TCC4100 Industrial Switches with M12 Connectors
Total-Fanless Industrial L2&L3 Managed Ethernet Switch, 4 100/1000BaseX SFP Ports and 12 M12 A-Code 10/100/1000BaseT Ports.
Description
- Introduction
- Features and Benefits
- Technical Specifications
- Dimensions
- Ordering Information
- Accessories
-
- Commodity name: TCC4100 Industrial Switches with M12 Connectors
- Commodity ID: 1465728380421427200
TCC4100 Industrial Switches with M12 Connectors are specially designed for rail transit applications and compliant with EN50155/50121 standards.The TX ports employ M12 to ensure the tightness while vibration and impact.The backplane bandwidth is up to 52Gbps.Any two ports can establish a self-recovery ring,meanwhile,TCC4100 Industrial Switches with M12 Connectors supports multiple independent self-recovery rings. Possible ring networks including double optical fibers,single optical fiber, twisted-pair line or any combination of them.With hardware-based algorithm, MRD-Ring®(MRDcom Real-Time Ring)technology ensures less than 5ms self-recovery time of every node and less than 50ms self-recovery time of the network.TCC4100 Industrial Switches with M12 Connectors also supports MRD-Ring® Media Redundancy Protocol(compliant with IEC62439) and PRP/HSR (compliant with IEC62439).
TCC4100 Industrial Switches with M12 Connectors utilize FPGA and CPLD dynamic reconfiguration and replicate programming technology for high stability and reliability,various key operating parameters can be monitored locally and remotely.Advanced solution,extended industrial design,and patented technologies make TCC4100-EN50155 one of the top choices for harsh industrial environments.
-
● Linear switches with high performance and flexible configuration
● Robust connectors:M12
● Support MRD-Ring® network redundancy for<50 ms recovery time
● Support Media Redundancy Protocol(compliant with IEC62439)
● Any two ports can establish a self-recovery ring and support multiple independent self-recovery rings
● Support Dying gasp function and initiatively report power-down state through SNMP protocol
● Support MODBUS/UDP/SNMP remote monitoring and various mainstream OPC software
● Built-in unified MicOS real-time operating systems for all MRD™ switches
● Dual redundant power inputs design
● Fanless,-40 to 85°C wide operating temperature range
● MTBF>600,000 hours
The parameters here are only intended as a reference. For more details, please refer to our datasheets.
-
● IEEE 802.3 CSMA/CD method and physical layer specifications
● IEEE 802.1p Priority Queuing
● IEEE 802.1q VLAN tagging
● IEEE 802.1d Spanning Tree Algorithm
● IEEE 802.1w Rapid Spanning Tree
● IEEE 802.1s Multiple Spanning Tree
● IEEE 802.3ac VLAN Tagging
● IEEE 802.1x Authentication
● IEEE 802.3ad Link Aggregation
● IEEE 802.3x Flow Control
● IEEE 802.3 Ethernet
● IEEE 802.3u Fast Ethernet
● IEEE 802.3z Gigabit Ethernet
● RFC 768 UDP
● RFC 791 IP
● RFC 792 ICMP
● RFC 793 TCP
● RFC 826 ARP
● RFC 854 Telnet Client & Server
● RFC 904 Exterior Gateway Protocol Formal Specification
● RFC 1027 Using ARP to Implement Transparent Subnet Gateways
● RFC 1058 RIP
● RFC 1059,1119 NTPv1/2
● RFC 1112 IGMP
● RFC 1191 Path MTU Discovery
● RFC 1256 ICMP Router discovery protocol ICMP
● RFC 1267 A Border Gateway Protocol 3(BGP‐3)
● RFC 1388 RIP Version2 Carrying Additional Information
● RFC 1519 CIDR(Classless Inter‐domain Rout‐ing)
● RFC 1587 OSPF NSSA
● RFC 1812 Requirements for IP Version 4 Routers
● RFC 1994 PPP Challenge Handshake Authentication Protocol(CHAP)
● RFC 2068 HTTP
● RFC 213 DHCP Server
● RFC 2138 RADIUS
● RFC 2139 RADIUS Accounting
● RFC 2236 IGMP v2
● RFC 2328 OSPF V2
