摩西雅奈第三代高端存储介绍
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PT-G503SeriesIEC61850-3/62439-33-port full Gigabit managed redundancyboxesFeatures and Benefits•IEC61850-3,IEEE1613(power substations)compliant•IEC62439-3Clause4(PRP)and Clause5(HSR)compliant•PRP/HSR Coupling and QuadBox functions supported•Ethernet console reserved for local access•Built-in MMS server based on IEC61850-90-4switch data modeling forpower SCADA•Hardware-based IEEE1588v2PTP supported•Design ready for NERC CIP compliant system development•Isolated redundant power inputs with universal24VDC,48VDC,or110/220VDC/VAC power supply range•-40to85°C operating temperature rangeCertificationsIntroductionThe PT-G503-PHR-PTP Series redundancy boxes(RedBoxes)are compliant with the latest standardized redundancy protocols for industrial automation networks,IEC62439-3Clause4(Parallel Redundancy Protocol,PRP)and IEC62439-3Clause5(High-availability Seamless Redundancy,HSR).PRP/HSR ensures the highest system availability and data integrity for mission-critical applications in electrical substation and/or process automation systems that require zero recovery time redundancy.The redundant protocols Coupling and QuadBox are also supported.With Coupling and QuadBox,HSR rings can be connected to make the redundant network more versatile.The PT-G503-PHR-PTP Series comes with three10/100/1000BaseT(X)and100/1000BaseSFP slot combo ports.One slot(INTERLINK port)is for an internal link for connecting with a SAN(Singly Attached Node).The other two ports(LAN A and LAN B ports)are for PRP/HSR redundant protocol communications.With this full Gigabit Ethernet port design,the PT-G503-PHR-PTP Series provides high performance for PRP/HSR systems.The PT-G503-PHR-PTP Series also provides IEEE1588v2PTP in end-to-end one-step transparent clock mode for timing-critical applications and isolated redundant power inputs with24/48VDC or110/220VDC/VAC power supply ranges to increase the reliability of the power supply. Additional Features and Benefits•PRP(Parallel Redundancy Protocol):Transmit or receive two independent active paths to/from different LANs simultaneously on a zero recovery time network•HSR(High-availability Seamless Redundancy):Every frame is duplicated and then transmitted in both directions of the HSR ring to deliver zero switchover time•PRP/HSR coupling:Supports coupling from an HSR ring node to redundant PRP LANs(Up to7PRP LANs)•QuadBox function:Supports peer coupling of rings via interconnecting two INTERLINK ports on two separate RedBoxes •Fiber Check™provides monitoring and diagnosis functionality on SFP fiber ports•Hardware-based IEEE1588v2PTP(Precision Time Protocol)end-to-end one-step transparent clock for precise time synchronization of networks•Automatic warning by exception through email and relay output •Configurable via web browser,CLI,Windows utility,and ABC-02 automatic backup configuratorSpecificationsEthernet Interface3Combo Ports(10/100/1000BaseT(X)or100/1000BaseSFP+)Console Port Ethernet console(10/100/1000Mbps RJ45)Standards IEEE802.3for10BaseTIEEE802.3ab for1000BaseT(X)IEEE802.3u for100BaseT(X)and100BaseFXIEEE802.3z for1000BaseSX/LX/LHX/ZXEthernet Software FeaturesFilter Static MulticastIndustrial Protocols Modbus TCPManagement Back Pressure Flow Control,BOOTP,DHCP Client,Fiber check,Flow control,HTTP,IPv4/IPv6,LLDP,Port Mirror,RARP,RMON,SMTP,SNMP Inform,SNMPv1/v2c/v3,Syslog,TelnetPower Substation MMSRedundancy Protocols HSR,PRP,RSTP groupingSecurity HTTPS/SSL,TACACS+,RADIUS,SSH,Trust access controlTime Management NTP Server/Client,SNTP,IEEE1588v2PTP(hardware-based)MIB IEC62439-3MIBUSB InterfaceStorage Port USB Type ASerial InterfaceConsole Port USB-serial console(Type B connector)Input/Output InterfaceAlarm Contact Channels Resistive load:1A@24VDCDigital Inputs+13to+30V for state1-30to+3V for state0Max.input current:8mAPower ParametersInput Voltage PT-G503-PHR-PTP-HV:Redundant dual inputs110/220VAC/VDC(85to264VAC,88to300VDC)PT-G503-PHR-PTP-WV:Redundant dual inputs24/48VDC(18to72VDC)Overload Current Protection SupportedReverse Polarity Protection SupportedInput Current PT-G503-PHR-PTP-HV:0.260/0.170A@110/220VACPT-G503-PHR-PTP-HV:0.150/0.080A@110/220VDCPT-G503-PHR-PTP-WV:0.660/0.360A@24/48VDCPower Connector1removable5-contact terminal block(s)Physical CharacteristicsHousing AluminumIP Rating IP40Dimensions(without ears)80x160x110mm(3.15x6.30x4.33in)Weight1210g(2.69lb)Installation DIN-rail mountingEnvironmental LimitsOperating Temperature-40to85°C(-40to185°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsSafety UL508EMI EN55032Class A,CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:8kV;Air:15kVIEC61000-4-3RS:80MHz