smaller value start capacitors. Contact Microair prior to purchase to determine requirements for these systems.What d oes “Power Interruption” mean?Power was lost for several AC cycles of power and EasyStart shut down. Compressors will stall after only a few lost cycles creating a huge load when power is restored. EasyStart prevents this excessive load by preventing operation for 3 minutes. EasyStart will restart the compressor following this delay.We have found that some power conditioning equipment uses relays to switch taps on a transformer may switch too slowly to properly run a compressor.What does “Start winding not detected-EasyStart is miswired” mean?One of the following:The orange wire is not connected to the start winding.The Compressor Start winding is open.Line L2 is connected to the compressor start winding.COPYRIGHT© 2017 Micro Air Corporation, All Rights ReservedNo part of this publication may be reproduced, translated, stored in a retrieval system, or transmitted in any form or by any means electronic, mechanical, photocopying, recording or otherwise without prior written consent by Micro Air Corporation.Every precaution has been taken in the preparation of this manual to insure its accuracy. However, Micro Air Corporation assumes no responsibility for errors and omissions. Neither is any liability assumed nor implied for damages resulting from the use or misuse of this product and information contained herein.。