● RFC 2338 VRRP
● RFC 2474 DiffServ Precedence
● RFC 2475 DiffServ Core and Edge Router Func‐tions
● RFC 2597 DiffServ Assured Forwarding
● RFC 2598 DiffServ Expedited Forwarding
● RFC 2644 Directed Broadcasts
● RFC 3046 DHCP Relay Agent Information Op‐tion
● RFC 3222 Forwarding Information Base(FIB)
● GMRP GARP
● GVRP GARP
● SSH2 Secure Shell 2
● IGMP snooping
● SNMPv1/v2/v3
Software Functions Management Mode: Web, serial port, STD-17 MIB-II, STD-58 SMIv2, STD-59 RMON, STD-62 SNMPv3, SNMPv2c, SNMPv1, RFC2925 Ping MIB, MRD Private MIBs Diagnosis Mode: Indicator light, journal file, relay, RMON, port mirroring, TRAP Redundancy: MRD-Ring®, MSTP, RSTP, port trunking Time Synchronization: SNTP Others: 4K VLANS, IPv4/IPv6 multi-cast, storm control, MC/BC protection, support Jumbo Frame Physical Performance MTBF: > 600,000 hours Storage Temperature: -40℃~85℃ Operating Temperature: -40℃~85℃ Ambient Relative Humidity: 5%~95%(non-condensing) Dimensions(WxHxD): 130mmx140mmx110mm Protection Grade: IP40 Weight: 1.3KG(Max) Power Consumption: 20.5W(Max) Mechanical Characteristics Vibration: IEC 60068-2-6 Shock: IEC 60068-2-27 Freefall: IEC 60068-2-31 Circuit Board: Approved by IPC Electromagnetic Characteristics EMI: FCC 47 CFR Part 15 Class A EN55022 Class A EMS: IEC(EN)61000-4-2,Class 4 IEC(EN)61000-4-3,Class 4 IEC(EN)61000-4-4,Class 4 IEC(EN)61000-4-5,Class 4 IEC(EN)61000-4-6,Class 4 IEC(EN)61000-4-9,Class 4 Industrial Certification and Testing Product Safety: CE IEC/EN60950-1 FCC Part 15 Subpart B Class A IEC/EN55022 Class A Hazardous Area: UL121201(pending) Transportation Industry: JT/T817‐2011 Rail Industry: EN50155;EN61373;EN50121 Power Industry: IEC61850-3 IEEE1613(C37.90.x) Industrial Control Industry: UL/cUL61010 Shipbuilding Industry: DNV‐GL(pending) The parameters here are only intended as a reference. For more details, please refer to our datasheets.
-
The parameters here are only intended as a reference. For more details, please refer to our datasheets.
-
For more product related please view product white paper or callconsultation.
-
For more product related please view product white paper or callconsultation.
TCC4100 Industrial Switches with M12 Connectors are specially designed for rail transit applications and compliant with EN50155/50121 standards.The TX ports employ M12 to ensure the tightness while vibration and impact.The backplane bandwidth is up to 52Gbps.Any two ports can establish a self-recovery ring,meanwhile,TCC4100 Industrial Switches with M12 Connectors supports multiple independent self-recovery rings. Possible ring networks including double optical fibers,single optical fiber, twisted-pair line or any combination of them.With hardware-based algorithm, MRD-Ring®(MRDcom Real-Time Ring)technology ensures less than 5ms self-recovery time of every node and less than 50ms self-recovery time of the network.TCC4100 Industrial Switches with M12 Connectors also supports MRD-Ring® Media Redundancy Protocol(compliant with IEC62439) and PRP/HSR (compliant with IEC62439).
TCC4100 Industrial Switches with M12 Connectors utilize FPGA and CPLD dynamic reconfiguration and replicate programming technology for high stability and reliability,various key operating parameters can be monitored locally and remotely.Advanced solution,extended industrial design,and patented technologies make TCC4100-EN50155 one of the top choices for harsh industrial environments.
Previous page
Next page
Previous page
Next page
Hotline:86-21-58330762
Postal code: 201203
Email:sales@mrdcom.net
Address: No. 123 Juri Road, China (Shanghai) Pilot Free Trade Zone
Follow the WeChat official account