to1GHz:35V/mIEC61000-4-4EFT:Power:4kV;Signal:4kVIEC61000-4-5Surge:Power:4kV;Signal:4kVIEC61000-4-6CS:10VIEC61000-4-8PFMFIEC61000-4-11DIPsPower Substation IEC61850-3,IEEE1613Railway EN50121-4MTBFTime PT-G503-PHR-PTP-HV:566,844hrsPT-G503-PHR-PTP-WV:440,857hrsStandards Telcordia(Bellcore)Standard TR/SRWarrantyWarranty Period5yearsDetails See /warrantyPackage ContentsDevice1x PT-G503Series switchCable1x USB type A male to USB type B maleInstallation Kit1x DIN-rail kit1x cap,for type A USB port4x cap,plastic,for RJ45port1x cap,plastic,for console port3x cap,plastic,for SFP slotDocumentation1x document and software CD1x quick installation guide1x warranty card1x product certificates of quality inspection,Simplified Chinese1x product notice,Simplified ChineseNote SFP modules need to be purchased separately for use with this product.DimensionsOrdering InformationModel Name Max.No.of Ports Max.No.of GigabitPortsCombo Ports10/100/1000BaseT(X)or100/1000BaseSFPInput Voltage Operating Temp.PT-G503-PHR-PTP-WV33324/48VDC-45to85°C PT-G503-PHR-PTP-HV333110/220VDC/VAC-45to85°CAccessories(sold separately)SoftwareMXview Industrial network management software designed for converged automation networksSFP ModulesSFP-1FELLC-T SFP module with1100Base single-mode with LC connector for80km transmission,-40to85°Coperating temperatureSFP-1FEMLC-T SFP module with1100Base multi-mode with LC connector for4km transmission,-40to85°Coperating temperatureSFP-1FESLC-T SFP module with1100Base single-mode with LC connector for40km transmission,-40to85°Coperating temperatureSFP-1G10ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G10ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G10BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G10BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for10km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1G20ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G20ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G20BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G20BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for20km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1G40ALC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1310nm,RX1550nm,0to60°C operating temperatureSFP-1G40ALC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1310nm,RX1550nm,-40to85°C operating temperatureSFP-1G40BLC WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1550nm,RX1310nm,0to60°C operating temperatureSFP-1G40BLC-T WDM-type(BiDi)SFP module with11000BaseSFP port with LC connector for40km transmission;TX1550nm,RX1310nm,-40to85°C operating temperatureSFP-1GEZXLC SFP module with11000BaseEZX port with LC connector for110km transmission,0to60°C operatingtemperatureSFP-1GEZXLC-120SFP module with11000BaseEZX port with LC connector for120km transmission,0to60°C operatingtemperatureSFP-1GLHLC SFP module with11000BaseLH port with LC connector for30km transmission,0to60°C operatingtemperatureSFP-1GLHLC-T SFP module with11000BaseLH port with LC connector for30km transmission,-40to85°C operatingtemperatureSFP-1GLHXLC SFP module with11000BaseLHX port with LC connector for40km transmission,0to60°C operatingtemperatureSFP-1GLHXLC-T SFP module with11000BaseLHX port with LC connector for40km transmission,-40to85°Coperating temperatureSFP-1GLSXLC SFP module with11000BaseLSX port with LC connector for500m transmission,0to60°C operatingtemperatureSFP-1GLSXLC-T SFP module with11000BaseLSX port with LC connector for500m transmission,-40to85°Coperating temperatureSFP-1GLXLC SFP module with11000BaseLX port with LC connector for10km transmission,0to60°C operatingtemperatureSFP-1GLXLC-T SFP module with11000BaseLX port with LC connector for10km transmission,-40to85°C operatingtemperatureSFP-1GSXLC SFP module with11000BaseSX port with LC connector for300/550m transmission,0to60°Coperating temperatureSFP-1GSXLC-T SFP module with11000BaseSX port with LC connector for300/550m transmission,-40to85°Coperating temperatureSFP-1GZXLC SFP module with11000BaseZX port with LC connector for80km transmission,0to60°C operatingtemperatureSFP-1GZXLC-T SFP module with11000BaseZX port with LC connector for80km transmission,-40to85°C operatingtemperature©Moxa Inc.All rights reserved.Updated Nov12,2018.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.。
Interleaved Die (Multi-LUN) OperationsIn devices that have more than one die (LUN) per target, it is possible to improve per-formance by interleaving operations between the die (LUNs). An interleaved die (multi-LUN) operation is one that individual die (LUNs) involved may be in any combination of busy or ready status during operations.Interleaved die (multi-LUN) operations are prohibited following RESET (FFh, FCh),identification (90h, ECh, EDh), and configuration (EEh, EFh) operations until ARDY =1for all of the die (LUNs) on the target.During an interleaved die (multi-LUN) operation, there are two methods to determine operation completion. The R/B# signal indicates when all of the die (LUNs) have finish-ed their operations. R/B# remains LOW while any die (LUN) is busy. When R/B# goes HIGH, all of the die (LUNs) are idle and the operations are complete. Alternatively, the READ STATUS ENHANCED (78h) command can report the status of each die (LUN) in-dividually.If a die (LUN) is performing a cache operation, like PROGRAM PAGE CACHE (80h-15h),then the die (LUN) is able to accept the data for another cache operation when status register bit 6 is 1. All operations, including cache operations, are complete on a die when status register bit 5 is 1.Use the READ STATUS ENHANCED (78h) command to monitor status for the addressed die (LUN). When multi-plane commands are used with interleaved die (multi-LUN) op-erations, the multi-plane commands must also meet the requirements, see Multi-Plane Operations for details. After the READ STATUS ENHANCED (78h) command has been issued, the READ STATUS (70h) command may be issued for the previously addressed die (LUN).See Command Definitions for the list of commands that can be issued while other die (LUNs) are busy.During an interleaved die (multi-LUN) operation that involves a PROGRAM-series (80h-10h, 80h-15h, 80h-11h) operation and a READ operation, the PROGRAM-series operation must be issued before the READ-series operation. The data from the READ-series operation must be output to the host before the next PROGRAM-series operation is issued. This is because the 80h command clears the cache register contents of all cache registers on all planes.When issuing combinations of commands to multiple die (LUNs) (e.g. Reads to one die (LUN) and Programs to another die (LUN)) or Reads to one die (LUN) and Reads to an-other die (LUN)), the host shall issue the READ STATUS ENHANCED (78h) command before reading data from any LUN. This ensures that only the LUN selected by theREAD STATUS ENHANCED (78h) command responds to a data output cycle after being put into data output mode, and thus avoiding bus contention. After the READ STATUS ENHANCED (78h) command is issued to the selected die (LUN) a CHANGE READ COL-UMN (05h-E0h) or CHANGE READ COLUMN ENHANCED (06h-E0h) command shall be issued prior to any data output from the selected die (LUN).32Gb, 64Gb, 128Gb, 256Gb Asynchronous/Synchronous NAND Interleaved Die (Multi-LUN) OperationsIf the SYNCHRONOUS RESET (FCh) command is issued while in the OTP operation mode, the target will exit OTP operation mode and the synchronous interface remains active.Table 15: OTP Area DetailsPROGRAM OTP PAGE (80h-10h)The PROGRAM OTP PAGE (80h-10h) command is used to write data to the pages within the OTP area. To program data in the OTP area, the target must be in OTP operation mode.To use the PROGRAM OTP PAGE (80h-10h) command, issue the 80h command. Issue five address cycles including the column address, the page address within the OTP page range, and a block address of 0. Next, write the data to the cache register using data in-put cycles. After data input is complete, issue the 10h command.R/B# goes LOW for the duration of the array programming time, t PROG. The READ STA-TUS (70h) command is the only valid command for reading status in OTP operation mode. The RDY bit of the status register will reflect the state of R/B#. Use of the READ STATUS ENHANCED (78h) command is prohibited.When the target is ready, read the FAIL bit of the status register to determine whether the operation passed or failed (see Status Operations).The PROGRAM OTP PAGE (80h-10h) command also accepts the CHANGE WRITE COL-UMN (85h) command during data input.If a PROGRAM PAGE command is issued to the OTP area after the area has been protec-ted, then R/B# goes LOW for t OBSY. After t OBSY, the status register is set to 60h.Figure 72: PROGRAM OTP PAGE (80h-10h) OperationDQ[7:0]R/B#32Gb, 64Gb, 128Gb, 256Gb Asynchronous/Synchronous NAND One-Time Programmable (OTP) OperationsTable 20: Output Drive Strength Impedance Values (V CCQ = 2.7–3.6V) (Contin-ued)Table 21: Pull-Up and Pull-Down Output Impedance MismatchNotes: 1.Mismatch is the absolute value between pull-up and pull-down impedances. Both aremeasured at the same temperature and voltage.2.Test conditions: V CCQ = V CCQ (MIN), V OUT = V CCQ × 0.5, T A = T OPER .32Gb, 64Gb, 128Gb, 256Gb Asynchronous/Synchronous NAND Output Drive Impedance。
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